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|
/* $OpenBSD: ips.c,v 1.136 2024/05/24 06:02:57 jsg Exp $ */
/*
* Copyright (c) 2006, 2007, 2009 Alexander Yurchenko <grange@openbsd.org>
*
* 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.
*/
/*
* IBM (Adaptec) ServeRAID controllers driver.
*/
#include "bio.h"
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/device.h>
#include <sys/ioctl.h>
#include <sys/malloc.h>
#include <sys/sensors.h>
#include <sys/timeout.h>
#include <sys/queue.h>
#include <machine/bus.h>
#include <scsi/scsi_all.h>
#include <scsi/scsi_disk.h>
#include <scsi/scsiconf.h>
#include <dev/biovar.h>
#include <dev/pci/pcidevs.h>
#include <dev/pci/pcireg.h>
#include <dev/pci/pcivar.h>
/* Debug levels */
#define IPS_D_ERR 0x0001 /* errors */
#define IPS_D_INFO 0x0002 /* information */
#define IPS_D_XFER 0x0004 /* transfers */
#ifdef IPS_DEBUG
#define DPRINTF(a, b) do { if (ips_debug & (a)) printf b; } while (0)
int ips_debug = IPS_D_ERR;
#else
#define DPRINTF(a, b)
#endif
#define IPS_MAXDRIVES 8
#define IPS_MAXCHANS 4
#define IPS_MAXTARGETS 16
#define IPS_MAXCHUNKS 16
#define IPS_MAXCMDS 128
#define IPS_MAXSGS 16
#define IPS_MAXCDB 12
#define IPS_SECSZ 512
#define IPS_NVRAMPGSZ 128
#define IPS_SQSZ (IPS_MAXCMDS * sizeof(u_int32_t))
#define IPS_TIMEOUT 60000 /* ms */
/* Command codes */
#define IPS_CMD_READ 0x02
#define IPS_CMD_WRITE 0x03
#define IPS_CMD_DCDB 0x04
#define IPS_CMD_GETADAPTERINFO 0x05
#define IPS_CMD_FLUSH 0x0a
#define IPS_CMD_REBUILDSTATUS 0x0c
#define IPS_CMD_SETSTATE 0x10
#define IPS_CMD_REBUILD 0x16
#define IPS_CMD_ERRORTABLE 0x17
#define IPS_CMD_GETDRIVEINFO 0x19
#define IPS_CMD_RESETCHAN 0x1a
#define IPS_CMD_DOWNLOAD 0x20
#define IPS_CMD_RWBIOSFW 0x22
#define IPS_CMD_READCONF 0x38
#define IPS_CMD_GETSUBSYS 0x40
#define IPS_CMD_CONFIGSYNC 0x58
#define IPS_CMD_READ_SG 0x82
#define IPS_CMD_WRITE_SG 0x83
#define IPS_CMD_DCDB_SG 0x84
#define IPS_CMD_EDCDB 0x95
#define IPS_CMD_EDCDB_SG 0x96
#define IPS_CMD_RWNVRAMPAGE 0xbc
#define IPS_CMD_GETVERINFO 0xc6
#define IPS_CMD_FFDC 0xd7
#define IPS_CMD_SG 0x80
#define IPS_CMD_RWNVRAM 0xbc
/* DCDB attributes */
#define IPS_DCDB_DATAIN 0x01 /* data input */
#define IPS_DCDB_DATAOUT 0x02 /* data output */
#define IPS_DCDB_XFER64K 0x08 /* 64K transfer */
#define IPS_DCDB_TIMO10 0x10 /* 10 secs timeout */
#define IPS_DCDB_TIMO60 0x20 /* 60 secs timeout */
#define IPS_DCDB_TIMO20M 0x30 /* 20 mins timeout */
#define IPS_DCDB_NOAUTOREQSEN 0x40 /* no auto request sense */
#define IPS_DCDB_DISCON 0x80 /* disconnect allowed */
/* Register definitions */
#define IPS_REG_HIS 0x08 /* host interrupt status */
#define IPS_REG_HIS_SCE 0x01 /* status channel enqueue */
#define IPS_REG_HIS_EN 0x80 /* enable interrupts */
#define IPS_REG_CCSA 0x10 /* command channel system address */
#define IPS_REG_CCC 0x14 /* command channel control */
#define IPS_REG_CCC_SEM 0x0008 /* semaphore */
#define IPS_REG_CCC_START 0x101a /* start command */
#define IPS_REG_SQH 0x20 /* status queue head */
#define IPS_REG_SQT 0x24 /* status queue tail */
#define IPS_REG_SQE 0x28 /* status queue end */
#define IPS_REG_SQS 0x2c /* status queue start */
#define IPS_REG_OIS 0x30 /* outbound interrupt status */
#define IPS_REG_OIS_PEND 0x0008 /* interrupt is pending */
#define IPS_REG_OIM 0x34 /* outbound interrupt mask */
#define IPS_REG_OIM_DS 0x0008 /* disable interrupts */
#define IPS_REG_IQP 0x40 /* inbound queue port */
#define IPS_REG_OQP 0x44 /* outbound queue port */
/* Status word fields */
#define IPS_STAT_ID(x) (((x) >> 8) & 0xff) /* command id */
#define IPS_STAT_BASIC(x) (((x) >> 16) & 0xff) /* basic status */
#define IPS_STAT_EXT(x) (((x) >> 24) & 0xff) /* ext status */
#define IPS_STAT_GSC(x) ((x) & 0x0f)
/* Basic status codes */
#define IPS_STAT_OK 0x00 /* success */
#define IPS_STAT_RECOV 0x01 /* recovered error */
#define IPS_STAT_INVOP 0x03 /* invalid opcode */
#define IPS_STAT_INVCMD 0x04 /* invalid command block */
#define IPS_STAT_INVPARM 0x05 /* invalid parameters block */
#define IPS_STAT_BUSY 0x08 /* busy */
#define IPS_STAT_CMPLERR 0x0c /* completed with error */
#define IPS_STAT_LDERR 0x0d /* logical drive error */
#define IPS_STAT_TIMO 0x0e /* timeout */
#define IPS_STAT_PDRVERR 0x0f /* physical drive error */
/* Extended status codes */
#define IPS_ESTAT_SELTIMO 0xf0 /* select timeout */
#define IPS_ESTAT_OURUN 0xf2 /* over/underrun */
#define IPS_ESTAT_HOSTRST 0xf7 /* host reset */
#define IPS_ESTAT_DEVRST 0xf8 /* device reset */
#define IPS_ESTAT_RECOV 0xfc /* recovered error */
#define IPS_ESTAT_CKCOND 0xff /* check condition */
#define IPS_IOSIZE 128 /* max space size to map */
/* Command frame */
struct ips_cmd {
u_int8_t code;
u_int8_t id;
u_int8_t drive;
u_int8_t sgcnt;
u_int32_t lba;
u_int32_t sgaddr;
u_int16_t seccnt;
u_int8_t seg4g;
u_int8_t esg;
u_int32_t ccsar;
u_int32_t cccr;
};
/* Direct CDB (SCSI pass-through) frame */
struct ips_dcdb {
u_int8_t device;
u_int8_t attr;
u_int16_t datalen;
u_int32_t sgaddr;
u_int8_t cdblen;
u_int8_t senselen;
u_int8_t sgcnt;
u_int8_t __reserved1;
u_int8_t cdb[IPS_MAXCDB];
u_int8_t sense[64];
u_int8_t status;
u_int8_t __reserved2[3];
};
/* Scatter-gather array element */
struct ips_sg {
u_int32_t addr;
u_int32_t size;
};
/* Command block */
struct ips_cmdb {
struct ips_cmd cmd;
struct ips_dcdb dcdb;
struct ips_sg sg[IPS_MAXSGS];
};
/* Data frames */
struct ips_adapterinfo {
u_int8_t drivecnt;
u_int8_t miscflag;
u_int8_t sltflag;
u_int8_t bstflag;
u_int8_t pwrchgcnt;
u_int8_t wrongaddrcnt;
u_int8_t unidentcnt;
u_int8_t nvramdevchgcnt;
u_int8_t firmware[8];
u_int8_t bios[8];
u_int32_t drivesize[IPS_MAXDRIVES];
u_int8_t cmdcnt;
u_int8_t maxphysdevs;
u_int16_t flashrepgmcnt;
u_int8_t defunctdiskcnt;
u_int8_t rebuildflag;
u_int8_t offdrivecnt;
u_int8_t critdrivecnt;
u_int16_t confupdcnt;
u_int8_t blkflag;
u_int8_t __reserved;
u_int16_t deaddisk[IPS_MAXCHANS][IPS_MAXTARGETS];
};
struct ips_driveinfo {
u_int8_t drivecnt;
u_int8_t __reserved[3];
struct ips_drive {
u_int8_t id;
u_int8_t __reserved;
u_int8_t raid;
u_int8_t state;
#define IPS_DS_FREE 0x00
#define IPS_DS_OFFLINE 0x02
#define IPS_DS_ONLINE 0x03
#define IPS_DS_DEGRADED 0x04
#define IPS_DS_SYS 0x06
#define IPS_DS_CRS 0x24
u_int32_t seccnt;
} drive[IPS_MAXDRIVES];
};
struct ips_conf {
u_int8_t ldcnt;
u_int8_t day;
u_int8_t month;
u_int8_t year;
u_int8_t initid[4];
u_int8_t hostid[12];
u_int8_t time[8];
u_int32_t useropt;
u_int16_t userfield;
u_int8_t rebuildrate;
u_int8_t __reserved1;
struct ips_hw {
u_int8_t board[8];
u_int8_t cpu[8];
u_int8_t nchantype;
u_int8_t nhostinttype;
u_int8_t compression;
u_int8_t nvramtype;
u_int32_t nvramsize;
} hw;
struct ips_ld {
u_int16_t userfield;
u_int8_t state;
u_int8_t raidcacheparam;
u_int8_t chunkcnt;
u_int8_t stripesize;
u_int8_t params;
u_int8_t __reserved;
u_int32_t size;
struct ips_chunk {
u_int8_t channel;
u_int8_t target;
u_int16_t __reserved;
u_int32_t startsec;
u_int32_t seccnt;
} chunk[IPS_MAXCHUNKS];
} ld[IPS_MAXDRIVES];
struct ips_dev {
u_int8_t initiator;
u_int8_t params;
u_int8_t miscflag;
u_int8_t state;
#define IPS_DVS_STANDBY 0x01
#define IPS_DVS_REBUILD 0x02
#define IPS_DVS_SPARE 0x04
#define IPS_DVS_MEMBER 0x08
#define IPS_DVS_ONLINE 0x80
#define IPS_DVS_READY (IPS_DVS_STANDBY | IPS_DVS_ONLINE)
u_int32_t seccnt;
u_int8_t devid[28];
} dev[IPS_MAXCHANS][IPS_MAXTARGETS];
u_int8_t reserved[512];
};
struct ips_rblstat {
u_int8_t __unknown[20];
struct {
u_int8_t __unknown[4];
u_int32_t total;
u_int32_t remain;
} ld[IPS_MAXDRIVES];
};
struct ips_pg5 {
u_int32_t signature;
u_int8_t __reserved1;
u_int8_t slot;
u_int16_t type;
u_int8_t bioshi[4];
u_int8_t bioslo[4];
u_int16_t __reserved2;
u_int8_t __reserved3;
u_int8_t os;
u_int8_t driverhi[4];
u_int8_t driverlo[4];
u_int8_t __reserved4[100];
};
struct ips_info {
struct ips_adapterinfo adapter;
struct ips_driveinfo drive;
struct ips_conf conf;
struct ips_rblstat rblstat;
struct ips_pg5 pg5;
};
/* Command control block */
struct ips_softc;
struct ips_ccb {
struct ips_softc * c_sc; /* driver softc */
int c_id; /* command id */
int c_flags; /* SCSI_* flags */
enum {
IPS_CCB_FREE,
IPS_CCB_QUEUED,
IPS_CCB_DONE
} c_state; /* command state */
void * c_cmdbva; /* command block virt addr */
paddr_t c_cmdbpa; /* command block phys addr */
bus_dmamap_t c_dmam; /* data buffer DMA map */
struct scsi_xfer * c_xfer; /* corresponding SCSI xfer */
u_int8_t c_stat; /* status byte copy */
u_int8_t c_estat; /* ext status byte copy */
int c_error; /* completion error */
void (*c_done)(struct ips_softc *, /* cmd done */
struct ips_ccb *); /* callback */
SLIST_ENTRY(ips_ccb) c_link; /* queue link */
};
/* CCB queue */
SLIST_HEAD(ips_ccbq, ips_ccb);
/* DMA-able chunk of memory */
struct dmamem {
bus_dma_tag_t dm_tag;
bus_dmamap_t dm_map;
bus_dma_segment_t dm_seg;
bus_size_t dm_size;
void * dm_vaddr;
#define dm_paddr dm_seg.ds_addr
};
struct ips_softc {
struct device sc_dev;
struct scsibus_softc * sc_scsibus;
struct ips_pt {
struct ips_softc * pt_sc;
int pt_chan;
int pt_proctgt;
char pt_procdev[16];
} sc_pt[IPS_MAXCHANS];
struct ksensordev sc_sensordev;
struct ksensor * sc_sensors;
bus_space_tag_t sc_iot;
bus_space_handle_t sc_ioh;
bus_dma_tag_t sc_dmat;
const struct ips_chipset *sc_chip;
struct ips_info * sc_info;
struct dmamem sc_infom;
int sc_nunits;
struct dmamem sc_cmdbm;
struct ips_ccb * sc_ccb;
int sc_nccbs;
struct ips_ccbq sc_ccbq_free;
struct mutex sc_ccb_mtx;
struct scsi_iopool sc_iopool;
struct dmamem sc_sqm;
paddr_t sc_sqtail;
u_int32_t * sc_sqbuf;
int sc_sqidx;
};
int ips_match(struct device *, void *, void *);
void ips_attach(struct device *, struct device *, void *);
void ips_scsi_cmd(struct scsi_xfer *);
void ips_scsi_pt_cmd(struct scsi_xfer *);
int ips_scsi_ioctl(struct scsi_link *, u_long, caddr_t, int);
#if NBIO > 0
int ips_ioctl(struct device *, u_long, caddr_t);
int ips_ioctl_inq(struct ips_softc *, struct bioc_inq *);
int ips_ioctl_vol(struct ips_softc *, struct bioc_vol *);
int ips_ioctl_disk(struct ips_softc *, struct bioc_disk *);
int ips_ioctl_setstate(struct ips_softc *, struct bioc_setstate *);
#endif
#ifndef SMALL_KERNEL
void ips_sensors(void *);
#endif
int ips_load_xs(struct ips_softc *, struct ips_ccb *, struct scsi_xfer *);
void ips_start_xs(struct ips_softc *, struct ips_ccb *, struct scsi_xfer *);
int ips_cmd(struct ips_softc *, struct ips_ccb *);
int ips_poll(struct ips_softc *, struct ips_ccb *);
void ips_done(struct ips_softc *, struct ips_ccb *);
void ips_done_xs(struct ips_softc *, struct ips_ccb *);
void ips_done_pt(struct ips_softc *, struct ips_ccb *);
void ips_done_mgmt(struct ips_softc *, struct ips_ccb *);
int ips_error(struct ips_softc *, struct ips_ccb *);
int ips_error_xs(struct ips_softc *, struct ips_ccb *);
int ips_intr(void *);
void ips_timeout(void *);
int ips_getadapterinfo(struct ips_softc *, int);
int ips_getdriveinfo(struct ips_softc *, int);
int ips_getconf(struct ips_softc *, int);
int ips_getpg5(struct ips_softc *, int);
#if NBIO > 0
int ips_getrblstat(struct ips_softc *, int);
int ips_setstate(struct ips_softc *, int, int, int, int);
int ips_rebuild(struct ips_softc *, int, int, int, int, int);
#endif
void ips_copperhead_exec(struct ips_softc *, struct ips_ccb *);
void ips_copperhead_intren(struct ips_softc *);
int ips_copperhead_isintr(struct ips_softc *);
u_int32_t ips_copperhead_status(struct ips_softc *);
void ips_morpheus_exec(struct ips_softc *, struct ips_ccb *);
void ips_morpheus_intren(struct ips_softc *);
int ips_morpheus_isintr(struct ips_softc *);
u_int32_t ips_morpheus_status(struct ips_softc *);
struct ips_ccb *ips_ccb_alloc(struct ips_softc *, int);
void ips_ccb_free(struct ips_softc *, struct ips_ccb *, int);
void *ips_ccb_get(void *);
void ips_ccb_put(void *, void *);
int ips_dmamem_alloc(struct dmamem *, bus_dma_tag_t, bus_size_t);
void ips_dmamem_free(struct dmamem *);
const struct cfattach ips_ca = {
sizeof(struct ips_softc),
ips_match,
ips_attach
};
struct cfdriver ips_cd = {
NULL, "ips", DV_DULL
};
static const struct scsi_adapter ips_switch = {
ips_scsi_cmd, NULL, NULL, NULL, ips_scsi_ioctl
};
static const struct scsi_adapter ips_pt_switch = {
ips_scsi_pt_cmd, NULL, NULL, NULL, NULL
};
static const struct pci_matchid ips_ids[] = {
{ PCI_VENDOR_IBM, PCI_PRODUCT_IBM_SERVERAID },
{ PCI_VENDOR_IBM, PCI_PRODUCT_IBM_SERVERAID2 },
{ PCI_VENDOR_ADP2, PCI_PRODUCT_ADP2_SERVERAID }
};
static const struct ips_chipset {
enum {
IPS_CHIP_COPPERHEAD = 0,
IPS_CHIP_MORPHEUS
} ic_id;
int ic_bar;
void (*ic_exec)(struct ips_softc *, struct ips_ccb *);
void (*ic_intren)(struct ips_softc *);
int (*ic_isintr)(struct ips_softc *);
u_int32_t (*ic_status)(struct ips_softc *);
} ips_chips[] = {
{
IPS_CHIP_COPPERHEAD,
0x14,
ips_copperhead_exec,
ips_copperhead_intren,
ips_copperhead_isintr,
ips_copperhead_status
},
{
IPS_CHIP_MORPHEUS,
0x10,
ips_morpheus_exec,
ips_morpheus_intren,
ips_morpheus_isintr,
ips_morpheus_status
}
};
#define ips_exec(s, c) (s)->sc_chip->ic_exec((s), (c))
#define ips_intren(s) (s)->sc_chip->ic_intren((s))
#define ips_isintr(s) (s)->sc_chip->ic_isintr((s))
#define ips_status(s) (s)->sc_chip->ic_status((s))
static const char *ips_names[] = {
NULL,
NULL,
"II",
"onboard",
"onboard",
"3H",
"3L",
"4H",
"4M",
"4L",
"4Mx",
"4Lx",
"5i",
"5i",
"6M",
"6i",
"7t",
"7k",
"7M"
};
int
ips_match(struct device *parent, void *match, void *aux)
{
return (pci_matchbyid(aux, ips_ids,
sizeof(ips_ids) / sizeof(ips_ids[0])));
}
void
ips_attach(struct device *parent, struct device *self, void *aux)
{
struct ips_softc *sc = (struct ips_softc *)self;
struct pci_attach_args *pa = aux;
struct ips_ccb ccb0;
struct scsibus_attach_args saa;
struct ips_adapterinfo *ai;
struct ips_driveinfo *di;
struct ips_pg5 *pg5;
pcireg_t maptype;
bus_size_t iosize;
pci_intr_handle_t ih;
const char *intrstr;
int type, i;
sc->sc_dmat = pa->pa_dmat;
/* Identify chipset */
if (PCI_PRODUCT(pa->pa_id) == PCI_PRODUCT_IBM_SERVERAID)
sc->sc_chip = &ips_chips[IPS_CHIP_COPPERHEAD];
else
sc->sc_chip = &ips_chips[IPS_CHIP_MORPHEUS];
/* Map registers */
maptype = pci_mapreg_type(pa->pa_pc, pa->pa_tag, sc->sc_chip->ic_bar);
if (pci_mapreg_map(pa, sc->sc_chip->ic_bar, maptype, 0, &sc->sc_iot,
&sc->sc_ioh, NULL, &iosize, IPS_IOSIZE)) {
printf(": can't map regs\n");
return;
}
/* Allocate command buffer */
if (ips_dmamem_alloc(&sc->sc_cmdbm, sc->sc_dmat,
IPS_MAXCMDS * sizeof(struct ips_cmdb))) {
printf(": can't alloc cmd buffer\n");
goto fail1;
}
/* Allocate info buffer */
if (ips_dmamem_alloc(&sc->sc_infom, sc->sc_dmat,
sizeof(struct ips_info))) {
printf(": can't alloc info buffer\n");
goto fail2;
}
sc->sc_info = sc->sc_infom.dm_vaddr;
ai = &sc->sc_info->adapter;
di = &sc->sc_info->drive;
pg5 = &sc->sc_info->pg5;
/* Allocate status queue for the Copperhead chipset */
if (sc->sc_chip->ic_id == IPS_CHIP_COPPERHEAD) {
if (ips_dmamem_alloc(&sc->sc_sqm, sc->sc_dmat, IPS_SQSZ)) {
printf(": can't alloc status queue\n");
goto fail3;
}
sc->sc_sqtail = sc->sc_sqm.dm_paddr;
sc->sc_sqbuf = sc->sc_sqm.dm_vaddr;
sc->sc_sqidx = 0;
bus_space_write_4(sc->sc_iot, sc->sc_ioh, IPS_REG_SQS,
sc->sc_sqm.dm_paddr);
bus_space_write_4(sc->sc_iot, sc->sc_ioh, IPS_REG_SQE,
sc->sc_sqm.dm_paddr + IPS_SQSZ);
bus_space_write_4(sc->sc_iot, sc->sc_ioh, IPS_REG_SQH,
sc->sc_sqm.dm_paddr + sizeof(u_int32_t));
bus_space_write_4(sc->sc_iot, sc->sc_ioh, IPS_REG_SQT,
sc->sc_sqm.dm_paddr);
}
/* Bootstrap CCB queue */
sc->sc_nccbs = 1;
sc->sc_ccb = &ccb0;
bzero(&ccb0, sizeof(ccb0));
ccb0.c_cmdbva = sc->sc_cmdbm.dm_vaddr;
ccb0.c_cmdbpa = sc->sc_cmdbm.dm_paddr;
SLIST_INIT(&sc->sc_ccbq_free);
SLIST_INSERT_HEAD(&sc->sc_ccbq_free, &ccb0, c_link);
mtx_init(&sc->sc_ccb_mtx, IPL_BIO);
scsi_iopool_init(&sc->sc_iopool, sc, ips_ccb_get, ips_ccb_put);
/* Get adapter info */
if (ips_getadapterinfo(sc, SCSI_NOSLEEP)) {
printf(": can't get adapter info\n");
goto fail4;
}
/* Get logical drives info */
if (ips_getdriveinfo(sc, SCSI_NOSLEEP)) {
printf(": can't get ld info\n");
goto fail4;
}
sc->sc_nunits = di->drivecnt;
/* Get configuration */
if (ips_getconf(sc, SCSI_NOSLEEP)) {
printf(": can't get config\n");
goto fail4;
}
/* Read NVRAM page 5 for additional info */
(void)ips_getpg5(sc, SCSI_NOSLEEP);
/* Initialize CCB queue */
sc->sc_nccbs = ai->cmdcnt;
if ((sc->sc_ccb = ips_ccb_alloc(sc, sc->sc_nccbs)) == NULL) {
printf(": can't alloc ccb queue\n");
goto fail4;
}
SLIST_INIT(&sc->sc_ccbq_free);
for (i = 0; i < sc->sc_nccbs; i++)
SLIST_INSERT_HEAD(&sc->sc_ccbq_free,
&sc->sc_ccb[i], c_link);
/* Install interrupt handler */
if (pci_intr_map(pa, &ih)) {
printf(": can't map interrupt\n");
goto fail5;
}
intrstr = pci_intr_string(pa->pa_pc, ih);
if (pci_intr_establish(pa->pa_pc, ih, IPL_BIO, ips_intr, sc,
sc->sc_dev.dv_xname) == NULL) {
printf(": can't establish interrupt");
if (intrstr != NULL)
printf(" at %s", intrstr);
printf("\n");
goto fail5;
}
printf(": %s\n", intrstr);
/* Display adapter info */
printf("%s: ServeRAID", sc->sc_dev.dv_xname);
type = letoh16(pg5->type);
if (type < sizeof(ips_names) / sizeof(ips_names[0]) && ips_names[type])
printf(" %s", ips_names[type]);
printf(", FW %c%c%c%c%c%c%c", ai->firmware[0], ai->firmware[1],
ai->firmware[2], ai->firmware[3], ai->firmware[4], ai->firmware[5],
ai->firmware[6]);
printf(", BIOS %c%c%c%c%c%c%c", ai->bios[0], ai->bios[1], ai->bios[2],
ai->bios[3], ai->bios[4], ai->bios[5], ai->bios[6]);
printf(", %d cmds, %d LD%s", sc->sc_nccbs, sc->sc_nunits,
(sc->sc_nunits == 1 ? "" : "s"));
printf("\n");
saa.saa_adapter_target = SDEV_NO_ADAPTER_TARGET;
saa.saa_adapter_buswidth = sc->sc_nunits;
saa.saa_adapter = &ips_switch;
saa.saa_adapter_softc = sc;
saa.saa_luns = 8;
if (sc->sc_nunits > 0)
saa.saa_openings = sc->sc_nccbs / sc->sc_nunits;
else
saa.saa_openings = 0;
saa.saa_pool = &sc->sc_iopool;
saa.saa_quirks = saa.saa_flags = 0;
saa.saa_wwpn = saa.saa_wwnn = 0;
sc->sc_scsibus = (struct scsibus_softc *)config_found(self, &saa,
scsiprint);
/* For each channel attach SCSI pass-through bus */
for (i = 0; i < IPS_MAXCHANS; i++) {
struct ips_pt *pt;
int target, lastarget;
pt = &sc->sc_pt[i];
pt->pt_sc = sc;
pt->pt_chan = i;
pt->pt_proctgt = -1;
/* Check if channel has any devices besides disks */
for (target = 0, lastarget = -1; target < IPS_MAXTARGETS;
target++) {
struct ips_dev *idev;
int type;
idev = &sc->sc_info->conf.dev[i][target];
type = idev->params & SID_TYPE;
if (idev->state && type != T_DIRECT) {
lastarget = target;
if (type == T_PROCESSOR ||
type == T_ENCLOSURE)
/* remember enclosure address */
pt->pt_proctgt = target;
}
}
if (lastarget == -1)
continue;
saa.saa_adapter = &ips_pt_switch;
saa.saa_adapter_softc = pt;
saa.saa_adapter_buswidth = lastarget + 1;
saa.saa_adapter_target = IPS_MAXTARGETS;
saa.saa_luns = 8;
saa.saa_openings = 1;
saa.saa_pool = &sc->sc_iopool;
saa.saa_quirks = saa.saa_flags = 0;
saa.saa_wwpn = saa.saa_wwnn = 0;
config_found(self, &saa, scsiprint);
}
/* Enable interrupts */
ips_intren(sc);
#if NBIO > 0
/* Install ioctl handler */
if (bio_register(&sc->sc_dev, ips_ioctl))
printf("%s: no ioctl support\n", sc->sc_dev.dv_xname);
#endif
#ifndef SMALL_KERNEL
/* Add sensors */
if ((sc->sc_sensors = mallocarray(sc->sc_nunits, sizeof(struct ksensor),
M_DEVBUF, M_NOWAIT | M_ZERO)) == NULL) {
printf(": can't alloc sensors\n");
return;
}
strlcpy(sc->sc_sensordev.xname, sc->sc_dev.dv_xname,
sizeof(sc->sc_sensordev.xname));
for (i = 0; i < sc->sc_nunits; i++) {
struct device *dev;
sc->sc_sensors[i].type = SENSOR_DRIVE;
sc->sc_sensors[i].status = SENSOR_S_UNKNOWN;
dev = scsi_get_link(sc->sc_scsibus, i, 0)->device_softc;
strlcpy(sc->sc_sensors[i].desc, dev->dv_xname,
sizeof(sc->sc_sensors[i].desc));
sensor_attach(&sc->sc_sensordev, &sc->sc_sensors[i]);
}
if (sensor_task_register(sc, ips_sensors, 10) == NULL) {
printf(": no sensors support\n");
free(sc->sc_sensors, M_DEVBUF,
sc->sc_nunits * sizeof(struct ksensor));
return;
}
sensordev_install(&sc->sc_sensordev);
#endif /* !SMALL_KERNEL */
return;
fail5:
ips_ccb_free(sc, sc->sc_ccb, sc->sc_nccbs);
fail4:
if (sc->sc_chip->ic_id == IPS_CHIP_COPPERHEAD)
ips_dmamem_free(&sc->sc_sqm);
fail3:
ips_dmamem_free(&sc->sc_infom);
fail2:
ips_dmamem_free(&sc->sc_cmdbm);
fail1:
bus_space_unmap(sc->sc_iot, sc->sc_ioh, iosize);
}
void
ips_scsi_cmd(struct scsi_xfer *xs)
{
struct scsi_link *link = xs->sc_link;
struct ips_softc *sc = link->bus->sb_adapter_softc;
struct ips_driveinfo *di = &sc->sc_info->drive;
struct ips_drive *drive;
struct scsi_inquiry_data inq;
struct scsi_read_cap_data rcd;
struct scsi_sense_data sd;
struct scsi_rw *rw;
struct scsi_rw_10 *rw10;
struct ips_ccb *ccb = xs->io;
struct ips_cmd *cmd;
int target = link->target;
u_int32_t blkno, blkcnt;
int code;
DPRINTF(IPS_D_XFER, ("%s: ips_scsi_cmd: xs %p, target %d, "
"opcode 0x%02x, flags 0x%x\n", sc->sc_dev.dv_xname, xs, target,
xs->cmd.opcode, xs->flags));
if (target >= sc->sc_nunits || link->lun != 0) {
DPRINTF(IPS_D_INFO, ("%s: ips_scsi_cmd: invalid params "
"target %d, lun %d\n", sc->sc_dev.dv_xname,
target, link->lun));
xs->error = XS_DRIVER_STUFFUP;
scsi_done(xs);
return;
}
drive = &di->drive[target];
xs->error = XS_NOERROR;
/* Fake SCSI commands */
switch (xs->cmd.opcode) {
case READ_10:
case READ_COMMAND:
case WRITE_10:
case WRITE_COMMAND:
if (xs->cmdlen == sizeof(struct scsi_rw)) {
rw = (void *)&xs->cmd;
blkno = _3btol(rw->addr) &
(SRW_TOPADDR << 16 | 0xffff);
blkcnt = rw->length ? rw->length : 0x100;
} else {
rw10 = (void *)&xs->cmd;
blkno = _4btol(rw10->addr);
blkcnt = _2btol(rw10->length);
}
if (blkno >= letoh32(drive->seccnt) || blkno + blkcnt >
letoh32(drive->seccnt)) {
DPRINTF(IPS_D_ERR, ("%s: ips_scsi_cmd: invalid params "
"blkno %u, blkcnt %u\n", sc->sc_dev.dv_xname,
blkno, blkcnt));
xs->error = XS_DRIVER_STUFFUP;
break;
}
if (xs->flags & SCSI_DATA_IN)
code = IPS_CMD_READ;
else
code = IPS_CMD_WRITE;
ccb = xs->io;
cmd = ccb->c_cmdbva;
cmd->code = code;
cmd->drive = target;
cmd->lba = htole32(blkno);
cmd->seccnt = htole16(blkcnt);
if (ips_load_xs(sc, ccb, xs)) {
DPRINTF(IPS_D_ERR, ("%s: ips_scsi_cmd: ips_load_xs "
"failed\n", sc->sc_dev.dv_xname));
xs->error = XS_DRIVER_STUFFUP;
scsi_done(xs);
return;
}
if (cmd->sgcnt > 0)
cmd->code |= IPS_CMD_SG;
ccb->c_done = ips_done_xs;
ips_start_xs(sc, ccb, xs);
return;
case INQUIRY:
bzero(&inq, sizeof(inq));
inq.device = T_DIRECT;
inq.version = SCSI_REV_2;
inq.response_format = SID_SCSI2_RESPONSE;
inq.additional_length = SID_SCSI2_ALEN;
inq.flags |= SID_CmdQue;
strlcpy(inq.vendor, "IBM", sizeof(inq.vendor));
snprintf(inq.product, sizeof(inq.product),
"LD%d RAID%d", target, drive->raid);
strlcpy(inq.revision, "1.0", sizeof(inq.revision));
scsi_copy_internal_data(xs, &inq, sizeof(inq));
break;
case READ_CAPACITY:
bzero(&rcd, sizeof(rcd));
_lto4b(letoh32(drive->seccnt) - 1, rcd.addr);
_lto4b(IPS_SECSZ, rcd.length);
scsi_copy_internal_data(xs, &rcd, sizeof(rcd));
break;
case REQUEST_SENSE:
bzero(&sd, sizeof(sd));
sd.error_code = SSD_ERRCODE_CURRENT;
sd.flags = SKEY_NO_SENSE;
scsi_copy_internal_data(xs, &sd, sizeof(sd));
break;
case SYNCHRONIZE_CACHE:
cmd = ccb->c_cmdbva;
cmd->code = IPS_CMD_FLUSH;
ccb->c_done = ips_done_xs;
ips_start_xs(sc, ccb, xs);
return;
case PREVENT_ALLOW:
case START_STOP:
case TEST_UNIT_READY:
break;
default:
DPRINTF(IPS_D_INFO, ("%s: unsupported scsi command 0x%02x\n",
sc->sc_dev.dv_xname, xs->cmd.opcode));
xs->error = XS_DRIVER_STUFFUP;
}
scsi_done(xs);
}
void
ips_scsi_pt_cmd(struct scsi_xfer *xs)
{
struct scsi_link *link = xs->sc_link;
struct ips_pt *pt = link->bus->sb_adapter_softc;
struct ips_softc *sc = pt->pt_sc;
struct device *dev = link->device_softc;
struct ips_ccb *ccb = xs->io;
struct ips_cmdb *cmdb;
struct ips_cmd *cmd;
struct ips_dcdb *dcdb;
int chan = pt->pt_chan, target = link->target;
DPRINTF(IPS_D_XFER, ("%s: ips_scsi_pt_cmd: xs %p, chan %d, target %d, "
"opcode 0x%02x, flags 0x%x\n", sc->sc_dev.dv_xname, xs, chan,
target, xs->cmd.opcode, xs->flags));
if (pt->pt_procdev[0] == '\0' && target == pt->pt_proctgt && dev)
strlcpy(pt->pt_procdev, dev->dv_xname, sizeof(pt->pt_procdev));
if (xs->cmdlen > IPS_MAXCDB) {
DPRINTF(IPS_D_ERR, ("%s: cmdlen %d too big\n",
sc->sc_dev.dv_xname, xs->cmdlen));
bzero(&xs->sense, sizeof(xs->sense));
xs->sense.error_code = SSD_ERRCODE_VALID | SSD_ERRCODE_CURRENT;
xs->sense.flags = SKEY_ILLEGAL_REQUEST;
xs->sense.add_sense_code = 0x20; /* illcmd, 0x24 illfield */
xs->error = XS_SENSE;
scsi_done(xs);
return;
}
xs->error = XS_NOERROR;
cmdb = ccb->c_cmdbva;
cmd = &cmdb->cmd;
dcdb = &cmdb->dcdb;
cmd->code = IPS_CMD_DCDB;
dcdb->device = (chan << 4) | target;
if (xs->flags & SCSI_DATA_IN)
dcdb->attr |= IPS_DCDB_DATAIN;
if (xs->flags & SCSI_DATA_OUT)
dcdb->attr |= IPS_DCDB_DATAOUT;
/*
* Adjust timeout value to what controller supports. Make sure our
* timeout will be fired after controller gives up.
*/
if (xs->timeout <= 10000) {
dcdb->attr |= IPS_DCDB_TIMO10;
xs->timeout = 11000;
} else if (xs->timeout <= 60000) {
dcdb->attr |= IPS_DCDB_TIMO60;
xs->timeout = 61000;
} else {
dcdb->attr |= IPS_DCDB_TIMO20M;
xs->timeout = 20 * 60000 + 1000;
}
dcdb->attr |= IPS_DCDB_DISCON;
dcdb->datalen = htole16(xs->datalen);
dcdb->cdblen = xs->cmdlen;
dcdb->senselen = MIN(sizeof(xs->sense), sizeof(dcdb->sense));
memcpy(dcdb->cdb, &xs->cmd, xs->cmdlen);
if (ips_load_xs(sc, ccb, xs)) {
DPRINTF(IPS_D_ERR, ("%s: ips_scsi_pt_cmd: ips_load_xs "
"failed\n", sc->sc_dev.dv_xname));
xs->error = XS_DRIVER_STUFFUP;
scsi_done(xs);
return;
}
if (cmd->sgcnt > 0)
cmd->code |= IPS_CMD_SG;
dcdb->sgaddr = cmd->sgaddr;
dcdb->sgcnt = cmd->sgcnt;
cmd->sgaddr = htole32(ccb->c_cmdbpa + offsetof(struct ips_cmdb, dcdb));
cmd->sgcnt = 0;
ccb->c_done = ips_done_pt;
ips_start_xs(sc, ccb, xs);
}
int
ips_scsi_ioctl(struct scsi_link *link, u_long cmd, caddr_t addr, int flag)
{
#if NBIO > 0
return (ips_ioctl(link->bus->sb_adapter_softc, cmd, addr));
#else
return (ENOTTY);
#endif
}
#if NBIO > 0
int
ips_ioctl(struct device *dev, u_long cmd, caddr_t addr)
{
struct ips_softc *sc = (struct ips_softc *)dev;
DPRINTF(IPS_D_INFO, ("%s: ips_ioctl: cmd %lu\n",
sc->sc_dev.dv_xname, cmd));
switch (cmd) {
case BIOCINQ:
return (ips_ioctl_inq(sc, (struct bioc_inq *)addr));
case BIOCVOL:
return (ips_ioctl_vol(sc, (struct bioc_vol *)addr));
case BIOCDISK:
return (ips_ioctl_disk(sc, (struct bioc_disk *)addr));
case BIOCSETSTATE:
return (ips_ioctl_setstate(sc, (struct bioc_setstate *)addr));
default:
return (ENOTTY);
}
}
int
ips_ioctl_inq(struct ips_softc *sc, struct bioc_inq *bi)
{
struct ips_conf *conf = &sc->sc_info->conf;
int i;
strlcpy(bi->bi_dev, sc->sc_dev.dv_xname, sizeof(bi->bi_dev));
bi->bi_novol = sc->sc_nunits;
for (i = 0, bi->bi_nodisk = 0; i < sc->sc_nunits; i++)
bi->bi_nodisk += conf->ld[i].chunkcnt;
DPRINTF(IPS_D_INFO, ("%s: ips_ioctl_inq: novol %d, nodisk %d\n",
bi->bi_dev, bi->bi_novol, bi->bi_nodisk));
return (0);
}
int
ips_ioctl_vol(struct ips_softc *sc, struct bioc_vol *bv)
{
struct ips_driveinfo *di = &sc->sc_info->drive;
struct ips_conf *conf = &sc->sc_info->conf;
struct ips_rblstat *rblstat = &sc->sc_info->rblstat;
struct ips_ld *ld;
int vid = bv->bv_volid;
struct device *dv;
int error, rebuild = 0;
u_int32_t total = 0, done = 0;
if (vid >= sc->sc_nunits)
return (EINVAL);
if ((error = ips_getconf(sc, 0)))
return (error);
ld = &conf->ld[vid];
switch (ld->state) {
case IPS_DS_ONLINE:
bv->bv_status = BIOC_SVONLINE;
break;
case IPS_DS_DEGRADED:
bv->bv_status = BIOC_SVDEGRADED;
rebuild++;
break;
case IPS_DS_OFFLINE:
bv->bv_status = BIOC_SVOFFLINE;
break;
default:
bv->bv_status = BIOC_SVINVALID;
}
if (rebuild && ips_getrblstat(sc, 0) == 0) {
total = letoh32(rblstat->ld[vid].total);
done = total - letoh32(rblstat->ld[vid].remain);
if (total && total > done) {
bv->bv_status = BIOC_SVREBUILD;
bv->bv_percent = 100 * done / total;
}
}
bv->bv_size = (uint64_t)letoh32(ld->size) * IPS_SECSZ;
bv->bv_level = di->drive[vid].raid;
bv->bv_nodisk = ld->chunkcnt;
/* Associate all unused and spare drives with first volume */
if (vid == 0) {
struct ips_dev *dev;
int chan, target;
for (chan = 0; chan < IPS_MAXCHANS; chan++)
for (target = 0; target < IPS_MAXTARGETS; target++) {
dev = &conf->dev[chan][target];
if (dev->state && !(dev->state &
IPS_DVS_MEMBER) &&
(dev->params & SID_TYPE) == T_DIRECT)
bv->bv_nodisk++;
}
}
dv = scsi_get_link(sc->sc_scsibus, vid, 0)->device_softc;
strlcpy(bv->bv_dev, dv->dv_xname, sizeof(bv->bv_dev));
strlcpy(bv->bv_vendor, "IBM", sizeof(bv->bv_vendor));
DPRINTF(IPS_D_INFO, ("%s: ips_ioctl_vol: vid %d, state 0x%02x, "
"total %u, done %u, size %llu, level %d, nodisk %d, dev %s\n",
sc->sc_dev.dv_xname, vid, ld->state, total, done, bv->bv_size,
bv->bv_level, bv->bv_nodisk, bv->bv_dev));
return (0);
}
int
ips_ioctl_disk(struct ips_softc *sc, struct bioc_disk *bd)
{
struct ips_conf *conf = &sc->sc_info->conf;
struct ips_ld *ld;
struct ips_chunk *chunk;
struct ips_dev *dev;
int vid = bd->bd_volid, did = bd->bd_diskid;
int chan, target, error, i;
if (vid >= sc->sc_nunits)
return (EINVAL);
if ((error = ips_getconf(sc, 0)))
return (error);
ld = &conf->ld[vid];
if (did >= ld->chunkcnt) {
/* Probably unused or spare drives */
if (vid != 0)
return (EINVAL);
i = ld->chunkcnt;
for (chan = 0; chan < IPS_MAXCHANS; chan++)
for (target = 0; target < IPS_MAXTARGETS; target++) {
dev = &conf->dev[chan][target];
if (dev->state && !(dev->state &
IPS_DVS_MEMBER) &&
(dev->params & SID_TYPE) == T_DIRECT)
if (i++ == did)
goto out;
}
} else {
chunk = &ld->chunk[did];
chan = chunk->channel;
target = chunk->target;
}
out:
if (chan >= IPS_MAXCHANS || target >= IPS_MAXTARGETS)
return (EINVAL);
dev = &conf->dev[chan][target];
bd->bd_channel = chan;
bd->bd_target = target;
bd->bd_lun = 0;
bd->bd_size = (uint64_t)letoh32(dev->seccnt) * IPS_SECSZ;
bzero(bd->bd_vendor, sizeof(bd->bd_vendor));
memcpy(bd->bd_vendor, dev->devid, MIN(sizeof(bd->bd_vendor),
sizeof(dev->devid)));
strlcpy(bd->bd_procdev, sc->sc_pt[chan].pt_procdev,
sizeof(bd->bd_procdev));
if (dev->state & IPS_DVS_READY) {
bd->bd_status = BIOC_SDUNUSED;
if (dev->state & IPS_DVS_MEMBER)
bd->bd_status = BIOC_SDONLINE;
if (dev->state & IPS_DVS_SPARE)
bd->bd_status = BIOC_SDHOTSPARE;
if (dev->state & IPS_DVS_REBUILD)
bd->bd_status = BIOC_SDREBUILD;
} else {
bd->bd_status = BIOC_SDOFFLINE;
}
DPRINTF(IPS_D_INFO, ("%s: ips_ioctl_disk: vid %d, did %d, channel %d, "
"target %d, size %llu, state 0x%02x\n", sc->sc_dev.dv_xname,
vid, did, bd->bd_channel, bd->bd_target, bd->bd_size, dev->state));
return (0);
}
int
ips_ioctl_setstate(struct ips_softc *sc, struct bioc_setstate *bs)
{
struct ips_conf *conf = &sc->sc_info->conf;
struct ips_dev *dev;
int state, error;
if (bs->bs_channel >= IPS_MAXCHANS || bs->bs_target >= IPS_MAXTARGETS)
return (EINVAL);
if ((error = ips_getconf(sc, 0)))
return (error);
dev = &conf->dev[bs->bs_channel][bs->bs_target];
state = dev->state;
switch (bs->bs_status) {
case BIOC_SSONLINE:
state |= IPS_DVS_READY;
break;
case BIOC_SSOFFLINE:
state &= ~IPS_DVS_READY;
break;
case BIOC_SSHOTSPARE:
state |= IPS_DVS_SPARE;
break;
case BIOC_SSREBUILD:
return (ips_rebuild(sc, bs->bs_channel, bs->bs_target,
bs->bs_channel, bs->bs_target, 0));
default:
return (EINVAL);
}
return (ips_setstate(sc, bs->bs_channel, bs->bs_target, state, 0));
}
#endif /* NBIO > 0 */
#ifndef SMALL_KERNEL
void
ips_sensors(void *arg)
{
struct ips_softc *sc = arg;
struct ips_conf *conf = &sc->sc_info->conf;
struct ips_ld *ld;
int i;
/* ips_sensors() runs from work queue thus allowed to sleep */
if (ips_getconf(sc, 0)) {
DPRINTF(IPS_D_ERR, ("%s: ips_sensors: ips_getconf failed\n",
sc->sc_dev.dv_xname));
for (i = 0; i < sc->sc_nunits; i++) {
sc->sc_sensors[i].value = 0;
sc->sc_sensors[i].status = SENSOR_S_UNKNOWN;
}
return;
}
DPRINTF(IPS_D_INFO, ("%s: ips_sensors:", sc->sc_dev.dv_xname));
for (i = 0; i < sc->sc_nunits; i++) {
ld = &conf->ld[i];
DPRINTF(IPS_D_INFO, (" ld%d.state 0x%02x", i, ld->state));
switch (ld->state) {
case IPS_DS_ONLINE:
sc->sc_sensors[i].value = SENSOR_DRIVE_ONLINE;
sc->sc_sensors[i].status = SENSOR_S_OK;
break;
case IPS_DS_DEGRADED:
sc->sc_sensors[i].value = SENSOR_DRIVE_PFAIL;
sc->sc_sensors[i].status = SENSOR_S_WARN;
break;
case IPS_DS_OFFLINE:
sc->sc_sensors[i].value = SENSOR_DRIVE_FAIL;
sc->sc_sensors[i].status = SENSOR_S_CRIT;
break;
default:
sc->sc_sensors[i].value = 0;
sc->sc_sensors[i].status = SENSOR_S_UNKNOWN;
}
}
DPRINTF(IPS_D_INFO, ("\n"));
}
#endif /* !SMALL_KERNEL */
int
ips_load_xs(struct ips_softc *sc, struct ips_ccb *ccb, struct scsi_xfer *xs)
{
struct ips_cmdb *cmdb = ccb->c_cmdbva;
struct ips_cmd *cmd = &cmdb->cmd;
struct ips_sg *sg = cmdb->sg;
int nsegs, i;
if (xs->datalen == 0)
return (0);
/* Map data buffer into DMA segments */
if (bus_dmamap_load(sc->sc_dmat, ccb->c_dmam, xs->data, xs->datalen,
NULL, (xs->flags & SCSI_NOSLEEP ? BUS_DMA_NOWAIT : 0)))
return (1);
bus_dmamap_sync(sc->sc_dmat, ccb->c_dmam, 0,ccb->c_dmam->dm_mapsize,
xs->flags & SCSI_DATA_IN ? BUS_DMASYNC_PREREAD :
BUS_DMASYNC_PREWRITE);
if ((nsegs = ccb->c_dmam->dm_nsegs) > IPS_MAXSGS)
return (1);
if (nsegs > 1) {
cmd->sgcnt = nsegs;
cmd->sgaddr = htole32(ccb->c_cmdbpa + offsetof(struct ips_cmdb,
sg));
/* Fill in scatter-gather array */
for (i = 0; i < nsegs; i++) {
sg[i].addr = htole32(ccb->c_dmam->dm_segs[i].ds_addr);
sg[i].size = htole32(ccb->c_dmam->dm_segs[i].ds_len);
}
} else {
cmd->sgcnt = 0;
cmd->sgaddr = htole32(ccb->c_dmam->dm_segs[0].ds_addr);
}
return (0);
}
void
ips_start_xs(struct ips_softc *sc, struct ips_ccb *ccb, struct scsi_xfer *xs)
{
ccb->c_flags = xs->flags;
ccb->c_xfer = xs;
int ispoll = xs->flags & SCSI_POLL;
if (!ispoll) {
timeout_set(&xs->stimeout, ips_timeout, ccb);
timeout_add_msec(&xs->stimeout, xs->timeout);
}
/*
* Return value not used here because ips_cmd() must complete
* scsi_xfer on any failure and SCSI layer will handle possible
* errors.
*/
ips_cmd(sc, ccb);
}
int
ips_cmd(struct ips_softc *sc, struct ips_ccb *ccb)
{
struct ips_cmd *cmd = ccb->c_cmdbva;
int s, error = 0;
DPRINTF(IPS_D_XFER, ("%s: ips_cmd: id 0x%02x, flags 0x%x, xs %p, "
"code 0x%02x, drive %d, sgcnt %d, lba %d, sgaddr 0x%08x, "
"seccnt %d\n", sc->sc_dev.dv_xname, ccb->c_id, ccb->c_flags,
ccb->c_xfer, cmd->code, cmd->drive, cmd->sgcnt, letoh32(cmd->lba),
letoh32(cmd->sgaddr), letoh16(cmd->seccnt)));
cmd->id = ccb->c_id;
/* Post command to controller and optionally wait for completion */
s = splbio();
ips_exec(sc, ccb);
ccb->c_state = IPS_CCB_QUEUED;
if (ccb->c_flags & SCSI_POLL)
error = ips_poll(sc, ccb);
splx(s);
return (error);
}
int
ips_poll(struct ips_softc *sc, struct ips_ccb *ccb)
{
int error, msecs, usecs;
splassert(IPL_BIO);
if (ccb->c_flags & SCSI_NOSLEEP) {
/* busy-wait */
DPRINTF(IPS_D_XFER, ("%s: ips_poll: busy-wait\n",
sc->sc_dev.dv_xname));
for (usecs = 1000000; usecs > 0; usecs -= 100) {
delay(100);
ips_intr(sc);
if (ccb->c_state == IPS_CCB_DONE)
break;
}
} else {
/* sleep */
msecs = ccb->c_xfer ? ccb->c_xfer->timeout : IPS_TIMEOUT;
DPRINTF(IPS_D_XFER, ("%s: ips_poll: sleep %d ms\n",
sc->sc_dev.dv_xname, msecs));
tsleep_nsec(ccb, PRIBIO + 1, "ipscmd", MSEC_TO_NSEC(msecs));
}
DPRINTF(IPS_D_XFER, ("%s: ips_poll: state %d\n", sc->sc_dev.dv_xname,
ccb->c_state));
if (ccb->c_state != IPS_CCB_DONE)
/*
* Command never completed. Fake hardware status byte
* to indicate timeout.
*/
ccb->c_stat = IPS_STAT_TIMO;
ips_done(sc, ccb);
error = ccb->c_error;
return (error);
}
void
ips_done(struct ips_softc *sc, struct ips_ccb *ccb)
{
splassert(IPL_BIO);
DPRINTF(IPS_D_XFER, ("%s: ips_done: id 0x%02x, flags 0x%x, xs %p\n",
sc->sc_dev.dv_xname, ccb->c_id, ccb->c_flags, ccb->c_xfer));
ccb->c_error = ips_error(sc, ccb);
ccb->c_done(sc, ccb);
}
void
ips_done_xs(struct ips_softc *sc, struct ips_ccb *ccb)
{
struct scsi_xfer *xs = ccb->c_xfer;
if (!(xs->flags & SCSI_POLL))
timeout_del(&xs->stimeout);
if (xs->flags & (SCSI_DATA_IN | SCSI_DATA_OUT)) {
bus_dmamap_sync(sc->sc_dmat, ccb->c_dmam, 0,
ccb->c_dmam->dm_mapsize, xs->flags & SCSI_DATA_IN ?
BUS_DMASYNC_POSTREAD : BUS_DMASYNC_POSTWRITE);
bus_dmamap_unload(sc->sc_dmat, ccb->c_dmam);
}
xs->resid = 0;
xs->error = ips_error_xs(sc, ccb);
scsi_done(xs);
}
void
ips_done_pt(struct ips_softc *sc, struct ips_ccb *ccb)
{
struct scsi_xfer *xs = ccb->c_xfer;
struct ips_cmdb *cmdb = ccb->c_cmdbva;
struct ips_dcdb *dcdb = &cmdb->dcdb;
int done = letoh16(dcdb->datalen);
if (!(xs->flags & SCSI_POLL))
timeout_del(&xs->stimeout);
if (xs->flags & (SCSI_DATA_IN | SCSI_DATA_OUT)) {
bus_dmamap_sync(sc->sc_dmat, ccb->c_dmam, 0,
ccb->c_dmam->dm_mapsize, xs->flags & SCSI_DATA_IN ?
BUS_DMASYNC_POSTREAD : BUS_DMASYNC_POSTWRITE);
bus_dmamap_unload(sc->sc_dmat, ccb->c_dmam);
}
if (done && done < xs->datalen)
xs->resid = xs->datalen - done;
else
xs->resid = 0;
xs->error = ips_error_xs(sc, ccb);
xs->status = dcdb->status;
if (xs->error == XS_SENSE)
memcpy(&xs->sense, dcdb->sense, MIN(sizeof(xs->sense),
sizeof(dcdb->sense)));
if (xs->cmd.opcode == INQUIRY && xs->error == XS_NOERROR) {
int type = ((struct scsi_inquiry_data *)xs->data)->device &
SID_TYPE;
if (type == T_DIRECT)
/* mask physical drives */
xs->error = XS_DRIVER_STUFFUP;
}
scsi_done(xs);
}
void
ips_done_mgmt(struct ips_softc *sc, struct ips_ccb *ccb)
{
if (ccb->c_flags & (SCSI_DATA_IN | SCSI_DATA_OUT))
bus_dmamap_sync(sc->sc_dmat, sc->sc_infom.dm_map, 0,
sc->sc_infom.dm_map->dm_mapsize,
ccb->c_flags & SCSI_DATA_IN ? BUS_DMASYNC_POSTREAD :
BUS_DMASYNC_POSTWRITE);
scsi_io_put(&sc->sc_iopool, ccb);
}
int
ips_error(struct ips_softc *sc, struct ips_ccb *ccb)
{
struct ips_cmdb *cmdb = ccb->c_cmdbva;
struct ips_cmd *cmd = &cmdb->cmd;
struct ips_dcdb *dcdb = &cmdb->dcdb;
struct scsi_xfer *xs = ccb->c_xfer;
u_int8_t gsc = IPS_STAT_GSC(ccb->c_stat);
if (gsc == IPS_STAT_OK)
return (0);
DPRINTF(IPS_D_ERR, ("%s: ips_error: stat 0x%02x, estat 0x%02x, "
"cmd code 0x%02x, drive %d, sgcnt %d, lba %u, seccnt %d",
sc->sc_dev.dv_xname, ccb->c_stat, ccb->c_estat, cmd->code,
cmd->drive, cmd->sgcnt, letoh32(cmd->lba), letoh16(cmd->seccnt)));
if (cmd->code == IPS_CMD_DCDB || cmd->code == IPS_CMD_DCDB_SG) {
int i;
DPRINTF(IPS_D_ERR, (", dcdb device 0x%02x, attr 0x%02x, "
"datalen %d, sgcnt %d, status 0x%02x",
dcdb->device, dcdb->attr, letoh16(dcdb->datalen),
dcdb->sgcnt, dcdb->status));
DPRINTF(IPS_D_ERR, (", cdb"));
for (i = 0; i < dcdb->cdblen; i++)
DPRINTF(IPS_D_ERR, (" %x", dcdb->cdb[i]));
if (ccb->c_estat == IPS_ESTAT_CKCOND) {
DPRINTF(IPS_D_ERR, (", sense"));
for (i = 0; i < dcdb->senselen; i++)
DPRINTF(IPS_D_ERR, (" %x", dcdb->sense[i]));
}
}
DPRINTF(IPS_D_ERR, ("\n"));
switch (gsc) {
case IPS_STAT_RECOV:
return (0);
case IPS_STAT_INVOP:
case IPS_STAT_INVCMD:
case IPS_STAT_INVPARM:
return (EINVAL);
case IPS_STAT_BUSY:
return (EBUSY);
case IPS_STAT_TIMO:
return (ETIMEDOUT);
case IPS_STAT_PDRVERR:
switch (ccb->c_estat) {
case IPS_ESTAT_SELTIMO:
return (ENODEV);
case IPS_ESTAT_OURUN:
if (xs && letoh16(dcdb->datalen) < xs->datalen)
/* underrun */
return (0);
break;
case IPS_ESTAT_RECOV:
return (0);
}
break;
}
return (EIO);
}
int
ips_error_xs(struct ips_softc *sc, struct ips_ccb *ccb)
{
struct ips_cmdb *cmdb = ccb->c_cmdbva;
struct ips_dcdb *dcdb = &cmdb->dcdb;
struct scsi_xfer *xs = ccb->c_xfer;
u_int8_t gsc = IPS_STAT_GSC(ccb->c_stat);
/* Map hardware error codes to SCSI ones */
switch (gsc) {
case IPS_STAT_OK:
case IPS_STAT_RECOV:
return (XS_NOERROR);
case IPS_STAT_BUSY:
return (XS_BUSY);
case IPS_STAT_TIMO:
return (XS_TIMEOUT);
case IPS_STAT_PDRVERR:
switch (ccb->c_estat) {
case IPS_ESTAT_SELTIMO:
return (XS_SELTIMEOUT);
case IPS_ESTAT_OURUN:
if (xs && letoh16(dcdb->datalen) < xs->datalen)
/* underrun */
return (XS_NOERROR);
break;
case IPS_ESTAT_HOSTRST:
case IPS_ESTAT_DEVRST:
return (XS_RESET);
case IPS_ESTAT_RECOV:
return (XS_NOERROR);
case IPS_ESTAT_CKCOND:
return (XS_SENSE);
}
break;
}
return (XS_DRIVER_STUFFUP);
}
int
ips_intr(void *arg)
{
struct ips_softc *sc = arg;
struct ips_ccb *ccb;
u_int32_t status;
int id;
DPRINTF(IPS_D_XFER, ("%s: ips_intr", sc->sc_dev.dv_xname));
if (!ips_isintr(sc)) {
DPRINTF(IPS_D_XFER, (": not ours\n"));
return (0);
}
DPRINTF(IPS_D_XFER, ("\n"));
/* Process completed commands */
while ((status = ips_status(sc)) != 0xffffffff) {
DPRINTF(IPS_D_XFER, ("%s: ips_intr: status 0x%08x\n",
sc->sc_dev.dv_xname, status));
id = IPS_STAT_ID(status);
if (id >= sc->sc_nccbs) {
DPRINTF(IPS_D_ERR, ("%s: ips_intr: invalid id %d\n",
sc->sc_dev.dv_xname, id));
continue;
}
ccb = &sc->sc_ccb[id];
if (ccb->c_state != IPS_CCB_QUEUED) {
DPRINTF(IPS_D_ERR, ("%s: ips_intr: cmd 0x%02x not "
"queued, state %d, status 0x%08x\n",
sc->sc_dev.dv_xname, ccb->c_id, ccb->c_state,
status));
continue;
}
ccb->c_state = IPS_CCB_DONE;
ccb->c_stat = IPS_STAT_BASIC(status);
ccb->c_estat = IPS_STAT_EXT(status);
if (ccb->c_flags & SCSI_POLL) {
wakeup(ccb);
} else {
ips_done(sc, ccb);
}
}
return (1);
}
void
ips_timeout(void *arg)
{
struct ips_ccb *ccb = arg;
struct ips_softc *sc = ccb->c_sc;
struct scsi_xfer *xs = ccb->c_xfer;
int s;
s = splbio();
if (xs)
sc_print_addr(xs->sc_link);
else
printf("%s: ", sc->sc_dev.dv_xname);
printf("timeout\n");
/*
* Command never completed. Fake hardware status byte
* to indicate timeout.
* XXX: need to remove command from controller.
*/
ccb->c_stat = IPS_STAT_TIMO;
ips_done(sc, ccb);
splx(s);
}
int
ips_getadapterinfo(struct ips_softc *sc, int flags)
{
struct ips_ccb *ccb;
struct ips_cmd *cmd;
ccb = scsi_io_get(&sc->sc_iopool, 0);
if (ccb == NULL)
return (1);
ccb->c_flags = SCSI_DATA_IN | SCSI_POLL | flags;
ccb->c_done = ips_done_mgmt;
cmd = ccb->c_cmdbva;
cmd->code = IPS_CMD_GETADAPTERINFO;
cmd->sgaddr = htole32(sc->sc_infom.dm_paddr + offsetof(struct ips_info,
adapter));
return (ips_cmd(sc, ccb));
}
int
ips_getdriveinfo(struct ips_softc *sc, int flags)
{
struct ips_ccb *ccb;
struct ips_cmd *cmd;
ccb = scsi_io_get(&sc->sc_iopool, 0);
if (ccb == NULL)
return (1);
ccb->c_flags = SCSI_DATA_IN | SCSI_POLL | flags;
ccb->c_done = ips_done_mgmt;
cmd = ccb->c_cmdbva;
cmd->code = IPS_CMD_GETDRIVEINFO;
cmd->sgaddr = htole32(sc->sc_infom.dm_paddr + offsetof(struct ips_info,
drive));
return (ips_cmd(sc, ccb));
}
int
ips_getconf(struct ips_softc *sc, int flags)
{
struct ips_ccb *ccb;
struct ips_cmd *cmd;
ccb = scsi_io_get(&sc->sc_iopool, 0);
if (ccb == NULL)
return (1);
ccb->c_flags = SCSI_DATA_IN | SCSI_POLL | flags;
ccb->c_done = ips_done_mgmt;
cmd = ccb->c_cmdbva;
cmd->code = IPS_CMD_READCONF;
cmd->sgaddr = htole32(sc->sc_infom.dm_paddr + offsetof(struct ips_info,
conf));
return (ips_cmd(sc, ccb));
}
int
ips_getpg5(struct ips_softc *sc, int flags)
{
struct ips_ccb *ccb;
struct ips_cmd *cmd;
ccb = scsi_io_get(&sc->sc_iopool, 0);
if (ccb == NULL)
return (1);
ccb->c_flags = SCSI_DATA_IN | SCSI_POLL | flags;
ccb->c_done = ips_done_mgmt;
cmd = ccb->c_cmdbva;
cmd->code = IPS_CMD_RWNVRAM;
cmd->drive = 5;
cmd->sgaddr = htole32(sc->sc_infom.dm_paddr + offsetof(struct ips_info,
pg5));
return (ips_cmd(sc, ccb));
}
#if NBIO > 0
int
ips_getrblstat(struct ips_softc *sc, int flags)
{
struct ips_ccb *ccb;
struct ips_cmd *cmd;
ccb = scsi_io_get(&sc->sc_iopool, 0);
if (ccb == NULL)
return (1);
ccb->c_flags = SCSI_DATA_IN | SCSI_POLL | flags;
ccb->c_done = ips_done_mgmt;
cmd = ccb->c_cmdbva;
cmd->code = IPS_CMD_REBUILDSTATUS;
cmd->sgaddr = htole32(sc->sc_infom.dm_paddr + offsetof(struct ips_info,
rblstat));
return (ips_cmd(sc, ccb));
}
int
ips_setstate(struct ips_softc *sc, int chan, int target, int state, int flags)
{
struct ips_ccb *ccb;
struct ips_cmd *cmd;
ccb = scsi_io_get(&sc->sc_iopool, 0);
if (ccb == NULL)
return (1);
ccb->c_flags = SCSI_POLL | flags;
ccb->c_done = ips_done_mgmt;
cmd = ccb->c_cmdbva;
cmd->code = IPS_CMD_SETSTATE;
cmd->drive = chan;
cmd->sgcnt = target;
cmd->seg4g = state;
return (ips_cmd(sc, ccb));
}
int
ips_rebuild(struct ips_softc *sc, int chan, int target, int nchan,
int ntarget, int flags)
{
struct ips_ccb *ccb;
struct ips_cmd *cmd;
ccb = scsi_io_get(&sc->sc_iopool, 0);
if (ccb == NULL)
return (1);
ccb->c_flags = SCSI_POLL | flags;
ccb->c_done = ips_done_mgmt;
cmd = ccb->c_cmdbva;
cmd->code = IPS_CMD_REBUILD;
cmd->drive = chan;
cmd->sgcnt = target;
cmd->seccnt = htole16(ntarget << 8 | nchan);
return (ips_cmd(sc, ccb));
}
#endif /* NBIO > 0 */
void
ips_copperhead_exec(struct ips_softc *sc, struct ips_ccb *ccb)
{
u_int32_t reg;
int timeout;
for (timeout = 100; timeout-- > 0; delay(100)) {
reg = bus_space_read_4(sc->sc_iot, sc->sc_ioh, IPS_REG_CCC);
if ((reg & IPS_REG_CCC_SEM) == 0)
break;
}
if (timeout < 0) {
printf("%s: semaphore timeout\n", sc->sc_dev.dv_xname);
return;
}
bus_space_write_4(sc->sc_iot, sc->sc_ioh, IPS_REG_CCSA, ccb->c_cmdbpa);
bus_space_write_2(sc->sc_iot, sc->sc_ioh, IPS_REG_CCC,
IPS_REG_CCC_START);
}
void
ips_copperhead_intren(struct ips_softc *sc)
{
bus_space_write_1(sc->sc_iot, sc->sc_ioh, IPS_REG_HIS, IPS_REG_HIS_EN);
}
int
ips_copperhead_isintr(struct ips_softc *sc)
{
u_int8_t reg;
reg = bus_space_read_1(sc->sc_iot, sc->sc_ioh, IPS_REG_HIS);
bus_space_write_1(sc->sc_iot, sc->sc_ioh, IPS_REG_HIS, reg);
if (reg != 0xff && (reg & IPS_REG_HIS_SCE))
return (1);
return (0);
}
u_int32_t
ips_copperhead_status(struct ips_softc *sc)
{
u_int32_t sqhead, sqtail, status;
sqhead = bus_space_read_4(sc->sc_iot, sc->sc_ioh, IPS_REG_SQH);
DPRINTF(IPS_D_XFER, ("%s: sqhead 0x%08x, sqtail 0x%08lx\n",
sc->sc_dev.dv_xname, sqhead, sc->sc_sqtail));
sqtail = sc->sc_sqtail + sizeof(u_int32_t);
if (sqtail == sc->sc_sqm.dm_paddr + IPS_SQSZ)
sqtail = sc->sc_sqm.dm_paddr;
if (sqtail == sqhead)
return (0xffffffff);
sc->sc_sqtail = sqtail;
if (++sc->sc_sqidx == IPS_MAXCMDS)
sc->sc_sqidx = 0;
status = letoh32(sc->sc_sqbuf[sc->sc_sqidx]);
bus_space_write_4(sc->sc_iot, sc->sc_ioh, IPS_REG_SQT, sqtail);
return (status);
}
void
ips_morpheus_exec(struct ips_softc *sc, struct ips_ccb *ccb)
{
bus_space_write_4(sc->sc_iot, sc->sc_ioh, IPS_REG_IQP, ccb->c_cmdbpa);
}
void
ips_morpheus_intren(struct ips_softc *sc)
{
u_int32_t reg;
reg = bus_space_read_4(sc->sc_iot, sc->sc_ioh, IPS_REG_OIM);
reg &= ~IPS_REG_OIM_DS;
bus_space_write_4(sc->sc_iot, sc->sc_ioh, IPS_REG_OIM, reg);
}
int
ips_morpheus_isintr(struct ips_softc *sc)
{
return (bus_space_read_4(sc->sc_iot, sc->sc_ioh, IPS_REG_OIS) &
IPS_REG_OIS_PEND);
}
u_int32_t
ips_morpheus_status(struct ips_softc *sc)
{
u_int32_t reg;
reg = bus_space_read_4(sc->sc_iot, sc->sc_ioh, IPS_REG_OQP);
DPRINTF(IPS_D_XFER, ("%s: status 0x%08x\n", sc->sc_dev.dv_xname, reg));
return (reg);
}
struct ips_ccb *
ips_ccb_alloc(struct ips_softc *sc, int n)
{
struct ips_ccb *ccb;
int i;
if ((ccb = mallocarray(n, sizeof(*ccb), M_DEVBUF,
M_NOWAIT | M_ZERO)) == NULL)
return (NULL);
for (i = 0; i < n; i++) {
ccb[i].c_sc = sc;
ccb[i].c_id = i;
ccb[i].c_cmdbva = (char *)sc->sc_cmdbm.dm_vaddr +
i * sizeof(struct ips_cmdb);
ccb[i].c_cmdbpa = sc->sc_cmdbm.dm_paddr +
i * sizeof(struct ips_cmdb);
if (bus_dmamap_create(sc->sc_dmat, MAXPHYS, IPS_MAXSGS,
MAXPHYS, 0, BUS_DMA_NOWAIT | BUS_DMA_ALLOCNOW,
&ccb[i].c_dmam))
goto fail;
}
return (ccb);
fail:
for (; i > 0; i--)
bus_dmamap_destroy(sc->sc_dmat, ccb[i - 1].c_dmam);
free(ccb, M_DEVBUF, n * sizeof(*ccb));
return (NULL);
}
void
ips_ccb_free(struct ips_softc *sc, struct ips_ccb *ccb, int n)
{
int i;
for (i = 0; i < n; i++)
bus_dmamap_destroy(sc->sc_dmat, ccb[i - 1].c_dmam);
free(ccb, M_DEVBUF, n * sizeof(*ccb));
}
void *
ips_ccb_get(void *xsc)
{
struct ips_softc *sc = xsc;
struct ips_ccb *ccb;
mtx_enter(&sc->sc_ccb_mtx);
if ((ccb = SLIST_FIRST(&sc->sc_ccbq_free)) != NULL) {
SLIST_REMOVE_HEAD(&sc->sc_ccbq_free, c_link);
ccb->c_flags = 0;
ccb->c_xfer = NULL;
bzero(ccb->c_cmdbva, sizeof(struct ips_cmdb));
}
mtx_leave(&sc->sc_ccb_mtx);
return (ccb);
}
void
ips_ccb_put(void *xsc, void *xccb)
{
struct ips_softc *sc = xsc;
struct ips_ccb *ccb = xccb;
ccb->c_state = IPS_CCB_FREE;
mtx_enter(&sc->sc_ccb_mtx);
SLIST_INSERT_HEAD(&sc->sc_ccbq_free, ccb, c_link);
mtx_leave(&sc->sc_ccb_mtx);
}
int
ips_dmamem_alloc(struct dmamem *dm, bus_dma_tag_t tag, bus_size_t size)
{
int nsegs;
dm->dm_tag = tag;
dm->dm_size = size;
if (bus_dmamap_create(tag, size, 1, size, 0,
BUS_DMA_NOWAIT | BUS_DMA_ALLOCNOW, &dm->dm_map))
return (1);
if (bus_dmamem_alloc(tag, size, 0, 0, &dm->dm_seg, 1, &nsegs,
BUS_DMA_NOWAIT))
goto fail1;
if (bus_dmamem_map(tag, &dm->dm_seg, 1, size, (caddr_t *)&dm->dm_vaddr,
BUS_DMA_NOWAIT))
goto fail2;
if (bus_dmamap_load(tag, dm->dm_map, dm->dm_vaddr, size, NULL,
BUS_DMA_NOWAIT))
goto fail3;
return (0);
fail3:
bus_dmamem_unmap(tag, dm->dm_vaddr, size);
fail2:
bus_dmamem_free(tag, &dm->dm_seg, 1);
fail1:
bus_dmamap_destroy(tag, dm->dm_map);
return (1);
}
void
ips_dmamem_free(struct dmamem *dm)
{
bus_dmamap_unload(dm->dm_tag, dm->dm_map);
bus_dmamem_unmap(dm->dm_tag, dm->dm_vaddr, dm->dm_size);
bus_dmamem_free(dm->dm_tag, &dm->dm_seg, 1);
bus_dmamap_destroy(dm->dm_tag, dm->dm_map);
}
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