File: [local] / sys / dev / ic / gdtvar.h (download)
Revision 1.1, Tue Mar 4 16:10:35 2008 UTC (16 years, 2 months ago) by nbrk
Branch point for: MAIN
Initial revision
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/* $OpenBSD: gdtvar.h,v 1.13 2007/04/28 00:34:25 deraadt Exp $ */
/*
* Copyright (c) 1999, 2000 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.
*/
#define DEVNAME(s) ((s)->sc_dev.dv_xname)
#define GDT_CMD_RESERVE 4 /* Internal driver cmd reserve. */
#define GDT_IOCTL_DUMMY _IOWR('B', 32, struct gdt_dummy)
struct gdt_dummy {
void *cookie;
int x;
};
/* XXX Is this pragma necessary? */
#pragma pack(1)
#define GDT_SCRATCH_SZ 4096
#define GDT_IOCTL_GENERAL _IOWR('B', 33, gdt_ucmd_t) /* general IOCTL */
typedef struct gdt_ucmd {
void *cookie;
u_int16_t io_node;
u_int16_t service;
u_int32_t timeout;
u_int16_t status;
u_int32_t info;
u_int32_t BoardNode; /* board node (always 0) */
u_int32_t CommandIndex; /* command number */
u_int16_t OpCode; /* the command (READ,..) */
union {
struct {
u_int16_t DeviceNo; /* number of cache drive */
u_int32_t BlockNo; /* block number */
u_int32_t BlockCnt; /* block count */
void *DestAddr; /* data */
} cache; /* cache service cmd. str. */
struct {
u_int16_t param_size; /* size of p_param buffer */
u_int32_t subfunc; /* IOCTL function */
u_int32_t channel; /* device */
void *p_param; /* data */
} ioctl; /* IOCTL command structure */
struct {
u_int16_t reserved;
u_int32_t direction; /* data direction */
u_int32_t mdisc_time; /* disc. time (0: no timeout)*/
u_int32_t mcon_time; /* connect time(0: no to.) */
void *sdata; /* dest. addr. (if s/g: -1) */
u_int32_t sdlen; /* data length (bytes) */
u_int32_t clen; /* SCSI cmd. length(6,10,12) */
u_int8_t cmd[12]; /* SCSI command */
u_int8_t target; /* target ID */
u_int8_t lun; /* LUN */
u_int8_t bus; /* SCSI bus number */
u_int8_t priority; /* only 0 used */
u_int32_t sense_len; /* sense data length */
void *sense_data; /* sense data addr. */
u_int32_t link_p; /* linked cmds (not supp.) */
} raw; /* raw service cmd. struct. */
} u;
u_int8_t data[GDT_SCRATCH_SZ];
int complete_flag;
TAILQ_ENTRY(gdt_ucmd) links;
} gdt_ucmd_t;
#define GDT_IOCTL_DRVERS _IOWR('B', 34, int) /* get driver version */
typedef struct gdt_drvers {
void *cookie;
int vers;
} gdt_drvers_t;
#define GDT_IOCTL_CTRTYPE _IOR('B', 35, gdt_ctrt_t) /* get ctr. type */
typedef struct gdt_ctrt {
void *cookie;
u_int16_t io_node;
u_int16_t oem_id;
u_int16_t type;
u_int32_t info;
u_int8_t access;
u_int8_t remote;
u_int16_t ext_type;
u_int16_t device_id;
u_int16_t sub_device_id;
} gdt_ctrt_t;
#define GDT_IOCTL_OSVERS _IOR('B', 36, gdt_osv_t) /* get OS version */
typedef struct gdt_osv {
void *cookie;
u_int8_t oscode;
u_int8_t version;
u_int8_t subversion;
u_int16_t revision;
char name[64];
} gdt_osv_t;
#define GDT_IOCTL_CTRCNT _IOR('B', 37, int) /* get ctr. count */
typedef struct gdt_ctrcnt {
void *cookie;
int cnt;
} gdt_ctrcnt_t;
#define GDT_IOCTL_EVENT _IOWR('B', 38, gdt_event_t) /* get event */
typedef struct {
u_int16_t size; /* size of structure */
union {
char stream[16];
struct {
u_int16_t ionode;
u_int16_t service;
u_int32_t index;
} driver;
struct {
u_int16_t ionode;
u_int16_t service;
u_int16_t status;
u_int32_t info;
u_int8_t scsi_coord[3];
} async;
struct {
u_int16_t ionode;
u_int16_t service;
u_int16_t status;
u_int32_t info;
u_int16_t hostdrive;
u_int8_t scsi_coord[3];
u_int8_t sense_key;
} sync;
struct {
u_int32_t l1, l2, l3, l4;
} test;
} eu;
u_int32_t severity;
u_int8_t event_string[256];
} gdt_evt_data;
#define GDT_ES_ASYNC 1
#define GDT_ES_DRIVER 2
#define GDT_ES_TEST 3
#define GDT_ES_SYNC 4
/* dvrevt structure */
typedef struct {
u_int32_t first_stamp;
u_int32_t last_stamp;
u_int16_t same_count;
u_int16_t event_source;
u_int16_t event_idx;
u_int8_t application;
u_int8_t reserved;
gdt_evt_data event_data;
} gdt_evt_str;
typedef struct gdt_event {
void *cookie;
int erase;
int handle;
gdt_evt_str dvr;
} gdt_event_t;
#define GDT_IOCTL_STATIST _IOR('B', 39, gdt_statist_t) /* get statistics */
typedef struct gdt_statist {
void *cookie;
u_int16_t io_count_act;
u_int16_t io_count_max;
u_int16_t req_queue_act;
u_int16_t req_queue_max;
u_int16_t cmd_index_act;
u_int16_t cmd_index_max;
u_int16_t sg_count_act;
u_int16_t sg_count_max;
} gdt_statist_t;
#pragma pack()
#ifdef _KERNEL
/* Debugging */
/* #define GDT_DEBUG GDT_D_IOCTL | GDT_D_INFO */
#ifdef GDT_DEBUG
#define GDT_DPRINTF(mask, args) if (gdt_debug & (mask)) printf args
#define GDT_D_INTR 0x01
#define GDT_D_MISC 0x02
#define GDT_D_CMD 0x04
#define GDT_D_QUEUE 0x08
#define GDT_D_IO 0x10
#define GDT_D_IOCTL 0x20
#define GDT_D_INFO 0x40
extern int gdt_debug;
#else
#define GDT_DPRINTF(mask, args)
#endif
/* Miscellaneous constants */
#define GDT_RETRIES 100000000 /* 100000 * 1us = 100s */
#define GDT_TIMEOUT 100000000 /* 100000 * 1us = 100s */
#define GDT_POLL_TIMEOUT 10000000 /* 10000 * 1us = 10s */
#define GDT_WATCH_TIMEOUT 10000 /* 10000 * 1ms = 10s */
/* Context structure for interrupt services */
struct gdt_intr_ctx {
u_int32_t info, info2;
u_int16_t cmd_status, service;
u_int8_t istatus;
};
/*
* A command contol block, one for each corresponding command index of the
* controller.
*/
struct gdt_ccb {
TAILQ_ENTRY(gdt_ccb) gc_chain;
struct scsi_xfer *gc_xs;
struct gdt_ucmd *gc_ucmd;
bus_dmamap_t gc_dmamap_xfer;
int gc_timeout;
u_int32_t gc_info;
u_int32_t gc_blockno;
u_int32_t gc_blockcnt;
u_int16_t gc_status;
u_int8_t gc_service;
u_int8_t gc_cmd_index;
u_int8_t gc_flags;
#define GDT_GCF_CMD_MASK 0x3
#define GDT_GCF_UNUSED 0
#define GDT_GCF_INTERNAL 1
#define GDT_GCF_SCREEN 2
#define GDT_GCF_SCSI 3
#define GDT_GCF_WATCHDOG 0x4
};
static __inline__ int gdt_ccb_set_cmd(struct gdt_ccb *, int);
static __inline__ int
gdt_ccb_set_cmd(ccb, flag)
struct gdt_ccb *ccb;
int flag;
{
int rv = ccb->gc_flags & GDT_GCF_CMD_MASK;
ccb->gc_flags &= ~GDT_GCF_CMD_MASK;
ccb->gc_flags |= flag;
return (rv);
}
struct gdt_softc {
struct device sc_dev;
void *sc_ih;
struct scsi_link sc_link; /* Virtual SCSI bus for cache devs */
struct scsi_link *sc_raw_link; /* Raw SCSI busses */
int sc_class; /* Controller class */
#define GDT_ISA 0x01
#define GDT_EISA 0x02
#define GDT_PCI 0x03
#define GDT_PCINEW 0x04
#define GDT_MPR 0x05
#define GDT_CLASS_MASK 0x07
#define GDT_FC 0x10
#define GDT_CLASS(gdt) ((gdt)->sc_class & GDT_CLASS_MASK)
bus_space_tag_t sc_dpmemt;
bus_space_handle_t sc_dpmemh;
bus_addr_t sc_dpmembase;
bus_dma_tag_t sc_dmat;
/* XXX These could go into a class-dependent opaque struct instead */
bus_space_tag_t sc_iot;
bus_space_handle_t sc_ioh;
bus_addr_t sc_iobase;
u_int16_t sc_ic_all_size;
struct gdt_ccb sc_ccbs[GDT_MAXCMDS];
TAILQ_HEAD(, gdt_ccb) sc_free_ccb, sc_ccbq;
TAILQ_HEAD(, gdt_ucmd) sc_ucmdq;
LIST_HEAD(, scsi_xfer) sc_queue;
struct scsi_xfer *sc_queuelast;
int sc_ndevs;
u_int16_t sc_cmd_len;
u_int16_t sc_cmd_off;
u_int16_t sc_cmd_cnt;
u_int8_t sc_cmd[GDT_CMD_SZ];
u_int32_t sc_info;
u_int32_t sc_info2;
bus_dma_segment_t sc_scratch_seg;
caddr_t sc_scratch;
u_int16_t sc_status;
u_int8_t sc_bus_cnt;
u_int8_t sc_bus_id[GDT_MAXBUS];
u_int8_t sc_more_proc;
u_int32_t sc_total_disks;
struct {
u_int8_t hd_present;
u_int8_t hd_is_logdrv;
u_int8_t hd_is_arraydrv;
u_int8_t hd_is_master;
u_int8_t hd_is_parity;
u_int8_t hd_is_hotfix;
u_int8_t hd_master_no;
u_int8_t hd_lock;
u_int8_t hd_heads;
u_int8_t hd_secs;
u_int16_t hd_devtype;
u_int32_t hd_size;
u_int8_t hd_ldr_no;
u_int8_t hd_rw_attribs;
u_int32_t hd_start_sec;
} sc_hdr[GDT_MAX_HDRIVES];
struct {
u_int8_t ra_lock; /* chan locked? (hot plug */
u_int8_t ra_phys_cnt; /* physical disk count */
u_int8_t ra_local_no; /* local channel number */
u_int8_t ra_io_cnt[GDT_MAXID]; /* current IO count */
u_int32_t ra_address; /* channel address */
u_int32_t ra_id_list[GDT_MAXID]; /* IDs of phys disks */
} sc_raw[GDT_MAXBUS]; /* SCSI channels */
struct {
u_int32_t cp_version;
u_int16_t cp_state;
u_int16_t cp_strategy;
u_int16_t cp_write_back;
u_int16_t cp_block_size;
} sc_cpar;
struct {
u_int32_t bi_ser_no; /* serial number */
u_int8_t bi_oem_id[2]; /* u_int8_t OEM ID */
u_int16_t bi_ep_flags; /* eprom flags */
u_int32_t bi_proc_id; /* processor ID */
u_int32_t bi_memsize; /* memory size (bytes) */
u_int8_t bi_mem_banks; /* memory banks */
u_int8_t bi_chan_type; /* channel type */
u_int8_t bi_chan_count; /* channel count */
u_int8_t bi_rdongle_pres; /* dongle present */
u_int32_t bi_epr_fw_ver; /* (eprom) firmware ver */
u_int32_t bi_upd_fw_ver; /* (update) firmware ver */
u_int32_t bi_upd_revision; /* update revision */
char bi_type_string[16]; /* char controller name */
char bi_raid_string[16]; /* char RAID firmware name */
u_int8_t bi_update_pres; /* update present? */
u_int8_t bi_xor_pres; /* XOR engine present */
u_int8_t bi_prom_type; /* ROM type (eprom/flash) */
u_int8_t bi_prom_count; /* number of ROM devices */
u_int32_t bi_dup_pres; /* duplexing module pres? */
u_int32_t bi_chan_pres; /* # of exp. channels */
u_int32_t bi_mem_pres; /* memory expansion inst? */
u_int8_t bi_ft_bus_system; /* fault bus supported? */
u_int8_t bi_subtype_valid; /* board_subtype valid */
u_int8_t bi_board_subtype; /* subtype/hardware level */
u_int8_t bi_rampar_pres; /* RAM parity check hw? */
} sc_binfo;
struct {
u_int8_t bf_chaining; /* chaining supported */
u_int8_t bf_striping; /* striping (RAID-0) supported */
u_int8_t bf_mirroring; /* mirroring (RAID-1) supported */
u_int8_t bf_raid; /* RAID-4/5/10 supported */
} sc_bfeat;
u_int16_t sc_raw_feat;
u_int16_t sc_cache_feat;
void (*sc_copy_cmd)(struct gdt_softc *, struct gdt_ccb *);
u_int8_t (*sc_get_status)(struct gdt_softc *);
void (*sc_intr)(struct gdt_softc *, struct gdt_intr_ctx *);
void (*sc_release_event)(struct gdt_softc *, struct gdt_ccb *);
void (*sc_set_sema0)(struct gdt_softc *);
int (*sc_test_busy)(struct gdt_softc *);
};
void gdtminphys(struct buf *);
int gdt_attach(struct gdt_softc *);
int gdt_intr(void *);
#ifdef __GNUC__
/* These all require correctly aligned buffers */
static __inline__ void gdt_enc16(u_int8_t *, u_int16_t);
static __inline__ void gdt_enc32(u_int8_t *, u_int32_t);
static __inline__ u_int8_t gdt_dec8(u_int8_t *);
static __inline__ u_int16_t gdt_dec16(u_int8_t *);
static __inline__ u_int32_t gdt_dec32(u_int8_t *);
static __inline__ void
gdt_enc16(addr, value)
u_int8_t *addr;
u_int16_t value;
{
*(u_int16_t *)addr = htole16(value);
}
static __inline__ void
gdt_enc32(addr, value)
u_int8_t *addr;
u_int32_t value;
{
*(u_int32_t *)addr = htole32(value);
}
static __inline__ u_int8_t
gdt_dec8(addr)
u_int8_t *addr;
{
return *(u_int8_t *)addr;
}
static __inline__ u_int16_t
gdt_dec16(addr)
u_int8_t *addr;
{
return letoh16(*(u_int16_t *)addr);
}
static __inline__ u_int32_t
gdt_dec32(addr)
u_int8_t *addr;
{
return letoh32(*(u_int32_t *)addr);
}
#endif
extern u_int8_t gdt_polling;
#endif
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