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freebsd-dev/sys/i386/isa/aha1742.c
Rodney W. Grimes f2ba1017cc Increase the timout on aha_send_mbox from 1ms to 3ms, needed to reliably 
run Exabyte 8505 on 1742's.  This may not be the final solution, but it
makes it work.  It may be better to change the DELAY(10) to DELAY(30)
inside the loop instead of increasing the loop count from 100 to 300.
1994-02-17 05:48:08 +00:00

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/*
* Written by Julian Elischer (julian@tfs.com)
* for TRW Financial Systems for use under the MACH(2.5) operating system.
*
* TRW Financial Systems, in accordance with their agreement with Carnegie
* Mellon University, makes this software available to CMU to distribute
* or use in any manner that they see fit as long as this message is kept with
* the software. For this reason TFS also grants any other persons or
* organisations permission to use or modify this software.
*
* TFS supplies this software to be publicly redistributed
* on the understanding that TFS is not responsible for the correct
* functioning of this software in any circumstances.
*
* commenced: Sun Sep 27 18:14:01 PDT 1992
*
* $Id: aha1742.c,v 1.14 1994/01/11 07:24:32 rgrimes Exp $
*/
#include <sys/types.h>
#ifdef KERNEL /* don't laugh, it compiles as a program too.. look */
#include <ahb.h>
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/errno.h>
#include <sys/ioctl.h>
#include <sys/malloc.h>
#include <sys/buf.h>
#include <sys/proc.h>
#include <sys/user.h>
#include <i386/include/pio.h>
#include <i386/isa/isa_device.h>
#endif /*KERNEL */
#include <scsi/scsi_all.h>
#include <scsi/scsiconf.h>
/* */
#ifdef KERNEL
# ifdef NetBSD
# ifdef DDB
int Debugger();
# else /* DDB */
#define Debugger() panic("should call debugger here (adaptec.c)")
# endif /* DDB */
# else
#include "ddb.h"
#endif /* netbsd */
#else /* KERNEL */
#define NAHB 1
#endif /* kernel */
#ifndef NetBSD
typedef timeout_func_t timeout_t;
#endif
typedef unsigned long int physaddr;
#include "kernel.h"
#define KVTOPHYS(x) vtophys(x)
#define AHB_ECB_MAX 32 /* store up to 32ECBs at any one time */
/* in aha1742 H/W ( Not MAX ? ) */
#define ECB_HASH_SIZE 32 /* when we have a physical addr. for */
/* a ecb and need to find the ecb in */
/* space, look it up in the hash table */
#define ECB_HASH_SHIFT 9 /* only hash on multiples of 512 */
#define ECB_HASH(x) ((((long int)(x))>>ECB_HASH_SHIFT) % ECB_HASH_SIZE)
#define AHB_NSEG 33 /* number of dma segments supported */
/*
* AHA1740 standard EISA Host ID regs (Offset from slot base)
*/
#define HID0 0xC80 /* 0,1: msb of ID2, 3-7: ID1 */
#define HID1 0xC81 /* 0-4: ID3, 4-7: LSB ID2 */
#define HID2 0xC82 /* product, 0=174[20] 1 = 1744 */
#define HID3 0xC83 /* firmware revision */
#define CHAR1(B1,B2) (((B1>>2) & 0x1F) | '@')
#define CHAR2(B1,B2) (((B1<<3) & 0x18) | ((B2>>5) & 0x7)|'@')
#define CHAR3(B1,B2) ((B2 & 0x1F) | '@')
/* AHA1740 EISA board control registers (Offset from slot base) */
#define EBCTRL 0xC84
#define CDEN 0x01
/*
* AHA1740 EISA board mode registers (Offset from slot base)
*/
#define PORTADDR 0xCC0
#define PORTADDR_ENHANCED 0x80
#define BIOSADDR 0xCC1
#define INTDEF 0xCC2
#define SCSIDEF 0xCC3
#define BUSDEF 0xCC4
#define RESV0 0xCC5
#define RESV1 0xCC6
#define RESV2 0xCC7
/**** bit definitions for INTDEF ****/
#define INT9 0x00
#define INT10 0x01
#define INT11 0x02
#define INT12 0x03
#define INT14 0x05
#define INT15 0x06
#define INTHIGH 0x08 /* int high=ACTIVE (else edge) */
#define INTEN 0x10
/**** bit definitions for SCSIDEF ****/
#define HSCSIID 0x0F /* our SCSI ID */
#define RSTPWR 0x10 /* reset scsi bus on power up or reset */
/**** bit definitions for BUSDEF ****/
#define B0uS 0x00 /* give up bus immediatly */
#define B4uS 0x01 /* delay 4uSec. */
#define B8uS 0x02
/*
* AHA1740 ENHANCED mode mailbox control regs (Offset from slot base)
*/
#define MBOXOUT0 0xCD0
#define MBOXOUT1 0xCD1
#define MBOXOUT2 0xCD2
#define MBOXOUT3 0xCD3
#define ATTN 0xCD4
#define G2CNTRL 0xCD5
#define G2INTST 0xCD6
#define G2STAT 0xCD7
#define MBOXIN0 0xCD8
#define MBOXIN1 0xCD9
#define MBOXIN2 0xCDA
#define MBOXIN3 0xCDB
#define G2STAT2 0xCDC
/*
* Bit definitions for the 5 control/status registers
*/
#define ATTN_TARGET 0x0F
#define ATTN_OPCODE 0xF0
#define OP_IMMED 0x10
#define AHB_TARG_RESET 0x80
#define OP_START_ECB 0x40
#define OP_ABORT_ECB 0x50
#define G2CNTRL_SET_HOST_READY 0x20
#define G2CNTRL_CLEAR_EISA_INT 0x40
#define G2CNTRL_HARD_RESET 0x80
#define G2INTST_TARGET 0x0F
#define G2INTST_INT_STAT 0xF0
#define AHB_ECB_OK 0x10
#define AHB_ECB_RECOVERED 0x50
#define AHB_HW_ERR 0x70
#define AHB_IMMED_OK 0xA0
#define AHB_ECB_ERR 0xC0
#define AHB_ASN 0xD0 /* for target mode */
#define AHB_IMMED_ERR 0xE0
#define G2STAT_BUSY 0x01
#define G2STAT_INT_PEND 0x02
#define G2STAT_MBOX_EMPTY 0x04
#define G2STAT2_HOST_READY 0x01
struct ahb_dma_seg {
physaddr addr;
long len;
};
struct ahb_ecb_status {
u_short status;
#define ST_DON 0x0001
#define ST_DU 0x0002
#define ST_QF 0x0008
#define ST_SC 0x0010
#define ST_DO 0x0020
#define ST_CH 0x0040
#define ST_INT 0x0080
#define ST_ASA 0x0100
#define ST_SNS 0x0200
#define ST_INI 0x0800
#define ST_ME 0x1000
#define ST_ECA 0x4000
u_char ha_status;
#define HS_OK 0x00
#define HS_CMD_ABORTED_HOST 0x04
#define HS_CMD_ABORTED_ADAPTER 0x05
#define HS_TIMED_OUT 0x11
#define HS_HARDWARE_ERR 0x20
#define HS_SCSI_RESET_ADAPTER 0x22
#define HS_SCSI_RESET_INCOMING 0x23
u_char targ_status;
#define TS_OK 0x00
#define TS_CHECK_CONDITION 0x02
#define TS_BUSY 0x08
u_long resid_count;
u_long resid_addr;
u_short addit_status;
u_char sense_len;
u_char unused[9];
u_char cdb[6];
};
struct ecb {
u_char opcode;
#define ECB_SCSI_OP 0x01
u_char:4;
u_char options:3;
u_char:1;
short opt1;
#define ECB_CNE 0x0001
#define ECB_DI 0x0080
#define ECB_SES 0x0400
#define ECB_S_G 0x1000
#define ECB_DSB 0x4000
#define ECB_ARS 0x8000
short opt2;
#define ECB_LUN 0x0007
#define ECB_TAG 0x0008
#define ECB_TT 0x0030
#define ECB_ND 0x0040
#define ECB_DAT 0x0100
#define ECB_DIR 0x0200
#define ECB_ST 0x0400
#define ECB_CHK 0x0800
#define ECB_REC 0x4000
#define ECB_NRB 0x8000
u_short unused1;
physaddr data;
u_long datalen;
physaddr status;
physaddr chain;
short unused2;
short unused3;
physaddr sense;
u_char senselen;
u_char cdblen;
short cksum;
u_char cdb[12];
/*-----------------end of hardware supported fields----------------*/
struct ecb *next; /* in free list */
struct scsi_xfer *xs; /* the scsi_xfer for this cmd */
int flags;
#define ECB_FREE 0
#define ECB_ACTIVE 1
#define ECB_ABORTED 2
#define ECB_IMMED 4
#define ECB_IMMED_FAIL 8
struct ahb_dma_seg ahb_dma[AHB_NSEG];
struct ahb_ecb_status ecb_status;
struct scsi_sense_data ecb_sense;
struct ecb *nexthash;
physaddr hashkey; /* physaddr of this struct */
};
struct ahb_data {
int flags;
#define AHB_INIT 0x01;
int baseport;
struct ecb *ecbhash[ECB_HASH_SIZE];
struct ecb *free_ecb;
int our_id; /* our scsi id */
int vect;
struct ecb *immed_ecb; /* an outstanding immediete command */
struct scsi_link sc_link;
int numecbs;
} *ahbdata[NAHB];
int ahbprobe();
int ahbprobe1 __P((struct isa_device *dev));
int ahb_attach();
int ahb_init __P((int unit));
int ahbintr();
int32 ahb_scsi_cmd();
void ahb_timeout(caddr_t, int);
void ahb_done();
struct ecb *cheat;
void ahb_free_ecb();
void ahbminphys();
struct ecb *ahb_ecb_phys_kv();
u_int32 ahb_adapter_info();
#define MAX_SLOTS 8 /* XXX should this be 16?? Need EISA spec */
static ahb_slot = 0; /* slot last board was found in */
static ahb_unit = 0;
int ahb_debug = 0;
#define AHB_SHOWECBS 0x01
#define AHB_SHOWINTS 0x02
#define AHB_SHOWCMDS 0x04
#define AHB_SHOWMISC 0x08
#define FAIL 1
#define SUCCESS 0
#define PAGESIZ 4096
#ifdef KERNEL
struct isa_driver ahbdriver =
{
ahbprobe,
ahb_attach,
"ahb"
};
struct scsi_adapter ahb_switch =
{
ahb_scsi_cmd,
ahbminphys,
0,
0,
ahb_adapter_info,
"ahb",
{ 0, 0 }
};
/* the below structure is so we have a default dev struct for our link struct */
struct scsi_device ahb_dev =
{
NULL, /* Use default error handler */
NULL, /* have a queue, served by this */
NULL, /* have no async handler */
NULL, /* Use default 'done' routine */
"ahb",
0,
{ 0, 0 }
};
#endif /*KERNEL */
#ifndef KERNEL
main()
{
printf("ahb_data size is %d\n", sizeof(struct ahb_data));
printf("ecb size is %d\n", sizeof(struct ecb));
}
#else /*KERNEL */
/*
* Function to send a command out through a mailbox
*/
void
ahb_send_mbox(int unit, int opcode, int target, struct ecb *ecb)
{
int port = ahbdata[unit]->baseport;
int wait = 300; /* 3ms should be enough */
int stport = port + G2STAT;
int s = splbio();
while (--wait) {
if ((inb(stport) & (G2STAT_BUSY | G2STAT_MBOX_EMPTY))
== (G2STAT_MBOX_EMPTY))
break;
DELAY(10);
}
if (wait == 0) {
printf("ahb%d: board not responding\n", unit);
Debugger("aha1742");
}
outl(port + MBOXOUT0, KVTOPHYS(ecb)); /* don't know this will work */
outb(port + ATTN, opcode | target);
splx(s);
}
/*
* Function to poll for command completion when in poll mode
*/
int
ahb_poll(int unit, int wait)
{ /* in msec */
struct ahb_data *ahb = ahbdata[unit];
int port = ahb->baseport;
int stport = port + G2STAT;
retry:
while (--wait) {
if (inb(stport) & G2STAT_INT_PEND)
break;
DELAY(1000);
} if (wait == 0) {
printf("ahb%d: board not responding\n", unit);
return (EIO);
}
if (cheat != ahb_ecb_phys_kv(ahb, inl(port + MBOXIN0))) {
printf("discarding %x ", inl(port + MBOXIN0));
outb(port + G2CNTRL, G2CNTRL_CLEAR_EISA_INT);
DELAY(50000);
goto retry;
}
/* don't know this will work */
ahbintr(unit);
return (0);
}
/*
* Function to send an immediate type command to the adapter
*/
void
ahb_send_immed(int unit, int target, u_long cmd)
{
int port = ahbdata[unit]->baseport;
int s = splbio();
int stport = port + G2STAT;
int wait = 100; /* 1 ms enough? */
while (--wait) {
if ((inb(stport) & (G2STAT_BUSY | G2STAT_MBOX_EMPTY))
== (G2STAT_MBOX_EMPTY))
break;
DELAY(10);
} if (wait == 0) {
printf("ahb%d: board not responding\n", unit);
Debugger("aha1742");
}
outl(port + MBOXOUT0, cmd); /* don't know this will work */
outb(port + G2CNTRL, G2CNTRL_SET_HOST_READY);
outb(port + ATTN, OP_IMMED | target);
splx(s);
}
/*
* Check the slots looking for a board we recognise
* If we find one, note it's address (slot) and call
* the actual probe routine to check it out.
*/
int
ahbprobe(dev)
struct isa_device *dev;
{
int port;
u_char byte1, byte2, byte3;
ahb_slot++;
while (ahb_slot <= MAX_SLOTS) {
port = 0x1000 * ahb_slot;
byte1 = inb(port + HID0);
byte2 = inb(port + HID1);
byte3 = inb(port + HID2);
if (byte1 == 0xff) {
ahb_slot++;
continue;
}
if ((CHAR1(byte1, byte2) == 'A')
&& (CHAR2(byte1, byte2) == 'D')
&& (CHAR3(byte1, byte2) == 'P')
&& ((byte3 == 0) || (byte3 == 1))) {
dev->id_iobase = port;
return ahbprobe1(dev);
}
ahb_slot++;
}
return 0;
}
/*
* Check if the device can be found at the port given
* and if so, set it up ready for further work
* as an argument, takes the isa_device structure from
* autoconf.c.
*/
int
ahbprobe1(dev)
struct isa_device *dev;
{
/*
* find unit and check we have that many defined
*/
int unit = ahb_unit;
struct ahb_data *ahb;
if (unit >= NAHB) {
printf("ahb: unit number (%d) too high\n", unit);
return 0;
}
dev->id_unit = unit;
/*
* Allocate a storage area for us
*/
if (ahbdata[unit]) {
printf("ahb%d: memory already allocated\n", unit);
return 0;
}
ahb = malloc(sizeof(struct ahb_data), M_TEMP, M_NOWAIT);
if (!ahb) {
printf("ahb%d: cannot malloc!\n", unit);
return 0;
}
bzero(ahb, sizeof(struct ahb_data));
ahbdata[unit] = ahb;
ahb->baseport = dev->id_iobase;
/*
* Try initialise a unit at this location
* sets up dma and bus speed, loads ahb->vect
*/
if (ahb_init(unit) != 0) {
ahbdata[unit] = NULL;
free(ahb, M_TEMP);
return (0);
}
/*
* If it's there, put in it's interrupt vectors
*/
dev->id_irq = (1 << ahb->vect);
dev->id_drq = -1; /* use EISA dma */
ahb_unit++;
return 0x1000;
}
/*
* Attach all the sub-devices we can find
*/
int
ahb_attach(dev)
struct isa_device *dev;
{
#ifdef NetBSD
int unit = dev->id_masunit;
#else
int unit = dev->id_unit;
#endif
struct ahb_data *ahb = ahbdata[unit];
/*
* fill in the prototype scsi_link.
*/
ahb->sc_link.adapter_unit = unit;
ahb->sc_link.adapter_targ = ahb->our_id;
ahb->sc_link.adapter = &ahb_switch;
ahb->sc_link.device = &ahb_dev;
/*
* ask the adapter what subunits are present
*/
scsi_attachdevs(&(ahb->sc_link));
return 1;
}
/*
* Return some information to the caller about
* the adapter and it's capabilities
*/
u_int32
ahb_adapter_info(unit)
int unit;
{
return (2); /* 2 outstanding requests at a time per device */
}
/*
* Catch an interrupt from the adaptor
*/
int
ahbintr(unit)
int unit;
{
struct ecb *ecb;
unsigned char stat;
u_char ahbstat;
int target;
long int mboxval;
struct ahb_data *ahb = ahbdata[unit];
int port = ahb->baseport;
#ifdef AHBDEBUG
printf("ahbintr ");
#endif /*AHBDEBUG */
while (inb(port + G2STAT) & G2STAT_INT_PEND) {
/*
* First get all the information and then
* acknowlege the interrupt
*/
ahbstat = inb(port + G2INTST);
target = ahbstat & G2INTST_TARGET;
stat = ahbstat & G2INTST_INT_STAT;
mboxval = inl(port + MBOXIN0); /* don't know this will work */
outb(port + G2CNTRL, G2CNTRL_CLEAR_EISA_INT);
#ifdef AHBDEBUG
printf("status = 0x%x ", stat);
#endif /*AHBDEBUG */
/*
* Process the completed operation
*/
if (stat == AHB_ECB_OK) { /* common case is fast */
ecb = ahb_ecb_phys_kv(ahb, mboxval);
} else {
switch (stat) {
case AHB_IMMED_OK:
ecb = ahb->immed_ecb;
ahb->immed_ecb = 0;
break;
case AHB_IMMED_ERR:
ecb = ahb->immed_ecb;
ecb->flags |= ECB_IMMED_FAIL;
ahb->immed_ecb = 0;
break;
case AHB_ASN: /* for target mode */
printf("ahb%d: Unexpected ASN interrupt(%x)\n",
unit, mboxval);
ecb = 0;
break;
case AHB_HW_ERR:
printf("ahb%d: Hardware error interrupt(%x)\n",
unit, mboxval);
ecb = 0;
break;
case AHB_ECB_RECOVERED:
ecb = ahb_ecb_phys_kv(ahb, mboxval);
break;
case AHB_ECB_ERR:
ecb = ahb_ecb_phys_kv(ahb, mboxval);
break;
default:
printf(" Unknown return from ahb%d(%x)\n", unit, ahbstat);
ecb = 0;
}
} if (ecb) {
#ifdef AHBDEBUG
if (ahb_debug & AHB_SHOWCMDS) {
show_scsi_cmd(ecb->xs);
}
if ((ahb_debug & AHB_SHOWECBS) && ecb)
printf("<int ecb(%x)>", ecb);
#endif /*AHBDEBUG */
untimeout((timeout_t)ahb_timeout, (caddr_t)ecb);
ahb_done(unit, ecb, ((stat == AHB_ECB_OK) ? SUCCESS : FAIL));
}
}
return 1;
}
/*
* We have a ecb which has been processed by the
* adaptor, now we look to see how the operation
* went.
*/
void
ahb_done(unit, ecb, state)
int unit, state;
struct ecb *ecb;
{
struct ahb_ecb_status *stat = &ecb->ecb_status;
struct scsi_sense_data *s1, *s2;
struct scsi_xfer *xs = ecb->xs;
SC_DEBUG(xs->sc_link, SDEV_DB2, ("ahb_done\n"));
/*
* Otherwise, put the results of the operation
* into the xfer and call whoever started it
*/
if (ecb->flags & ECB_IMMED) {
if (ecb->flags & ECB_IMMED_FAIL) {
xs->error = XS_DRIVER_STUFFUP;
}
goto done;
}
if ((state == SUCCESS) || (xs->flags & SCSI_ERR_OK)) { /* All went correctly OR errors expected */
xs->resid = 0;
xs->error = 0;
} else {
s1 = &(ecb->ecb_sense);
s2 = &(xs->sense);
if (stat->ha_status) {
switch (stat->ha_status) {
case HS_SCSI_RESET_ADAPTER:
break;
case HS_SCSI_RESET_INCOMING:
break;
case HS_CMD_ABORTED_HOST: /* No response */
case HS_CMD_ABORTED_ADAPTER: /* No response */
break;
case HS_TIMED_OUT: /* No response */
#ifdef AHBDEBUG
if (ahb_debug & AHB_SHOWMISC) {
printf("timeout reported back\n");
}
#endif /*AHBDEBUG */
xs->error = XS_TIMEOUT;
break;
default: /* Other scsi protocol messes */
xs->error = XS_DRIVER_STUFFUP;
#ifdef AHBDEBUG
if (ahb_debug & AHB_SHOWMISC) {
printf("unexpected ha_status: %x\n",
stat->ha_status);
}
#endif /*AHBDEBUG */
}
} else {
switch (stat->targ_status) {
case TS_CHECK_CONDITION:
/* structure copy!!!!! */
*s2 = *s1;
xs->error = XS_SENSE;
break;
case TS_BUSY:
xs->error = XS_BUSY;
break;
default:
#ifdef AHBDEBUG
if (ahb_debug & AHB_SHOWMISC) {
printf("unexpected targ_status: %x\n",
stat->targ_status);
}
#endif /*AHBDEBUG */
xs->error = XS_DRIVER_STUFFUP;
}
}
}
done: xs->flags |= ITSDONE;
ahb_free_ecb(unit, ecb, xs->flags);
scsi_done(xs);
}
/*
* A ecb (and hence a mbx-out is put onto the
* free list.
*/
void
ahb_free_ecb(unit, ecb, flags)
int unit, flags;
struct ecb *ecb;
{
unsigned int opri = 0;
struct ahb_data *ahb = ahbdata[unit];
if (!(flags & SCSI_NOMASK))
opri = splbio();
ecb->next = ahb->free_ecb;
ahb->free_ecb = ecb;
ecb->flags = ECB_FREE;
/*
* If there were none, wake abybody waiting for
* one to come free, starting with queued entries
*/
if (!ecb->next) {
wakeup((caddr_t)&ahb->free_ecb);
}
if (!(flags & SCSI_NOMASK))
splx(opri);
}
/*
* Get a free ecb
* If there are none, see if we can allocate a
* new one. If so, put it in the hash table too
* otherwise either return an error or sleep
*/
struct ecb *
ahb_get_ecb(unit, flags)
int unit, flags;
{
struct ahb_data *ahb = ahbdata[unit];
unsigned opri = 0;
struct ecb *ecbp;
int hashnum;
if (!(flags & SCSI_NOMASK))
opri = splbio();
/*
* If we can and have to, sleep waiting for one to come free
* but only if we can't allocate a new one.
*/
while (!(ecbp = ahb->free_ecb)) {
if (ahb->numecbs < AHB_ECB_MAX) {
ecbp = (struct ecb *) malloc(sizeof(struct ecb),
M_TEMP,
M_NOWAIT);
if (ecbp) {
bzero(ecbp, sizeof(struct ecb));
ahb->numecbs++;
ecbp->flags = ECB_ACTIVE;
/*
* put in the phystokv hash table
* Never gets taken out.
*/
ecbp->hashkey = KVTOPHYS(ecbp);
hashnum = ECB_HASH(ecbp->hashkey);
ecbp->nexthash = ahb->ecbhash[hashnum];
ahb->ecbhash[hashnum] = ecbp;
} else {
printf("ahb%d: Can't malloc ECB\n", unit);
} goto gottit;
} else {
if (!(flags & SCSI_NOSLEEP)) {
tsleep((caddr_t)&ahb->free_ecb, PRIBIO,
"ahbecb", 0);
}
}
} if (ecbp) {
/* Get ECB from from free list */
ahb->free_ecb = ecbp->next;
ecbp->flags = ECB_ACTIVE;
}
gottit: if (!(flags & SCSI_NOMASK))
splx(opri);
return (ecbp);
}
/*
* given a physical address, find the ecb that
* it corresponds to:
*/
struct ecb *
ahb_ecb_phys_kv(ahb, ecb_phys)
struct ahb_data *ahb;
physaddr ecb_phys;
{
int hashnum = ECB_HASH(ecb_phys);
struct ecb *ecbp = ahb->ecbhash[hashnum];
while (ecbp) {
if (ecbp->hashkey == ecb_phys)
break;
ecbp = ecbp->nexthash;
}
return ecbp;
}
/*
* Start the board, ready for normal operation
*/
int
ahb_init(unit)
int unit;
{
struct ahb_data *ahb = ahbdata[unit];
int port = ahb->baseport;
int intdef;
int wait = 1000; /* 1 sec enough? */
int i;
int stport = port + G2STAT;
#define NO_NO 1
#ifdef NO_NO
/*
* reset board, If it doesn't respond, assume
* that it's not there.. good for the probe
*/
outb(port + EBCTRL, CDEN); /* enable full card */
outb(port + PORTADDR, PORTADDR_ENHANCED);
outb(port + G2CNTRL, G2CNTRL_HARD_RESET);
DELAY(1000);
outb(port + G2CNTRL, 0);
DELAY(10000);
while (--wait) {
if ((inb(stport) & G2STAT_BUSY) == 0)
break;
DELAY(1000);
} if (wait == 0) {
#ifdef AHBDEBUG
if (ahb_debug & AHB_SHOWMISC)
printf("ahb_init: No answer from aha1742 board\n");
#endif /*AHBDEBUG */
return (ENXIO);
}
i = inb(port + MBOXIN0) & 0xff;
if (i) {
printf("self test failed, val = 0x%x\n", i);
return (EIO);
}
#endif
while (inb(stport) & G2STAT_INT_PEND) {
printf(".");
outb(port + G2CNTRL, G2CNTRL_CLEAR_EISA_INT);
DELAY(10000);
}
outb(port + EBCTRL, CDEN); /* enable full card */
outb(port + PORTADDR, PORTADDR_ENHANCED);
/*
* Assume we have a board at this stage
* setup dma channel from jumpers and save int
* level
*/
printf("ahb%d: reading board settings, ", unit);
intdef = inb(port + INTDEF);
switch (intdef & 0x07) {
case INT9:
ahb->vect = 9;
break;
case INT10:
ahb->vect = 10;
break;
case INT11:
ahb->vect = 11;
break;
case INT12:
ahb->vect = 12;
break;
case INT14:
ahb->vect = 14;
break;
case INT15:
ahb->vect = 15;
break;
default:
printf("illegal int setting\n");
return (EIO);
}
printf("int=%d\n", ahb->vect);
outb(port + INTDEF, (intdef | INTEN)); /* make sure we can interrupt */
/* who are we on the scsi bus? */
ahb->our_id = (inb(port + SCSIDEF) & HSCSIID);
/*
* Note that we are going and return (to probe)
*/
ahb->flags |= AHB_INIT;
return (0);
}
#ifndef min
#define min(x,y) (x < y ? x : y)
#endif /* min */
void
ahbminphys(bp)
struct buf *bp;
{
if (bp->b_bcount > ((AHB_NSEG - 1) * PAGESIZ)) {
bp->b_bcount = ((AHB_NSEG - 1) * PAGESIZ);
}
}
/*
* start a scsi operation given the command and
* the data address. Also needs the unit, target
* and lu
*/
int32
ahb_scsi_cmd(xs)
struct scsi_xfer *xs;
{
struct ecb *ecb;
struct ahb_dma_seg *sg;
int seg; /* scatter gather seg being worked on */
int thiskv;
physaddr thisphys, nextphys;
int unit = xs->sc_link->adapter_unit;
int bytes_this_seg, bytes_this_page, datalen, flags;
struct ahb_data *ahb = ahbdata[unit];
int s;
SC_DEBUG(xs->sc_link, SDEV_DB2, ("ahb_scsi_cmd\n"));
/*
* get a ecb (mbox-out) to use. If the transfer
* is from a buf (possibly from interrupt time)
* then we can't allow it to sleep
*/
flags = xs->flags;
if (xs->bp)
flags |= (SCSI_NOSLEEP); /* just to be sure */
if (flags & ITSDONE) {
printf("ahb%d: Already done?", unit);
xs->flags &= ~ITSDONE;
}
if (!(flags & INUSE)) {
printf("ahb%d: Not in use?", unit);
xs->flags |= INUSE;
}
if (!(ecb = ahb_get_ecb(unit, flags))) {
xs->error = XS_DRIVER_STUFFUP;
return (TRY_AGAIN_LATER);
}
cheat = ecb;
SC_DEBUG(xs->sc_link, SDEV_DB3, ("start ecb(%x)\n", ecb));
ecb->xs = xs;
/*
* If it's a reset, we need to do an 'immediate'
* command, and store it's ecb for later
* if there is already an immediate waiting,
* then WE must wait
*/
if (flags & SCSI_RESET) {
ecb->flags |= ECB_IMMED;
if (ahb->immed_ecb) {
return (TRY_AGAIN_LATER);
}
ahb->immed_ecb = ecb;
if (!(flags & SCSI_NOMASK)) {
s = splbio();
ahb_send_immed(unit, xs->sc_link->target, AHB_TARG_RESET);
timeout(ahb_timeout, (caddr_t)ecb, (xs->timeout * hz) / 1000);
splx(s);
return (SUCCESSFULLY_QUEUED);
} else {
ahb_send_immed(unit, xs->sc_link->target, AHB_TARG_RESET);
/*
* If we can't use interrupts, poll on completion
*/
SC_DEBUG(xs->sc_link, SDEV_DB3, ("wait\n"));
if (ahb_poll(unit, xs->timeout)) {
ahb_free_ecb(unit, ecb, flags);
xs->error = XS_TIMEOUT;
return (HAD_ERROR);
}
return (COMPLETE);
}
}
/*
* Put all the arguments for the xfer in the ecb
*/
ecb->opcode = ECB_SCSI_OP;
ecb->opt1 = ECB_SES | ECB_DSB | ECB_ARS;
if (xs->datalen) {
ecb->opt1 |= ECB_S_G;
}
ecb->opt2 = xs->sc_link->lun | ECB_NRB;
ecb->cdblen = xs->cmdlen;
ecb->sense = KVTOPHYS(&(ecb->ecb_sense));
ecb->senselen = sizeof(ecb->ecb_sense);
ecb->status = KVTOPHYS(&(ecb->ecb_status));
if (xs->datalen) { /* should use S/G only if not zero length */
ecb->data = KVTOPHYS(ecb->ahb_dma);
sg = ecb->ahb_dma;
seg = 0;
#ifdef TFS
if (flags & SCSI_DATA_UIO) {
iovp = ((struct uio *) xs->data)->uio_iov;
datalen = ((struct uio *) xs->data)->uio_iovcnt;
xs->datalen = 0;
while ((datalen) && (seg < AHB_NSEG)) {
sg->addr = (physaddr) iovp->iov_base;
xs->datalen += sg->len = iovp->iov_len;
SC_DEBUGN(xs->sc_link, SDEV_DB4,
("(0x%x@0x%x)", iovp->iov_len
,iovp->iov_base));
sg++;
iovp++;
seg++;
datalen--;
}
}
else
#endif /*TFS */
{
/*
* Set up the scatter gather block
*/
SC_DEBUG(xs->sc_link, SDEV_DB4,
("%d @0x%x:- ", xs->datalen, xs->data));
datalen = xs->datalen;
thiskv = (int) xs->data;
thisphys = KVTOPHYS(thiskv);
while ((datalen) && (seg < AHB_NSEG)) {
bytes_this_seg = 0;
/* put in the base address */
sg->addr = thisphys;
SC_DEBUGN(xs->sc_link, SDEV_DB4, ("0x%x", thisphys));
/* do it at least once */
nextphys = thisphys;
while ((datalen) && (thisphys == nextphys)) {
/*
* This page is contiguous (physically) with
* the the last, just extend the length
*/
/* how far to the end of the page */
nextphys = (thisphys & (~(PAGESIZ - 1)))
+ PAGESIZ;
bytes_this_page = nextphys - thisphys;
/**** or the data ****/
bytes_this_page = min(bytes_this_page
,datalen);
bytes_this_seg += bytes_this_page;
datalen -= bytes_this_page;
/* get more ready for the next page */
thiskv = (thiskv & (~(PAGESIZ - 1)))
+ PAGESIZ;
if (datalen)
thisphys = KVTOPHYS(thiskv);
}
/*
* next page isn't contiguous, finish the seg
*/
SC_DEBUGN(xs->sc_link, SDEV_DB4,
("(0x%x)", bytes_this_seg));
sg->len = bytes_this_seg;
sg++;
seg++;
}
} /*end of iov/kv decision */
ecb->datalen = seg * sizeof(struct ahb_dma_seg);
SC_DEBUGN(xs->sc_link, SDEV_DB4, ("\n"));
if (datalen) { /* there's still data, must have run out of segs! */
printf("ahb_scsi_cmd%d: more than %d DMA segs\n",
unit, AHB_NSEG);
xs->error = XS_DRIVER_STUFFUP;
ahb_free_ecb(unit, ecb, flags);
return (HAD_ERROR);
}
} else { /* No data xfer, use non S/G values */
ecb->data = (physaddr) 0;
ecb->datalen = 0;
} ecb->chain = (physaddr) 0;
/*
* Put the scsi command in the ecb and start it
*/
bcopy(xs->cmd, ecb->cdb, xs->cmdlen);
/*
* Usually return SUCCESSFULLY QUEUED
*/
if (!(flags & SCSI_NOMASK)) {
s = splbio();
ahb_send_mbox(unit, OP_START_ECB, xs->sc_link->target, ecb);
timeout(ahb_timeout, (caddr_t)ecb, (xs->timeout * hz) / 1000);
splx(s);
SC_DEBUG(xs->sc_link, SDEV_DB3, ("cmd_sent\n"));
return (SUCCESSFULLY_QUEUED);
}
/*
* If we can't use interrupts, poll on completion
*/
ahb_send_mbox(unit, OP_START_ECB, xs->sc_link->target, ecb);
SC_DEBUG(xs->sc_link, SDEV_DB3, ("cmd_wait\n"));
do {
if (ahb_poll(unit, xs->timeout)) {
if (!(xs->flags & SCSI_SILENT))
printf("cmd fail\n");
ahb_send_mbox(unit, OP_ABORT_ECB, xs->sc_link->target, ecb);
if (ahb_poll(unit, 2000)) {
printf("abort failed in wait\n");
ahb_free_ecb(unit, ecb, flags);
}
xs->error = XS_DRIVER_STUFFUP;
return (HAD_ERROR);
}
} while (!(xs->flags & ITSDONE)); /* something (?) else finished */
if (xs->error) {
return (HAD_ERROR);
}
return (COMPLETE);
}
void
ahb_timeout(caddr_t arg1, int arg2)
{
struct ecb * ecb = (struct ecb *)arg1;
int unit;
struct ahb_data *ahb;
int s = splbio();
unit = ecb->xs->sc_link->adapter_unit;
ahb = ahbdata[unit];
printf("ahb%d:%d:%d (%s%d) timed out ", unit
,ecb->xs->sc_link->target
,ecb->xs->sc_link->lun
,ecb->xs->sc_link->device->name
,ecb->xs->sc_link->dev_unit);
#ifdef AHBDEBUG
if (ahb_debug & AHB_SHOWECBS)
ahb_print_active_ecb(unit);
#endif /*AHBDEBUG */
/*
* If it's immediate, don't try abort it
*/
if (ecb->flags & ECB_IMMED) {
ecb->xs->retries = 0; /* I MEAN IT ! */
ecb->flags |= ECB_IMMED_FAIL;
ahb_done(unit, ecb, FAIL);
splx(s);
return;
}
/*
* If it has been through before, then
* a previous abort has failed, don't
* try abort again
*/
if (ecb->flags == ECB_ABORTED) {
/*
* abort timed out
*/
printf("AGAIN");
ecb->xs->retries = 0; /* I MEAN IT ! */
ecb->ecb_status.ha_status = HS_CMD_ABORTED_HOST;
ahb_done(unit, ecb, FAIL);
} else { /* abort the operation that has timed out */
printf("\n");
ahb_send_mbox(unit, OP_ABORT_ECB, ecb->xs->sc_link->target, ecb);
/* 2 secs for the abort */
timeout(ahb_timeout, (caddr_t)ecb, 2 * hz);
ecb->flags = ECB_ABORTED;
}
splx(s);
}
#ifdef AHBDEBUG
void
ahb_print_ecb(ecb)
struct ecb *ecb;
{
printf("ecb:%x op:%x cmdlen:%d senlen:%d\n"
,ecb
,ecb->opcode
,ecb->cdblen
,ecb->senselen);
printf(" datlen:%d hstat:%x tstat:%x flags:%x\n"
,ecb->datalen
,ecb->ecb_status.ha_status
,ecb->ecb_status.targ_status
,ecb->flags);
show_scsi_cmd(ecb->xs);
}
void
ahb_print_active_ecb(int unit)
{
struct ahb_data *ahb = ahbdata[unit];
struct ecb *ecb;
int i = 0;
while (i < ECB_HASH_SIZE) {
ecb = ahb->ecbhash[i];
while (ecb) {
if (ecb->flags != ECB_FREE) {
ahb_print_ecb(ecb);
}
ecb = ecb->nexthash;
} i++;
}
}
#endif /*AHBDEBUG */
#endif /*KERNEL */
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