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1622 1623 1624 1625 1626 1627 1628 1629 1630 1631 1632 1633 1634 1635 1636 1637 1638 1639 1640 1641 1642 1643 1644 1645 1646 1647 1648 1649 1650 1651 1652 1653 1654 1655 1656 1657 1658 1659 1660 1661 1662 1663 1664 1665 1666 1667 1668 1669 1670 1671 1672 1673 1674 1675 1676 1677 1678 1679 1680 1681 1682 1683 1684 1685 1686 1687 1688 1689 1690 1691 1692 1693 1694 1695 1696 1697 1698 1699 1700 1701 1702 1703 1704 1705 1706 1707 1708 1709 1710 | /* * seagate.c Copyright (C) 1992, 1993 Drew Eckhardt * low level scsi driver for ST01/ST02, Future Domain TMC-885, * TMC-950 by * * Drew Eckhardt * * <drew@colorado.edu> * * Note : TMC-880 boards don't work because they have two bits in * the status register flipped, I'll fix this "RSN" * * This card does all the I/O via memory mapped I/O, so there is no need * to check or snarf a region of the I/O address space. */ /* * Configuration : * To use without BIOS -DOVERRIDE=base_address -DCONTROLLER=FD or SEAGATE * -DIRQ will override the default of 5. * Note: You can now set these options from the kernel's "command line". * The syntax is: * * st0x=ADDRESS,IRQ (for a Seagate controller) * or: * tmc8xx=ADDRESS,IRQ (for a TMC-8xx or TMC-950 controller) * eg: * tmc8xx=0xC8000,15 * * will configure the driver for a TMC-8xx style controller using IRQ 15 * with a base address of 0xC8000. * * -DFAST or -DFAST32 will use blind transfers where possible * * -DARBITRATE will cause the host adapter to arbitrate for the * bus for better SCSI-II compatibility, rather than just * waiting for BUS FREE and then doing its thing. Should * let us do one command per Lun when I integrate my * reorganization changes into the distribution sources. * * -DSLOW_HANDSHAKE will allow compatibility with broken devices that don't * handshake fast enough (ie, some CD ROM's) for the Seagate * code. * * -DSLOW_RATE=x, x some number will let you specify a default * transfer rate if handshaking isn't working correctly. */ #ifdef MODULE #include <linux/module.h> #endif #include <asm/io.h> #include <asm/system.h> #include <linux/signal.h> #include <linux/sched.h> #include <linux/string.h> #include <linux/config.h> #include <linux/proc_fs.h> #include "../block/blk.h" #include "scsi.h" #include "hosts.h" #include "seagate.h" #include "constants.h" #ifndef IRQ #define IRQ 5 #endif #if (defined(FAST32) && !defined(FAST)) #define FAST #endif #if defined(SLOW_RATE) && !defined(SLOW_HANDSHAKE) #define SLOW_HANDSHAKE #endif #if defined(SLOW_HANDSHAKE) && !defined(SLOW_RATE) #define SLOW_RATE 50 #endif #if defined(LINKED) #undef LINKED /* Linked commands are currently broken ! */ #endif static int internal_command(unsigned char target, unsigned char lun, const void *cmnd, void *buff, int bufflen, int reselect); static int incommand; /* set if arbitration has finished and we are in some command phase. */ static const void *base_address = NULL; /* Where the card ROM starts, used to calculate memory mapped register location. */ #ifdef notyet static volatile int abort_confirm = 0; #endif static volatile void *st0x_cr_sr; /* control register write, status register read. 256 bytes in length. Read is status of SCSI BUS, as per STAT masks. */ static volatile void *st0x_dr; /* data register, read write 256 bytes in length. */ static volatile int st0x_aborted=0; /* set when we are aborted, ie by a time out, etc. */ static unsigned char controller_type = 0; /* set to SEAGATE for ST0x boards or FD for TMC-8xx boards */ static unsigned char irq = IRQ; #define retcode(result) (((result) << 16) | (message << 8) | status) #define STATUS (*(volatile unsigned char *) st0x_cr_sr) #define CONTROL STATUS #define DATA (*(volatile unsigned char *) st0x_dr) void st0x_setup (char *str, int *ints) { controller_type = SEAGATE; base_address = (void *) ints[1]; irq = ints[2]; } void tmc8xx_setup (char *str, int *ints) { controller_type = FD; base_address = (void *) ints[1]; irq = ints[2]; } #ifndef OVERRIDE static const char * seagate_bases[] = { (char *) 0xc8000, (char *) 0xca000, (char *) 0xcc000, (char *) 0xce000, (char *) 0xdc000, (char *) 0xde000 }; typedef struct { const char *signature ; unsigned offset; unsigned length; unsigned char type; } Signature; static const Signature signatures[] = { #ifdef CONFIG_SCSI_SEAGATE {"ST01 v1.7 (C) Copyright 1987 Seagate", 15, 37, SEAGATE}, {"SCSI BIOS 2.00 (C) Copyright 1987 Seagate", 15, 40, SEAGATE}, /* * The following two lines are NOT mistakes. One detects ROM revision * 3.0.0, the other 3.2. Since seagate has only one type of SCSI adapter, * and this is not going to change, the "SEAGATE" and "SCSI" together * are probably "good enough" */ {"SEAGATE SCSI BIOS ",16, 17, SEAGATE}, {"SEAGATE SCSI BIOS ",17, 17, SEAGATE}, /* * However, future domain makes several incompatible SCSI boards, so specific * signatures must be used. */ {"FUTURE DOMAIN CORP. (C) 1986-1989 V5.0C2/14/89", 5, 46, FD}, {"FUTURE DOMAIN CORP. (C) 1986-1989 V6.0A7/28/89", 5, 46, FD}, {"FUTURE DOMAIN CORP. (C) 1986-1990 V6.0105/31/90",5, 47, FD}, {"FUTURE DOMAIN CORP. (C) 1986-1990 V6.0209/18/90",5, 47, FD}, {"FUTURE DOMAIN CORP. (C) 1986-1990 V7.009/18/90", 5, 46, FD}, {"FUTURE DOMAIN CORP. (C) 1992 V8.00.004/02/92", 5, 44, FD}, {"IBM F1 BIOS V1.1004/30/92", 5, 25, FD}, {"FUTURE DOMAIN TMC-950", 5, 21, FD}, #endif /* CONFIG_SCSI_SEAGATE */ } ; #define NUM_SIGNATURES (sizeof(signatures) / sizeof(Signature)) #endif /* n OVERRIDE */ /* * hostno stores the hostnumber, as told to us by the init routine. */ static int hostno = -1; static void seagate_reconnect_intr(int, struct pt_regs *); #ifdef FAST static int fast = 1; #endif #ifdef SLOW_HANDSHAKE /* * Support for broken devices : * The Seagate board has a handshaking problem. Namely, a lack * thereof for slow devices. You can blast 600K/second through * it if you are polling for each byte, more if you do a blind * transfer. In the first case, with a fast device, REQ will * transition high-low or high-low-high before your loop restarts * and you'll have no problems. In the second case, the board * will insert wait states for up to 13.2 usecs for REQ to * transition low->high, and everything will work. * * However, there's nothing in the state machine that says * you *HAVE* to see a high-low-high set of transitions before * sending the next byte, and slow things like the Trantor CD ROMS * will break because of this. * * So, we need to slow things down, which isn't as simple as it * seems. We can't slow things down period, because then people * who don't recompile their kernels will shoot me for ruining * their performance. We need to do it on a case per case basis. * * The best for performance will be to, only for borken devices * (this is stored on a per-target basis in the scsi_devices array) * * Wait for a low->high transition before continuing with that * transfer. If we timeout, continue anyways. We don't need * a long timeout, because REQ should only be asserted until the * corresponding ACK is received and processed. * * Note that we can't use the system timer for this, because of * resolution, and we *really* can't use the timer chip since * gettimeofday() and the beeper routines use that. So, * the best thing for us to do will be to calibrate a timing * loop in the initialization code using the timer chip before * gettimeofday() can screw with it. */ static int borken_calibration = 0; static void borken_init (void) { register int count = 0, start = jiffies + 1, stop = start + 25; while (jiffies < start); for (;jiffies < stop; ++count); /* * Ok, we now have a count for .25 seconds. Convert to a * count per second and divide by transfer rate in K. */ borken_calibration = (count * 4) / (SLOW_RATE*1024); if (borken_calibration < 1) borken_calibration = 1; #if (DEBUG & DEBUG_BORKEN) printk("scsi%d : borken calibrated to %dK/sec, %d cycles per transfer\n", hostno, BORKEN_RATE, borken_calibration); #endif } static inline void borken_wait(void) { register int count; for (count = borken_calibration; count && (STATUS & STAT_REQ); --count); #if (DEBUG & DEBUG_BORKEN) if (count) printk("scsi%d : borken timeout\n", hostno); #endif } #endif /* def SLOW_HANDSHAKE */ int seagate_st0x_detect (Scsi_Host_Template * tpnt) { struct Scsi_Host *instance; #ifndef OVERRIDE int i,j; #endif /* * First, we try for the manual override. */ #ifdef DEBUG printk("Autodetecting ST0x / TMC-8xx\n"); #endif if (hostno != -1) { printk ("ERROR : seagate_st0x_detect() called twice.\n"); return 0; } /* If the user specified the controller type from the command line, controller_type will be non-zero, so don't try and detect one */ if (!controller_type) { #ifdef OVERRIDE base_address = (void *) OVERRIDE; /* CONTROLLER is used to override controller (SEAGATE or FD). PM: 07/01/93 */ #ifdef CONTROLLER controller_type = CONTROLLER; #else #error Please use -DCONTROLLER=SEAGATE or -DCONTROLLER=FD to override controller type #endif /* CONTROLLER */ #ifdef DEBUG printk("Base address overridden to %x, controller type is %s\n", base_address,controller_type == SEAGATE ? "SEAGATE" : "FD"); #endif #else /* OVERRIDE */ /* * To detect this card, we simply look for the signature * from the BIOS version notice in all the possible locations * of the ROM's. This has a nice side effect of not trashing * any register locations that might be used by something else. * * XXX - note that we probably should be probing the address * space for the on-board RAM instead. */ for (i = 0; i < (sizeof (seagate_bases) / sizeof (char * )); ++i) for (j = 0; !base_address && j < NUM_SIGNATURES; ++j) if (!memcmp ((const void *) (seagate_bases[i] + signatures[j].offset), (const void *) signatures[j].signature, signatures[j].length)) { base_address = (const void *) seagate_bases[i]; controller_type = signatures[j].type; } #endif /* OVERRIDE */ } /* (! controller_type) */ tpnt->this_id = (controller_type == SEAGATE) ? 7 : 6; tpnt->name = (controller_type == SEAGATE) ? ST0X_ID_STR : FD_ID_STR; if (base_address) { st0x_cr_sr =(void *) (((const unsigned char *) base_address) + (controller_type == SEAGATE ? 0x1a00 : 0x1c00)); st0x_dr = (void *) (((const unsigned char *) base_address ) + (controller_type == SEAGATE ? 0x1c00 : 0x1e00)); #ifdef DEBUG printk("%s detected. Base address = %x, cr = %x, dr = %x\n", tpnt->name, base_address, st0x_cr_sr, st0x_dr); #endif /* * At all times, we will use IRQ 5. Should also check for IRQ3 if we * loose our first interrupt. */ instance = scsi_register(tpnt, 0); hostno = instance->host_no; if (request_irq((int) irq, seagate_reconnect_intr, SA_INTERRUPT, (controller_type == SEAGATE) ? "seagate" : "tmc-8xx")) { printk("scsi%d : unable to allocate IRQ%d\n", hostno, (int) irq); return 0; } #ifdef SLOW_HANDSHAKE borken_init(); #endif printk("%s options:" #ifdef ARBITRATE " ARBITRATE" #endif #ifdef SLOW_HANDSHAKE " SLOW_HANDSHAKE" #endif #ifdef FAST #ifdef FAST32 " FAST32" #else " FAST" #endif #endif #ifdef LINKED " LINKED" #endif "\n", tpnt->name); return 1; } else { #ifdef DEBUG printk("ST0x / TMC-8xx not detected.\n"); #endif return 0; } } const char *seagate_st0x_info(struct Scsi_Host * shpnt) { static char buffer[64]; sprintf(buffer, "%s at irq %d, address 0x%05X", (controller_type == SEAGATE) ? ST0X_ID_STR : FD_ID_STR, irq, (unsigned int)base_address); return buffer; } /* * These are our saved pointers for the outstanding command that is * waiting for a reconnect */ static unsigned char current_target, current_lun; static unsigned char *current_cmnd, *current_data; static int current_nobuffs; static struct scatterlist *current_buffer; static int current_bufflen; #ifdef LINKED /* * linked_connected indicates whether or not we are currently connected to * linked_target, linked_lun and in an INFORMATION TRANSFER phase, * using linked commands. */ static int linked_connected = 0; static unsigned char linked_target, linked_lun; #endif static void (*done_fn)(Scsi_Cmnd *) = NULL; static Scsi_Cmnd * SCint = NULL; /* * These control whether or not disconnect / reconnect will be attempted, * or are being attempted. */ #define NO_RECONNECT 0 #define RECONNECT_NOW 1 #define CAN_RECONNECT 2 #ifdef LINKED /* * LINKED_RIGHT indicates that we are currently connected to the correct target * for this command, LINKED_WRONG indicates that we are connected to the wrong * target. Note that these imply CAN_RECONNECT. */ #define LINKED_RIGHT 3 #define LINKED_WRONG 4 #endif /* * This determines if we are expecting to reconnect or not. */ static int should_reconnect = 0; /* * The seagate_reconnect_intr routine is called when a target reselects the * host adapter. This occurs on the interrupt triggered by the target * asserting SEL. */ static void seagate_reconnect_intr(int irq, struct pt_regs * regs) { int temp; Scsi_Cmnd * SCtmp; /* enable all other interrupts. */ sti(); #if (DEBUG & PHASE_RESELECT) printk("scsi%d : seagate_reconnect_intr() called\n", hostno); #endif if (!should_reconnect) printk("scsi%d: unexpected interrupt.\n", hostno); else { should_reconnect = 0; #if (DEBUG & PHASE_RESELECT) printk("scsi%d : internal_command(" "%d, %08x, %08x, %d, RECONNECT_NOW\n", hostno, current_target, current_data, current_bufflen); #endif temp = internal_command (current_target, current_lun, current_cmnd, current_data, current_bufflen, RECONNECT_NOW); if (msg_byte(temp) != DISCONNECT) { if (done_fn) { #if (DEBUG & PHASE_RESELECT) printk("scsi%d : done_fn(%d,%08x)", hostno, hostno, temp); #endif if(!SCint) panic("SCint == NULL in seagate"); SCtmp = SCint; SCint = NULL; SCtmp->result = temp; done_fn (SCtmp); } else printk("done_fn() not defined.\n"); } } } /* * The seagate_st0x_queue_command() function provides a queued interface * to the seagate SCSI driver. Basically, it just passes control onto the * seagate_command() function, after fixing it so that the done_fn() * is set to the one passed to the function. We have to be very careful, * because there are some commands on some devices that do not disconnect, * and if we simply call the done_fn when the command is done then another * command is started and queue_command is called again... We end up * overflowing the kernel stack, and this tends not to be such a good idea. */ static int recursion_depth = 0; int seagate_st0x_queue_command (Scsi_Cmnd * SCpnt, void (*done)(Scsi_Cmnd *)) { int result, reconnect; Scsi_Cmnd * SCtmp; done_fn = done; current_target = SCpnt->target; current_lun = SCpnt->lun; (const void *) current_cmnd = SCpnt->cmnd; current_data = (unsigned char *) SCpnt->request_buffer; current_bufflen = SCpnt->request_bufflen; SCint = SCpnt; if(recursion_depth) { return 0; }; recursion_depth++; do{ #ifdef LINKED /* * Set linked command bit in control field of SCSI command. */ current_cmnd[SCpnt->cmd_len] |= 0x01; if (linked_connected) { #if (DEBUG & DEBUG_LINKED) printk("scsi%d : using linked commands, current I_T_L nexus is ", hostno); #endif if ((linked_target == current_target) && (linked_lun == current_lun)) { #if (DEBUG & DEBUG_LINKED) printk("correct\n"); #endif reconnect = LINKED_RIGHT; } else { #if (DEBUG & DEBUG_LINKED) printk("incorrect\n"); #endif reconnect = LINKED_WRONG; } } else #endif /* LINKED */ reconnect = CAN_RECONNECT; result = internal_command (SCint->target, SCint->lun, SCint->cmnd, SCint->request_buffer, SCint->request_bufflen, reconnect); if (msg_byte(result) == DISCONNECT) break; SCtmp = SCint; SCint = NULL; SCtmp->result = result; done_fn (SCtmp); } while(SCint); recursion_depth--; return 0; } int seagate_st0x_command (Scsi_Cmnd * SCpnt) { return internal_command (SCpnt->target, SCpnt->lun, SCpnt->cmnd, SCpnt->request_buffer, SCpnt->request_bufflen, (int) NO_RECONNECT); } static int internal_command(unsigned char target, unsigned char lun, const void *cmnd, void *buff, int bufflen, int reselect) { int len = 0; unsigned char *data = NULL; struct scatterlist *buffer = NULL; int nobuffs = 0; int clock; int temp; #ifdef SLOW_HANDSHAKE int borken; /* Does the current target require Very Slow I/O ? */ #endif #if (DEBUG & PHASE_DATAIN) || (DEBUG & PHASE_DATOUT) int transfered = 0; #endif #if (((DEBUG & PHASE_ETC) == PHASE_ETC) || (DEBUG & PRINT_COMMAND) || \ (DEBUG & PHASE_EXIT)) int i; #endif #if ((DEBUG & PHASE_ETC) == PHASE_ETC) int phase=0, newphase; #endif int done = 0; unsigned char status = 0; unsigned char message = 0; register unsigned char status_read; unsigned transfersize = 0, underflow = 0; incommand = 0; st0x_aborted = 0; #ifdef SLOW_HANDSHAKE borken = (int) SCint->device->borken; #endif #if (DEBUG & PRINT_COMMAND) printk ("scsi%d : target = %d, command = ", hostno, target); print_command((unsigned char *) cmnd); printk("\n"); #endif #if (DEBUG & PHASE_RESELECT) switch (reselect) { case RECONNECT_NOW : printk("scsi%d : reconnecting\n", hostno); break; #ifdef LINKED case LINKED_RIGHT : printk("scsi%d : connected, can reconnect\n", hostno); break; case LINKED_WRONG : printk("scsi%d : connected to wrong target, can reconnect\n", hostno); break; #endif case CAN_RECONNECT : printk("scsi%d : allowed to reconnect\n", hostno); break; default : printk("scsi%d : not allowed to reconnect\n", hostno); } #endif if (target == (controller_type == SEAGATE ? 7 : 6)) return DID_BAD_TARGET; /* * We work it differently depending on if this is is "the first time," * or a reconnect. If this is a reselect phase, then SEL will * be asserted, and we must skip selection / arbitration phases. */ switch (reselect) { case RECONNECT_NOW: #if (DEBUG & PHASE_RESELECT) printk("scsi%d : phase RESELECT \n", hostno); #endif /* * At this point, we should find the logical or of our ID and the original * target's ID on the BUS, with BSY, SEL, and I/O signals asserted. * * After ARBITRATION phase is completed, only SEL, BSY, and the * target ID are asserted. A valid initiator ID is not on the bus * until IO is asserted, so we must wait for that. */ clock = jiffies + 10; for (;;) { temp = STATUS; if ((temp & STAT_IO) && !(temp & STAT_BSY)) break; if (jiffies > clock) { #if (DEBUG & PHASE_RESELECT) printk("scsi%d : RESELECT timed out while waiting for IO .\n", hostno); #endif return (DID_BAD_INTR << 16); } } /* * After I/O is asserted by the target, we can read our ID and its * ID off of the BUS. */ if (!((temp = DATA) & (controller_type == SEAGATE ? 0x80 : 0x40))) { #if (DEBUG & PHASE_RESELECT) printk("scsi%d : detected reconnect request to different target.\n" "\tData bus = %d\n", hostno, temp); #endif return (DID_BAD_INTR << 16); } if (!(temp & (1 << current_target))) { printk("scsi%d : Unexpected reselect interrupt. Data bus = %d\n", hostno, temp); return (DID_BAD_INTR << 16); } buffer=current_buffer; cmnd=current_cmnd; /* WDE add */ data=current_data; /* WDE add */ len=current_bufflen; /* WDE add */ nobuffs=current_nobuffs; /* * We have determined that we have been selected. At this point, * we must respond to the reselection by asserting BSY ourselves */ #if 1 CONTROL = (BASE_CMD | CMD_DRVR_ENABLE | CMD_BSY); #else CONTROL = (BASE_CMD | CMD_BSY); #endif /* * The target will drop SEL, and raise BSY, at which time we must drop * BSY. */ for (clock = jiffies + 10; (jiffies < clock) && (STATUS & STAT_SEL);); if (jiffies >= clock) { CONTROL = (BASE_CMD | CMD_INTR); #if (DEBUG & PHASE_RESELECT) printk("scsi%d : RESELECT timed out while waiting for SEL.\n", hostno); #endif return (DID_BAD_INTR << 16); } CONTROL = BASE_CMD; /* * At this point, we have connected with the target and can get * on with our lives. */ break; case CAN_RECONNECT: #ifdef LINKED /* * This is a bletcherous hack, just as bad as the Unix #! interpreter stuff. * If it turns out we are using the wrong I_T_L nexus, the easiest way to deal * with it is to go into our INFORMATION TRANSFER PHASE code, send a ABORT * message on MESSAGE OUT phase, and then loop back to here. */ connect_loop : #endif #if (DEBUG & PHASE_BUS_FREE) printk ("scsi%d : phase = BUS FREE \n", hostno); #endif /* * BUS FREE PHASE * * On entry, we make sure that the BUS is in a BUS FREE * phase, by insuring that both BSY and SEL are low for * at least one bus settle delay. Several reads help * eliminate wire glitch. */ clock = jiffies + ST0X_BUS_FREE_DELAY; #if !defined (ARBITRATE) while (((STATUS | STATUS | STATUS) & (STAT_BSY | STAT_SEL)) && (!st0x_aborted) && (jiffies < clock)); if (jiffies > clock) return retcode(DID_BUS_BUSY); else if (st0x_aborted) return retcode(st0x_aborted); #endif #if (DEBUG & PHASE_SELECTION) printk("scsi%d : phase = SELECTION\n", hostno); #endif clock = jiffies + ST0X_SELECTION_DELAY; /* * Arbitration/selection procedure : * 1. Disable drivers * 2. Write HOST adapter address bit * 3. Set start arbitration. * 4. We get either ARBITRATION COMPLETE or SELECT at this * point. * 5. OR our ID and targets on bus. * 6. Enable SCSI drivers and asserted SEL and ATTN */ #if defined(ARBITRATE) cli(); CONTROL = 0; DATA = (controller_type == SEAGATE) ? 0x80 : 0x40; CONTROL = CMD_START_ARB; sti(); while (!((status_read = STATUS) & (STAT_ARB_CMPL | STAT_SEL)) && (jiffies < clock) && !st0x_aborted); if (!(status_read & STAT_ARB_CMPL)) { #if (DEBUG & PHASE_SELECTION) if (status_read & STAT_SEL) printk("scsi%d : arbitration lost\n", hostno); else printk("scsi%d : arbitration timeout.\n", hostno); #endif CONTROL = BASE_CMD; return retcode(DID_NO_CONNECT); }; #if (DEBUG & PHASE_SELECTION) printk("scsi%d : arbitration complete\n", hostno); #endif #endif /* * When the SCSI device decides that we're gawking at it, it will * respond by asserting BUSY on the bus. * * Note : the Seagate ST-01/02 product manual says that we should * twiddle the DATA register before the control register. However, * this does not work reliably so we do it the other way around. * * Probably could be a problem with arbitration too, we really should * try this with a SCSI protocol or logic analyzer to see what is * going on. */ cli(); DATA = (unsigned char) ((1 << target) | (controller_type == SEAGATE ? 0x80 : 0x40)); CONTROL = BASE_CMD | CMD_DRVR_ENABLE | CMD_SEL | (reselect ? CMD_ATTN : 0); sti(); while (!((status_read = STATUS) & STAT_BSY) && (jiffies < clock) && !st0x_aborted) #if 0 && (DEBUG & PHASE_SELECTION) { temp = clock - jiffies; if (!(jiffies % 5)) printk("seagate_st0x_timeout : %d \r",temp); } printk("Done. \n"); printk("scsi%d : status = %02x, seagate_st0x_timeout = %d, aborted = %02x \n", hostno, status_read, temp, st0x_aborted); #else ; #endif if ((jiffies >= clock) && !(status_read & STAT_BSY)) { #if (DEBUG & PHASE_SELECTION) printk ("scsi%d : NO CONNECT with target %d, status = %x \n", hostno, target, STATUS); #endif return retcode(DID_NO_CONNECT); } /* * If we have been aborted, and we have a command in progress, IE the * target still has BSY asserted, then we will reset the bus, and * notify the midlevel driver to expect sense. */ if (st0x_aborted) { CONTROL = BASE_CMD; if (STATUS & STAT_BSY) { printk("scsi%d : BST asserted after we've been aborted.\n", hostno); seagate_st0x_reset(NULL); return retcode(DID_RESET); } return retcode(st0x_aborted); } /* Establish current pointers. Take into account scatter / gather */ if ((nobuffs = SCint->use_sg)) { #if (DEBUG & DEBUG_SG) { int i; printk("scsi%d : scatter gather requested, using %d buffers.\n", hostno, nobuffs); for (i = 0; i < nobuffs; ++i) printk("scsi%d : buffer %d address = %08x length = %d\n", hostno, i, buffer[i].address, buffer[i].length); } #endif buffer = (struct scatterlist *) SCint->buffer; len = buffer->length; data = (unsigned char *) buffer->address; } else { #if (DEBUG & DEBUG_SG) printk("scsi%d : scatter gather not requested.\n", hostno); #endif buffer = NULL; len = SCint->request_bufflen; data = (unsigned char *) SCint->request_buffer; } #if (DEBUG & (PHASE_DATAIN | PHASE_DATAOUT)) printk("scsi%d : len = %d\n", hostno, len); #endif break; #ifdef LINKED case LINKED_RIGHT: break; case LINKED_WRONG: break; #endif } /* * There are several conditions under which we wish to send a message : * 1. When we are allowing disconnect / reconnect, and need to establish * the I_T_L nexus via an IDENTIFY with the DiscPriv bit set. * * 2. When we are doing linked commands, are have the wrong I_T_L nexus * established and want to send an ABORT message. */ CONTROL = BASE_CMD | CMD_DRVR_ENABLE | (((reselect == CAN_RECONNECT) #ifdef LINKED || (reselect == LINKED_WRONG) #endif ) ? CMD_ATTN : 0) ; /* * INFORMATION TRANSFER PHASE * * The nasty looking read / write inline assembler loops we use for * DATAIN and DATAOUT phases are approximately 4-5 times as fast as * the 'C' versions - since we're moving 1024 bytes of data, this * really adds up. */ #if ((DEBUG & PHASE_ETC) == PHASE_ETC) printk("scsi%d : phase = INFORMATION TRANSFER\n", hostno); #endif incommand = 1; transfersize = SCint->transfersize; underflow = SCint->underflow; /* * Now, we poll the device for status information, * and handle any requests it makes. Note that since we are unsure of * how much data will be flowing across the system, etc and cannot * make reasonable timeouts, that we will instead have the midlevel * driver handle any timeouts that occur in this phase. */ while (((status_read = STATUS) & STAT_BSY) && !st0x_aborted && !done) { #ifdef PARITY if (status_read & STAT_PARITY) { printk("scsi%d : got parity error\n", hostno); st0x_aborted = DID_PARITY; } #endif if (status_read & STAT_REQ) { #if ((DEBUG & PHASE_ETC) == PHASE_ETC) if ((newphase = (status_read & REQ_MASK)) != phase) { phase = newphase; switch (phase) { case REQ_DATAOUT: printk("scsi%d : phase = DATA OUT\n", hostno); break; case REQ_DATAIN : printk("scsi%d : phase = DATA IN\n", hostno); break; case REQ_CMDOUT : printk("scsi%d : phase = COMMAND OUT\n", hostno); break; case REQ_STATIN : printk("scsi%d : phase = STATUS IN\n", hostno); break; case REQ_MSGOUT : printk("scsi%d : phase = MESSAGE OUT\n", hostno); break; case REQ_MSGIN : printk("scsi%d : phase = MESSAGE IN\n", hostno); break; default : printk("scsi%d : phase = UNKNOWN\n", hostno); st0x_aborted = DID_ERROR; } } #endif switch (status_read & REQ_MASK) { case REQ_DATAOUT : /* * If we are in fast mode, then we simply splat the data out * in word-sized chunks as fast as we can. */ #ifdef FAST if (!len) { #if 0 printk("scsi%d: underflow to target %d lun %d \n", hostno, target, lun); st0x_aborted = DID_ERROR; fast = 0; #endif break; } if (fast && transfersize && !(len % transfersize) && (len >= transfersize) #ifdef FAST32 && !(transfersize % 4) #endif ) { #if (DEBUG & DEBUG_FAST) printk("scsi%d : FAST transfer, underflow = %d, transfersize = %d\n" " len = %d, data = %08x\n", hostno, SCint->underflow, SCint->transfersize, len, data); #endif __asm__(" cld; " #ifdef FAST32 " shr $2, %%ecx; 1: lodsl; movl %%eax, (%%edi); " #else "1: lodsb; movb %%al, (%%edi); " #endif " loop 1b;" : : /* input */ "D" (st0x_dr), "S" (data), "c" (SCint->transfersize) : /* clobbered */ "eax", "ecx", "esi" ); len -= transfersize; data += transfersize; #if (DEBUG & DEBUG_FAST) printk("scsi%d : FAST transfer complete len = %d data = %08x\n", hostno, len, data); #endif } else #endif { /* * We loop as long as we are in a data out phase, there is data to send, * and BSY is still active. */ __asm__ ( /* Local variables : len = ecx data = esi st0x_cr_sr = ebx st0x_dr = edi Test for any data here at all. */ "\torl %%ecx, %%ecx jz 2f cld movl " SYMBOL_NAME_STR(st0x_cr_sr) ", %%ebx movl " SYMBOL_NAME_STR(st0x_dr) ", %%edi 1: movb (%%ebx), %%al\n" /* Test for BSY */ "\ttest $1, %%al jz 2f\n" /* Test for data out phase - STATUS & REQ_MASK should be REQ_DATAOUT, which is 0. */ "\ttest $0xe, %%al jnz 2f \n" /* Test for REQ */ "\ttest $0x10, %%al jz 1b lodsb movb %%al, (%%edi) loop 1b 2: ": /* output */ "=S" (data), "=c" (len) : /* input */ "0" (data), "1" (len) : /* clobbered */ "eax", "ebx", "edi"); } if (!len && nobuffs) { --nobuffs; ++buffer; len = buffer->length; data = (unsigned char *) buffer->address; #if (DEBUG & DEBUG_SG) printk("scsi%d : next scatter-gather buffer len = %d address = %08x\n", hostno, len, data); #endif } break; case REQ_DATAIN : #ifdef SLOW_HANDSHAKE if (borken) { #if (DEBUG & (PHASE_DATAIN)) transfered += len; #endif for (; len && (STATUS & (REQ_MASK | STAT_REQ)) == (REQ_DATAIN | STAT_REQ); --len) { *data++ = DATA; borken_wait(); } #if (DEBUG & (PHASE_DATAIN)) transfered -= len; #endif } else #endif #ifdef FAST if (fast && transfersize && !(len % transfersize) && (len >= transfersize) #ifdef FAST32 && !(transfersize % 4) #endif ) { #if (DEBUG & DEBUG_FAST) printk("scsi%d : FAST transfer, underflow = %d, transfersize = %d\n" " len = %d, data = %08x\n", hostno, SCint->underflow, SCint->transfersize, len, data); #endif __asm__(" cld; " #ifdef FAST32 " shr $2, %%ecx; 1: movl (%%esi), %%eax; stosl; " #else "1: movb (%%esi), %%al; stosb; " #endif " loop 1b;" : : /* input */ "S" (st0x_dr), "D" (data), "c" (SCint->transfersize) : /* clobbered */ "eax", "ecx", "edi"); len -= transfersize; data += transfersize; #if (DEBUG & PHASE_DATAIN) printk("scsi%d: transfered += %d\n", hostno, transfersize); transfered += transfersize; #endif #if (DEBUG & DEBUG_FAST) printk("scsi%d : FAST transfer complete len = %d data = %08x\n", hostno, len, data); #endif } else #endif { #if (DEBUG & PHASE_DATAIN) printk("scsi%d: transfered += %d\n", hostno, len); transfered += len; /* Assume we'll transfer it all, then subtract what we *didn't* transfer */ #endif /* * We loop as long as we are in a data in phase, there is room to read, * and BSY is still active */ __asm__ ( /* Local variables : ecx = len edi = data esi = st0x_cr_sr ebx = st0x_dr Test for room to read */ "\torl %%ecx, %%ecx jz 2f cld movl " SYMBOL_NAME_STR(st0x_cr_sr) ", %%esi movl " SYMBOL_NAME_STR(st0x_dr) ", %%ebx 1: movb (%%esi), %%al\n" /* Test for BSY */ "\ttest $1, %%al jz 2f\n" /* Test for data in phase - STATUS & REQ_MASK should be REQ_DATAIN, = STAT_IO, which is 4. */ "\tmovb $0xe, %%ah andb %%al, %%ah cmpb $0x04, %%ah jne 2f\n" /* Test for REQ */ "\ttest $0x10, %%al jz 1b movb (%%ebx), %%al stosb loop 1b\n" "2:\n" : /* output */ "=D" (data), "=c" (len) : /* input */ "0" (data), "1" (len) : /* clobbered */ "eax","ebx", "esi"); #if (DEBUG & PHASE_DATAIN) printk("scsi%d: transfered -= %d\n", hostno, len); transfered -= len; /* Since we assumed all of Len got * transfered, correct our mistake */ #endif } if (!len && nobuffs) { --nobuffs; ++buffer; len = buffer->length; data = (unsigned char *) buffer->address; #if (DEBUG & DEBUG_SG) printk("scsi%d : next scatter-gather buffer len = %d address = %08x\n", hostno, len, data); #endif } break; case REQ_CMDOUT : while (((status_read = STATUS) & STAT_BSY) && ((status_read & REQ_MASK) == REQ_CMDOUT)) if (status_read & STAT_REQ) { DATA = *(const unsigned char *) cmnd; cmnd = 1+(const unsigned char *) cmnd; #ifdef SLOW_HANDSHAKE if (borken) borken_wait(); #endif } break; case REQ_STATIN : status = DATA; break; case REQ_MSGOUT : /* * We can only have sent a MSG OUT if we requested to do this * by raising ATTN. So, we must drop ATTN. */ CONTROL = BASE_CMD | CMD_DRVR_ENABLE; /* * If we are reconnecting, then we must send an IDENTIFY message in * response to MSGOUT. */ switch (reselect) { case CAN_RECONNECT: DATA = IDENTIFY(1, lun); #if (DEBUG & (PHASE_RESELECT | PHASE_MSGOUT)) printk("scsi%d : sent IDENTIFY message.\n", hostno); #endif break; #ifdef LINKED case LINKED_WRONG: DATA = ABORT; linked_connected = 0; reselect = CAN_RECONNECT; goto connect_loop; #if (DEBUG & (PHASE_MSGOUT | DEBUG_LINKED)) printk("scsi%d : sent ABORT message to cancel incorrect I_T_L nexus.\n", hostno); #endif #endif /* LINKED */ #if (DEBUG & DEBUG_LINKED) printk("correct\n"); #endif default: DATA = NOP; printk("scsi%d : target %d requested MSGOUT, sent NOP message.\n", hostno, target); } break; case REQ_MSGIN : switch (message = DATA) { case DISCONNECT : should_reconnect = 1; current_data = data; /* WDE add */ current_buffer = buffer; current_bufflen = len; /* WDE add */ current_nobuffs = nobuffs; #ifdef LINKED linked_connected = 0; #endif done=1; #if (DEBUG & (PHASE_RESELECT | PHASE_MSGIN)) printk("scsi%d : disconnected.\n", hostno); #endif break; #ifdef LINKED case LINKED_CMD_COMPLETE: case LINKED_FLG_CMD_COMPLETE: #endif case COMMAND_COMPLETE : /* * Note : we should check for underflow here. */ #if (DEBUG & PHASE_MSGIN) printk("scsi%d : command complete.\n", hostno); #endif done = 1; break; case ABORT : #if (DEBUG & PHASE_MSGIN) printk("scsi%d : abort message.\n", hostno); #endif done=1; break; case SAVE_POINTERS : current_buffer = buffer; current_bufflen = len; /* WDE add */ current_data = data; /* WDE mod */ current_nobuffs = nobuffs; #if (DEBUG & PHASE_MSGIN) printk("scsi%d : pointers saved.\n", hostno); #endif break; case RESTORE_POINTERS: buffer=current_buffer; cmnd=current_cmnd; data=current_data; /* WDE mod */ len=current_bufflen; nobuffs=current_nobuffs; #if (DEBUG & PHASE_MSGIN) printk("scsi%d : pointers restored.\n", hostno); #endif break; default: /* * IDENTIFY distinguishes itself from the other messages by setting the * high byte. * * Note : we need to handle at least one outstanding command per LUN, * and need to hash the SCSI command for that I_T_L nexus based on the * known ID (at this point) and LUN. */ if (message & 0x80) { #if (DEBUG & PHASE_MSGIN) printk("scsi%d : IDENTIFY message received from id %d, lun %d.\n", hostno, target, message & 7); #endif } else { /* * We should go into a MESSAGE OUT phase, and send a MESSAGE_REJECT * if we run into a message that we don't like. The seagate driver * needs some serious restructuring first though. */ #if (DEBUG & PHASE_MSGIN) printk("scsi%d : unknown message %d from target %d.\n", hostno, message, target); #endif } } break; default : printk("scsi%d : unknown phase.\n", hostno); st0x_aborted = DID_ERROR; } #ifdef SLOW_HANDSHAKE /* * I really don't care to deal with borken devices in each single * byte transfer case (ie, message in, message out, status), so * I'll do the wait here if necessary. */ if (borken) borken_wait(); #endif } /* if ends */ } /* while ends */ #if (DEBUG & (PHASE_DATAIN | PHASE_DATAOUT | PHASE_EXIT)) printk("scsi%d : Transfered %d bytes\n", hostno, transfered); #endif #if (DEBUG & PHASE_EXIT) #if 0 /* Doesn't work for scatter / gather */ printk("Buffer : \n"); for (i = 0; i < 20; ++i) printk ("%02x ", ((unsigned char *) data)[i]); /* WDE mod */ printk("\n"); #endif printk("scsi%d : status = ", hostno); print_status(status); printk("message = %02x\n", message); #endif /* We shouldn't reach this until *after* BSY has been deasserted */ #ifdef notyet if (st0x_aborted) { if (STATUS & STAT_BSY) { seagate_st0x_reset(NULL); st0x_aborted = DID_RESET; } abort_confirm = 1; } #endif #ifdef LINKED else { /* * Fix the message byte so that unsuspecting high level drivers don't * puke when they see a LINKED COMMAND message in place of the COMMAND * COMPLETE they may be expecting. Shouldn't be necessary, but it's * better to be on the safe side. * * A non LINKED* message byte will indicate that the command completed, * and we are now disconnected. */ switch (message) { case LINKED_CMD_COMPLETE : case LINKED_FLG_CMD_COMPLETE : message = COMMAND_COMPLETE; linked_target = current_target; linked_lun = current_lun; linked_connected = 1; #if (DEBUG & DEBUG_LINKED) printk("scsi%d : keeping I_T_L nexus established for linked command.\n", hostno); #endif /* * We also will need to adjust status to accommodate intermediate conditions. */ if ((status == INTERMEDIATE_GOOD) || (status == INTERMEDIATE_C_GOOD)) status = GOOD; break; /* * We should also handle what are "normal" termination messages * here (ABORT, BUS_DEVICE_RESET?, and COMMAND_COMPLETE individually, * and flake if things aren't right. */ default : #if (DEBUG & DEBUG_LINKED) printk("scsi%d : closing I_T_L nexus.\n", hostno); #endif linked_connected = 0; } } #endif /* LINKED */ if (should_reconnect) { #if (DEBUG & PHASE_RESELECT) printk("scsi%d : exiting seagate_st0x_queue_command() with reconnect enabled.\n", hostno); #endif CONTROL = BASE_CMD | CMD_INTR ; } else CONTROL = BASE_CMD; return retcode (st0x_aborted); } int seagate_st0x_abort (Scsi_Cmnd * SCpnt) { st0x_aborted = DID_ABORT; return SCSI_ABORT_PENDING; } /* the seagate_st0x_reset function resets the SCSI bus */ int seagate_st0x_reset (Scsi_Cmnd * SCpnt) { unsigned clock; /* No timeouts - this command is going to fail because it was reset. */ #ifdef DEBUG printk("In seagate_st0x_reset()\n"); #endif /* assert RESET signal on SCSI bus. */ CONTROL = BASE_CMD | CMD_RST; clock=jiffies+2; /* Wait. */ while (jiffies < clock); CONTROL = BASE_CMD; st0x_aborted = DID_RESET; #ifdef DEBUG printk("SCSI bus reset.\n"); #endif return SCSI_RESET_WAKEUP; } #include <asm/segment.h> #include "sd.h" #include "scsi_ioctl.h" int seagate_st0x_biosparam(Disk * disk, int dev, int* ip) { unsigned char buf[256 + sizeof(int) * 2], cmd[6], *data, *page; int *sizes, result, formatted_sectors, total_sectors; int cylinders, heads, sectors; /* * Only SCSI-I CCS drives and later implement the necessary mode sense * pages. */ if (disk->device->scsi_level < 2) return -1; sizes = (int *) buf; data = (unsigned char *) (sizes + 2); cmd[0] = MODE_SENSE; cmd[1] = (disk->device->lun << 5) & 0xe5; cmd[2] = 0x04; /* Read page 4, rigid disk geometry page current values */ cmd[3] = 0; cmd[4] = 255; cmd[5] = 0; /* * We are transferring 0 bytes in the out direction, and expect to get back * 24 bytes for each mode page. */ sizes[0] = 0; sizes[1] = 256; memcpy (data, cmd, 6); if (!(result = kernel_scsi_ioctl (disk->device, SCSI_IOCTL_SEND_COMMAND, (void *) buf))) { /* * The mode page lies beyond the MODE SENSE header, with length 4, and * the BLOCK DESCRIPTOR, with length header[3]. */ page = data + 4 + data[3]; heads = (int) page[5]; cylinders = (page[2] << 16) | (page[3] << 8) | page[4]; cmd[2] = 0x03; /* Read page 3, format page current values */ memcpy (data, cmd, 6); if (!(result = kernel_scsi_ioctl (disk->device, SCSI_IOCTL_SEND_COMMAND, (void *) buf))) { page = data + 4 + data[3]; sectors = (page[10] << 8) | page[11]; /* * Get the total number of formatted sectors from the block descriptor, * so we can tell how many are being used for alternates. */ formatted_sectors = (data[4 + 1] << 16) | (data[4 + 2] << 8) | data[4 + 3] ; total_sectors = (heads * cylinders * sectors); /* * Adjust the real geometry by subtracting * (spare sectors / (heads * tracks)) cylinders from the number of cylinders. * * It appears that the CE cylinder CAN be a partial cylinder. */ printk("scsi%d : heads = %d cylinders = %d sectors = %d total = %d formatted = %d\n", hostno, heads, cylinders, sectors, total_sectors, formatted_sectors); if (!heads || !sectors || !cylinders) result = -1; else cylinders -= ((total_sectors - formatted_sectors) / (heads * sectors)); /* * Now, we need to do a sanity check on the geometry to see if it is * BIOS compatible. The maximum BIOS geometry is 1024 cylinders * * 256 heads * 64 sectors. */ if ((cylinders > 1024) || (sectors > 64)) result = -1; else { ip[0] = heads; ip[1] = sectors; ip[2] = cylinders; } /* * There should be an alternate mapping for things the seagate doesn't * understand, but I couldn't say what it is with reasonable certainty. */ } } return result; } #ifdef MODULE /* Eventually this will go into an include file, but this will be later */ Scsi_Host_Template driver_template = SEAGATE_ST0X; #include "scsi_module.c" #endif |