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/*
* eata.c - Low-level driver for EATA/DMA SCSI host adapters.
*
* 16 Sep 1999 Rev. 5.11 for linux 2.2.12 and 2.3.18
* + Updated to the new __setup interface for boot command line options.
* + When loaded as a module, accepts the new parameter boot_options
* which value is a string with the same format of the kernel boot
* command line options. A valid example is:
* modprobe eata 'boot_options=\"0x7410,0x230,lc:y,tc:n,mq:4\"'
*
* 9 Sep 1999 Rev. 5.10 for linux 2.2.12 and 2.3.17
* + 64bit cleanup for Linux/Alpha platform support
* (contribution from H.J. Lu).
*
* 22 Jul 1999 Rev. 5.00 for linux 2.2.10 and 2.3.11
* + Removed pre-2.2 source code compatibility.
* + Added call to pci_set_master.
*
* 26 Jul 1998 Rev. 4.33 for linux 2.0.35 and 2.1.111
* + Added command line option (rs:[y|n]) to reverse the scan order
* of PCI boards. The default is rs:y, which reverses the BIOS order
* while registering PCI boards. The default value rs:y generates
* the same order of all previous revisions of this driver.
* Pls. note that "BIOS order" might have been reversed itself
* after the 2.1.9x PCI modifications in the linux kernel.
* The rs value is ignored when the explicit list of addresses
* is used by the "eata=port0,port1,..." command line option.
* + Added command line option (et:[y|n]) to force use of extended
* translation (255 heads, 63 sectors) as disk geometry.
* The default is et:n, which uses the disk geometry returned
* by scsicam_bios_param. The default value et:n is compatible with
* all previous revisions of this driver.
*
* 28 May 1998 Rev. 4.32 for linux 2.0.33 and 2.1.104
* Increased busy timeout from 10 msec. to 200 msec. while
* processing interrupts.
*
* 16 May 1998 Rev. 4.31 for linux 2.0.33 and 2.1.102
* Improved abort handling during the eh recovery process.
*
* 13 May 1998 Rev. 4.30 for linux 2.0.33 and 2.1.101
* The driver is now fully SMP safe, including the
* abort and reset routines.
* Added command line options (eh:[y|n]) to choose between
* new_eh_code and the old scsi code.
* If linux version >= 2.1.101 the default is eh:y, while the eh
* option is ignored for previous releases and the old scsi code
* is used.
*
* 18 Apr 1998 Rev. 4.20 for linux 2.0.33 and 2.1.97
* Reworked interrupt handler.
*
* 11 Apr 1998 rev. 4.05 for linux 2.0.33 and 2.1.95
* Major reliability improvement: when a batch with overlapping
* requests is detected, requests are queued one at a time
* eliminating any possible board or drive reordering.
*
* 10 Apr 1998 rev. 4.04 for linux 2.0.33 and 2.1.95
* Improved SMP support (if linux version >= 2.1.95).
*
* 9 Apr 1998 rev. 4.03 for linux 2.0.33 and 2.1.94
* Added support for new PCI code and IO-APIC remapping of irqs.
* Performance improvement: when sequential i/o is detected,
* always use direct sort instead of reverse sort.
*
* 4 Apr 1998 rev. 4.02 for linux 2.0.33 and 2.1.92
* io_port is now unsigned long.
*
* 17 Mar 1998 rev. 4.01 for linux 2.0.33 and 2.1.88
* Use new scsi error handling code (if linux version >= 2.1.88).
* Use new interrupt code.
*
* 12 Sep 1997 rev. 3.11 for linux 2.0.30 and 2.1.55
* Use of udelay inside the wait loops to avoid timeout
* problems with fast cpus.
* Removed check about useless calls to the interrupt service
* routine (reported on SMP systems only).
* At initialization time "sorted/unsorted" is displayed instead
* of "linked/unlinked" to reinforce the fact that "linking" is
* nothing but "elevator sorting" in the actual implementation.
*
* 17 May 1997 rev. 3.10 for linux 2.0.30 and 2.1.38
* Use of serial_number_at_timeout in abort and reset processing.
* Use of the __initfunc and __initdata macro in setup code.
* Minor cleanups in the list_statistics code.
* Increased controller busy timeout in order to better support
* slow SCSI devices.
*
* 24 Feb 1997 rev. 3.00 for linux 2.0.29 and 2.1.26
* When loading as a module, parameter passing is now supported
* both in 2.0 and in 2.1 style.
* Fixed data transfer direction for some SCSI opcodes.
* Immediate acknowledge to request sense commands.
* Linked commands to each disk device are now reordered by elevator
* sorting. Rare cases in which reordering of write requests could
* cause wrong results are managed.
* Fixed spurious timeouts caused by long simple queue tag sequences.
* New command line option (tm:[0-3]) to choose the type of tags:
* 0 -> mixed (default); 1 -> simple; 2 -> head; 3 -> ordered.
*
* 18 Jan 1997 rev. 2.60 for linux 2.1.21 and 2.0.28
* Added command line options to enable/disable linked commands
* (lc:[y|n]), tagged commands (tc:[y|n]) and to set the max queue
* depth (mq:xx). Default is "eata=lc:n,tc:n,mq:16".
* Improved command linking.
* Documented how to setup RAID-0 with DPT SmartRAID boards.
*
* 8 Jan 1997 rev. 2.50 for linux 2.1.20 and 2.0.27
* Added linked command support.
* Improved detection of PCI boards using ISA base addresses.
*
* 3 Dec 1996 rev. 2.40 for linux 2.1.14 and 2.0.27
* Added support for tagged commands and queue depth adjustment.
*
* 22 Nov 1996 rev. 2.30 for linux 2.1.12 and 2.0.26
* When CONFIG_PCI is defined, BIOS32 is used to include in the
* list of i/o ports to be probed all the PCI SCSI controllers.
* The list of i/o ports to be probed can be overwritten by the
* "eata=port0,port1,...." boot command line option.
* Scatter/gather lists are now allocated by a number of kmalloc
* calls, in order to avoid the previous size limit of 64Kb.
*
* 16 Nov 1996 rev. 2.20 for linux 2.1.10 and 2.0.25
* Added support for EATA 2.0C, PCI, multichannel and wide SCSI.
*
* 27 Sep 1996 rev. 2.12 for linux 2.1.0
* Portability cleanups (virtual/bus addressing, little/big endian
* support).
*
* 09 Jul 1996 rev. 2.11 for linux 2.0.4
* Number of internal retries is now limited.
*
* 16 Apr 1996 rev. 2.10 for linux 1.3.90
* New argument "reset_flags" to the reset routine.
*
* 6 Jul 1995 rev. 2.01 for linux 1.3.7
* Update required by the new /proc/scsi support.
*
* 11 Mar 1995 rev. 2.00 for linux 1.2.0
* Fixed a bug which prevented media change detection for removable
* disk drives.
*
* 23 Feb 1995 rev. 1.18 for linux 1.1.94
* Added a check for scsi_register returning NULL.
*
* 11 Feb 1995 rev. 1.17 for linux 1.1.91
* Now DEBUG_RESET is disabled by default.
* Register a board even if it does not assert DMA protocol support
* (DPT SK2011B does not report correctly the dmasup bit).
*
* 9 Feb 1995 rev. 1.16 for linux 1.1.90
* Use host->wish_block instead of host->block.
* New list of Data Out SCSI commands.
*
* 8 Feb 1995 rev. 1.15 for linux 1.1.89
* Cleared target_time_out counter while performing a reset.
* All external symbols renamed to avoid possible name conflicts.
*
* 28 Jan 1995 rev. 1.14 for linux 1.1.86
* Added module support.
* Log and do a retry when a disk drive returns a target status
* different from zero on a recovered error.
*
* 24 Jan 1995 rev. 1.13 for linux 1.1.85
* Use optimized board configuration, with a measured performance
* increase in the range 10%-20% on i/o throughput.
*
* 16 Jan 1995 rev. 1.12 for linux 1.1.81
* Fix mscp structure comments (no functional change).
* Display a message if check_region detects a port address
* already in use.
*
* 17 Dec 1994 rev. 1.11 for linux 1.1.74
* Use the scsicam_bios_param routine. This allows an easy
* migration path from disk partition tables created using
* different SCSI drivers and non optimal disk geometry.
*
* 15 Dec 1994 rev. 1.10 for linux 1.1.74
* Added support for ISA EATA boards (DPT PM2011, DPT PM2021).
* The host->block flag is set for all the detected ISA boards.
* The detect routine no longer enforces LEVEL triggering
* for EISA boards, it just prints a warning message.
*
* 30 Nov 1994 rev. 1.09 for linux 1.1.68
* Redo i/o on target status CHECK_CONDITION for TYPE_DISK only.
* Added optional support for using a single board at a time.
*
* 18 Nov 1994 rev. 1.08 for linux 1.1.64
* Forces sg_tablesize = 64 and can_queue = 64 if these
* values are not correctly detected (DPT PM2012).
*
* 14 Nov 1994 rev. 1.07 for linux 1.1.63 Final BETA release.
* 04 Aug 1994 rev. 1.00 for linux 1.1.39 First BETA release.
*
*
* This driver is based on the CAM (Common Access Method Committee)
* EATA (Enhanced AT Bus Attachment) rev. 2.0A, using DMA protocol.
*
* Copyright (C) 1994-1999 Dario Ballabio (dario@milano.europe.dg.com)
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that redistributions of source
* code retain the above copyright notice and this comment without
* modification.
*
*/
/*
*
* Here is a brief description of the DPT SCSI host adapters.
* All these boards provide an EATA/DMA compatible programming interface
* and are fully supported by this driver in any configuration, including
* multiple SCSI channels:
*
* PM2011B/9X - Entry Level ISA
* PM2021A/9X - High Performance ISA
* PM2012A Old EISA
* PM2012B Old EISA
* PM2022A/9X - Entry Level EISA
* PM2122A/9X - High Performance EISA
* PM2322A/9X - Extra High Performance EISA
* PM3021 - SmartRAID Adapter for ISA
* PM3222 - SmartRAID Adapter for EISA (PM3222W is 16-bit wide SCSI)
* PM3224 - SmartRAID Adapter for PCI (PM3224W is 16-bit wide SCSI)
* PM33340UW - SmartRAID Adapter for PCI ultra wide multichannel
*
* The above list is just an indication: as a matter of fact all DPT
* boards using the EATA/DMA protocol are supported by this driver,
* since they use exactely the same programming interface.
*
* The DPT PM2001 provides only the EATA/PIO interface and hence is not
* supported by this driver.
*
* This code has been tested with up to 3 Distributed Processing Technology
* PM2122A/9X (DPT SCSI BIOS v002.D1, firmware v05E.0) EISA controllers,
* in any combination of private and shared IRQ.
* PCI support has been tested using up to 2 DPT PM3224W (DPT SCSI BIOS
* v003.D0, firmware v07G.0).
*
* DPT SmartRAID boards support "Hardware Array" - a group of disk drives
* which are all members of the same RAID-0, RAID-1 or RAID-5 array implemented
* in host adapter hardware. Hardware Arrays are fully compatible with this
* driver, since they look to it as a single disk drive.
*
* WARNING: to create a RAID-0 "Hardware Array" you must select "Other Unix"
* as the current OS in the DPTMGR "Initial System Installation" menu.
* Otherwise RAID-0 is generated as an "Array Group" (i.e. software RAID-0),
* which is not supported by the actual SCSI subsystem.
* To get the "Array Group" functionality, the Linux MD driver must be used
* instead of the DPT "Array Group" feature.
*
* Multiple ISA, EISA and PCI boards can be configured in the same system.
* It is suggested to put all the EISA boards on the same IRQ level, all
* the PCI boards on another IRQ level, while ISA boards cannot share
* interrupts.
*
* If you configure multiple boards on the same IRQ, the interrupt must
* be _level_ triggered (not _edge_ triggered).
*
* This driver detects EATA boards by probes at fixed port addresses,
* so no BIOS32 or PCI BIOS support is required.
* The suggested way to detect a generic EATA PCI board is to force on it
* any unused EISA address, even if there are other controllers on the EISA
* bus, or even if you system has no EISA bus at all.
* Do not force any ISA address on EATA PCI boards.
*
* If PCI bios support is configured into the kernel, BIOS32 is used to
* include in the list of i/o ports to be probed all the PCI SCSI controllers.
*
* Due to a DPT BIOS "feature", it might not be possible to force an EISA
* address on more then a single DPT PCI board, so in this case you have to
* let the PCI BIOS assign the addresses.
*
* The sequence of detection probes is:
*
* - ISA 0x1F0;
* - PCI SCSI controllers (only if BIOS32 is available);
* - EISA/PCI 0x1C88 through 0xFC88 (corresponding to EISA slots 1 to 15);
* - ISA 0x170, 0x230, 0x330.
*
* The above list of detection probes can be totally replaced by the
* boot command line option: "eata=port0,port1,port2,...", where the
* port0, port1... arguments are ISA/EISA/PCI addresses to be probed.
* For example using "eata=0x7410,0x7450,0x230", the driver probes
* only the two PCI addresses 0x7410 and 0x7450 and the ISA address 0x230,
* in this order; "eata=0" totally disables this driver.
*
* After the optional list of detection probes, other possible command line
* options are:
*
* eh:y use new scsi code;
* eh:n use old scsi code;
* et:y force use of extended translation (255 heads, 63 sectors);
* et:n use disk geometry detected by scsicam_bios_param;
* rs:y reverse scan order while detecting PCI boards;
* rs:n use BIOS order while detecting PCI boards;
* lc:y enables linked commands;
* lc:n disables linked commands;
* tc:y enables tagged commands;
* tc:n disables tagged commands;
* tm:0 use head/simple/ordered queue tag sequences;
* tm:1 use only simple queue tags;
* tm:2 use only head of queue tags;
* tm:3 use only ordered queue tags;
* mq:xx set the max queue depth to the value xx (2 <= xx <= 32).
*
* The default value is: "eata=lc:n,tc:n,mq:16,tm:0,et:n,rs:n".
* An example using the list of detection probes could be:
* "eata=0x7410,0x230,lc:y,tc:n,mq:4,eh:n,et:n".
*
* When loading as a module, parameters can be specified as well.
* The above example would be (use 1 in place of y and 0 in place of n):
*
* modprobe eata io_port=0x7410,0x230 linked_comm=1 tagged_comm=0 \
* max_queue_depth=4 tag_mode=0 use_new_eh_code=0 \
* ext_tran=0 rev_scan=1
*
* ----------------------------------------------------------------------------
* In this implementation, linked commands are designed to work with any DISK
* or CD-ROM, since this linking has only the intent of clustering (time-wise)
* and reordering by elevator sorting commands directed to each device,
* without any relation with the actual SCSI protocol between the controller
* and the device.
* If Q is the queue depth reported at boot time for each device (also named
* cmds/lun) and Q > 2, whenever there is already an active command to the
* device all other commands to the same device (up to Q-1) are kept waiting
* in the elevator sorting queue. When the active command completes, the
* commands in this queue are sorted by sector address. The sort is chosen
* between increasing or decreasing by minimizing the seek distance between
* the sector of the commands just completed and the sector of the first
* command in the list to be sorted.
* Trivial math assures that the unsorted average seek distance when doing
* random seeks over S sectors is S/3.
* When (Q-1) requests are uniformly distributed over S sectors, the average
* distance between two adjacent requests is S/((Q-1) + 1), so the sorted
* average seek distance for (Q-1) random requests over S sectors is S/Q.
* The elevator sorting hence divides the seek distance by a factor Q/3.
* The above pure geometric remarks are valid in all cases and the
* driver effectively reduces the seek distance by the predicted factor
* when there are Q concurrent read i/o operations on the device, but this
* does not necessarily results in a noticeable performance improvement:
* your mileage may vary....
*
* Note: command reordering inside a batch of queued commands could cause
* wrong results only if there is at least one write request and the
* intersection (sector-wise) of all requests is not empty.
* When the driver detects a batch including overlapping requests
* (a really rare event) strict serial (pid) order is enforced.
* ----------------------------------------------------------------------------
* The extended translation option (et:y) is useful when using large physical
* disks/arrays. It could also be useful when switching between Adaptec boards
* and DPT boards without reformatting the disk.
* When a boot disk is partitioned with extended translation, in order to
* be able to boot it with a DPT board is could be necessary to add to
* lilo.conf additional commands as in the following example:
*
* fix-table
* disk=/dev/sda bios=0x80 sectors=63 heads=128 cylindres=546
*
* where the above geometry should be replaced with the one reported at
* power up by the DPT controller.
* ----------------------------------------------------------------------------
*
* The boards are named EATA0, EATA1,... according to the detection order.
*
* In order to support multiple ISA boards in a reliable way,
* the driver sets host->wish_block = TRUE for all ISA boards.
*/
#include <linux/version.h>
#define LinuxVersionCode(v, p, s) (((v)<<16)+((p)<<8)+(s))
#define MAX_INT_PARAM 10
#if defined(MODULE)
#include <linux/module.h>
MODULE_PARM(boot_options, "s");
MODULE_PARM(io_port, "1-" __MODULE_STRING(MAX_INT_PARAM) "i");
MODULE_PARM(linked_comm, "i");
MODULE_PARM(tagged_comm, "i");
MODULE_PARM(link_statistics, "i");
MODULE_PARM(max_queue_depth, "i");
MODULE_PARM(tag_mode, "i");
MODULE_PARM(use_new_eh_code, "i");
MODULE_PARM(ext_tran, "i");
MODULE_PARM(rev_scan, "i");
MODULE_AUTHOR("Dario Ballabio");
#endif
#include <linux/string.h>
#include <linux/sched.h>
#include <linux/kernel.h>
#include <linux/ioport.h>
#include <linux/delay.h>
#include <asm/io.h>
#include <asm/system.h>
#include <asm/byteorder.h>
#include <linux/proc_fs.h>
#include <linux/blk.h>
#include "scsi.h"
#include "hosts.h"
#include "sd.h"
#include <asm/dma.h>
#include <asm/irq.h>
#include "eata.h"
#include <linux/stat.h>
#include <linux/config.h>
#include <linux/pci.h>
#include <linux/init.h>
#include <linux/ctype.h>
#if LINUX_VERSION_CODE < LinuxVersionCode(2,3,18)
#include <asm/spinlock.h>
#else
#include <linux/spinlock.h>
#endif
#define SPIN_FLAGS unsigned long spin_flags;
#define SPIN_LOCK spin_lock_irq(&io_request_lock);
#define SPIN_LOCK_SAVE spin_lock_irqsave(&io_request_lock, spin_flags);
#define SPIN_UNLOCK spin_unlock_irq(&io_request_lock);
#define SPIN_UNLOCK_RESTORE \
spin_unlock_irqrestore(&io_request_lock, spin_flags);
/* Subversion values */
#define ISA 0
#define ESA 1
#undef FORCE_CONFIG
#undef DEBUG_LINKED_COMMANDS
#undef DEBUG_DETECT
#undef DEBUG_PCI_DETECT
#undef DEBUG_INTERRUPT
#undef DEBUG_RESET
#undef DEBUG_GENERATE_ERRORS
#undef DEBUG_GENERATE_ABORTS
#undef DEBUG_GEOMETRY
#define MAX_ISA 4
#define MAX_VESA 0
#define MAX_EISA 15
#define MAX_PCI 16
#define MAX_BOARDS (MAX_ISA + MAX_VESA + MAX_EISA + MAX_PCI)
#define MAX_CHANNEL 4
#define MAX_LUN 32
#define MAX_TARGET 32
#define MAX_MAILBOXES 64
#define MAX_SGLIST 64
#define MAX_LARGE_SGLIST 122
#define MAX_INTERNAL_RETRIES 64
#define MAX_CMD_PER_LUN 2
#define MAX_TAGGED_CMD_PER_LUN (MAX_MAILBOXES - MAX_CMD_PER_LUN)
#define SKIP ULONG_MAX
#define FALSE 0
#define TRUE 1
#define FREE 0
#define IN_USE 1
#define LOCKED 2
#define IN_RESET 3
#define IGNORE 4
#define READY 5
#define ABORTING 6
#define NO_DMA 0xff
#define MAXLOOP 10000
#define TAG_MIXED 0
#define TAG_SIMPLE 1
#define TAG_HEAD 2
#define TAG_ORDERED 3
#define REG_CMD 7
#define REG_STATUS 7
#define REG_AUX_STATUS 8
#define REG_DATA 0
#define REG_DATA2 1
#define REG_SEE 6
#define REG_LOW 2
#define REG_LM 3
#define REG_MID 4
#define REG_MSB 5
#define REGION_SIZE 9
#define MAX_ISA_ADDR 0x03ff
#define MIN_EISA_ADDR 0x1c88
#define MAX_EISA_ADDR 0xfc88
#define BSY_ASSERTED 0x80
#define DRQ_ASSERTED 0x08
#define ABSY_ASSERTED 0x01
#define IRQ_ASSERTED 0x02
#define READ_CONFIG_PIO 0xf0
#define SET_CONFIG_PIO 0xf1
#define SEND_CP_PIO 0xf2
#define RECEIVE_SP_PIO 0xf3
#define TRUNCATE_XFR_PIO 0xf4
#define RESET_PIO 0xf9
#define READ_CONFIG_DMA 0xfd
#define SET_CONFIG_DMA 0xfe
#define SEND_CP_DMA 0xff
#define ASOK 0x00
#define ASST 0x01
#if LINUX_VERSION_CODE < LinuxVersionCode(2,3,18)
#define ARRAY_SIZE(x) (sizeof (x) / sizeof((x)[0]))
#endif
#define YESNO(a) ((a) ? 'y' : 'n')
#define TLDEV(type) ((type) == TYPE_DISK || (type) == TYPE_ROM)
/* "EATA", in Big Endian format */
#define EATA_SIGNATURE 0x41544145
/* Number of valid bytes in the board config structure for EATA 2.0x */
#define EATA_2_0A_SIZE 28
#define EATA_2_0B_SIZE 30
#define EATA_2_0C_SIZE 34
/* Board info structure */
struct eata_info {
u_int32_t data_len; /* Number of valid bytes after this field */
u_int32_t sign; /* ASCII "EATA" signature */
unchar :4, /* unused low nibble */
version:4; /* EATA version, should be 0x1 */
unchar ocsena:1, /* Overlap Command Support Enabled */
tarsup:1, /* Target Mode Supported */
trnxfr:1, /* Truncate Transfer Cmd NOT Necessary */
morsup:1, /* More Supported */
dmasup:1, /* DMA Supported */
drqvld:1, /* DRQ Index (DRQX) is valid */
ata:1, /* This is an ATA device */
haaval:1; /* Host Adapter Address Valid */
ushort cp_pad_len; /* Number of pad bytes after cp_len */
unchar host_addr[4]; /* Host Adapter SCSI ID for channels 3, 2, 1, 0 */
u_int32_t cp_len; /* Number of valid bytes in cp */
u_int32_t sp_len; /* Number of valid bytes in sp */
ushort queue_size; /* Max number of cp that can be queued */
ushort unused;
ushort scatt_size; /* Max number of entries in scatter/gather table */
unchar irq:4, /* Interrupt Request assigned to this controller */
irq_tr:1, /* 0 for edge triggered, 1 for level triggered */
second:1, /* 1 if this is a secondary (not primary) controller */
drqx:2; /* DRQ Index (0=DMA0, 1=DMA7, 2=DMA6, 3=DMA5) */
unchar sync; /* 1 if scsi target id 7...0 is running sync scsi */
/* Structure extension defined in EATA 2.0B */
unchar isaena:1, /* ISA i/o addressing is disabled/enabled */
forcaddr:1, /* Port address has been forced */
large_sg:1, /* 1 if large SG lists are supported */
res1:1,
:4;
unchar max_id:5, /* Max SCSI target ID number */
max_chan:3; /* Max SCSI channel number on this board */
/* Structure extension defined in EATA 2.0C */
unchar max_lun; /* Max SCSI LUN number */
unchar :4,
m1:1, /* This is a PCI with an M1 chip installed */
idquest:1, /* RAIDNUM returned is questionable */
pci:1, /* This board is PCI */
eisa:1; /* This board is EISA */
unchar raidnum; /* Uniquely identifies this HBA in a system */
unchar notused;
ushort ipad[247];
};
/* Board config structure */
struct eata_config {
ushort len; /* Number of bytes following this field */
unchar edis:1, /* Disable EATA interface after config command */
ocena:1, /* Overlapped Commands Enabled */
mdpena:1, /* Transfer all Modified Data Pointer Messages */
tarena:1, /* Target Mode Enabled for this controller */
:4;
unchar cpad[511];
};
/* Returned status packet structure */
struct mssp {
unchar adapter_status:7, /* State related to current command */
eoc:1; /* End Of Command (1 = command completed) */
unchar target_status; /* SCSI status received after data transfer */
unchar unused[2];
u_int32_t inv_res_len; /* Number of bytes not transferred */
u_int32_t cpp_index; /* Index of address set in cp */
char mess[12];
};
struct sg_list {
unsigned int address; /* Segment Address */
unsigned int num_bytes; /* Segment Length */
};
/* MailBox SCSI Command Packet */
struct mscp {
unchar sreset:1, /* SCSI Bus Reset Signal should be asserted */
init:1, /* Re-initialize controller and self test */
reqsen:1, /* Transfer Request Sense Data to addr using DMA */
sg:1, /* Use Scatter/Gather */
:1,
interp:1, /* The controller interprets cp, not the target */
dout:1, /* Direction of Transfer is Out (Host to Target) */
din:1; /* Direction of Transfer is In (Target to Host) */
unchar sense_len; /* Request Sense Length */
unchar unused[3];
unchar fwnest:1, /* Send command to a component of an Array Group */
:7;
unchar phsunit:1, /* Send to Target Physical Unit (bypass RAID) */
iat:1, /* Inhibit Address Translation */
hbaci:1, /* Inhibit HBA Caching for this command */
:5;
unchar target:5, /* SCSI target ID */
channel:3; /* SCSI channel number */
unchar lun:5, /* SCSI logical unit number */
luntar:1, /* This cp is for Target (not LUN) */
dispri:1, /* Disconnect Privilege granted */
one:1; /* 1 */
unchar mess[3]; /* Massage to/from Target */
unchar cdb[12]; /* Command Descriptor Block */
u_int32_t data_len; /* If sg=0 Data Length, if sg=1 sglist length */
u_int32_t cpp_index; /* Index of address to be returned in sp */
u_int32_t data_address; /* If sg=0 Data Address, if sg=1 sglist address */
u_int32_t sp_addr; /* Address where sp is DMA'ed when cp completes */
u_int32_t sense_addr; /* Address where Sense Data is DMA'ed on error */
/* Additional fields begin here. */
Scsi_Cmnd *SCpnt;
struct sg_list *sglist;
};
struct hostdata {
struct mscp cp[MAX_MAILBOXES]; /* Mailboxes for this board */
unsigned int cp_stat[MAX_MAILBOXES]; /* FREE, IN_USE, LOCKED, IN_RESET */
unsigned int last_cp_used; /* Index of last mailbox used */
unsigned int iocount; /* Total i/o done for this board */
int board_number; /* Number of this board */
char board_name[16]; /* Name of this board */
char board_id[256]; /* data from INQUIRY on this board */
int in_reset; /* True if board is doing a reset */
int target_to[MAX_TARGET][MAX_CHANNEL]; /* N. of timeout errors on target */
int target_redo[MAX_TARGET][MAX_CHANNEL]; /* If TRUE redo i/o on target */
unsigned int retries; /* Number of internal retries */
unsigned long last_retried_pid; /* Pid of last retried command */
unsigned char subversion; /* Bus type, either ISA or EISA/PCI */
unsigned char protocol_rev; /* EATA 2.0 rev., 'A' or 'B' or 'C' */
struct mssp sp[2]; /* Returned status for this board */
};
static struct Scsi_Host *sh[MAX_BOARDS + 1];
static const char *driver_name = "EATA";
static char sha[MAX_BOARDS];
/* Initialize num_boards so that ihdlr can work while detect is in progress */
static unsigned int num_boards = MAX_BOARDS;
static unsigned long io_port[] = {
/* Space for MAX_INT_PARAM ports usable while loading as a module */
SKIP, SKIP, SKIP, SKIP, SKIP, SKIP, SKIP, SKIP,
SKIP, SKIP,
/* First ISA */
0x1f0,
/* Space for MAX_PCI ports possibly reported by PCI_BIOS */
SKIP, SKIP, SKIP, SKIP, SKIP, SKIP, SKIP, SKIP,
SKIP, SKIP, SKIP, SKIP, SKIP, SKIP, SKIP, SKIP,
/* MAX_EISA ports */
0x1c88, 0x2c88, 0x3c88, 0x4c88, 0x5c88, 0x6c88, 0x7c88, 0x8c88,
0x9c88, 0xac88, 0xbc88, 0xcc88, 0xdc88, 0xec88, 0xfc88,
/* Other (MAX_ISA - 1) ports */
0x170, 0x230, 0x330,
/* End of list */
0x0
};
#define HD(board) ((struct hostdata *) &sh[board]->hostdata)
#define BN(board) (HD(board)->board_name)
#define H2DEV(x) htonl(x)
#define DEV2H(x) H2DEV(x)
#define V2DEV(addr) ((addr) ? H2DEV(virt_to_bus((void *)addr)) : 0)
#define DEV2V(addr) ((addr) ? DEV2H(bus_to_virt((unsigned long)addr)) : 0)
static void do_interrupt_handler(int, void *, struct pt_regs *);
static void flush_dev(Scsi_Device *, unsigned long, unsigned int, unsigned int);
static int do_trace = FALSE;
static int setup_done = FALSE;
static int link_statistics = 0;
static int tag_mode = TAG_MIXED;
static int ext_tran = FALSE;
static int rev_scan = TRUE;
static int use_new_eh_code = TRUE;
static char *boot_options = NULL;
#if defined(CONFIG_SCSI_EATA_TAGGED_QUEUE)
static int tagged_comm = TRUE;
#else
static int tagged_comm = FALSE;
#endif
#if defined(CONFIG_SCSI_EATA_LINKED_COMMANDS)
static int linked_comm = TRUE;
#else
static int linked_comm = FALSE;
#endif
#if defined(CONFIG_SCSI_EATA_MAX_TAGS)
static int max_queue_depth = CONFIG_SCSI_EATA_MAX_TAGS;
#else
static int max_queue_depth = MAX_CMD_PER_LUN;
#endif
static void select_queue_depths(struct Scsi_Host *host, Scsi_Device *devlist) {
Scsi_Device *dev;
int j, ntag = 0, nuntag = 0, tqd, utqd;
j = ((struct hostdata *) host->hostdata)->board_number;
for(dev = devlist; dev; dev = dev->next) {
if (dev->host != host) continue;
if (TLDEV(dev->type) && (dev->tagged_supported || linked_comm))
ntag++;
else
nuntag++;
}
utqd = MAX_CMD_PER_LUN;
tqd = (host->can_queue - utqd * nuntag) / (ntag ? ntag : 1);
if (tqd > max_queue_depth) tqd = max_queue_depth;
if (tqd < MAX_CMD_PER_LUN) tqd = MAX_CMD_PER_LUN;
for(dev = devlist; dev; dev = dev->next) {
char *tag_suffix = "", *link_suffix = "";
if (dev->host != host) continue;
if (TLDEV(dev->type) && (dev->tagged_supported || linked_comm))
dev->queue_depth = tqd;
else
dev->queue_depth = utqd;
if (TLDEV(dev->type)) {
if (linked_comm && dev->queue_depth > 2)
link_suffix = ", sorted";
else
link_suffix = ", unsorted";
}
if (tagged_comm && dev->tagged_supported && TLDEV(dev->type)) {
dev->tagged_queue = 1;
dev->current_tag = 1;
}
if (dev->tagged_supported && TLDEV(dev->type) && dev->tagged_queue)
tag_suffix = ", tagged";
else if (dev->tagged_supported && TLDEV(dev->type))
tag_suffix = ", untagged";
printk("%s: scsi%d, channel %d, id %d, lun %d, cmds/lun %d%s%s.\n",
BN(j), host->host_no, dev->channel, dev->id, dev->lun,
dev->queue_depth, link_suffix, tag_suffix);
}
return;
}
static inline int wait_on_busy(unsigned long iobase, unsigned int loop) {
while (inb(iobase + REG_AUX_STATUS) & ABSY_ASSERTED) {
udelay(1L);
if (--loop == 0) return TRUE;
}
return FALSE;
}
static inline int do_dma(unsigned long iobase, unsigned long addr, unchar cmd) {
if (wait_on_busy(iobase, (addr ? MAXLOOP * 100 : MAXLOOP))) return TRUE;
if ((addr = V2DEV(addr))) {
outb((char) (addr >> 24), iobase + REG_LOW);
outb((char) (addr >> 16), iobase + REG_LM);
outb((char) (addr >> 8), iobase + REG_MID);
outb((char) addr, iobase + REG_MSB);
}
outb(cmd, iobase + REG_CMD);
return FALSE;
}
static inline int read_pio(unsigned long iobase, ushort *start, ushort *end) {
unsigned int loop = MAXLOOP;
ushort *p;
for (p = start; p <= end; p++) {
while (!(inb(iobase + REG_STATUS) & DRQ_ASSERTED)) {
udelay(1L);
if (--loop == 0) return TRUE;
}
loop = MAXLOOP;
*p = inw(iobase);
}
return FALSE;
}
static inline void tune_pci_port(unsigned long port_base) {
#if defined(CONFIG_PCI)
unsigned int addr, k;
struct pci_dev *dev = NULL;
if (!pci_present()) return;
for (k = 0; k < MAX_PCI; k++) {
if (!(dev = pci_find_class(PCI_CLASS_STORAGE_SCSI << 8, dev))) break;
addr = pci_resource_start (dev, 0);
pci_enable_device (dev); /* XXX handle error */
#if defined(DEBUG_PCI_DETECT)
printk("%s: tune_pci_port, bus %d, devfn 0x%x, addr 0x%x.\n",
driver_name, dev->bus->number, dev->devfn, addr);
#endif
if ((addr & PCI_BASE_ADDRESS_IO_MASK) + PCI_BASE_ADDRESS_0 == port_base) {
pci_set_master(dev);
return;
}
}
#endif /* end CONFIG_PCI */
return;
}
static inline int
get_pci_irq(unsigned long port_base, unsigned char *apic_irq) {
#if defined(CONFIG_PCI)
unsigned int addr;
struct pci_dev *dev = NULL;
if (!pci_present()) return FALSE;
while((dev = pci_find_class(PCI_CLASS_STORAGE_SCSI << 8, dev))) {
if (pci_read_config_dword(dev, PCI_BASE_ADDRESS_0, &addr)) continue;
#if defined(DEBUG_PCI_DETECT)
printk("%s: get_pci_irq, bus %d, devfn 0x%x, addr 0x%x, apic_irq %u.\n",
driver_name, dev->bus->number, dev->devfn, addr, dev->irq);
#endif
if ((addr & PCI_BASE_ADDRESS_IO_MASK) + PCI_BASE_ADDRESS_0 == port_base) {
*apic_irq = dev->irq;
return TRUE;
}
}
#endif /* end CONFIG_PCI */
return FALSE;
}
static inline int port_detect \
(unsigned long port_base, unsigned int j, Scsi_Host_Template *tpnt) {
unsigned char irq, dma_channel, subversion, i;
unsigned char protocol_rev, apic_irq;
struct eata_info info;
char *bus_type, dma_name[16], tag_type;
/* Allowed DMA channels for ISA (0 indicates reserved) */
unsigned char dma_channel_table[4] = { 5, 6, 7, 0 };
char name[16];
sprintf(name, "%s%d", driver_name, j);
if(check_region(port_base, REGION_SIZE)) {
#if defined(DEBUG_DETECT)
printk("%s: address 0x%03lx in use, skipping probe.\n", name, port_base);
#endif
return FALSE;
}
if (do_dma(port_base, 0, READ_CONFIG_PIO)) return FALSE;
/* Read the info structure */
if (read_pio(port_base, (ushort *)&info, (ushort *)&info.ipad[0]))
return FALSE;
/* Check the controller "EATA" signature */
if (info.sign != EATA_SIGNATURE) return FALSE;
if (DEV2H(info.data_len) < EATA_2_0A_SIZE) {
printk("%s: config structure size (%d bytes) too short, detaching.\n",
name, DEV2H(info.data_len));
return FALSE;
}
else if (DEV2H(info.data_len) == EATA_2_0A_SIZE)
protocol_rev = 'A';
else if (DEV2H(info.data_len) == EATA_2_0B_SIZE)
protocol_rev = 'B';
else
protocol_rev = 'C';
if (!setup_done && j > 0 && j <= MAX_PCI) {
bus_type = "PCI";
subversion = ESA;
}
else if (port_base > MAX_EISA_ADDR || (protocol_rev == 'C' && info.pci)) {
bus_type = "PCI";
subversion = ESA;
}
else if (port_base >= MIN_EISA_ADDR || (protocol_rev == 'C' && info.eisa)) {
bus_type = "EISA";
subversion = ESA;
}
else if (protocol_rev == 'C' && !info.eisa && !info.pci) {
bus_type = "ISA";
subversion = ISA;
}
else if (port_base > MAX_ISA_ADDR) {
bus_type = "PCI";
subversion = ESA;
}
else {
bus_type = "ISA";
subversion = ISA;
}
if (!info.haaval || info.ata) {
printk("%s: address 0x%03lx, unusable %s board (%d%d), detaching.\n",
name, port_base, bus_type, info.haaval, info.ata);
return FALSE;
}
if (info.drqvld) {
if (subversion == ESA)
printk("%s: warning, weird %s board using DMA.\n", name, bus_type);
subversion = ISA;
dma_channel = dma_channel_table[3 - info.drqx];
}
else {
if (subversion == ISA)
printk("%s: warning, weird %s board not using DMA.\n", name, bus_type);
subversion = ESA;
dma_channel = NO_DMA;
}
if (!info.dmasup)
printk("%s: warning, DMA protocol support not asserted.\n", name);
irq = info.irq;
if (subversion == ESA && !info.irq_tr)
printk("%s: warning, LEVEL triggering is suggested for IRQ %u.\n",
name, irq);
if (get_pci_irq(port_base, &apic_irq) && (irq != apic_irq)) {
printk("%s: IRQ %u mapped to IO-APIC IRQ %u.\n", name, irq, apic_irq);
irq = apic_irq;
}
/* Board detected, allocate its IRQ */
if (request_irq(irq, do_interrupt_handler,
SA_INTERRUPT | ((subversion == ESA) ? SA_SHIRQ : 0),
driver_name, (void *) &sha[j])) {
printk("%s: unable to allocate IRQ %u, detaching.\n", name, irq);
return FALSE;
}
if (subversion == ISA && request_dma(dma_channel, driver_name)) {
printk("%s: unable to allocate DMA channel %u, detaching.\n",
name, dma_channel);
free_irq(irq, &sha[j]);
return FALSE;
}
#if defined(FORCE_CONFIG)
{
struct eata_config config;
/* Set board configuration */
memset((char *)&config, 0, sizeof(struct eata_config));
config.len = (ushort) htons((ushort)510);
config.ocena = TRUE;
if (do_dma(port_base, (unsigned long)&config, SET_CONFIG_DMA)) {
printk("%s: busy timeout sending configuration, detaching.\n", name);
return FALSE;
}
}
#endif
sh[j] = scsi_register(tpnt, sizeof(struct hostdata));
if (sh[j] == NULL) {
printk("%s: unable to register host, detaching.\n", name);
free_irq(irq, &sha[j]);
if (subversion == ISA) free_dma(dma_channel);
return FALSE;
}
sh[j]->io_port = port_base;
sh[j]->unique_id = port_base;
sh[j]->n_io_port = REGION_SIZE;
sh[j]->dma_channel = dma_channel;
sh[j]->irq = irq;
sh[j]->sg_tablesize = (ushort) ntohs(info.scatt_size);
sh[j]->this_id = (ushort) info.host_addr[3];
sh[j]->can_queue = (ushort) ntohs(info.queue_size);
sh[j]->cmd_per_lun = MAX_CMD_PER_LUN;
sh[j]->select_queue_depths = select_queue_depths;
/* Register the I/O space that we use */
request_region(sh[j]->io_port, sh[j]->n_io_port, driver_name);
memset(HD(j), 0, sizeof(struct hostdata));
HD(j)->subversion = subversion;
HD(j)->protocol_rev = protocol_rev;
HD(j)->board_number = j;
if (HD(j)->subversion == ESA)
sh[j]->unchecked_isa_dma = FALSE;
else {
unsigned long flags;
scsi_register_blocked_host(sh[j]);
sh[j]->unchecked_isa_dma = TRUE;
flags=claim_dma_lock();
disable_dma(dma_channel);
clear_dma_ff(dma_channel);
set_dma_mode(dma_channel, DMA_MODE_CASCADE);
enable_dma(dma_channel);
release_dma_lock(flags);
}
strcpy(BN(j), name);
/* DPT PM2012 does not allow to detect sg_tablesize correctly */
if (sh[j]->sg_tablesize > MAX_SGLIST || sh[j]->sg_tablesize < 2) {
printk("%s: detect, wrong n. of SG lists %d, fixed.\n",
BN(j), sh[j]->sg_tablesize);
sh[j]->sg_tablesize = MAX_SGLIST;
}
/* DPT PM2012 does not allow to detect can_queue correctly */
if (sh[j]->can_queue > MAX_MAILBOXES || sh[j]->can_queue < 2) {
printk("%s: detect, wrong n. of mbox %d, fixed.\n",
BN(j), sh[j]->can_queue);
sh[j]->can_queue = MAX_MAILBOXES;
}
if (protocol_rev != 'A') {
if (info.max_chan > 0 && info.max_chan < MAX_CHANNEL)
sh[j]->max_channel = info.max_chan;
if (info.max_id > 7 && info.max_id < MAX_TARGET)
sh[j]->max_id = info.max_id + 1;
if (info.large_sg && sh[j]->sg_tablesize == MAX_SGLIST)
sh[j]->sg_tablesize = MAX_LARGE_SGLIST;
}
if (protocol_rev == 'C') {
if (info.max_lun > 7 && info.max_lun < MAX_LUN)
sh[j]->max_lun = info.max_lun + 1;
}
if (dma_channel == NO_DMA) sprintf(dma_name, "%s", "BMST");
else sprintf(dma_name, "DMA %u", dma_channel);
for (i = 0; i < sh[j]->can_queue; i++)
if (! ((&HD(j)->cp[i])->sglist = kmalloc(
sh[j]->sg_tablesize * sizeof(struct sg_list),
(sh[j]->unchecked_isa_dma ? GFP_DMA : 0) | GFP_ATOMIC))) {
printk("%s: kmalloc SGlist failed, mbox %d, detaching.\n", BN(j), i);
eata2x_release(sh[j]);
return FALSE;
}
if (max_queue_depth > MAX_TAGGED_CMD_PER_LUN)
max_queue_depth = MAX_TAGGED_CMD_PER_LUN;
if (max_queue_depth < MAX_CMD_PER_LUN) max_queue_depth = MAX_CMD_PER_LUN;
if (tagged_comm) {
if (tag_mode == TAG_SIMPLE) tag_type = '1';
else if (tag_mode == TAG_HEAD) tag_type = '2';
else if (tag_mode == TAG_ORDERED) tag_type = '3';
else tag_type = 'y';
}
else tag_type = 'n';
sh[j]->hostt->use_new_eh_code = use_new_eh_code;
if (j == 0) {
printk("EATA/DMA 2.0x: Copyright (C) 1994-1999 Dario Ballabio.\n");
printk("%s config options -> tc:%c, lc:%c, mq:%d, eh:%c, rs:%c, et:%c.\n",
driver_name, tag_type, YESNO(linked_comm), max_queue_depth,
YESNO(use_new_eh_code), YESNO(rev_scan), YESNO(ext_tran));
}
printk("%s: 2.0%c, %s 0x%03lx, IRQ %u, %s, SG %d, MB %d.\n",
BN(j), HD(j)->protocol_rev, bus_type, (unsigned long)sh[j]->io_port,
sh[j]->irq, dma_name, sh[j]->sg_tablesize, sh[j]->can_queue);
if (sh[j]->max_id > 8 || sh[j]->max_lun > 8)
printk("%s: wide SCSI support enabled, max_id %u, max_lun %u.\n",
BN(j), sh[j]->max_id, sh[j]->max_lun);
for (i = 0; i <= sh[j]->max_channel; i++)
printk("%s: SCSI channel %u enabled, host target ID %d.\n",
BN(j), i, info.host_addr[3 - i]);
#if defined(DEBUG_DETECT)
printk("%s: Vers. 0x%x, ocs %u, tar %u, trnxfr %u, more %u, SYNC 0x%x, "\
"sec. %u, infol %ld, cpl %ld spl %ld.\n", name, info.version,
info.ocsena, info.tarsup, info.trnxfr, info.morsup, info.sync,
info.second, DEV2H(info.data_len), DEV2H(info.cp_len),
DEV2H(info.sp_len));
if (protocol_rev == 'B' || protocol_rev == 'C')
printk("%s: isaena %u, forcaddr %u, max_id %u, max_chan %u, "\
"large_sg %u, res1 %u.\n", name, info.isaena, info.forcaddr,
info.max_id, info.max_chan, info.large_sg, info.res1);
if (protocol_rev == 'C')
printk("%s: max_lun %u, m1 %u, idquest %u, pci %u, eisa %u, "\
"raidnum %u.\n", name, info.max_lun, info.m1, info.idquest,
info.pci, info.eisa, info.raidnum);
#endif
tune_pci_port(sh[j]->io_port);
return TRUE;
}
static void internal_setup(char *str, int *ints) {
int i, argc = ints[0];
char *cur = str, *pc;
if (argc > 0) {
if (argc > MAX_INT_PARAM) argc = MAX_INT_PARAM;
for (i = 0; i < argc; i++) io_port[i] = ints[i + 1];
io_port[i] = 0;
setup_done = TRUE;
}
while (cur && (pc = strchr(cur, ':'))) {
int val = 0, c = *++pc;
if (c == 'n' || c == 'N') val = FALSE;
else if (c == 'y' || c == 'Y') val = TRUE;
else val = (int) simple_strtoul(pc, NULL, 0);
if (!strncmp(cur, "lc:", 3)) linked_comm = val;
else if (!strncmp(cur, "tc:", 3)) tagged_comm = val;
else if (!strncmp(cur, "tm:", 3)) tag_mode = val;
else if (!strncmp(cur, "mq:", 3)) max_queue_depth = val;
else if (!strncmp(cur, "ls:", 3)) link_statistics = val;
else if (!strncmp(cur, "eh:", 3)) use_new_eh_code = val;
else if (!strncmp(cur, "et:", 3)) ext_tran = val;
else if (!strncmp(cur, "rs:", 3)) rev_scan = val;
if ((cur = strchr(cur, ','))) ++cur;
}
return;
}
static int option_setup(char *str) {
int ints[MAX_INT_PARAM];
char *cur = str;
int i = 1;
while (cur && isdigit(*cur) && i <= MAX_INT_PARAM) {
ints[i++] = simple_strtoul(cur, NULL, 0);
if ((cur = strchr(cur, ',')) != NULL) cur++;
}
ints[0] = i - 1;
internal_setup(cur, ints);
return 1;
}
static void add_pci_ports(void) {
#if defined(CONFIG_PCI)
unsigned int addr, k;
struct pci_dev *dev = NULL;
if (!pci_present()) return;
for (k = 0; k < MAX_PCI; k++) {
if (!(dev = pci_find_class(PCI_CLASS_STORAGE_SCSI << 8, dev))) break;
if (pci_read_config_dword(dev, PCI_BASE_ADDRESS_0, &addr)) continue;
#if defined(DEBUG_PCI_DETECT)
printk("%s: detect, seq. %d, bus %d, devfn 0x%x, addr 0x%x.\n",
driver_name, k, dev->bus->number, dev->devfn, addr);
#endif
if ((addr & PCI_BASE_ADDRESS_SPACE) != PCI_BASE_ADDRESS_SPACE_IO)
continue;
/* Order addresses according to rev_scan value */
io_port[MAX_INT_PARAM + (rev_scan ? (MAX_PCI - k) : (1 + k))] =
(addr & PCI_BASE_ADDRESS_IO_MASK) + PCI_BASE_ADDRESS_0;
}
#endif /* end CONFIG_PCI */
return;
}
int eata2x_detect(Scsi_Host_Template *tpnt) {
unsigned int j = 0, k;
tpnt->proc_name = "eata2x";
if(boot_options) option_setup(boot_options);
#if defined(MODULE)
/* io_port could have been modified when loading as a module */
if(io_port[0] != SKIP) {
setup_done = TRUE;
io_port[MAX_INT_PARAM] = 0;
}
#endif
for (k = 0; k < MAX_BOARDS + 1; k++) sh[k] = NULL;
if (!setup_done) add_pci_ports();
for (k = 0; io_port[k]; k++) {
if (io_port[k] == SKIP) continue;
if (j < MAX_BOARDS && port_detect(io_port[k], j, tpnt)) j++;
}
num_boards = j;
return j;
}
static inline void build_sg_list(struct mscp *cpp, Scsi_Cmnd *SCpnt) {
unsigned int k;
struct scatterlist *sgpnt;
sgpnt = (struct scatterlist *) SCpnt->request_buffer;
for (k = 0; k < SCpnt->use_sg; k++) {
cpp->sglist[k].address = V2DEV(sgpnt[k].address);
cpp->sglist[k].num_bytes = H2DEV(sgpnt[k].length);
}
cpp->data_address = V2DEV(cpp->sglist);
cpp->data_len = H2DEV((SCpnt->use_sg * sizeof(struct sg_list)));
}
static inline int do_qcomm(Scsi_Cmnd *SCpnt, void (*done)(Scsi_Cmnd *)) {
unsigned int i, j, k;
struct mscp *cpp;
struct mssp *spp;
static const unsigned char data_out_cmds[] = {
0x0a, 0x2a, 0x15, 0x55, 0x04, 0x07, 0x18, 0x1d, 0x24, 0x2e,
0x30, 0x31, 0x32, 0x38, 0x39, 0x3a, 0x3b, 0x3d, 0x3f, 0x40,
0x41, 0x4c, 0xaa, 0xae, 0xb0, 0xb1, 0xb2, 0xb6, 0xea, 0x1b
};
static const unsigned char data_none_cmds[] = {
0x01, 0x0b, 0x10, 0x11, 0x13, 0x16, 0x17, 0x19, 0x2b, 0x1e,
0x2c, 0xac, 0x2f, 0xaf, 0x33, 0xb3, 0x35, 0x36, 0x45, 0x47,
0x48, 0x49, 0xa9, 0x4b, 0xa5, 0xa6, 0xb5
};
/* j is the board number */
j = ((struct hostdata *) SCpnt->host->hostdata)->board_number;
if (SCpnt->host_scribble)
panic("%s: qcomm, pid %ld, SCpnt %p already active.\n",
BN(j), SCpnt->pid, SCpnt);
/* i is the mailbox number, look for the first free mailbox
starting from last_cp_used */
i = HD(j)->last_cp_used + 1;
for (k = 0; k < sh[j]->can_queue; k++, i++) {
if (i >= sh[j]->can_queue) i = 0;
if (HD(j)->cp_stat[i] == FREE) {
HD(j)->last_cp_used = i;
break;
}
}
if (k == sh[j]->can_queue) {
printk("%s: qcomm, no free mailbox.\n", BN(j));
return 1;
}
/* Set pointer to control packet structure */
cpp = &HD(j)->cp[i];
memset(cpp, 0, sizeof(struct mscp) - sizeof(struct sg_list *));
/* Set pointer to status packet structure */
spp = &HD(j)->sp[0];
/* The EATA protocol uses Big Endian format */
cpp->sp_addr = V2DEV(spp);
SCpnt->scsi_done = done;
cpp->cpp_index = i;
SCpnt->host_scribble = (unsigned char *) &cpp->cpp_index;
if (do_trace) printk("%s: qcomm, mbox %d, target %d.%d:%d, pid %ld.\n",
BN(j), i, SCpnt->channel, SCpnt->target,
SCpnt->lun, SCpnt->pid);
for (k = 0; k < ARRAY_SIZE(data_out_cmds); k++)
if (SCpnt->cmnd[0] == data_out_cmds[k]) {
cpp->dout = TRUE;
break;
}
if ((cpp->din = !cpp->dout))
for (k = 0; k < ARRAY_SIZE(data_none_cmds); k++)
if (SCpnt->cmnd[0] == data_none_cmds[k]) {
cpp->din = FALSE;
break;
}
cpp->reqsen = TRUE;
cpp->dispri = TRUE;
#if 0
if (SCpnt->device->type == TYPE_TAPE) cpp->hbaci = TRUE;
#endif
cpp->one = TRUE;
cpp->channel = SCpnt->channel;
cpp->target = SCpnt->target;
cpp->lun = SCpnt->lun;
cpp->SCpnt = SCpnt;
cpp->sense_addr = V2DEV(SCpnt->sense_buffer);
cpp->sense_len = sizeof SCpnt->sense_buffer;
if (SCpnt->device->tagged_queue) {
if (HD(j)->target_redo[SCpnt->target][SCpnt->channel] ||
HD(j)->target_to[SCpnt->target][SCpnt->channel])
cpp->mess[0] = ORDERED_QUEUE_TAG;
else if (tag_mode == TAG_SIMPLE) cpp->mess[0] = SIMPLE_QUEUE_TAG;
else if (tag_mode == TAG_HEAD) cpp->mess[0] = HEAD_OF_QUEUE_TAG;
else if (tag_mode == TAG_ORDERED) cpp->mess[0] = ORDERED_QUEUE_TAG;
else if (SCpnt->device->current_tag == 0)
cpp->mess[0] = ORDERED_QUEUE_TAG;
else if (SCpnt->device->current_tag == 1)
cpp->mess[0] = HEAD_OF_QUEUE_TAG;
else
cpp->mess[0] = SIMPLE_QUEUE_TAG;
cpp->mess[1] = SCpnt->device->current_tag++;
}
if (SCpnt->use_sg) {
cpp->sg = TRUE;
build_sg_list(cpp, SCpnt);
}
else {
cpp->data_address = V2DEV(SCpnt->request_buffer);
cpp->data_len = H2DEV(SCpnt->request_bufflen);
}
memcpy(cpp->cdb, SCpnt->cmnd, SCpnt->cmd_len);
if (linked_comm && SCpnt->device->queue_depth > 2
&& TLDEV(SCpnt->device->type)) {
HD(j)->cp_stat[i] = READY;
flush_dev(SCpnt->device, SCpnt->request.sector, j, FALSE);
return 0;
}
/* Send control packet to the board */
if (do_dma(sh[j]->io_port, (unsigned long) cpp, SEND_CP_DMA)) {
SCpnt->host_scribble = NULL;
printk("%s: qcomm, target %d.%d:%d, pid %ld, adapter busy.\n",
BN(j), SCpnt->channel, SCpnt->target, SCpnt->lun, SCpnt->pid);
return 1;
}
HD(j)->cp_stat[i] = IN_USE;
return 0;
}
int eata2x_queuecommand(Scsi_Cmnd *SCpnt, void (*done)(Scsi_Cmnd *)) {
int rtn;
rtn = do_qcomm(SCpnt, done);
return rtn;
}
static inline int do_old_abort(Scsi_Cmnd *SCarg) {
unsigned int i, j;
j = ((struct hostdata *) SCarg->host->hostdata)->board_number;
if (SCarg->host_scribble == NULL ||
(SCarg->serial_number_at_timeout &&
(SCarg->serial_number != SCarg->serial_number_at_timeout))) {
printk("%s: abort, target %d.%d:%d, pid %ld inactive.\n",
BN(j), SCarg->channel, SCarg->target, SCarg->lun, SCarg->pid);
return SCSI_ABORT_NOT_RUNNING;
}
i = *(unsigned int *)SCarg->host_scribble;
printk("%s: abort, mbox %d, target %d.%d:%d, pid %ld.\n",
BN(j), i, SCarg->channel, SCarg->target, SCarg->lun, SCarg->pid);
if (i >= sh[j]->can_queue)
panic("%s: abort, invalid SCarg->host_scribble.\n", BN(j));
if (wait_on_busy(sh[j]->io_port, MAXLOOP)) {
printk("%s: abort, timeout error.\n", BN(j));
return SCSI_ABORT_ERROR;
}
if (HD(j)->cp_stat[i] == FREE) {
printk("%s: abort, mbox %d is free.\n", BN(j), i);
return SCSI_ABORT_NOT_RUNNING;
}
if (HD(j)->cp_stat[i] == IN_USE) {
printk("%s: abort, mbox %d is in use.\n", BN(j), i);
if (SCarg != HD(j)->cp[i].SCpnt)
panic("%s: abort, mbox %d, SCarg %p, cp SCpnt %p.\n",
BN(j), i, SCarg, HD(j)->cp[i].SCpnt);
if (inb(sh[j]->io_port + REG_AUX_STATUS) & IRQ_ASSERTED)
printk("%s: abort, mbox %d, interrupt pending.\n", BN(j), i);
return SCSI_ABORT_SNOOZE;
}
if (HD(j)->cp_stat[i] == IN_RESET) {
printk("%s: abort, mbox %d is in reset.\n", BN(j), i);
return SCSI_ABORT_ERROR;
}
if (HD(j)->cp_stat[i] == LOCKED) {
printk("%s: abort, mbox %d is locked.\n", BN(j), i);
return SCSI_ABORT_NOT_RUNNING;
}
if (HD(j)->cp_stat[i] == READY || HD(j)->cp_stat[i] == ABORTING) {
SCarg->result = DID_ABORT << 16;
SCarg->host_scribble = NULL;
HD(j)->cp_stat[i] = FREE;
printk("%s, abort, mbox %d ready, DID_ABORT, pid %ld done.\n",
BN(j), i, SCarg->pid);
SCarg->scsi_done(SCarg);
return SCSI_ABORT_SUCCESS;
}
panic("%s: abort, mbox %d, invalid cp_stat.\n", BN(j), i);
}
int eata2x_old_abort(Scsi_Cmnd *SCarg) {
int rtn;
rtn = do_old_abort(SCarg);
return rtn;
}
static inline int do_abort(Scsi_Cmnd *SCarg) {
unsigned int i, j;
j = ((struct hostdata *) SCarg->host->hostdata)->board_number;
if (SCarg->host_scribble == NULL) {
printk("%s: abort, target %d.%d:%d, pid %ld inactive.\n",
BN(j), SCarg->channel, SCarg->target, SCarg->lun, SCarg->pid);
return SUCCESS;
}
i = *(unsigned int *)SCarg->host_scribble;
printk("%s: abort, mbox %d, target %d.%d:%d, pid %ld.\n",
BN(j), i, SCarg->channel, SCarg->target, SCarg->lun, SCarg->pid);
if (i >= sh[j]->can_queue)
panic("%s: abort, invalid SCarg->host_scribble.\n", BN(j));
if (wait_on_busy(sh[j]->io_port, MAXLOOP)) {
printk("%s: abort, timeout error.\n", BN(j));
return FAILED;
}
if (HD(j)->cp_stat[i] == FREE) {
printk("%s: abort, mbox %d is free.\n", BN(j), i);
return SUCCESS;
}
if (HD(j)->cp_stat[i] == IN_USE) {
printk("%s: abort, mbox %d is in use.\n", BN(j), i);
if (SCarg != HD(j)->cp[i].SCpnt)
panic("%s: abort, mbox %d, SCarg %p, cp SCpnt %p.\n",
BN(j), i, SCarg, HD(j)->cp[i].SCpnt);
if (inb(sh[j]->io_port + REG_AUX_STATUS) & IRQ_ASSERTED)
printk("%s: abort, mbox %d, interrupt pending.\n", BN(j), i);
if (SCarg->eh_state == SCSI_STATE_TIMEOUT) {
SCarg->host_scribble = NULL;
HD(j)->cp_stat[i] = FREE;
printk("%s, abort, mbox %d, eh_state timeout, pid %ld.\n",
BN(j), i, SCarg->pid);
return SUCCESS;
}
return FAILED;
}
if (HD(j)->cp_stat[i] == IN_RESET) {
printk("%s: abort, mbox %d is in reset.\n", BN(j), i);
return FAILED;
}
if (HD(j)->cp_stat[i] == LOCKED) {
printk("%s: abort, mbox %d is locked.\n", BN(j), i);
return SUCCESS;
}
if (HD(j)->cp_stat[i] == READY || HD(j)->cp_stat[i] == ABORTING) {
SCarg->result = DID_ABORT << 16;
SCarg->host_scribble = NULL;
HD(j)->cp_stat[i] = FREE;
printk("%s, abort, mbox %d ready, DID_ABORT, pid %ld done.\n",
BN(j), i, SCarg->pid);
SCarg->scsi_done(SCarg);
return SUCCESS;
}
panic("%s: abort, mbox %d, invalid cp_stat.\n", BN(j), i);
}
int eata2x_abort(Scsi_Cmnd *SCarg) {
return do_abort(SCarg);
}
static inline int do_old_reset(Scsi_Cmnd *SCarg) {
unsigned int i, j, time, k, c, limit = 0;
int arg_done = FALSE;
Scsi_Cmnd *SCpnt;
j = ((struct hostdata *) SCarg->host->hostdata)->board_number;
printk("%s: reset, enter, target %d.%d:%d, pid %ld.\n",
BN(j), SCarg->channel, SCarg->target, SCarg->lun, SCarg->pid);
if (SCarg->host_scribble == NULL)
printk("%s: reset, pid %ld inactive.\n", BN(j), SCarg->pid);
if (SCarg->serial_number_at_timeout &&
(SCarg->serial_number != SCarg->serial_number_at_timeout)) {
printk("%s: reset, pid %ld, reset not running.\n", BN(j), SCarg->pid);
return SCSI_RESET_NOT_RUNNING;
}
if (HD(j)->in_reset) {
printk("%s: reset, exit, already in reset.\n", BN(j));
return SCSI_RESET_ERROR;
}
if (wait_on_busy(sh[j]->io_port, MAXLOOP)) {
printk("%s: reset, exit, timeout error.\n", BN(j));
return SCSI_RESET_ERROR;
}
HD(j)->retries = 0;
for (c = 0; c <= sh[j]->max_channel; c++)
for (k = 0; k < sh[j]->max_id; k++) {
HD(j)->target_redo[k][c] = TRUE;
HD(j)->target_to[k][c] = 0;
}
for (i = 0; i < sh[j]->can_queue; i++) {
if (HD(j)->cp_stat[i] == FREE) continue;
if (HD(j)->cp_stat[i] == LOCKED) {
HD(j)->cp_stat[i] = FREE;
printk("%s: reset, locked mbox %d forced free.\n", BN(j), i);
continue;
}
if (!(SCpnt = HD(j)->cp[i].SCpnt))
panic("%s: reset, mbox %d, SCpnt == NULL.\n", BN(j), i);
if (HD(j)->cp_stat[i] == READY || HD(j)->cp_stat[i] == ABORTING) {
HD(j)->cp_stat[i] = ABORTING;
printk("%s: reset, mbox %d aborting, pid %ld.\n",
BN(j), i, SCpnt->pid);
}
else {
HD(j)->cp_stat[i] = IN_RESET;
printk("%s: reset, mbox %d in reset, pid %ld.\n",
BN(j), i, SCpnt->pid);
}
if (SCpnt->host_scribble == NULL)
panic("%s: reset, mbox %d, garbled SCpnt.\n", BN(j), i);
if (*(unsigned int *)SCpnt->host_scribble != i)
panic("%s: reset, mbox %d, index mismatch.\n", BN(j), i);
if (SCpnt->scsi_done == NULL)
panic("%s: reset, mbox %d, SCpnt->scsi_done == NULL.\n", BN(j), i);
if (SCpnt == SCarg) arg_done = TRUE;
}
if (do_dma(sh[j]->io_port, 0, RESET_PIO)) {
printk("%s: reset, cannot reset, timeout error.\n", BN(j));
return SCSI_RESET_ERROR;
}
printk("%s: reset, board reset done, enabling interrupts.\n", BN(j));
#if defined(DEBUG_RESET)
do_trace = TRUE;
#endif
HD(j)->in_reset = TRUE;
SPIN_UNLOCK
time = jiffies;
while ((jiffies - time) < (10 * HZ) && limit++ < 200000) udelay(100L);
SPIN_LOCK
printk("%s: reset, interrupts disabled, loops %d.\n", BN(j), limit);
for (i = 0; i < sh[j]->can_queue; i++) {
if (HD(j)->cp_stat[i] == IN_RESET) {
SCpnt = HD(j)->cp[i].SCpnt;
SCpnt->result = DID_RESET << 16;
SCpnt->host_scribble = NULL;
/* This mailbox is still waiting for its interrupt */
HD(j)->cp_stat[i] = LOCKED;
printk("%s, reset, mbox %d locked, DID_RESET, pid %ld done.\n",
BN(j), i, SCpnt->pid);
}
else if (HD(j)->cp_stat[i] == ABORTING) {
SCpnt = HD(j)->cp[i].SCpnt;
SCpnt->result = DID_RESET << 16;
SCpnt->host_scribble = NULL;
/* This mailbox was never queued to the adapter */
HD(j)->cp_stat[i] = FREE;
printk("%s, reset, mbox %d aborting, DID_RESET, pid %ld done.\n",
BN(j), i, SCpnt->pid);
}
else
/* Any other mailbox has already been set free by interrupt */
continue;
SCpnt->scsi_done(SCpnt);
}
HD(j)->in_reset = FALSE;
do_trace = FALSE;
if (arg_done) {
printk("%s: reset, exit, success.\n", BN(j));
return SCSI_RESET_SUCCESS;
}
else {
printk("%s: reset, exit, wakeup.\n", BN(j));
return SCSI_RESET_PUNT;
}
}
int eata2x_old_reset(Scsi_Cmnd *SCarg, unsigned int reset_flags) {
int rtn;
rtn = do_old_reset(SCarg);
return rtn;
}
static inline int do_reset(Scsi_Cmnd *SCarg) {
unsigned int i, j, time, k, c, limit = 0;
int arg_done = FALSE;
Scsi_Cmnd *SCpnt;
j = ((struct hostdata *) SCarg->host->hostdata)->board_number;
printk("%s: reset, enter, target %d.%d:%d, pid %ld.\n",
BN(j), SCarg->channel, SCarg->target, SCarg->lun, SCarg->pid);
if (SCarg->host_scribble == NULL)
printk("%s: reset, pid %ld inactive.\n", BN(j), SCarg->pid);
if (HD(j)->in_reset) {
printk("%s: reset, exit, already in reset.\n", BN(j));
return FAILED;
}
if (wait_on_busy(sh[j]->io_port, MAXLOOP)) {
printk("%s: reset, exit, timeout error.\n", BN(j));
return FAILED;
}
HD(j)->retries = 0;
for (c = 0; c <= sh[j]->max_channel; c++)
for (k = 0; k < sh[j]->max_id; k++) {
HD(j)->target_redo[k][c] = TRUE;
HD(j)->target_to[k][c] = 0;
}
for (i = 0; i < sh[j]->can_queue; i++) {
if (HD(j)->cp_stat[i] == FREE) continue;
if (HD(j)->cp_stat[i] == LOCKED) {
HD(j)->cp_stat[i] = FREE;
printk("%s: reset, locked mbox %d forced free.\n", BN(j), i);
continue;
}
if (!(SCpnt = HD(j)->cp[i].SCpnt))
panic("%s: reset, mbox %d, SCpnt == NULL.\n", BN(j), i);
if (HD(j)->cp_stat[i] == READY || HD(j)->cp_stat[i] == ABORTING) {
HD(j)->cp_stat[i] = ABORTING;
printk("%s: reset, mbox %d aborting, pid %ld.\n",
BN(j), i, SCpnt->pid);
}
else {
HD(j)->cp_stat[i] = IN_RESET;
printk("%s: reset, mbox %d in reset, pid %ld.\n",
BN(j), i, SCpnt->pid);
}
if (SCpnt->host_scribble == NULL)
panic("%s: reset, mbox %d, garbled SCpnt.\n", BN(j), i);
if (*(unsigned int *)SCpnt->host_scribble != i)
panic("%s: reset, mbox %d, index mismatch.\n", BN(j), i);
if (SCpnt->scsi_done == NULL)
panic("%s: reset, mbox %d, SCpnt->scsi_done == NULL.\n", BN(j), i);
if (SCpnt == SCarg) arg_done = TRUE;
}
if (do_dma(sh[j]->io_port, 0, RESET_PIO)) {
printk("%s: reset, cannot reset, timeout error.\n", BN(j));
return FAILED;
}
printk("%s: reset, board reset done, enabling interrupts.\n", BN(j));
#if defined(DEBUG_RESET)
do_trace = TRUE;
#endif
HD(j)->in_reset = TRUE;
SPIN_UNLOCK
time = jiffies;
while ((jiffies - time) < (10 * HZ) && limit++ < 200000) udelay(100L);
SPIN_LOCK
printk("%s: reset, interrupts disabled, loops %d.\n", BN(j), limit);
for (i = 0; i < sh[j]->can_queue; i++) {
if (HD(j)->cp_stat[i] == IN_RESET) {
SCpnt = HD(j)->cp[i].SCpnt;
SCpnt->result = DID_RESET << 16;
SCpnt->host_scribble = NULL;
/* This mailbox is still waiting for its interrupt */
HD(j)->cp_stat[i] = LOCKED;
printk("%s, reset, mbox %d locked, DID_RESET, pid %ld done.\n",
BN(j), i, SCpnt->pid);
}
else if (HD(j)->cp_stat[i] == ABORTING) {
SCpnt = HD(j)->cp[i].SCpnt;
SCpnt->result = DID_RESET << 16;
SCpnt->host_scribble = NULL;
/* This mailbox was never queued to the adapter */
HD(j)->cp_stat[i] = FREE;
printk("%s, reset, mbox %d aborting, DID_RESET, pid %ld done.\n",
BN(j), i, SCpnt->pid);
}
else
/* Any other mailbox has already been set free by interrupt */
continue;
SCpnt->scsi_done(SCpnt);
}
HD(j)->in_reset = FALSE;
do_trace = FALSE;
if (arg_done) printk("%s: reset, exit, pid %ld done.\n", BN(j), SCarg->pid);
else printk("%s: reset, exit.\n", BN(j));
return SUCCESS;
}
int eata2x_reset(Scsi_Cmnd *SCarg) {
return do_reset(SCarg);
}
int eata2x_biosparam(Disk *disk, kdev_t dev, int *dkinfo) {
int size = disk->capacity;
if (ext_tran || (scsicam_bios_param(disk, dev, dkinfo) < 0)) {
dkinfo[0] = 255;
dkinfo[1] = 63;
dkinfo[2] = size / (dkinfo[0] * dkinfo[1]);
}
#if defined (DEBUG_GEOMETRY)
printk ("%s: biosparam, head=%d, sec=%d, cyl=%d.\n", driver_name,
dkinfo[0], dkinfo[1], dkinfo[2]);
#endif
return FALSE;
}
static void sort(unsigned long sk[], unsigned int da[], unsigned int n,
unsigned int rev) {
unsigned int i, j, k, y;
unsigned long x;
for (i = 0; i < n - 1; i++) {
k = i;
for (j = k + 1; j < n; j++)
if (rev) {
if (sk[j] > sk[k]) k = j;
}
else {
if (sk[j] < sk[k]) k = j;
}
if (k != i) {
x = sk[k]; sk[k] = sk[i]; sk[i] = x;
y = da[k]; da[k] = da[i]; da[i] = y;
}
}
return;
}
static inline int reorder(unsigned int j, unsigned long cursec,
unsigned int ihdlr, unsigned int il[], unsigned int n_ready) {
Scsi_Cmnd *SCpnt;
struct mscp *cpp;
unsigned int k, n;
unsigned int rev = FALSE, s = TRUE, r = TRUE;
unsigned int input_only = TRUE, overlap = FALSE;
unsigned long sl[n_ready], pl[n_ready], ll[n_ready];
unsigned long maxsec = 0, minsec = ULONG_MAX, seek = 0, iseek = 0;
unsigned long ioseek = 0;
static unsigned int flushcount = 0, batchcount = 0, sortcount = 0;
static unsigned int readycount = 0, ovlcount = 0, inputcount = 0;
static unsigned int readysorted = 0, revcount = 0;
static unsigned long seeksorted = 0, seeknosort = 0;
if (link_statistics && !(++flushcount % link_statistics))
printk("fc %d bc %d ic %d oc %d rc %d rs %d sc %d re %d"\
" av %ldK as %ldK.\n", flushcount, batchcount, inputcount,
ovlcount, readycount, readysorted, sortcount, revcount,
seeknosort / (readycount + 1),
seeksorted / (readycount + 1));
if (n_ready <= 1) return FALSE;
for (n = 0; n < n_ready; n++) {
k = il[n]; cpp = &HD(j)->cp[k]; SCpnt = cpp->SCpnt;
if (!cpp->din) input_only = FALSE;
if (SCpnt->request.sector < minsec) minsec = SCpnt->request.sector;
if (SCpnt->request.sector > maxsec) maxsec = SCpnt->request.sector;
sl[n] = SCpnt->request.sector;
ioseek += SCpnt->request.nr_sectors;
if (!n) continue;
if (sl[n] < sl[n - 1]) s = FALSE;
if (sl[n] > sl[n - 1]) r = FALSE;
if (link_statistics) {
if (sl[n] > sl[n - 1])
seek += sl[n] - sl[n - 1];
else
seek += sl[n - 1] - sl[n];
}
}
if (link_statistics) {
if (cursec > sl[0]) seek += cursec - sl[0]; else seek += sl[0] - cursec;
}
if (cursec > ((maxsec + minsec) / 2)) rev = TRUE;
if (ioseek > ((maxsec - minsec) / 2)) rev = FALSE;
if (!((rev && r) || (!rev && s))) sort(sl, il, n_ready, rev);
if (!input_only) for (n = 0; n < n_ready; n++) {
k = il[n]; cpp = &HD(j)->cp[k]; SCpnt = cpp->SCpnt;
ll[n] = SCpnt->request.nr_sectors; pl[n] = SCpnt->pid;
if (!n) continue;
if ((sl[n] == sl[n - 1]) || (!rev && ((sl[n - 1] + ll[n - 1]) > sl[n]))
|| (rev && ((sl[n] + ll[n]) > sl[n - 1]))) overlap = TRUE;
}
if (overlap) sort(pl, il, n_ready, FALSE);
if (link_statistics) {
if (cursec > sl[0]) iseek = cursec - sl[0]; else iseek = sl[0] - cursec;
batchcount++; readycount += n_ready, seeknosort += seek / 1024;
if (input_only) inputcount++;
if (overlap) { ovlcount++; seeksorted += iseek / 1024; }
else seeksorted += (iseek + maxsec - minsec) / 1024;
if (rev && !r) { revcount++; readysorted += n_ready; }
if (!rev && !s) { sortcount++; readysorted += n_ready; }
}
#if defined(DEBUG_LINKED_COMMANDS)
if (link_statistics && (overlap || !(flushcount % link_statistics)))
for (n = 0; n < n_ready; n++) {
k = il[n]; cpp = &HD(j)->cp[k]; SCpnt = cpp->SCpnt;
printk("%s %d.%d:%d pid %ld mb %d fc %d nr %d sec %ld ns %ld"\
" cur %ld s:%c r:%c rev:%c in:%c ov:%c xd %d.\n",
(ihdlr ? "ihdlr" : "qcomm"), SCpnt->channel, SCpnt->target,
SCpnt->lun, SCpnt->pid, k, flushcount, n_ready,
SCpnt->request.sector, SCpnt->request.nr_sectors, cursec,
YESNO(s), YESNO(r), YESNO(rev), YESNO(input_only),
YESNO(overlap), cpp->din);
}
#endif
return overlap;
}
static void flush_dev(Scsi_Device *dev, unsigned long cursec, unsigned int j,
unsigned int ihdlr) {
Scsi_Cmnd *SCpnt;
struct mscp *cpp;
unsigned int k, n, n_ready = 0, il[MAX_MAILBOXES];
for (k = 0; k < sh[j]->can_queue; k++) {
if (HD(j)->cp_stat[k] != READY && HD(j)->cp_stat[k] != IN_USE) continue;
cpp = &HD(j)->cp[k]; SCpnt = cpp->SCpnt;
if (SCpnt->device != dev) continue;
if (HD(j)->cp_stat[k] == IN_USE) return;
il[n_ready++] = k;
}
if (reorder(j, cursec, ihdlr, il, n_ready)) n_ready = 1;
for (n = 0; n < n_ready; n++) {
k = il[n]; cpp = &HD(j)->cp[k]; SCpnt = cpp->SCpnt;
if (do_dma(sh[j]->io_port, (unsigned long) cpp, SEND_CP_DMA)) {
printk("%s: %s, target %d.%d:%d, pid %ld, mbox %d, adapter"\
" busy, will abort.\n", BN(j), (ihdlr ? "ihdlr" : "qcomm"),
SCpnt->channel, SCpnt->target, SCpnt->lun, SCpnt->pid, k);
HD(j)->cp_stat[k] = ABORTING;
continue;
}
HD(j)->cp_stat[k] = IN_USE;
}
}
static inline void ihdlr(int irq, unsigned int j) {
Scsi_Cmnd *SCpnt;
unsigned int i, k, c, status, tstatus, reg;
struct mssp *dspp, *spp;
struct mscp *cpp;
if (sh[j]->irq != irq)
panic("%s: ihdlr, irq %d, sh[j]->irq %d.\n", BN(j), irq, sh[j]->irq);
/* Check if this board need to be serviced */
if (!(inb(sh[j]->io_port + REG_AUX_STATUS) & IRQ_ASSERTED)) return;
HD(j)->iocount++;
if (do_trace) printk("%s: ihdlr, enter, irq %d, count %d.\n", BN(j), irq,
HD(j)->iocount);
/* Check if this board is still busy */
if (wait_on_busy(sh[j]->io_port, 20 * MAXLOOP)) {
reg = inb(sh[j]->io_port + REG_STATUS);
printk("%s: ihdlr, busy timeout error, irq %d, reg 0x%x, count %d.\n",
BN(j), irq, reg, HD(j)->iocount);
return;
}
dspp = &HD(j)->sp[0];
spp = &HD(j)->sp[1];
/* Make a local copy just before clearing the interrupt indication */
memcpy(spp, dspp, sizeof(struct mssp));
/* Clear the completion flag and cp pointer on the dynamic copy of sp */
memset(dspp, 0, sizeof(struct mssp));
/* Read the status register to clear the interrupt indication */
reg = inb(sh[j]->io_port + REG_STATUS);
/* Reject any sp with supspect data */
if (spp->eoc == FALSE)
printk("%s: ihdlr, spp->eoc == FALSE, irq %d, reg 0x%x, count %d.\n",
BN(j), irq, reg, HD(j)->iocount);
if (spp->cpp_index < 0 || spp->cpp_index >= sh[j]->can_queue)
printk("%s: ihdlr, bad spp->cpp_index %d, irq %d, reg 0x%x, count %d.\n",
BN(j), spp->cpp_index, irq, reg, HD(j)->iocount);
if (spp->eoc == FALSE || spp->cpp_index < 0
|| spp->cpp_index >= sh[j]->can_queue) return;
/* Find the mailbox to be serviced on this board */
i = spp->cpp_index;
cpp = &(HD(j)->cp[i]);
#if defined(DEBUG_GENERATE_ABORTS)
if ((HD(j)->iocount > 500) && ((HD(j)->iocount % 500) < 3)) return;
#endif
if (HD(j)->cp_stat[i] == IGNORE) {
HD(j)->cp_stat[i] = FREE;
return;
}
else if (HD(j)->cp_stat[i] == LOCKED) {
HD(j)->cp_stat[i] = FREE;
printk("%s: ihdlr, mbox %d unlocked, count %d.\n", BN(j), i,
HD(j)->iocount);
return;
}
else if (HD(j)->cp_stat[i] == FREE) {
printk("%s: ihdlr, mbox %d is free, count %d.\n", BN(j), i,
HD(j)->iocount);
return;
}
else if (HD(j)->cp_stat[i] == IN_RESET)
printk("%s: ihdlr, mbox %d is in reset.\n", BN(j), i);
else if (HD(j)->cp_stat[i] != IN_USE)
panic("%s: ihdlr, mbox %d, invalid cp_stat: %d.\n",
BN(j), i, HD(j)->cp_stat[i]);
HD(j)->cp_stat[i] = FREE;
SCpnt = cpp->SCpnt;
if (SCpnt == NULL) panic("%s: ihdlr, mbox %d, SCpnt == NULL.\n", BN(j), i);
if (SCpnt->host_scribble == NULL)
panic("%s: ihdlr, mbox %d, pid %ld, SCpnt %p garbled.\n", BN(j), i,
SCpnt->pid, SCpnt);
if (*(unsigned int *)SCpnt->host_scribble != i)
panic("%s: ihdlr, mbox %d, pid %ld, index mismatch %d.\n",
BN(j), i, SCpnt->pid, *(unsigned int *)SCpnt->host_scribble);
if (linked_comm && SCpnt->device->queue_depth > 2
&& TLDEV(SCpnt->device->type))
flush_dev(SCpnt->device, SCpnt->request.sector, j, TRUE);
tstatus = status_byte(spp->target_status);
#if defined(DEBUG_GENERATE_ERRORS)
if ((HD(j)->iocount > 500) && ((HD(j)->iocount % 200) < 2))
spp->adapter_status = 0x01;
#endif
switch (spp->adapter_status) {
case ASOK: /* status OK */
/* Forces a reset if a disk drive keeps returning BUSY */
if (tstatus == BUSY && SCpnt->device->type != TYPE_TAPE)
status = DID_ERROR << 16;
/* If there was a bus reset, redo operation on each target */
else if (tstatus != GOOD && SCpnt->device->type == TYPE_DISK
&& HD(j)->target_redo[SCpnt->target][SCpnt->channel])
status = DID_BUS_BUSY << 16;
/* Works around a flaw in scsi.c */
else if (tstatus == CHECK_CONDITION
&& SCpnt->device->type == TYPE_DISK
&& (SCpnt->sense_buffer[2] & 0xf) == RECOVERED_ERROR)
status = DID_BUS_BUSY << 16;
else
status = DID_OK << 16;
if (tstatus == GOOD)
HD(j)->target_redo[SCpnt->target][SCpnt->channel] = FALSE;
if (spp->target_status && SCpnt->device->type == TYPE_DISK)
printk("%s: ihdlr, target %d.%d:%d, pid %ld, "\
"target_status 0x%x, sense key 0x%x.\n", BN(j),
SCpnt->channel, SCpnt->target, SCpnt->lun,
SCpnt->pid, spp->target_status,
SCpnt->sense_buffer[2]);
HD(j)->target_to[SCpnt->target][SCpnt->channel] = 0;
if (HD(j)->last_retried_pid == SCpnt->pid) HD(j)->retries = 0;
break;
case ASST: /* Selection Time Out */
case 0x02: /* Command Time Out */
if (HD(j)->target_to[SCpnt->target][SCpnt->channel] > 1)
status = DID_ERROR << 16;
else {
status = DID_TIME_OUT << 16;
HD(j)->target_to[SCpnt->target][SCpnt->channel]++;
}
break;
/* Perform a limited number of internal retries */
case 0x03: /* SCSI Bus Reset Received */
case 0x04: /* Initial Controller Power-up */
for (c = 0; c <= sh[j]->max_channel; c++)
for (k = 0; k < sh[j]->max_id; k++)
HD(j)->target_redo[k][c] = TRUE;
if (SCpnt->device->type != TYPE_TAPE
&& HD(j)->retries < MAX_INTERNAL_RETRIES) {
#if defined(DID_SOFT_ERROR)
status = DID_SOFT_ERROR << 16;
#else
status = DID_BUS_BUSY << 16;
#endif
HD(j)->retries++;
HD(j)->last_retried_pid = SCpnt->pid;
}
else
status = DID_ERROR << 16;
break;
case 0x05: /* Unexpected Bus Phase */
case 0x06: /* Unexpected Bus Free */
case 0x07: /* Bus Parity Error */
case 0x08: /* SCSI Hung */
case 0x09: /* Unexpected Message Reject */
case 0x0a: /* SCSI Bus Reset Stuck */
case 0x0b: /* Auto Request-Sense Failed */
case 0x0c: /* Controller Ram Parity Error */
default:
status = DID_ERROR << 16;
break;
}
SCpnt->result = status | spp->target_status;
#if defined(DEBUG_INTERRUPT)
if (SCpnt->result || do_trace)
#else
if ((spp->adapter_status != ASOK && HD(j)->iocount > 1000) ||
(spp->adapter_status != ASOK &&
spp->adapter_status != ASST && HD(j)->iocount <= 1000) ||
do_trace || msg_byte(spp->target_status))
#endif
printk("%s: ihdlr, mbox %2d, err 0x%x:%x,"\
" target %d.%d:%d, pid %ld, reg 0x%x, count %d.\n",
BN(j), i, spp->adapter_status, spp->target_status,
SCpnt->channel, SCpnt->target, SCpnt->lun, SCpnt->pid,
reg, HD(j)->iocount);
/* Set the command state to inactive */
SCpnt->host_scribble = NULL;
SCpnt->scsi_done(SCpnt);
if (do_trace) printk("%s: ihdlr, exit, irq %d, count %d.\n", BN(j), irq,
HD(j)->iocount);
return;
}
static void do_interrupt_handler(int irq, void *shap, struct pt_regs *regs) {
unsigned int j;
SPIN_FLAGS
/* Check if the interrupt must be processed by this handler */
if ((j = (unsigned int)((char *)shap - sha)) >= num_boards) return;
SPIN_LOCK_SAVE
ihdlr(irq, j);
SPIN_UNLOCK_RESTORE
}
int eata2x_release(struct Scsi_Host *shpnt) {
unsigned int i, j;
for (j = 0; sh[j] != NULL && sh[j] != shpnt; j++);
if (sh[j] == NULL) panic("%s: release, invalid Scsi_Host pointer.\n",
driver_name);
if( sh[j]->unchecked_isa_dma ) {
scsi_deregister_blocked_host(sh[j]);
}
for (i = 0; i < sh[j]->can_queue; i++)
if ((&HD(j)->cp[i])->sglist) kfree((&HD(j)->cp[i])->sglist);
free_irq(sh[j]->irq, &sha[j]);
if (sh[j]->dma_channel != NO_DMA) free_dma(sh[j]->dma_channel);
release_region(sh[j]->io_port, sh[j]->n_io_port);
scsi_unregister(sh[j]);
return FALSE;
}
#if defined(MODULE)
Scsi_Host_Template driver_template = EATA;
#include "scsi_module.c"
#else
#if LINUX_VERSION_CODE < LinuxVersionCode(2,3,18)
void eata2x_setup(char *str, int *ints) {
internal_setup(str, ints);
}
#else
__setup("eata=", option_setup);
#endif
#endif /* end MODULE */
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