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|
/*
* linux/drivers/block/ide.c Version 5.53 Jun 24, 1997
*
* Copyright (C) 1994-1996 Linus Torvalds & authors (see below)
*/
#define _IDE_C /* needed by <linux/blk.h> */
/*
* Maintained by Mark Lord <mlord@pobox.com>
* and Gadi Oxman <gadio@netvision.net.il>
*
* This is the multiple IDE interface driver, as evolved from hd.c.
* It supports up to four IDE interfaces, on one or more IRQs (usually 14 & 15).
* There can be up to two drives per interface, as per the ATA-2 spec.
*
* Primary: ide0, port 0x1f0; major=3; hda is minor=0; hdb is minor=64
* Secondary: ide1, port 0x170; major=22; hdc is minor=0; hdd is minor=64
* Tertiary: ide2, port 0x???; major=33; hde is minor=0; hdf is minor=64
* Quaternary: ide3, port 0x???; major=34; hdg is minor=0; hdh is minor=64
*
* It is easy to extend ide.c to handle more than four interfaces:
*
* Change the MAX_HWIFS constant in ide.h.
*
* Define some new major numbers (in major.h), and insert them into
* the ide_hwif_to_major table in ide.c.
*
* Fill in the extra values for the new interfaces into the two tables
* inside ide.c: default_io_base[] and default_irqs[].
*
* Create the new request handlers by cloning "do_ide3_request()"
* for each new interface, and add them to the switch statement
* in the ide_init() function in ide.c.
*
* Recompile, create the new /dev/ entries, and it will probably work.
*
* From hd.c:
* |
* | It traverses the request-list, using interrupts to jump between functions.
* | As nearly all functions can be called within interrupts, we may not sleep.
* | Special care is recommended. Have Fun!
* |
* | modified by Drew Eckhardt to check nr of hd's from the CMOS.
* |
* | Thanks to Branko Lankester, lankeste@fwi.uva.nl, who found a bug
* | in the early extended-partition checks and added DM partitions.
* |
* | Early work on error handling by Mika Liljeberg (liljeber@cs.Helsinki.FI).
* |
* | IRQ-unmask, drive-id, multiple-mode, support for ">16 heads",
* | and general streamlining by Mark Lord (mlord@pobox.com).
*
* October, 1994 -- Complete line-by-line overhaul for linux 1.1.x, by:
*
* Mark Lord (mlord@pobox.com) (IDE Perf.Pkg)
* Delman Lee (delman@mipg.upenn.edu) ("Mr. atdisk2")
* Scott Snyder (snyder@fnald0.fnal.gov) (ATAPI IDE cd-rom)
*
* This was a rewrite of just about everything from hd.c, though some original
* code is still sprinkled about. Think of it as a major evolution, with
* inspiration from lots of linux users, esp. hamish@zot.apana.org.au
*
* Version 1.0 ALPHA initial code, primary i/f working okay
* Version 1.3 BETA dual i/f on shared irq tested & working!
* Version 1.4 BETA added auto probing for irq(s)
* Version 1.5 BETA added ALPHA (untested) support for IDE cd-roms,
* ...
* Version 3.5 correct the bios_cyl field if it's too small
* (linux 1.1.76) (to help fdisk with brain-dead BIOSs)
* Version 3.6 cosmetic corrections to comments and stuff
* (linux 1.1.77) reorganise probing code to make it understandable
* added halfway retry to probing for drive identification
* added "hdx=noprobe" command line option
* allow setting multmode even when identification fails
* Version 3.7 move set_geometry=1 from do_identify() to ide_init()
* increase DRQ_WAIT to eliminate nuisance messages
* wait for DRQ_STAT instead of DATA_READY during probing
* (courtesy of Gary Thomas gary@efland.UU.NET)
* Version 3.8 fixed byte-swapping for confused Mitsumi cdrom drives
* update of ide-cd.c from Scott, allows blocksize=1024
* cdrom probe fixes, inspired by jprang@uni-duisburg.de
* Version 3.9 don't use LBA if lba_capacity looks funny
* correct the drive capacity calculations
* fix probing for old Seagates without IDE_ALTSTATUS_REG
* fix byte-ordering for some NEC cdrom drives
* Version 3.10 disable multiple mode by default; was causing trouble
* Version 3.11 fix mis-identification of old WD disks as cdroms
* Version 3,12 simplify logic for selecting initial mult_count
* (fixes problems with buggy WD drives)
* Version 3.13 remove excess "multiple mode disabled" messages
* Version 3.14 fix ide_error() handling of BUSY_STAT
* fix byte-swapped cdrom strings (again.. arghh!)
* ignore INDEX bit when checking the ALTSTATUS reg
* Version 3.15 add SINGLE_THREADED flag for use with dual-CMD i/f
* ignore WRERR_STAT for non-write operations
* added vlb_sync support for DC-2000A & others,
* (incl. some Promise chips), courtesy of Frank Gockel
* Version 3.16 convert vlb_32bit and vlb_sync into runtime flags
* add ioctls to get/set VLB flags (HDIO_[SG]ET_CHIPSET)
* rename SINGLE_THREADED to SUPPORT_SERIALIZE,
* add boot flag to "serialize" operation for CMD i/f
* add optional support for DTC2278 interfaces,
* courtesy of andy@cercle.cts.com (Dyan Wile).
* add boot flag to enable "dtc2278" probe
* add probe to avoid EATA (SCSI) interfaces,
* courtesy of neuffer@goofy.zdv.uni-mainz.de.
* Version 4.00 tidy up verify_area() calls - heiko@colossus.escape.de
* add flag to ignore WRERR_STAT for some drives
* courtesy of David.H.West@um.cc.umich.edu
* assembly syntax tweak to vlb_sync
* removable drive support from scuba@cs.tu-berlin.de
* add transparent support for DiskManager-6.0x "Dynamic
* Disk Overlay" (DDO), most of this is in genhd.c
* eliminate "multiple mode turned off" message at boot
* Version 4.10 fix bug in ioctl for "hdparm -c3"
* fix DM6:DDO support -- now works with LILO, fdisk, ...
* don't treat some naughty WD drives as removable
* Version 4.11 updated DM6 support using info provided by OnTrack
* Version 5.00 major overhaul, multmode setting fixed, vlb_sync fixed
* added support for 3rd/4th/alternative IDE ports
* created ide.h; ide-cd.c now compiles separate from ide.c
* hopefully fixed infinite "unexpected_intr" from cdroms
* zillions of other changes and restructuring
* somehow reduced overall memory usage by several kB
* probably slowed things down slightly, but worth it
* Version 5.01 AT LAST!! Finally understood why "unexpected_intr"
* was happening at various times/places: whenever the
* ide-interface's ctl_port was used to "mask" the irq,
* it also would trigger an edge in the process of masking
* which would result in a self-inflicted interrupt!!
* (such a stupid way to build a hardware interrupt mask).
* This is now fixed (after a year of head-scratching).
* Version 5.02 got rid of need for {enable,disable}_irq_list()
* Version 5.03 tune-ups, comments, remove "busy wait" from drive resets
* removed PROBE_FOR_IRQS option -- no longer needed
* OOOPS! fixed "bad access" bug for 2nd drive on an i/f
* Version 5.04 changed "ira %d" to "irq %d" in DEBUG message
* added more comments, cleaned up unexpected_intr()
* OOOPS! fixed null pointer problem in ide reset code
* added autodetect for Triton chipset -- no effect yet
* Version 5.05 OOOPS! fixed bug in revalidate_disk()
* OOOPS! fixed bug in ide_do_request()
* added ATAPI reset sequence for cdroms
* Version 5.10 added Bus-Mastered DMA support for Triton Chipset
* some (mostly) cosmetic changes
* Version 5.11 added ht6560b support by malafoss@snakemail.hut.fi
* reworked PCI scanning code
* added automatic RZ1000 detection/support
* added automatic PCI CMD640 detection/support
* added option for VLB CMD640 support
* tweaked probe to find cdrom on hdb with disks on hda,hdc
* Version 5.12 some performance tuning
* added message to alert user to bad /dev/hd[cd] entries
* OOOPS! fixed bug in atapi reset
* driver now forces "serialize" again for all cmd640 chips
* noticed REALLY_SLOW_IO had no effect, moved it to ide.c
* made do_drive_cmd() into public ide_do_drive_cmd()
* Version 5.13 fixed typo ('B'), thanks to houston@boyd.geog.mcgill.ca
* fixed ht6560b support
* Version 5.13b (sss) fix problem in calling ide_cdrom_setup()
* don't bother invalidating nonexistent partitions
* Version 5.14 fixes to cmd640 support.. maybe it works now(?)
* added & tested full EZ-DRIVE support -- don't use LILO!
* don't enable 2nd CMD640 PCI port during init - conflict
* Version 5.15 bug fix in init_cmd640_vlb()
* bug fix in interrupt sharing code
* Version 5.16 ugh.. fix "serialize" support, broken in 5.15
* remove "Huh?" from cmd640 code
* added qd6580 interface speed select from Colten Edwards
* Version 5.17 kludge around bug in BIOS32 on Intel triton motherboards
* Version 5.18 new CMD640 code, moved to cmd640.c, #include'd for now
* new UMC8672 code, moved to umc8672.c, #include'd for now
* disallow turning on DMA when h/w not capable of DMA
* Version 5.19 fix potential infinite timeout on resets
* extend reset poll into a general purpose polling scheme
* add atapi tape drive support from Gadi Oxman
* simplify exit from _intr routines -- no IDE_DO_REQUEST
* Version 5.20 leave current rq on blkdev request list during I/O
* generalized ide_do_drive_cmd() for tape/cdrom driver use
* Version 5.21 fix nasty cdrom/tape bug (ide_preempt was messed up)
* Version 5.22 fix ide_xlate_1024() to work with/without drive->id
* Version 5.23 miscellaneous touch-ups
* Version 5.24 fix #if's for SUPPORT_CMD640
* Version 5.25 more touch-ups, fix cdrom resets, ...
* cmd640.c now configs/compiles separate from ide.c
* Version 5.26 keep_settings now maintains the using_dma flag
* fix [EZD] remap message to only output at boot time
* fix "bad /dev/ entry" message to say hdc, not hdc0
* fix ide_xlate_1024() to respect user specified CHS
* use CHS from partn table if it looks translated
* re-merged flags chipset,vlb_32bit,vlb_sync into io_32bit
* keep track of interface chipset type, when known
* add generic PIO mode "tuneproc" mechanism
* fix cmd640_vlb option
* fix ht6560b support (was completely broken)
* umc8672.c now configures/compiles separate from ide.c
* move dtc2278 support to dtc2278.c
* move ht6560b support to ht6560b.c
* move qd6580 support to qd6580.c
* add ali14xx support in ali14xx.c
* Version 5.27 add [no]autotune parameters to help cmd640
* move rz1000 support to rz1000.c
* Version 5.28 #include "ide_modes.h"
* fix disallow_unmask: now per-interface "no_unmask" bit
* force io_32bit to be the same on drive pairs of dtc2278
* improved IDE tape error handling, and tape DMA support
* bugfix in ide_do_drive_cmd() for cdroms + serialize
* Version 5.29 fixed non-IDE check for too many physical heads
* don't use LBA if capacity is smaller than CHS
* Version 5.30 remove real_devices kludge, formerly used by genhd.c
* Version 5.32 change "KB" to "kB"
* fix serialize (was broken in kernel 1.3.72)
* add support for "hdparm -I"
* use common code for disk/tape/cdrom IDE_DRIVE_CMDs
* add support for Promise DC4030VL caching card
* improved serialize support
* put partition check back into alphabetical order
* add config option for PCMCIA baggage
* try to make PCMCIA support safer to use
* improve security on ioctls(): all are suser() only
* Version 5.33 improve handling of HDIO_DRIVE_CMDs that read data
* Version 5.34 fix irq-sharing problem from 5.33
* fix cdrom ioctl problem from 5.33
* Version 5.35 cosmetic changes
* fix cli() problem in try_to_identify()
* Version 5.36 fixes to optional PCMCIA support
* Version 5.37 don't use DMA when "noautotune" is specified
* Version 5.37a (go) fix shared irq probing (was broken in kernel 1.3.72)
* call unplug_device() from ide_do_drive_cmd()
* Version 5.38 add "hdx=none" option, courtesy of Joel Maslak
* mask drive irq after use, if sharing with another hwif
* add code to help debug weird cmd640 problems
* Version 5.39 fix horrible error in earlier irq sharing "fix"
* Version 5.40 fix serialization -- was broken in 5.39
* help sharing by masking device irq after probing
* Version 5.41 more fixes to irq sharing/serialize detection
* disable io_32bit by default on drive reset
* Version 5.42 simplify irq-masking after probe
* fix NULL pointer deref in save_match()
* Version 5.43 Ugh.. unexpected_intr is back: try to exterminate it
* Version 5.44 Fix for "irq probe failed" on cmd640
* change path on message regarding MAKEDEV.ide
* add a throttle to the unexpected_intr() messages
* Version 5.45 fix ugly parameter parsing bugs (thanks Derek)
* include Gadi's magic fix for cmd640 unexpected_intr
* include mc68000 patches from Geert Uytterhoeven
* add Gadi's fix for PCMCIA cdroms
* Version 5.46 remove the mc68000 #ifdefs for 2.0.x
* Version 5.47 fix set_tune race condition
* fix bug in earlier PCMCIA cdrom update
* Version 5.48 if def'd, invoke CMD640_DUMP_REGS when irq probe fails
* lengthen the do_reset1() pulse, for laptops
* add idebus=xx parameter for cmd640 and ali chipsets
* no_unmask flag now per-drive instead of per-hwif
* fix tune_req so that it gets done immediately
* fix missing restore_flags() in ide_ioctl
* prevent use of io_32bit on cmd640 with no prefetch
* Version 5.49 fix minor quirks in probing routines
* Version 5.50 allow values as small as 20 for idebus=
* Version 5.51 force non io_32bit in drive_cmd_intr()
* change delay_10ms() to delay_50ms() to fix problems
* Version 5.52 fix incorrect invalidation of removable devices
* add "hdx=slow" command line option
* Version 5.53 add ATAPI floppy drive support
* change default media for type 0 to floppy
* add support for Exabyte Nest
* add missing set_blocksize() in revalidate_disk()
* handle bad status bit sequencing in ide_wait_stat()
* support partition table translations with 255 heads
* probe all interfaces by default
* add probe for the i82371AB chipset
* acknowledge media change on removable drives
* add work-around for BMI drives
* remove "LBA" from boot messages
* Version 5.53.1 add UDMA "CRC retry" support
* Version 5.53.2 add Promise/33 auto-detection and DMA support
* fix MC_ERR handling
* fix mis-detection of NEC cdrom as floppy
* issue ATAPI reset and re-probe after "no response"
*
* Some additional driver compile-time options are in ide.h
*
* To do, in likely order of completion:
* - modify kernel to obtain BIOS geometry for drives on 2nd/3rd/4th i/f
*/
#undef REALLY_SLOW_IO /* most systems can safely undef this */
#include <linux/config.h>
#include <linux/types.h>
#include <linux/string.h>
#include <linux/kernel.h>
#include <linux/delay.h>
#include <linux/timer.h>
#include <linux/mm.h>
#include <linux/ioport.h>
#include <linux/interrupt.h>
#include <linux/major.h>
#include <linux/blkdev.h>
#include <linux/errno.h>
#include <linux/hdreg.h>
#include <linux/genhd.h>
#include <linux/malloc.h>
#include <asm/byteorder.h>
#include <asm/irq.h>
#include <asm/segment.h>
#include <asm/io.h>
#ifdef CONFIG_PCI
#include <linux/bios32.h>
#include <linux/pci.h>
#endif /* CONFIG_PCI */
#include "ide.h"
#include "ide_modes.h"
#ifdef CONFIG_BLK_DEV_PROMISE
#include "promise.h"
#define IS_PROMISE_DRIVE (HWIF(drive)->chipset == ide_promise)
#else
#define IS_PROMISE_DRIVE (0) /* auto-NULLs out Promise code */
#endif /* CONFIG_BLK_DEV_PROMISE */
static const byte ide_hwif_to_major[MAX_HWIFS] = {IDE0_MAJOR, IDE1_MAJOR, IDE2_MAJOR, IDE3_MAJOR};
static const unsigned short default_io_base[MAX_HWIFS] = {0x1f0, 0x170, 0x1e8, 0x168};
static const byte default_irqs[MAX_HWIFS] = {14, 15, 11, 10};
static int idebus_parameter; /* holds the "idebus=" parameter */
static int system_bus_speed; /* holds what we think is VESA/PCI bus speed */
/*
* This is declared extern in ide.h, for access by other IDE modules:
*/
ide_hwif_t ide_hwifs[MAX_HWIFS]; /* master data repository */
#if (DISK_RECOVERY_TIME > 0)
/*
* For really screwy hardware (hey, at least it *can* be used with Linux)
* we can enforce a minimum delay time between successive operations.
*/
static unsigned long read_timer(void)
{
unsigned long t, flags;
int i;
save_flags(flags);
cli();
t = jiffies * 11932;
outb_p(0, 0x43);
i = inb_p(0x40);
i |= inb(0x40) << 8;
restore_flags(flags);
return (t - i);
}
static void set_recovery_timer (ide_hwif_t *hwif)
{
hwif->last_time = read_timer();
}
#define SET_RECOVERY_TIMER(drive) set_recovery_timer (drive)
#else
#define SET_RECOVERY_TIMER(drive)
#endif /* DISK_RECOVERY_TIME */
/*
* Do not even *think* about calling this!
*/
static void init_hwif_data (unsigned int index)
{
byte *p;
unsigned int unit;
ide_hwif_t *hwif = &ide_hwifs[index];
/* bulk initialize hwif & drive info with zeros */
p = ((byte *) hwif) + sizeof(ide_hwif_t);
do {
*--p = 0;
} while (p > (byte *) hwif);
/* fill in any non-zero initial values */
hwif->index = index;
hwif->io_base = default_io_base[index];
hwif->ctl_port = hwif->io_base ? hwif->io_base+0x206 : 0x000;
#ifdef CONFIG_BLK_DEV_HD
if (hwif->io_base == HD_DATA)
hwif->noprobe = 1; /* may be overridden by ide_setup() */
#endif /* CONFIG_BLK_DEV_HD */
hwif->major = ide_hwif_to_major[index];
hwif->name[0] = 'i';
hwif->name[1] = 'd';
hwif->name[2] = 'e';
hwif->name[3] = '0' + index;
#ifdef CONFIG_BLK_DEV_IDETAPE
hwif->tape_drive = NULL;
#endif /* CONFIG_BLK_DEV_IDETAPE */
for (unit = 0; unit < MAX_DRIVES; ++unit) {
ide_drive_t *drive = &hwif->drives[unit];
drive->select.all = (unit<<4)|0xa0;
drive->hwif = hwif;
drive->ctl = 0x08;
drive->ready_stat = READY_STAT;
drive->bad_wstat = BAD_W_STAT;
drive->special.b.recalibrate = 1;
drive->special.b.set_geometry = 1;
drive->name[0] = 'h';
drive->name[1] = 'd';
#ifdef MACH
drive->name[2] = '0' + (index * MAX_DRIVES) + unit;
#else
drive->name[2] = 'a' + (index * MAX_DRIVES) + unit;
#endif
}
}
/*
* init_ide_data() sets reasonable default values into all fields
* of all instances of the hwifs and drives, but only on the first call.
* Subsequent calls have no effect (they don't wipe out anything).
*
* This routine is normally called at driver initialization time,
* but may also be called MUCH earlier during kernel "command-line"
* parameter processing. As such, we cannot depend on any other parts
* of the kernel (such as memory allocation) to be functioning yet.
*
* This is too bad, as otherwise we could dynamically allocate the
* ide_drive_t structs as needed, rather than always consuming memory
* for the max possible number (MAX_HWIFS * MAX_DRIVES) of them.
*/
#define MAGIC_COOKIE 0x12345678
static void init_ide_data (void)
{
unsigned int index;
static unsigned long magic_cookie = MAGIC_COOKIE;
if (magic_cookie != MAGIC_COOKIE)
return; /* already initialized */
magic_cookie = 0;
for (index = 0; index < MAX_HWIFS; ++index)
init_hwif_data(index);
idebus_parameter = 0;
system_bus_speed = 0;
}
/*
* ide_system_bus_speed() returns what we think is the system VESA/PCI
* bus speed (in Mhz). This is used for calculating interface PIO timings.
* The default is 40 for known PCI systems, 50 otherwise.
* The "idebus=xx" parameter can be used to override this value.
* The actual value to be used is computed/displayed the first time through.
*/
int ide_system_bus_speed (void)
{
if (!system_bus_speed) {
if (idebus_parameter)
system_bus_speed = idebus_parameter; /* user supplied value */
#ifdef CONFIG_PCI
else if (pcibios_present())
system_bus_speed = 40; /* safe default value for PCI */
#endif /* CONFIG_PCI */
else
system_bus_speed = 50; /* safe default value for VESA and PCI */
printk("ide: Assuming %dMhz system bus speed for PIO modes; override with idebus=xx\n", system_bus_speed);
}
return system_bus_speed;
}
#if SUPPORT_VLB_SYNC
/*
* Some localbus EIDE interfaces require a special access sequence
* when using 32-bit I/O instructions to transfer data. We call this
* the "vlb_sync" sequence, which consists of three successive reads
* of the sector count register location, with interrupts disabled
* to ensure that the reads all happen together.
*/
static inline void do_vlb_sync (unsigned short port) {
(void) inb (port);
(void) inb (port);
(void) inb (port);
}
#endif /* SUPPORT_VLB_SYNC */
/*
* This is used for most PIO data transfers *from* the IDE interface
*/
void ide_input_data (ide_drive_t *drive, void *buffer, unsigned int wcount)
{
unsigned short io_base = HWIF(drive)->io_base;
unsigned short data_reg = io_base+IDE_DATA_OFFSET;
byte io_32bit = drive->io_32bit;
if (io_32bit) {
#if SUPPORT_VLB_SYNC
if (io_32bit & 2) {
cli();
do_vlb_sync(io_base+IDE_NSECTOR_OFFSET);
insl(data_reg, buffer, wcount);
if (drive->unmask)
sti();
} else
#endif /* SUPPORT_VLB_SYNC */
insl(data_reg, buffer, wcount);
} else {
#if SUPPORT_SLOW_DATA_PORTS
if (drive->slow) {
unsigned short *ptr = (unsigned short *) buffer;
while (wcount--) {
*ptr++ = inw_p(data_reg);
*ptr++ = inw_p(data_reg);
}
} else
#endif /* SUPPORT_SLOW_DATA_PORTS */
insw(data_reg, buffer, wcount<<1);
}
}
/*
* This is used for most PIO data transfers *to* the IDE interface
*/
void ide_output_data (ide_drive_t *drive, void *buffer, unsigned int wcount)
{
unsigned short io_base = HWIF(drive)->io_base;
unsigned short data_reg = io_base+IDE_DATA_OFFSET;
byte io_32bit = drive->io_32bit;
if (io_32bit) {
#if SUPPORT_VLB_SYNC
if (io_32bit & 2) {
cli();
do_vlb_sync(io_base+IDE_NSECTOR_OFFSET);
outsl(data_reg, buffer, wcount);
if (drive->unmask)
sti();
} else
#endif /* SUPPORT_VLB_SYNC */
outsl(data_reg, buffer, wcount);
} else {
#if SUPPORT_SLOW_DATA_PORTS
if (drive->slow) {
unsigned short *ptr = (unsigned short *) buffer;
while (wcount--) {
outw_p(*ptr++, data_reg);
outw_p(*ptr++, data_reg);
}
} else
#endif /* SUPPORT_SLOW_DATA_PORTS */
outsw(data_reg, buffer, wcount<<1);
}
}
/*
* The following routines are mainly used by the ATAPI drivers.
*
* These routines will round up any request for an odd number of bytes,
* so if an odd bytecount is specified, be sure that there's at least one
* extra byte allocated for the buffer.
*/
void atapi_input_bytes (ide_drive_t *drive, void *buffer, unsigned int bytecount)
{
++bytecount;
ide_input_data (drive, buffer, bytecount / 4);
if ((bytecount & 0x03) >= 2)
insw (IDE_DATA_REG, ((byte *)buffer) + (bytecount & ~0x03), 1);
}
void atapi_output_bytes (ide_drive_t *drive, void *buffer, unsigned int bytecount)
{
++bytecount;
ide_output_data (drive, buffer, bytecount / 4);
if ((bytecount & 0x03) >= 2)
outsw (IDE_DATA_REG, ((byte *)buffer) + (bytecount & ~0x03), 1);
}
/*
* This should get invoked any time we exit the driver to
* wait for an interrupt response from a drive. handler() points
* at the appropriate code to handle the next interrupt, and a
* timer is started to prevent us from waiting forever in case
* something goes wrong (see the timer_expiry() handler later on).
*/
void ide_set_handler (ide_drive_t *drive, ide_handler_t *handler, unsigned int timeout)
{
ide_hwgroup_t *hwgroup = HWGROUP(drive);
#ifdef DEBUG
if (hwgroup->handler != NULL) {
printk("%s: ide_set_handler: handler not null; old=%p, new=%p\n",
drive->name, hwgroup->handler, handler);
}
#endif
hwgroup->handler = handler;
hwgroup->timer.expires = jiffies + timeout;
add_timer(&(hwgroup->timer));
}
/*
* lba_capacity_is_ok() performs a sanity check on the claimed "lba_capacity"
* value for this drive (from its reported identification information).
*
* Returns: 1 if lba_capacity looks sensible
* 0 otherwise
*
* Note: we must not change id->cyls here, otherwise a second call
* of this routine might no longer find lba_capacity ok.
*/
static int lba_capacity_is_ok (struct hd_driveid *id)
{
unsigned long lba_sects = id->lba_capacity;
unsigned long chs_sects = id->cyls * id->heads * id->sectors;
unsigned long _10_percent = chs_sects / 10;
/*
* The ATA spec tells large drives to return
* C/H/S = 16383/16/63 independent of their size.
* Some drives can be jumpered to use 15 heads instead of 16.
*/
if (id->cyls == 16383 && id->sectors == 63 &&
(id->heads == 15 || id->heads == 16) &&
id->lba_capacity >= 16383*63*id->heads)
return 1; /* lba_capacity is our only option */
/* perform a rough sanity check on lba_sects: within 10% is "okay" */
if ((lba_sects - chs_sects) < _10_percent)
return 1; /* lba_capacity is good */
/* some drives have the word order reversed */
lba_sects = (lba_sects << 16) | (lba_sects >> 16);
if ((lba_sects - chs_sects) < _10_percent) {
id->lba_capacity = lba_sects; /* fix it */
return 1; /* lba_capacity is (now) good */
}
return 0; /* lba_capacity value is bad */
}
/*
* current_capacity() returns the capacity (in sectors) of a drive
* according to its current geometry/LBA settings.
*
* It also sets select.b.lba.
*/
static unsigned long current_capacity (ide_drive_t *drive)
{
struct hd_driveid *id = drive->id;
unsigned long capacity;
if (!drive->present)
return 0;
#ifdef CONFIG_BLK_DEV_IDEFLOPPY
if (drive->media == ide_floppy)
return idefloppy_capacity(drive);
#endif /* CONFIG_BLK_DEV_IDEFLOPPY */
if (drive->media != ide_disk)
return 0x7fffffff; /* cdrom or tape */
drive->select.b.lba = 0;
/* Determine capacity, and use LBA if the drive properly supports it */
capacity = drive->cyl * drive->head * drive->sect;
if (id != NULL && (id->capability & 2) && lba_capacity_is_ok(id)) {
if (id->lba_capacity >= capacity) {
capacity = id->lba_capacity;
drive->select.b.lba = 1;
}
}
return (capacity - drive->sect0);
}
/*
* ide_geninit() is called exactly *once* for each major, from genhd.c,
* at the beginning of the initial partition check for the drives.
*/
static void ide_geninit (struct gendisk *gd)
{
unsigned int unit;
ide_hwif_t *hwif = gd->real_devices;
for (unit = 0; unit < gd->nr_real; ++unit) {
ide_drive_t *drive = &hwif->drives[unit];
#ifdef CONFIG_BLK_DEV_IDECD
if (drive->present && drive->media == ide_cdrom)
ide_cdrom_setup(drive);
#endif /* CONFIG_BLK_DEV_IDECD */
#ifdef CONFIG_BLK_DEV_IDETAPE
if (drive->present && drive->media == ide_tape)
idetape_setup(drive);
#endif /* CONFIG_BLK_DEV_IDETAPE */
#ifdef CONFIG_BLK_DEV_IDEFLOPPY
if (drive->present && drive->media == ide_floppy)
idefloppy_setup(drive);
#endif /* CONFIG_BLK_DEV_IDEFLOPPY */
drive->part[0].nr_sects = current_capacity(drive);
if (!drive->present || (drive->media != ide_disk && drive->media != ide_floppy) ||
!drive->part[0].nr_sects) {
drive->part[0].start_sect = -1; /* skip partition check */
}
}
}
/*
* init_gendisk() (as opposed to ide_geninit) is called for each major device,
* after probing for drives, to allocate partition tables and other data
* structures needed for the routines in genhd.c. ide_geninit() gets called
* somewhat later, during the partition check.
*/
static void init_gendisk (ide_hwif_t *hwif)
{
struct gendisk *gd, **gdp;
unsigned int unit, units, minors;
int *bs;
/* figure out maximum drive number on the interface */
for (units = MAX_DRIVES; units > 0; --units) {
if (hwif->drives[units-1].present)
break;
}
minors = units * (1<<PARTN_BITS);
gd = kmalloc (sizeof(struct gendisk), GFP_KERNEL);
gd->sizes = kmalloc (minors * sizeof(int), GFP_KERNEL);
gd->part = kmalloc (minors * sizeof(struct hd_struct), GFP_KERNEL);
bs = kmalloc (minors*sizeof(int), GFP_KERNEL);
memset(gd->part, 0, minors * sizeof(struct hd_struct));
/* cdroms and msdos f/s are examples of non-1024 blocksizes */
blksize_size[hwif->major] = bs;
for (unit = 0; unit < minors; ++unit)
*bs++ = BLOCK_SIZE;
for (unit = 0; unit < units; ++unit)
hwif->drives[unit].part = &gd->part[unit << PARTN_BITS];
gd->major = hwif->major; /* our major device number */
gd->major_name = IDE_MAJOR_NAME; /* treated special in genhd.c */
gd->minor_shift = PARTN_BITS; /* num bits for partitions */
gd->max_p = 1<<PARTN_BITS; /* 1 + max partitions / drive */
gd->max_nr = units; /* max num real drives */
gd->nr_real = units; /* current num real drives */
gd->init = ide_geninit; /* initialization function */
gd->real_devices= hwif; /* ptr to internal data */
gd->next = NULL; /* linked list of major devs */
for (gdp = &gendisk_head; *gdp; gdp = &((*gdp)->next)) ;
hwif->gd = *gdp = gd; /* link onto tail of list */
}
static void do_reset1 (ide_drive_t *, int); /* needed below */
#ifdef CONFIG_BLK_DEV_IDEATAPI
/*
* atapi_reset_pollfunc() gets invoked to poll the interface for completion every 50ms
* during an atapi drive reset operation. If the drive has not yet responded,
* and we have not yet hit our maximum waiting time, then the timer is restarted
* for another 50ms.
*/
static void atapi_reset_pollfunc (ide_drive_t *drive)
{
ide_hwgroup_t *hwgroup = HWGROUP(drive);
byte stat;
OUT_BYTE (drive->select.all, IDE_SELECT_REG);
udelay (10);
if (OK_STAT(stat=GET_STAT(), 0, BUSY_STAT)) {
printk("%s: ATAPI reset complete\n", drive->name);
} else {
if (jiffies < hwgroup->poll_timeout) {
ide_set_handler (drive, &atapi_reset_pollfunc, HZ/20);
return; /* continue polling */
}
hwgroup->poll_timeout = 0; /* end of polling */
printk("%s: ATAPI reset timed-out, status=0x%02x\n", drive->name, stat);
do_reset1 (drive, 1); /* do it the old fashioned way */
return;
}
hwgroup->poll_timeout = 0; /* done polling */
}
#endif /* CONFIG_BLK_DEV_IDEATAPI */
/*
* reset_pollfunc() gets invoked to poll the interface for completion every 50ms
* during an ide reset operation. If the drives have not yet responded,
* and we have not yet hit our maximum waiting time, then the timer is restarted
* for another 50ms.
*/
static void reset_pollfunc (ide_drive_t *drive)
{
ide_hwgroup_t *hwgroup = HWGROUP(drive);
ide_hwif_t *hwif = HWIF(drive);
byte tmp;
if (!OK_STAT(tmp=GET_STAT(), 0, BUSY_STAT)) {
if (jiffies < hwgroup->poll_timeout) {
ide_set_handler (drive, &reset_pollfunc, HZ/20);
return; /* continue polling */
}
printk("%s: reset timed-out, status=0x%02x\n", hwif->name, tmp);
} else {
printk("%s: reset: ", hwif->name);
if ((tmp = GET_ERR()) == 1)
printk("success\n");
else {
#if FANCY_STATUS_DUMPS
printk("master: ");
switch (tmp & 0x7f) {
case 1: printk("passed");
break;
case 2: printk("formatter device error");
break;
case 3: printk("sector buffer error");
break;
case 4: printk("ECC circuitry error");
break;
case 5: printk("controlling MPU error");
break;
default:printk("error (0x%02x?)", tmp);
}
if (tmp & 0x80)
printk("; slave: failed");
printk("\n");
#else
printk("failed\n");
#endif /* FANCY_STATUS_DUMPS */
}
}
hwgroup->poll_timeout = 0; /* done polling */
}
/*
* do_reset1() attempts to recover a confused drive by resetting it.
* Unfortunately, resetting a disk drive actually resets all devices on
* the same interface, so it can really be thought of as resetting the
* interface rather than resetting the drive.
*
* ATAPI devices have their own reset mechanism which allows them to be
* individually reset without clobbering other devices on the same interface.
*
* Unfortunately, the IDE interface does not generate an interrupt to let
* us know when the reset operation has finished, so we must poll for this.
* Equally poor, though, is the fact that this may a very long time to complete,
* (up to 30 seconds worstcase). So, instead of busy-waiting here for it,
* we set a timer to poll at 50ms intervals.
*/
static void do_reset1 (ide_drive_t *drive, int do_not_try_atapi)
{
unsigned int unit;
unsigned long flags;
ide_hwif_t *hwif = HWIF(drive);
ide_hwgroup_t *hwgroup = HWGROUP(drive);
save_flags(flags);
cli(); /* Why ? */
#ifdef CONFIG_BLK_DEV_IDEATAPI
/* For an ATAPI device, first try an ATAPI SRST. */
if (drive->media != ide_disk) {
if (!do_not_try_atapi) {
if (!drive->keep_settings) {
drive->unmask = 0;
drive->io_32bit = 0;
}
OUT_BYTE (drive->select.all, IDE_SELECT_REG);
udelay (20);
OUT_BYTE (WIN_SRST, IDE_COMMAND_REG);
hwgroup->poll_timeout = jiffies + WAIT_WORSTCASE;
ide_set_handler (drive, &atapi_reset_pollfunc, HZ/20);
restore_flags (flags);
return;
}
}
#endif /* CONFIG_BLK_DEV_IDEATAPI */
/*
* First, reset any device state data we were maintaining
* for any of the drives on this interface.
*/
for (unit = 0; unit < MAX_DRIVES; ++unit) {
ide_drive_t *rdrive = &hwif->drives[unit];
#ifdef CONFIG_BLK_DEV_IDETAPE
if (rdrive->media == ide_tape)
rdrive->tape.reset_issued = 1;
#endif /* CONFIG_BLK_DEV_IDETAPE */
rdrive->special.all = 0;
rdrive->special.b.set_geometry = 1;
rdrive->special.b.recalibrate = 1;
if (OK_TO_RESET_CONTROLLER)
rdrive->mult_count = 0;
if (!rdrive->keep_settings) {
rdrive->mult_req = 0;
rdrive->unmask = 0;
rdrive->io_32bit = 0;
if (rdrive->using_dma) {
rdrive->using_dma = 0;
printk("%s: disabled DMA\n", rdrive->name);
}
}
if (rdrive->mult_req != rdrive->mult_count)
rdrive->special.b.set_multmode = 1;
}
#if OK_TO_RESET_CONTROLLER
/*
* Note that we also set nIEN while resetting the device,
* to mask unwanted interrupts from the interface during the reset.
* However, due to the design of PC hardware, this will cause an
* immediate interrupt due to the edge transition it produces.
* This single interrupt gives us a "fast poll" for drives that
* recover from reset very quickly, saving us the first 50ms wait time.
*/
OUT_BYTE(drive->ctl|6,IDE_CONTROL_REG); /* set SRST and nIEN */
udelay(10); /* more than enough time */
OUT_BYTE(drive->ctl|2,IDE_CONTROL_REG); /* clear SRST, leave nIEN */
udelay(10); /* more than enough time */
hwgroup->poll_timeout = jiffies + WAIT_WORSTCASE;
ide_set_handler (drive, &reset_pollfunc, HZ/20);
#endif /* OK_TO_RESET_CONTROLLER */
restore_flags (flags);
}
/*
* ide_do_reset() is the entry point to the drive/interface reset code.
*/
void ide_do_reset (ide_drive_t *drive)
{
do_reset1 (drive, 0);
#ifdef CONFIG_BLK_DEV_IDETAPE
if (drive->media == ide_tape)
drive->tape.reset_issued=1;
#endif /* CONFIG_BLK_DEV_IDETAPE */
}
/*
* Clean up after success/failure of an explicit drive cmd
*/
void ide_end_drive_cmd (ide_drive_t *drive, byte stat, byte err)
{
unsigned long flags;
struct request *rq = HWGROUP(drive)->rq;
if (rq->cmd == IDE_DRIVE_CMD) {
byte *args = (byte *) rq->buffer;
rq->errors = !OK_STAT(stat,READY_STAT,BAD_STAT);
if (args) {
args[0] = stat;
args[1] = err;
args[2] = IN_BYTE(IDE_NSECTOR_REG);
}
}
save_flags(flags);
cli();
blk_dev[MAJOR(rq->rq_dev)].current_request = rq->next;
HWGROUP(drive)->rq = NULL;
rq->rq_status = RQ_INACTIVE;
if (rq->sem != NULL)
up(rq->sem);
restore_flags(flags);
}
/*
* Error reporting, in human readable form (luxurious, but a memory hog).
*/
byte ide_dump_status (ide_drive_t *drive, const char *msg, byte stat)
{
unsigned long flags;
byte err = 0;
save_flags (flags);
sti();
printk("%s: %s: status=0x%02x", drive->name, msg, stat);
#if FANCY_STATUS_DUMPS
if (drive->media == ide_disk) {
printk(" { ");
if (stat & BUSY_STAT)
printk("Busy ");
else {
if (stat & READY_STAT) printk("DriveReady ");
if (stat & WRERR_STAT) printk("DeviceFault ");
if (stat & SEEK_STAT) printk("SeekComplete ");
if (stat & DRQ_STAT) printk("DataRequest ");
if (stat & ECC_STAT) printk("CorrectedError ");
if (stat & INDEX_STAT) printk("Index ");
if (stat & ERR_STAT) printk("Error ");
}
printk("}");
}
#endif /* FANCY_STATUS_DUMPS */
printk("\n");
if ((stat & (BUSY_STAT|ERR_STAT)) == ERR_STAT) {
err = GET_ERR();
printk("%s: %s: error=0x%02x", drive->name, msg, err);
#if FANCY_STATUS_DUMPS
if (drive->media == ide_disk) {
printk(" { ");
if (err & ICRC_ERR) printk((err & ABRT_ERR) ? "BadCRC " : "BadSector ");
if (err & ECC_ERR) printk("UncorrectableError ");
if (err & ID_ERR) printk("SectorIdNotFound ");
if (err & ABRT_ERR) printk("DriveStatusError ");
if (err & TRK0_ERR) printk("TrackZeroNotFound ");
if (err & MARK_ERR) printk("AddrMarkNotFound ");
printk("}");
if (err & (BBD_ERR|ECC_ERR|ID_ERR|MARK_ERR)) {
byte cur = IN_BYTE(IDE_SELECT_REG);
if (cur & 0x40) { /* using LBA? */
printk(", LBAsect=%ld", (unsigned long)
((cur&0xf)<<24)
|(IN_BYTE(IDE_HCYL_REG)<<16)
|(IN_BYTE(IDE_LCYL_REG)<<8)
| IN_BYTE(IDE_SECTOR_REG));
} else {
printk(", CHS=%d/%d/%d",
(IN_BYTE(IDE_HCYL_REG)<<8) +
IN_BYTE(IDE_LCYL_REG),
cur & 0xf,
IN_BYTE(IDE_SECTOR_REG));
}
if (HWGROUP(drive)->rq)
printk(", sector=%ld", HWGROUP(drive)->rq->sector);
}
}
#endif /* FANCY_STATUS_DUMPS */
printk("\n");
}
restore_flags (flags);
return err;
}
/*
* try_to_flush_leftover_data() is invoked in response to a drive
* unexpectedly having its DRQ_STAT bit set. As an alternative to
* resetting the drive, this routine tries to clear the condition
* by read a sector's worth of data from the drive. Of course,
* this may not help if the drive is *waiting* for data from *us*.
*/
static void try_to_flush_leftover_data (ide_drive_t *drive)
{
int i = (drive->mult_count ? drive->mult_count : 1) * SECTOR_WORDS;
while (i > 0) {
unsigned long buffer[16];
unsigned int wcount = (i > 16) ? 16 : i;
i -= wcount;
ide_input_data (drive, buffer, wcount);
}
}
/*
* ide_error() takes action based on the error returned by the controller.
*/
void ide_error (ide_drive_t *drive, const char *msg, byte stat)
{
struct request *rq;
byte err;
err = ide_dump_status(drive, msg, stat);
if ((rq = HWGROUP(drive)->rq) == NULL || drive == NULL)
return;
/* retry only "normal" I/O: */
if (rq->cmd == IDE_DRIVE_CMD) {
rq->errors = 1;
ide_end_drive_cmd(drive, stat, err);
return;
}
if (stat & BUSY_STAT) { /* other bits are useless when BUSY */
rq->errors |= ERROR_RESET;
} else {
if (drive->media == ide_disk && (stat & ERR_STAT)) {
/* err has different meaning on cdrom and tape */
if (err == ABRT_ERR) {
if (drive->select.b.lba && IN_BYTE(IDE_COMMAND_REG) == WIN_SPECIFY)
return; /* some newer drives don't support WIN_SPECIFY */
} else if ((err & (ABRT_ERR | ICRC_ERR)) == (ABRT_ERR | ICRC_ERR))
; /* UDMA crc error -- just retry the operation */
else if (err & (BBD_ERR | ECC_ERR)) /* retries won't help these */
rq->errors = ERROR_MAX;
else if (err & TRK0_ERR) /* help it find track zero */
rq->errors |= ERROR_RECAL;
else if (err & MC_ERR)
drive->special.b.mc = 1;
}
if ((stat & DRQ_STAT) && rq->cmd != WRITE)
try_to_flush_leftover_data(drive);
}
if (GET_STAT() & (BUSY_STAT|DRQ_STAT))
rq->errors |= ERROR_RESET; /* Mmmm.. timing problem */
if (rq->errors >= ERROR_MAX) {
#ifdef CONFIG_BLK_DEV_IDETAPE
if (drive->media == ide_tape) {
rq->errors = 0;
idetape_end_request(0, HWGROUP(drive));
} else
#endif /* CONFIG_BLK_DEV_IDETAPE */
#ifdef CONFIG_BLK_DEV_IDEFLOPPY
if (drive->media == ide_floppy) {
rq->errors = 0;
idefloppy_end_request(0, HWGROUP(drive));
} else
#endif /* CONFIG_BLK_DEV_IDEFLOPPY */
#ifdef CONFIG_BLK_DEV_IDESCSI
if (drive->media == ide_scsi) {
rq->errors = 0;
idescsi_end_request(0, HWGROUP(drive));
} else
#endif /* CONFIG_BLK_DEV_IDESCSI */
ide_end_request(0, HWGROUP(drive));
}
else {
if ((rq->errors & ERROR_RESET) == ERROR_RESET) {
++rq->errors;
ide_do_reset(drive);
return;
} else if ((rq->errors & ERROR_RECAL) == ERROR_RECAL)
drive->special.b.recalibrate = 1;
++rq->errors;
}
}
/*
* read_intr() is the handler for disk read/multread interrupts
*/
static void read_intr (ide_drive_t *drive)
{
byte stat;
int i;
unsigned int msect, nsect;
struct request *rq;
if (!OK_STAT(stat=GET_STAT(),DATA_READY,BAD_R_STAT)) {
ide_error(drive, "read_intr", stat);
return;
}
msect = drive->mult_count;
read_next:
rq = HWGROUP(drive)->rq;
if (msect) {
if ((nsect = rq->current_nr_sectors) > msect)
nsect = msect;
msect -= nsect;
} else
nsect = 1;
i = rq->nr_sectors - nsect;
if (i > 0 && !msect)
ide_set_handler (drive, &read_intr, WAIT_CMD);
ide_input_data(drive, rq->buffer, nsect * SECTOR_WORDS);
#ifdef DEBUG
printk("%s: read: sectors(%ld-%ld), buffer=0x%08lx, remaining=%ld\n",
drive->name, rq->sector, rq->sector+nsect-1,
(unsigned long) rq->buffer+(nsect<<9), rq->nr_sectors-nsect);
#endif
rq->sector += nsect;
rq->buffer += nsect<<9;
rq->errors = 0;
rq->nr_sectors = i;
if ((rq->current_nr_sectors -= nsect) <= 0)
ide_end_request(1, HWGROUP(drive));
if (i > 0 && msect)
goto read_next;
}
/*
* write_intr() is the handler for disk write interrupts
*/
static void write_intr (ide_drive_t *drive)
{
byte stat;
int i;
ide_hwgroup_t *hwgroup = HWGROUP(drive);
struct request *rq = hwgroup->rq;
if (OK_STAT(stat=GET_STAT(),DRIVE_READY,drive->bad_wstat)) {
#ifdef DEBUG
printk("%s: write: sector %ld, buffer=0x%08lx, remaining=%ld\n",
drive->name, rq->sector, (unsigned long) rq->buffer,
rq->nr_sectors-1);
#endif
if ((rq->nr_sectors == 1) ^ ((stat & DRQ_STAT) != 0)) {
rq->sector++;
rq->buffer += 512;
rq->errors = 0;
i = --rq->nr_sectors;
--rq->current_nr_sectors;
if (rq->current_nr_sectors <= 0)
ide_end_request(1, hwgroup);
if (i > 0) {
ide_set_handler (drive, &write_intr, WAIT_CMD);
ide_output_data (drive, rq->buffer, SECTOR_WORDS);
}
return;
}
}
ide_error(drive, "write_intr", stat);
}
/*
* ide_multwrite() transfers a block of up to mcount sectors of data
* to a drive as part of a disk multiple-sector write operation.
*/
void ide_multwrite (ide_drive_t *drive, unsigned int mcount)
{
struct request *rq = &HWGROUP(drive)->wrq;
do {
unsigned int nsect = rq->current_nr_sectors;
if (nsect > mcount)
nsect = mcount;
mcount -= nsect;
ide_output_data(drive, rq->buffer, nsect<<7);
#ifdef DEBUG
printk("%s: multwrite: sector %ld, buffer=0x%08lx, count=%d, remaining=%ld\n",
drive->name, rq->sector, (unsigned long) rq->buffer,
nsect, rq->nr_sectors - nsect);
#endif
if ((rq->nr_sectors -= nsect) <= 0)
break;
if ((rq->current_nr_sectors -= nsect) == 0) {
if ((rq->bh = rq->bh->b_reqnext) != NULL) {
rq->current_nr_sectors = rq->bh->b_size>>9;
rq->buffer = rq->bh->b_data;
} else {
panic("%s: buffer list corrupted\n", drive->name);
break;
}
} else {
rq->buffer += nsect << 9;
}
} while (mcount);
}
/*
* multwrite_intr() is the handler for disk multwrite interrupts
*/
static void multwrite_intr (ide_drive_t *drive)
{
byte stat;
int i;
ide_hwgroup_t *hwgroup = HWGROUP(drive);
struct request *rq = &hwgroup->wrq;
if (OK_STAT(stat=GET_STAT(),DRIVE_READY,drive->bad_wstat)) {
if (stat & DRQ_STAT) {
if (rq->nr_sectors) {
ide_set_handler (drive, &multwrite_intr, WAIT_CMD);
ide_multwrite(drive, drive->mult_count);
return;
}
} else {
if (!rq->nr_sectors) { /* all done? */
rq = hwgroup->rq;
for (i = rq->nr_sectors; i > 0;){
i -= rq->current_nr_sectors;
ide_end_request(1, hwgroup);
}
return;
}
}
}
ide_error(drive, "multwrite_intr", stat);
}
/*
* Issue a simple drive command
* The drive must be selected beforehand.
*/
static void ide_cmd(ide_drive_t *drive, byte cmd, byte nsect, ide_handler_t *handler)
{
ide_set_handler (drive, handler, WAIT_CMD);
OUT_BYTE(drive->ctl,IDE_CONTROL_REG);
OUT_BYTE(nsect,IDE_NSECTOR_REG);
OUT_BYTE(cmd,IDE_COMMAND_REG);
}
/*
* set_multmode_intr() is invoked on completion of a WIN_SETMULT cmd.
*/
static void set_multmode_intr (ide_drive_t *drive)
{
byte stat = GET_STAT();
sti();
if (OK_STAT(stat,READY_STAT,BAD_STAT)) {
drive->mult_count = drive->mult_req;
} else {
drive->mult_req = drive->mult_count = 0;
drive->special.b.recalibrate = 1;
(void) ide_dump_status(drive, "set_multmode", stat);
}
}
/*
* set_geometry_intr() is invoked on completion of a WIN_SPECIFY cmd.
*/
static void set_geometry_intr (ide_drive_t *drive)
{
byte stat = GET_STAT();
sti();
if (!OK_STAT(stat,READY_STAT,BAD_STAT))
ide_error(drive, "set_geometry_intr", stat);
}
/*
* recal_intr() is invoked on completion of a WIN_RESTORE (recalibrate) cmd.
*/
static void recal_intr (ide_drive_t *drive)
{
byte stat = GET_STAT();
sti();
if (!OK_STAT(stat,READY_STAT,BAD_STAT))
ide_error(drive, "recal_intr", stat);
}
/*
* mc_intr() is invoked on completion of a WIN_ACKMC cmd.
*/
static void mc_intr (ide_drive_t *drive)
{
byte stat = GET_STAT();
sti();
if (!OK_STAT(stat,READY_STAT,BAD_STAT))
ide_error(drive, "mc_intr", stat);
drive->special.b.mc = 0;
}
/*
* drive_cmd_intr() is invoked on completion of a special DRIVE_CMD.
*/
static void drive_cmd_intr (ide_drive_t *drive)
{
struct request *rq = HWGROUP(drive)->rq;
byte *args = (byte *) rq->buffer;
byte stat = GET_STAT();
sti();
if ((stat & DRQ_STAT) && args && args[3]) {
byte io_32bit = drive->io_32bit;
drive->io_32bit = 0;
ide_input_data(drive, &args[4], args[3] * SECTOR_WORDS);
drive->io_32bit = io_32bit;
stat = GET_STAT();
}
if (OK_STAT(stat,READY_STAT,BAD_STAT))
ide_end_drive_cmd (drive, stat, GET_ERR());
else
ide_error(drive, "drive_cmd", stat); /* calls ide_end_drive_cmd */
}
/*
* do_special() is used to issue WIN_SPECIFY, WIN_RESTORE, and WIN_SETMULT
* commands to a drive. It used to do much more, but has been scaled back.
*/
static inline void do_special (ide_drive_t *drive)
{
special_t *s = &drive->special;
#ifdef DEBUG
printk("%s: do_special: 0x%02x\n", drive->name, s->all);
#endif
if (s->b.set_geometry) {
s->b.set_geometry = 0;
if (drive->media == ide_disk && !drive->no_geom) {
OUT_BYTE(drive->sect,IDE_SECTOR_REG);
OUT_BYTE(drive->cyl,IDE_LCYL_REG);
OUT_BYTE(drive->cyl>>8,IDE_HCYL_REG);
OUT_BYTE(((drive->head-1)|drive->select.all)&0xBF,IDE_SELECT_REG);
if (!IS_PROMISE_DRIVE)
ide_cmd(drive, WIN_SPECIFY, drive->sect, &set_geometry_intr);
}
} else if (s->b.recalibrate) {
s->b.recalibrate = 0;
if (drive->media == ide_disk && !IS_PROMISE_DRIVE)
ide_cmd(drive, WIN_RESTORE, drive->sect, &recal_intr);
} else if (s->b.set_tune) {
ide_tuneproc_t *tuneproc = HWIF(drive)->tuneproc;
s->b.set_tune = 0;
if (tuneproc != NULL)
tuneproc(drive, drive->tune_req);
} else if (s->b.set_multmode) {
s->b.set_multmode = 0;
if (drive->media == ide_disk) {
if (drive->id && drive->mult_req > drive->id->max_multsect)
drive->mult_req = drive->id->max_multsect;
if (!IS_PROMISE_DRIVE)
ide_cmd(drive, WIN_SETMULT, drive->mult_req, &set_multmode_intr);
} else
drive->mult_req = 0;
} else if (s->b.mc) {
s->b.mc = 0;
if (drive->media == ide_disk && !IS_PROMISE_DRIVE)
ide_cmd(drive, WIN_ACKMC, drive->sect, &mc_intr);
} else if (s->all) {
int special = s->all;
s->all = 0;
printk("%s: bad special flag: 0x%02x\n", drive->name, special);
}
}
/*
* This routine busy-waits for the drive status to be not "busy".
* It then checks the status for all of the "good" bits and none
* of the "bad" bits, and if all is okay it returns 0. All other
* cases return 1 after invoking ide_error() -- caller should just return.
*
* This routine should get fixed to not hog the cpu during extra long waits..
* That could be done by busy-waiting for the first jiffy or two, and then
* setting a timer to wake up at half second intervals thereafter,
* until timeout is achieved, before timing out.
*/
int ide_wait_stat (ide_drive_t *drive, byte good, byte bad, unsigned long timeout)
{
byte stat;
unsigned long flags;
udelay(1); /* spec allows drive 400ns to assert "BUSY" */
if ((stat = GET_STAT()) & BUSY_STAT) {
save_flags(flags);
sti();
timeout += jiffies;
while ((stat = GET_STAT()) & BUSY_STAT) {
if (jiffies > timeout) {
restore_flags(flags);
ide_error(drive, "status timeout", stat);
return 1;
}
}
restore_flags(flags);
}
udelay(1); /* allow status to settle, then read it again */
if (OK_STAT((stat = GET_STAT()), good, bad))
return 0;
ide_error(drive, "status error", stat);
return 1;
}
/*
* do_rw_disk() issues READ and WRITE commands to a disk,
* using LBA if supported, or CHS otherwise, to address sectors.
* It also takes care of issuing special DRIVE_CMDs.
*/
static inline void do_rw_disk (ide_drive_t *drive, struct request *rq, unsigned long block)
{
ide_hwif_t *hwif = HWIF(drive);
unsigned short io_base = hwif->io_base;
#ifdef CONFIG_BLK_DEV_PROMISE
int use_promise_io = 0;
#endif /* CONFIG_BLK_DEV_PROMISE */
OUT_BYTE(drive->ctl,IDE_CONTROL_REG);
OUT_BYTE(rq->nr_sectors,io_base+IDE_NSECTOR_OFFSET);
#ifdef CONFIG_BLK_DEV_PROMISE
if (IS_PROMISE_DRIVE) {
if (hwif->is_promise2 || rq->cmd == READ) {
use_promise_io = 1;
}
}
if (drive->select.b.lba || use_promise_io) {
#else /* !CONFIG_BLK_DEV_PROMISE */
if (drive->select.b.lba) {
#endif /* CONFIG_BLK_DEV_PROMISE */
#ifdef DEBUG
printk("%s: %sing: LBAsect=%ld, sectors=%ld, buffer=0x%08lx\n",
drive->name, (rq->cmd==READ)?"read":"writ",
block, rq->nr_sectors, (unsigned long) rq->buffer);
#endif
OUT_BYTE(block,io_base+IDE_SECTOR_OFFSET);
OUT_BYTE(block>>=8,io_base+IDE_LCYL_OFFSET);
OUT_BYTE(block>>=8,io_base+IDE_HCYL_OFFSET);
OUT_BYTE(((block>>8)&0x0f)|drive->select.all,io_base+IDE_SELECT_OFFSET);
} else {
unsigned int sect,head,cyl,track;
track = block / drive->sect;
sect = block % drive->sect + 1;
OUT_BYTE(sect,io_base+IDE_SECTOR_OFFSET);
head = track % drive->head;
cyl = track / drive->head;
OUT_BYTE(cyl,io_base+IDE_LCYL_OFFSET);
OUT_BYTE(cyl>>8,io_base+IDE_HCYL_OFFSET);
OUT_BYTE(head|drive->select.all,io_base+IDE_SELECT_OFFSET);
#ifdef DEBUG
printk("%s: %sing: CHS=%d/%d/%d, sectors=%ld, buffer=0x%08lx\n",
drive->name, (rq->cmd==READ)?"read":"writ", cyl,
head, sect, rq->nr_sectors, (unsigned long) rq->buffer);
#endif
}
#ifdef CONFIG_BLK_DEV_PROMISE
if (use_promise_io) {
do_promise_io (drive, rq);
return;
}
#endif /* CONFIG_BLK_DEV_PROMISE */
if (rq->cmd == READ) {
#ifdef CONFIG_BLK_DEV_TRITON
if (drive->using_dma && !(HWIF(drive)->dmaproc(ide_dma_read, drive)))
return;
#endif /* CONFIG_BLK_DEV_TRITON */
ide_set_handler(drive, &read_intr, WAIT_CMD);
OUT_BYTE(drive->mult_count ? WIN_MULTREAD : WIN_READ, io_base+IDE_COMMAND_OFFSET);
return;
}
if (rq->cmd == WRITE) {
#ifdef CONFIG_BLK_DEV_TRITON
if (drive->using_dma && !(HWIF(drive)->dmaproc(ide_dma_write, drive)))
return;
#endif /* CONFIG_BLK_DEV_TRITON */
if (drive->mult_count)
ide_set_handler (drive, &multwrite_intr, WAIT_CMD);
else
ide_set_handler (drive, &write_intr, WAIT_CMD);
OUT_BYTE(drive->mult_count ? WIN_MULTWRITE : WIN_WRITE, io_base+IDE_COMMAND_OFFSET);
if (ide_wait_stat(drive, DATA_READY, drive->bad_wstat, WAIT_DRQ)) {
printk("%s: no DRQ after issuing %s\n", drive->name,
drive->mult_count ? "MULTWRITE" : "WRITE");
return;
}
if (!drive->unmask)
cli();
if (drive->mult_count) {
HWGROUP(drive)->wrq = *rq; /* scratchpad */
ide_multwrite(drive, drive->mult_count);
} else {
ide_output_data(drive, rq->buffer, SECTOR_WORDS);
}
return;
}
printk("%s: bad command: %d\n", drive->name, rq->cmd);
ide_end_request(0, HWGROUP(drive));
}
/*
* execute_drive_cmd() issues a special drive command,
* usually initiated by ioctl() from the external hdparm program.
*/
static void execute_drive_cmd (ide_drive_t *drive, struct request *rq)
{
byte *args = (byte *)rq->buffer;
if (args) {
#ifdef DEBUG
printk("%s: DRIVE_CMD cmd=0x%02x sc=0x%02x fr=0x%02x xx=0x%02x\n",
drive->name, args[0], args[1], args[2], args[3]);
#endif
OUT_BYTE(args[2],IDE_FEATURE_REG);
ide_cmd(drive, args[0], args[1], &drive_cmd_intr);
return;
} else {
/*
* NULL is actually a valid way of waiting for
* all current requests to be flushed from the queue.
*/
#ifdef DEBUG
printk("%s: DRIVE_CMD (null)\n", drive->name);
#endif
ide_end_drive_cmd(drive, GET_STAT(), GET_ERR());
return;
}
}
/*
* do_request() initiates handling of a new I/O request
*/
static inline void do_request (ide_hwif_t *hwif, struct request *rq)
{
unsigned int minor, unit;
unsigned long block, blockend;
ide_drive_t *drive;
sti();
#ifdef DEBUG
printk("%s: do_request: current=0x%08lx\n", hwif->name, (unsigned long) rq);
#endif
minor = MINOR(rq->rq_dev);
unit = minor >> PARTN_BITS;
if (MAJOR(rq->rq_dev) != hwif->major || unit >= MAX_DRIVES) {
printk("%s: bad device number: %s\n",
hwif->name, kdevname(rq->rq_dev));
goto kill_rq;
}
drive = &hwif->drives[unit];
#ifdef DEBUG
if (rq->bh && !buffer_locked(rq->bh)) {
printk("%s: block not locked\n", drive->name);
goto kill_rq;
}
#endif
block = rq->sector;
blockend = block + rq->nr_sectors;
if ((blockend < block) || (blockend > drive->part[minor&PARTN_MASK].nr_sects)) {
#ifdef MACH
printk ("%s%c: bad access: block=%ld, count=%ld, blockend=%ld, nr_sects%ld\n",
drive->name, (minor&PARTN_MASK)?'0'+(minor&PARTN_MASK):' ',
block, rq->nr_sectors, blockend, drive->part[minor&PARTN_MASK].nr_sects);
#else
printk("%s%c: bad access: block=%ld, count=%ld\n", drive->name,
(minor&PARTN_MASK)?'0'+(minor&PARTN_MASK):' ', block, rq->nr_sectors);
#endif
goto kill_rq;
}
block += drive->part[minor&PARTN_MASK].start_sect + drive->sect0;
#if FAKE_FDISK_FOR_EZDRIVE
if (block == 0 && drive->remap_0_to_1)
block = 1; /* redirect MBR access to EZ-Drive partn table */
#endif /* FAKE_FDISK_FOR_EZDRIVE */
((ide_hwgroup_t *)hwif->hwgroup)->drive = drive;
#if (DISK_RECOVERY_TIME > 0)
while ((read_timer() - hwif->last_time) < DISK_RECOVERY_TIME);
#endif
#ifdef CONFIG_BLK_DEV_IDETAPE
POLL_HWIF_TAPE_DRIVE; /* macro from ide-tape.h */
#endif /* CONFIG_BLK_DEV_IDETAPE */
SELECT_DRIVE(hwif,drive);
if (ide_wait_stat(drive, drive->ready_stat, BUSY_STAT|DRQ_STAT, WAIT_READY)) {
printk("%s: drive not ready for command\n", drive->name);
return;
}
if (!drive->special.all) {
if (rq->cmd == IDE_DRIVE_CMD) {
execute_drive_cmd(drive, rq);
return;
}
#ifdef CONFIG_BLK_DEV_IDEATAPI
switch (drive->media) {
case ide_disk:
do_rw_disk (drive, rq, block);
return;
#ifdef CONFIG_BLK_DEV_IDECD
case ide_cdrom:
ide_do_rw_cdrom (drive, block);
return;
#endif /* CONFIG_BLK_DEV_IDECD */
#ifdef CONFIG_BLK_DEV_IDETAPE
case ide_tape:
idetape_do_request (drive, rq, block);
return;
#endif /* CONFIG_BLK_DEV_IDETAPE */
#ifdef CONFIG_BLK_DEV_IDEFLOPPY
case ide_floppy:
idefloppy_do_request (drive, rq, block);
return;
#endif /* CONFIG_BLK_DEV_IDEFLOPPY */
#ifdef CONFIG_BLK_DEV_IDESCSI
case ide_scsi:
idescsi_do_request (drive, rq, block);
return;
#endif /* CONFIG_BLK_DEV_IDESCSI */
default:
printk("%s: media type %d not supported\n",
drive->name, drive->media);
goto kill_rq;
}
#else
do_rw_disk (drive, rq, block); /* simpler and faster */
return;
#endif /* CONFIG_BLK_DEV_IDEATAPI */
}
do_special(drive);
return;
kill_rq:
ide_end_request(0, hwif->hwgroup);
}
/*
* The driver enables interrupts as much as possible. In order to do this,
* (a) the device-interrupt is always masked before entry, and
* (b) the timeout-interrupt is always disabled before entry.
*
* If we enter here from, say irq14, and then start a new request for irq15,
* (possible with "serialize" option) then we cannot ensure that we exit
* before the irq15 hits us. So, we must be careful not to let this bother us.
*
* Interrupts are still masked (by default) whenever we are exchanging
* data/cmds with a drive, because some drives seem to have very poor
* tolerance for latency during I/O. For devices which don't suffer from
* this problem (most don't), the unmask flag can be set using the "hdparm"
* utility, to permit other interrupts during data/cmd transfers.
*/
void ide_do_request (ide_hwgroup_t *hwgroup)
{
cli(); /* paranoia */
if (hwgroup->handler != NULL) {
printk("%s: EEeekk!! handler not NULL in ide_do_request()\n", hwgroup->hwif->name);
return;
}
do {
ide_hwif_t *hwif = hwgroup->hwif;
struct request *rq;
if ((rq = hwgroup->rq) == NULL) {
if (hwif->sharing_irq && hwgroup->drive) /* set nIEN */
OUT_BYTE(hwgroup->drive->ctl|2,hwif->ctl_port);
/*
* hwgroup->next_hwif is different from hwgroup->hwif
* only when a request is inserted using "ide_next".
* This saves wear and tear on IDE tapes.
*/
hwif = hwgroup->next_hwif;
do {
rq = blk_dev[hwif->major].current_request;
if (rq != NULL && rq->rq_status != RQ_INACTIVE)
goto got_rq;
} while ((hwif = hwif->next) != hwgroup->next_hwif);
hwgroup->active = 0;
return; /* no work left for this hwgroup */
}
got_rq:
do_request(hwgroup->hwif = hwgroup->next_hwif = hwif, hwgroup->rq = rq);
cli();
} while (hwgroup->handler == NULL);
}
/*
* do_hwgroup_request() invokes ide_do_request() after first masking
* all possible interrupts for the current hwgroup. This prevents race
* conditions in the event that an unexpected interrupt occurs while
* we are in the driver.
*
* Note that when an interrupt is used to reenter the driver, the first level
* handler will already have masked the irq that triggered, but any other ones
* for the hwgroup will still be unmasked. The driver tries to be careful
* about such things.
*/
static void do_hwgroup_request (ide_hwgroup_t *hwgroup)
{
if (hwgroup->handler == NULL) {
ide_hwif_t *hgif = hwgroup->hwif;
ide_hwif_t *hwif = hgif;
hwgroup->active = 1;
do {
disable_irq(hwif->irq);
} while ((hwif = hwif->next) != hgif);
ide_do_request (hwgroup);
do {
enable_irq(hwif->irq);
} while ((hwif = hwif->next) != hgif);
}
}
static void do_ide0_request (void) /* invoked with cli() */
{
do_hwgroup_request (ide_hwifs[0].hwgroup);
}
#if MAX_HWIFS > 1
static void do_ide1_request (void) /* invoked with cli() */
{
do_hwgroup_request (ide_hwifs[1].hwgroup);
}
#endif
#if MAX_HWIFS > 2
static void do_ide2_request (void) /* invoked with cli() */
{
do_hwgroup_request (ide_hwifs[2].hwgroup);
}
#endif
#if MAX_HWIFS > 3
static void do_ide3_request (void) /* invoked with cli() */
{
do_hwgroup_request (ide_hwifs[3].hwgroup);
}
#endif
static void timer_expiry (unsigned long data)
{
ide_hwgroup_t *hwgroup = (ide_hwgroup_t *) data;
ide_drive_t *drive = hwgroup->drive;
unsigned long flags;
save_flags(flags);
cli();
if (hwgroup->poll_timeout != 0) { /* polling in progress? */
ide_handler_t *handler = hwgroup->handler;
hwgroup->handler = NULL;
handler(drive);
} else if (hwgroup->handler == NULL) { /* not waiting for anything? */
sti(); /* drive must have responded just as the timer expired */
printk("%s: marginal timeout\n", drive->name);
} else {
hwgroup->handler = NULL; /* abort the operation */
if (hwgroup->hwif->dmaproc)
(void) hwgroup->hwif->dmaproc (ide_dma_abort, drive);
ide_error(drive, "irq timeout", GET_STAT());
}
if (hwgroup->handler == NULL)
do_hwgroup_request (hwgroup);
restore_flags(flags);
}
/*
* There's nothing really useful we can do with an unexpected interrupt,
* other than reading the status register (to clear it), and logging it.
* There should be no way that an irq can happen before we're ready for it,
* so we needn't worry much about losing an "important" interrupt here.
*
* On laptops (and "green" PCs), an unexpected interrupt occurs whenever the
* drive enters "idle", "standby", or "sleep" mode, so if the status looks
* "good", we just ignore the interrupt completely.
*
* This routine assumes cli() is in effect when called.
*
* If an unexpected interrupt happens on irq15 while we are handling irq14
* and if the two interfaces are "serialized" (CMD640), then it looks like
* we could screw up by interfering with a new request being set up for irq15.
*
* In reality, this is a non-issue. The new command is not sent unless the
* drive is ready to accept one, in which case we know the drive is not
* trying to interrupt us. And ide_set_handler() is always invoked before
* completing the issuance of any new drive command, so we will not be
* accidently invoked as a result of any valid command completion interrupt.
*
*/
static void unexpected_intr (int irq, ide_hwgroup_t *hwgroup)
{
byte stat;
unsigned int unit;
ide_hwif_t *hwif = hwgroup->hwif;
/*
* handle the unexpected interrupt
*/
do {
if (hwif->irq == irq) {
for (unit = 0; unit < MAX_DRIVES; ++unit) {
ide_drive_t *drive = &hwif->drives[unit];
if (!drive->present)
continue;
SELECT_DRIVE(hwif,drive);
udelay(100); /* Ugly, but wait_stat() may not be safe here */
if (!OK_STAT(stat=GET_STAT(), drive->ready_stat, BAD_STAT)) {
/* Try to not flood the console with msgs */
static unsigned long last_msgtime = 0;
if ((last_msgtime + (HZ/2)) < jiffies) {
last_msgtime = jiffies;
(void) ide_dump_status(drive, "unexpected_intr", stat);
}
}
if ((stat & DRQ_STAT))
try_to_flush_leftover_data(drive);
}
}
} while ((hwif = hwif->next) != hwgroup->hwif);
SELECT_DRIVE(hwif,hwgroup->drive); /* Ugh.. probably interrupts current I/O */
udelay(100); /* Ugly, but wait_stat() may not be safe here */
}
/*
* entry point for all interrupts, caller does cli() for us
*/
void ide_intr (int irq, void *dev_id, struct pt_regs *regs)
{
ide_hwgroup_t *hwgroup = dev_id;
ide_handler_t *handler;
if (irq == hwgroup->hwif->irq && (handler = hwgroup->handler) != NULL) {
ide_drive_t *drive = hwgroup->drive;
hwgroup->handler = NULL;
del_timer(&(hwgroup->timer));
if (drive->unmask)
sti();
handler(drive);
cli(); /* this is necessary, as next rq may be different irq */
if (hwgroup->handler == NULL) {
SET_RECOVERY_TIMER(HWIF(drive));
ide_do_request(hwgroup);
}
} else {
unexpected_intr(irq, hwgroup);
}
cli();
}
/*
* get_info_ptr() returns the (ide_drive_t *) for a given device number.
* It returns NULL if the given device number does not match any present drives.
*/
static ide_drive_t *get_info_ptr (kdev_t i_rdev)
{
int major = MAJOR(i_rdev);
unsigned int h;
for (h = 0; h < MAX_HWIFS; ++h) {
ide_hwif_t *hwif = &ide_hwifs[h];
if (hwif->present && major == hwif->major) {
unsigned unit = DEVICE_NR(i_rdev);
if (unit < MAX_DRIVES) {
ide_drive_t *drive = &hwif->drives[unit];
if (drive->present)
return drive;
} else if (major == IDE0_MAJOR && unit < 4) {
printk("ide: probable bad entry for /dev/hd%c\n", 'a'+unit);
printk("ide: to fix it, run: /usr/src/linux/scripts/MAKEDEV.ide\n");
}
break;
}
}
return NULL;
}
/*
* This function is intended to be used prior to invoking ide_do_drive_cmd().
*/
void ide_init_drive_cmd (struct request *rq)
{
rq->buffer = NULL;
rq->cmd = IDE_DRIVE_CMD;
rq->sector = 0;
rq->nr_sectors = 0;
rq->current_nr_sectors = 0;
rq->sem = NULL;
rq->bh = NULL;
rq->bhtail = NULL;
rq->next = NULL;
#if 0 /* these are done each time through ide_do_drive_cmd() */
rq->errors = 0;
rq->rq_status = RQ_ACTIVE;
rq->rq_dev = ????;
#endif
}
/*
* This function issues a special IDE device request
* onto the request queue.
*
* If action is ide_wait, then the rq is queued at the end of the
* request queue, and the function sleeps until it has been processed.
* This is for use when invoked from an ioctl handler.
*
* If action is ide_preempt, then the rq is queued at the head of
* the request queue, displacing the currently-being-processed
* request and this function returns immediately without waiting
* for the new rq to be completed. This is VERY DANGEROUS, and is
* intended for careful use by the ATAPI tape/cdrom driver code.
*
* If action is ide_next, then the rq is queued immediately after
* the currently-being-processed-request (if any), and the function
* returns without waiting for the new rq to be completed. As above,
* This is VERY DANGEROUS, and is intended for careful use by the
* ATAPI tape/cdrom driver code.
*
* If action is ide_end, then the rq is queued at the end of the
* request queue, and the function returns immediately without waiting
* for the new rq to be completed. This is again intended for careful
* use by the ATAPI tape/cdrom driver code. (Currently used by ide-tape.c,
* when operating in the pipelined operation mode).
*/
int ide_do_drive_cmd (ide_drive_t *drive, struct request *rq, ide_action_t action)
{
unsigned long flags;
unsigned int major = HWIF(drive)->major;
struct request *cur_rq;
struct blk_dev_struct *bdev = &blk_dev[major];
struct semaphore sem = MUTEX_LOCKED;
if (IS_PROMISE_DRIVE && rq->buffer != NULL)
return -ENOSYS; /* special drive cmds not supported */
rq->errors = 0;
rq->rq_status = RQ_ACTIVE;
rq->rq_dev = MKDEV(major,(drive->select.b.unit)<<PARTN_BITS);
if (action == ide_wait)
rq->sem = &sem;
unplug_device(bdev);
save_flags(flags);
cli();
if (action == ide_next)
HWGROUP(drive)->next_hwif = HWIF(drive);
cur_rq = bdev->current_request;
if (cur_rq == NULL || action == ide_preempt) {
rq->next = cur_rq;
bdev->current_request = rq;
if (action == ide_preempt)
HWGROUP(drive)->rq = NULL;
} else {
if (action == ide_wait || action == ide_end) {
while (cur_rq->next != NULL) /* find end of list */
cur_rq = cur_rq->next;
}
rq->next = cur_rq->next;
cur_rq->next = rq;
}
if (!HWGROUP(drive)->active) {
do_hwgroup_request(HWGROUP(drive));
cli();
}
if (action == ide_wait && rq->rq_status != RQ_INACTIVE)
down(&sem); /* wait for it to be serviced */
restore_flags(flags);
return rq->errors ? -EIO : 0; /* return -EIO if errors */
}
static int ide_open(struct inode * inode, struct file * filp)
{
ide_drive_t *drive;
unsigned long flags;
if ((drive = get_info_ptr(inode->i_rdev)) == NULL)
return -ENXIO;
save_flags(flags);
cli();
while (drive->busy)
sleep_on(&drive->wqueue);
drive->usage++;
restore_flags(flags);
#ifdef CONFIG_BLK_DEV_IDECD
if (drive->media == ide_cdrom)
return ide_cdrom_open (inode, filp, drive);
#endif /* CONFIG_BLK_DEV_IDECD */
#ifdef CONFIG_BLK_DEV_IDETAPE
if (drive->media == ide_tape)
return idetape_blkdev_open (inode, filp, drive);
#endif /* CONFIG_BLK_DEV_IDETAPE */
#ifdef CONFIG_BLK_DEV_IDEFLOPPY
if (drive->media == ide_floppy)
return idefloppy_open (inode, filp, drive);
#endif /* CONFIG_BLK_DEV_IDEFLOPPY */
#ifdef CONFIG_BLK_DEV_IDESCSI
if (drive->media == ide_scsi)
return idescsi_open (inode, filp, drive);
#endif /* CONFIG_BLK_DEV_IDESCSI */
if (drive->removable && drive->usage == 1) {
byte door_lock[] = {WIN_DOORLOCK,0,0,0};
struct request rq;
check_disk_change(inode->i_rdev);
ide_init_drive_cmd (&rq);
rq.buffer = (char *)door_lock;
/*
* Ignore the return code from door_lock,
* since the open() has already succeeded,
* and the door_lock is irrelevant at this point.
*/
(void) ide_do_drive_cmd(drive, &rq, ide_wait);
}
return 0;
}
/*
* Releasing a block device means we sync() it, so that it can safely
* be forgotten about...
*/
static void ide_release(struct inode * inode, struct file * file)
{
ide_drive_t *drive;
if ((drive = get_info_ptr(inode->i_rdev)) != NULL) {
fsync_dev(inode->i_rdev);
drive->usage--;
#ifdef CONFIG_BLK_DEV_IDECD
if (drive->media == ide_cdrom) {
ide_cdrom_release (inode, file, drive);
return;
}
#endif /* CONFIG_BLK_DEV_IDECD */
#ifdef CONFIG_BLK_DEV_IDETAPE
if (drive->media == ide_tape) {
idetape_blkdev_release (inode, file, drive);
return;
}
#endif /* CONFIG_BLK_DEV_IDETAPE */
#ifdef CONFIG_BLK_DEV_IDEFLOPPY
if (drive->media == ide_floppy) {
idefloppy_release (inode, file, drive);
return;
}
#endif /* CONFIG_BLK_DEV_IDEFLOPPY */
#ifdef CONFIG_BLK_DEV_IDESCSI
if (drive->media == ide_scsi) {
idescsi_ide_release (inode, file, drive);
return;
}
#endif /* CONFIG_BLK_DEV_IDESCSI */
if (drive->removable && !drive->usage) {
byte door_unlock[] = {WIN_DOORUNLOCK,0,0,0};
struct request rq;
invalidate_buffers(inode->i_rdev);
ide_init_drive_cmd (&rq);
rq.buffer = (char *)door_unlock;
(void) ide_do_drive_cmd(drive, &rq, ide_wait);
}
}
}
/*
* This routine is called to flush all partitions and partition tables
* for a changed disk, and then re-read the new partition table.
* If we are revalidating a disk because of a media change, then we
* enter with usage == 0. If we are using an ioctl, we automatically have
* usage == 1 (we need an open channel to use an ioctl :-), so this
* is our limit.
*/
static int revalidate_disk(kdev_t i_rdev)
{
ide_drive_t *drive;
unsigned int p, major, minor;
long flags;
if ((drive = get_info_ptr(i_rdev)) == NULL)
return -ENODEV;
major = MAJOR(i_rdev);
minor = drive->select.b.unit << PARTN_BITS;
save_flags(flags);
cli();
if (drive->busy || (drive->usage > 1)) {
restore_flags(flags);
return -EBUSY;
};
drive->busy = 1;
restore_flags(flags);
for (p = 0; p < (1<<PARTN_BITS); ++p) {
if (drive->part[p].nr_sects > 0) {
kdev_t devp = MKDEV(major, minor+p);
fsync_dev (devp);
invalidate_inodes (devp);
invalidate_buffers (devp);
set_blocksize(devp, 1024);
}
drive->part[p].start_sect = 0;
drive->part[p].nr_sects = 0;
};
drive->part[0].nr_sects = current_capacity(drive);
if ((drive->media != ide_disk && drive->media != ide_floppy) || !drive->part[0].nr_sects)
drive->part[0].start_sect = -1;
resetup_one_dev(HWIF(drive)->gd, drive->select.b.unit);
drive->busy = 0;
wake_up(&drive->wqueue);
return 0;
}
static int write_fs_long (unsigned long useraddr, long value)
{
int err;
if (NULL == (long *)useraddr)
return -EINVAL;
if ((err = verify_area(VERIFY_WRITE, (long *)useraddr, sizeof(long))))
return err;
put_user((unsigned)value, (long *) useraddr);
return 0;
}
static int ide_ioctl (struct inode *inode, struct file *file,
unsigned int cmd, unsigned long arg)
{
int err;
ide_drive_t *drive;
unsigned long flags;
struct request rq;
if (!inode || !(inode->i_rdev))
return -EINVAL;
if ((drive = get_info_ptr(inode->i_rdev)) == NULL)
return -ENODEV;
ide_init_drive_cmd (&rq);
switch (cmd) {
case HDIO_GETGEO:
{
struct hd_geometry *loc = (struct hd_geometry *) arg;
if (!loc || (drive->media != ide_disk && drive->media != ide_floppy)) return -EINVAL;
#ifdef MACH
loc->heads = drive->bios_head;
loc->sectors = drive->bios_sect;
loc->cylinders = drive->bios_cyl;
loc->start
= (drive->part[MINOR(inode->i_rdev)&PARTN_MASK]
.start_sect);
#else
err = verify_area(VERIFY_WRITE, loc, sizeof(*loc));
if (err) return err;
put_user(drive->bios_head, (byte *) &loc->heads);
put_user(drive->bios_sect, (byte *) &loc->sectors);
put_user(drive->bios_cyl, (unsigned short *) &loc->cylinders);
put_user((unsigned)drive->part[MINOR(inode->i_rdev)&PARTN_MASK].start_sect,
(unsigned long *) &loc->start);
#endif
return 0;
}
case BLKFLSBUF:
if (!suser()) return -EACCES;
fsync_dev(inode->i_rdev);
invalidate_buffers(inode->i_rdev);
return 0;
case BLKRASET:
if (!suser()) return -EACCES;
if(arg > 0xff) return -EINVAL;
read_ahead[MAJOR(inode->i_rdev)] = arg;
return 0;
case BLKRAGET:
return write_fs_long(arg, read_ahead[MAJOR(inode->i_rdev)]);
case BLKGETSIZE: /* Return device size */
return write_fs_long(arg, drive->part[MINOR(inode->i_rdev)&PARTN_MASK].nr_sects);
case BLKRRPART: /* Re-read partition tables */
if (!suser()) return -EACCES;
return revalidate_disk(inode->i_rdev);
case HDIO_GET_KEEPSETTINGS:
return write_fs_long(arg, drive->keep_settings);
case HDIO_GET_UNMASKINTR:
return write_fs_long(arg, drive->unmask);
case HDIO_GET_DMA:
return write_fs_long(arg, drive->using_dma);
case HDIO_GET_32BIT:
return write_fs_long(arg, drive->io_32bit);
case HDIO_GET_MULTCOUNT:
return write_fs_long(arg, drive->mult_count);
case HDIO_GET_IDENTITY:
if (!arg || (MINOR(inode->i_rdev) & PARTN_MASK))
return -EINVAL;
if (drive->id == NULL)
return -ENOMSG;
err = verify_area(VERIFY_WRITE, (char *)arg, sizeof(*drive->id));
if (!err)
memcpy_tofs((char *)arg, (char *)drive->id, sizeof(*drive->id));
return err;
case HDIO_GET_NOWERR:
return write_fs_long(arg, drive->bad_wstat == BAD_R_STAT);
case HDIO_SET_DMA:
if (!suser()) return -EACCES;
#ifdef CONFIG_BLK_DEV_IDECD
if (drive->media == ide_cdrom)
return -EPERM;
#endif /* CONFIG_BLK_DEV_IDECD */
if (!drive->id || !(drive->id->capability & 1) || !HWIF(drive)->dmaproc)
return -EPERM;
case HDIO_SET_KEEPSETTINGS:
case HDIO_SET_UNMASKINTR:
case HDIO_SET_NOWERR:
if (arg > 1)
return -EINVAL;
case HDIO_SET_32BIT:
if (!suser()) return -EACCES;
if ((MINOR(inode->i_rdev) & PARTN_MASK))
return -EINVAL;
save_flags(flags);
cli();
switch (cmd) {
case HDIO_SET_DMA:
if (!(HWIF(drive)->dmaproc)) {
restore_flags(flags);
return -EPERM;
}
drive->using_dma = arg;
break;
case HDIO_SET_KEEPSETTINGS:
drive->keep_settings = arg;
break;
case HDIO_SET_UNMASKINTR:
if (arg && drive->no_unmask) {
restore_flags(flags);
return -EPERM;
}
drive->unmask = arg;
break;
case HDIO_SET_NOWERR:
drive->bad_wstat = arg ? BAD_R_STAT : BAD_W_STAT;
break;
case HDIO_SET_32BIT:
if (arg > (1 + (SUPPORT_VLB_SYNC<<1))) {
restore_flags(flags);
return -EINVAL;
}
if (arg && drive->no_io_32bit) {
restore_flags(flags);
return -EPERM;
}
drive->io_32bit = arg;
#ifdef CONFIG_BLK_DEV_DTC2278
if (HWIF(drive)->chipset == ide_dtc2278)
HWIF(drive)->drives[!drive->select.b.unit].io_32bit = arg;
#endif /* CONFIG_BLK_DEV_DTC2278 */
break;
}
restore_flags(flags);
return 0;
case HDIO_SET_MULTCOUNT:
if (!suser()) return -EACCES;
if (MINOR(inode->i_rdev) & PARTN_MASK)
return -EINVAL;
if (drive->id && arg > drive->id->max_multsect)
return -EINVAL;
save_flags(flags);
cli();
if (drive->special.b.set_multmode) {
restore_flags(flags);
return -EBUSY;
}
drive->mult_req = arg;
drive->special.b.set_multmode = 1;
restore_flags(flags);
(void) ide_do_drive_cmd (drive, &rq, ide_wait);
return (drive->mult_count == arg) ? 0 : -EIO;
case HDIO_DRIVE_CMD:
{
byte args[4], *argbuf = args;
int argsize = 4;
if (!suser() || securelevel > 0) return -EACCES;
if (NULL == (void *) arg) {
err = ide_do_drive_cmd(drive, &rq, ide_wait);
} else if (!(err = verify_area(VERIFY_READ,(void *)arg, 4))) {
memcpy_fromfs(args, (void *)arg, 4);
if (args[3]) {
argsize = 4 + (SECTOR_WORDS * 4 * args[3]);
argbuf = kmalloc(argsize, GFP_KERNEL);
if (argbuf == NULL)
return -ENOMEM;
argbuf[0] = args[0];
argbuf[1] = args[1];
argbuf[2] = args[2];
argbuf[3] = args[3];
}
if (!(err = verify_area(VERIFY_WRITE,(void *)arg, argsize))) {
rq.buffer = (char *)argbuf;
err = ide_do_drive_cmd(drive, &rq, ide_wait);
memcpy_tofs((void *)arg, argbuf, argsize);
}
if (argsize > 4)
kfree(argbuf);
}
return err;
}
case HDIO_SET_PIO_MODE:
if (!suser()) return -EACCES;
if (MINOR(inode->i_rdev) & PARTN_MASK)
return -EINVAL;
if (!HWIF(drive)->tuneproc)
return -ENOSYS;
save_flags(flags);
cli();
if (drive->special.b.set_tune) {
restore_flags(flags);
return -EBUSY;
}
drive->tune_req = (byte) arg;
drive->special.b.set_tune = 1;
restore_flags(flags);
(void) ide_do_drive_cmd (drive, &rq, ide_wait);
return 0;
RO_IOCTLS(inode->i_rdev, arg);
default:
#ifdef CONFIG_BLK_DEV_IDECD
if (drive->media == ide_cdrom)
return ide_cdrom_ioctl(drive, inode, file, cmd, arg);
#endif /* CONFIG_BLK_DEV_IDECD */
#ifdef CONFIG_BLK_DEV_IDETAPE
if (drive->media == ide_tape)
return idetape_blkdev_ioctl(drive, inode, file, cmd, arg);
#endif /* CONFIG_BLK_DEV_IDETAPE */
#ifdef CONFIG_BLK_DEV_IDEFLOPPY
if (drive->media == ide_floppy)
return idefloppy_ioctl(drive, inode, file, cmd, arg);
#endif /* CONFIG_BLK_DEV_IDEFLOPPY */
#ifdef CONFIG_BLK_DEV_IDESCSI
if (drive->media == ide_scsi)
return idescsi_ioctl(drive, inode, file, cmd, arg);
#endif /* CONFIG_BLK_DEV_IDESCSI */
return -EPERM;
}
}
static int ide_check_media_change (kdev_t i_rdev)
{
ide_drive_t *drive;
if ((drive = get_info_ptr(i_rdev)) == NULL)
return -ENODEV;
#ifdef CONFIG_BLK_DEV_IDECD
if (drive->media == ide_cdrom)
return ide_cdrom_check_media_change (drive);
#endif /* CONFIG_BLK_DEV_IDECD */
#ifdef CONFIG_BLK_DEV_IDEFLOPPY
if (drive->media == ide_floppy)
return idefloppy_media_change (drive);
#endif /* CONFIG_BLK_DEV_IDEFLOPPY */
if (drive->removable) /* for disks */
return 1; /* always assume it was changed */
return 0;
}
void ide_fixstring (byte *s, const int bytecount, const int byteswap)
{
byte *p = s, *end = &s[bytecount & ~1]; /* bytecount must be even */
if (byteswap) {
/* convert from big-endian to host byte order */
for (p = end ; p != s;) {
unsigned short *pp = (unsigned short *) (p -= 2);
*pp = ntohs(*pp);
}
}
/* strip leading blanks */
while (s != end && *s == ' ')
++s;
/* compress internal blanks and strip trailing blanks */
while (s != end && *s) {
if (*s++ != ' ' || (s != end && *s && *s != ' '))
*p++ = *(s-1);
}
/* wipe out trailing garbage */
while (p != end)
*p++ = '\0';
}
static inline void do_identify (ide_drive_t *drive, byte cmd)
{
int bswap;
struct hd_driveid *id;
unsigned long capacity, check;
id = drive->id = kmalloc (SECTOR_WORDS*4, GFP_KERNEL);
ide_input_data(drive, id, SECTOR_WORDS);/* read 512 bytes of id info */
sti();
#if defined (CONFIG_SCSI_EATA_DMA) || defined (CONFIG_SCSI_EATA_PIO) || defined (CONFIG_SCSI_EATA)
/*
* EATA SCSI controllers do a hardware ATA emulation:
* Ignore them if there is a driver for them available.
*/
if ((id->model[0] == 'P' && id->model[1] == 'M')
|| (id->model[0] == 'S' && id->model[1] == 'K')) {
printk("%s: EATA SCSI HBA %.10s\n", drive->name, id->model);
drive->present = 0;
return;
}
#endif
/*
* WIN_IDENTIFY returns little-endian info,
* WIN_PIDENTIFY *usually* returns little-endian info.
*/
bswap = 1;
if (cmd == WIN_PIDENTIFY) {
if ((id->model[0] == 'N' && id->model[1] == 'E') /* NEC */
|| (id->model[0] == 'F' && id->model[1] == 'X') /* Mitsumi */
|| (id->model[0] == 'P' && id->model[1] == 'i'))/* Pioneer */
bswap = 0; /* Vertos drives may still be weird */
}
ide_fixstring (id->model, sizeof(id->model), bswap);
ide_fixstring (id->fw_rev, sizeof(id->fw_rev), bswap);
ide_fixstring (id->serial_no, sizeof(id->serial_no), bswap);
if (strstr((char *)id->model, "E X A B Y T E N E S T"))
return;
#ifdef CONFIG_BLK_DEV_IDEATAPI
/*
* Check for an ATAPI device
*/
if (cmd == WIN_PIDENTIFY) {
byte type = (id->config >> 8) & 0x1f;
printk("%s: %s, ATAPI ", drive->name, id->model);
#ifdef CONFIG_BLK_DEV_PROMISE
if (HWIF(drive)->is_promise2) {
printk(" -- not supported on 2nd Promise port\n");
drive->present = 0;
return;
}
#endif /* CONFIG_BLK_DEV_PROMISE */
if (!drive->ide_scsi) switch (type) {
case 0:
if (!strstr((char *)id->model, "oppy") &&
!strstr((char *)id->model, "poyp") &&
!strstr((char *)id->model, "ZIP"))
printk("cdrom or floppy?, assuming ");
if (drive->media != ide_cdrom &&
!strstr((char *)id->model, "CD-ROM")) {
#ifdef CONFIG_BLK_DEV_IDEFLOPPY
printk("FLOPPY drive\n");
drive->media = ide_floppy;
if (idefloppy_identify_device(drive, id))
drive->present = 1;
return;
#else
printk("FLOPPY ");
break;
#endif /* CONFIG_BLK_DEV_IDEFLOPPY */
}
/* Early cdrom models used zero */
case 5:
#ifdef CONFIG_BLK_DEV_IDECD
printk ("CDROM drive\n");
drive->media = ide_cdrom;
drive->present = 1;
drive->removable = 1;
return;
#else
printk ("CDROM ");
break;
#endif /* CONFIG_BLK_DEV_IDECD */
case 1:
#ifdef CONFIG_BLK_DEV_IDETAPE
printk ("TAPE drive");
if (idetape_identify_device (drive,id)) {
drive->media = ide_tape;
drive->present = 1;
drive->removable = 1;
if (drive->autotune != 2 && HWIF(drive)->dmaproc != NULL) {
if (!HWIF(drive)->dmaproc(ide_dma_check, drive))
printk(", DMA");
}
printk("\n");
}
else {
drive->present = 0;
printk ("\nide-tape: the tape is not supported by this version of the driver\n");
}
return;
#else
printk ("TAPE ");
break;
#endif /* CONFIG_BLK_DEV_IDETAPE */
default:
drive->present = 0;
printk("Type %d - Unknown device\n", type);
return;
}
#ifdef CONFIG_BLK_DEV_IDESCSI
printk("drive - enabling SCSI emulation\n");
drive->media = ide_scsi;
drive->present = 1;
idescsi_setup(drive);
#else
drive->present = 0;
printk("- not supported by this kernel\n");
#endif /* CONFIG_BLK_DEV_IDESCSI */
return;
}
#endif /* CONFIG_BLK_DEV_IDEATAPI */
/* check for removable disks (eg. SYQUEST), ignore 'WD' drives */
if (id->config & (1<<7)) { /* removable disk ? */
if (id->model[0] != 'W' || id->model[1] != 'D')
drive->removable = 1;
}
/* SunDisk drives: treat as non-removable, force one unit */
if (id->model[0] == 'S' && id->model[1] == 'u') {
drive->removable = 0;
if (drive->select.all & (1<<4)) {
drive->present = 0;
return;
}
}
drive->media = ide_disk;
/* Extract geometry if we did not already have one for the drive */
if (!drive->present) {
drive->present = 1;
drive->cyl = drive->bios_cyl = id->cyls;
drive->head = drive->bios_head = id->heads;
drive->sect = drive->bios_sect = id->sectors;
}
/* Handle logical geometry translation by the drive */
if ((id->field_valid & 1) && id->cur_cyls && id->cur_heads
&& (id->cur_heads <= 16) && id->cur_sectors) {
/*
* Extract the physical drive geometry for our use.
* Note that we purposely do *not* update the bios info.
* This way, programs that use it (like fdisk) will
* still have the same logical view as the BIOS does,
* which keeps the partition table from being screwed.
*
* An exception to this is the cylinder count,
* which we reexamine later on to correct for 1024 limitations.
*/
drive->cyl = id->cur_cyls;
drive->head = id->cur_heads;
drive->sect = id->cur_sectors;
/* check for word-swapped "capacity" field in id information */
capacity = drive->cyl * drive->head * drive->sect;
check = (id->cur_capacity0 << 16) | id->cur_capacity1;
if (check == capacity) { /* was it swapped? */
/* yes, bring it into little-endian order: */
id->cur_capacity0 = (capacity >> 0) & 0xffff;
id->cur_capacity1 = (capacity >> 16) & 0xffff;
}
}
/* Use physical geometry if what we have still makes no sense */
if ((!drive->head || drive->head > 16) &&
id->heads && id->heads <= 16) {
drive->cyl = id->cyls;
drive->head = id->heads;
drive->sect = id->sectors;
}
/* calculate drive capacity, and select LBA if possible */
capacity = current_capacity (drive);
/*
* if possible, give fdisk access to more of the drive,
* by correcting bios_cyls:
*/
if (capacity > drive->bios_cyl * drive->bios_head * drive->bios_sect
&& !drive->forced_geom && drive->bios_sect && drive->bios_head) {
int cyl = (capacity / drive->bios_sect) / drive->bios_head;
if (cyl <= 65535)
drive->bios_cyl = cyl;
else {
/* OK until 539 GB */
drive->bios_sect = 63;
drive->bios_head = 255;
drive->bios_cyl = capacity / (63*255);
}
}
if (!strncmp((char *)id->model, "BMI ", 4) &&
strstr((char *)id->model, " ENHANCED IDE ") &&
drive->select.b.lba)
drive->no_geom = 1;
printk ("%s: %.40s, %ldMB w/%dkB Cache, CHS=%d/%d/%d",
drive->name, id->model, current_capacity(drive)/2048L, id->buf_size/2,
drive->bios_cyl, drive->bios_head, drive->bios_sect);
drive->mult_count = 0;
if (id->max_multsect) {
drive->mult_req = INITIAL_MULT_COUNT;
if (drive->mult_req > id->max_multsect)
drive->mult_req = id->max_multsect;
if (drive->mult_req || ((id->multsect_valid & 1) && id->multsect))
drive->special.b.set_multmode = 1;
}
if (drive->autotune != 2 && HWIF(drive)->dmaproc != NULL) {
if (!(HWIF(drive)->dmaproc(ide_dma_check, drive))) {
if ((id->field_valid & 4) && (id->dma_ultra & (id->dma_ultra >> 8) & 7))
printk(", UDMA");
else
printk(", DMA");
}
}
printk("\n");
}
/*
* Delay for *at least* 50ms. As we don't know how much time is left
* until the next tick occurs, we wait an extra tick to be safe.
* This is used only during the probing/polling for drives at boot time.
*/
static void delay_50ms (void)
{
unsigned long timer = jiffies + ((HZ + 19)/20) + 1;
while (timer > jiffies);
}
/*
* try_to_identify() sends an ATA(PI) IDENTIFY request to a drive
* and waits for a response. It also monitors irqs while this is
* happening, in hope of automatically determining which one is
* being used by the interface.
*
* Returns: 0 device was identified
* 1 device timed-out (no response to identify request)
* 2 device aborted the command (refused to identify itself)
*/
static int try_to_identify (ide_drive_t *drive, byte cmd)
{
int hd_status, rc;
unsigned long timeout;
unsigned long irqs_on = 0;
int irq_off;
if (!HWIF(drive)->irq) { /* already got an IRQ? */
probe_irq_off(probe_irq_on()); /* clear dangling irqs */
irqs_on = probe_irq_on(); /* start monitoring irqs */
OUT_BYTE(drive->ctl,IDE_CONTROL_REG); /* enable device irq */
}
delay_50ms(); /* take a deep breath */
if ((IN_BYTE(IDE_ALTSTATUS_REG) ^ IN_BYTE(IDE_STATUS_REG)) & ~INDEX_STAT) {
printk("%s: probing with STATUS instead of ALTSTATUS\n", drive->name);
hd_status = IDE_STATUS_REG; /* ancient Seagate drives */
} else
hd_status = IDE_ALTSTATUS_REG; /* use non-intrusive polling */
#if CONFIG_BLK_DEV_PROMISE
if (IS_PROMISE_DRIVE) {
if (promise_cmd(drive,PROMISE_IDENTIFY)) {
if (irqs_on)
(void) probe_irq_off(irqs_on);
return 1;
}
} else
#endif /* CONFIG_BLK_DEV_PROMISE */
OUT_BYTE(cmd,IDE_COMMAND_REG); /* ask drive for ID */
timeout = ((cmd == WIN_IDENTIFY) ? WAIT_WORSTCASE : WAIT_PIDENTIFY) / 2;
timeout += jiffies;
do {
if (jiffies > timeout) {
if (irqs_on)
(void) probe_irq_off(irqs_on);
return 1; /* drive timed-out */
}
delay_50ms(); /* give drive a breather */
} while (IN_BYTE(hd_status) & BUSY_STAT);
delay_50ms(); /* wait for IRQ and DRQ_STAT */
if (OK_STAT(GET_STAT(),DRQ_STAT,BAD_R_STAT)) {
unsigned long flags;
save_flags(flags);
cli(); /* some systems need this */
do_identify(drive, cmd); /* drive returned ID */
rc = 0; /* drive responded with ID */
(void) GET_STAT(); /* clear drive IRQ */
restore_flags(flags);
} else
rc = 2; /* drive refused ID */
if (!HWIF(drive)->irq) {
irq_off = probe_irq_off(irqs_on); /* get our irq number */
if (irq_off > 0) {
HWIF(drive)->irq = irq_off; /* save it for later */
irqs_on = probe_irq_on();
OUT_BYTE(drive->ctl|2,IDE_CONTROL_REG); /* mask device irq */
udelay(5);
(void) probe_irq_off(irqs_on);
(void) probe_irq_off(probe_irq_on()); /* clear self-inflicted irq */
(void) GET_STAT(); /* clear drive IRQ */
} else { /* Mmmm.. multiple IRQs.. don't know which was ours */
printk("%s: IRQ probe failed (%d)\n", drive->name, irq_off);
#ifdef CONFIG_BLK_DEV_CMD640
#ifdef CMD640_DUMP_REGS
if (HWIF(drive)->chipset == ide_cmd640) {
printk("%s: Hmmm.. probably a driver problem.\n", drive->name);
CMD640_DUMP_REGS;
}
#endif /* CMD640_DUMP_REGS */
#endif /* CONFIG_BLK_DEV_CMD640 */
}
}
return rc;
}
/*
* do_probe() has the difficult job of finding a drive if it exists,
* without getting hung up if it doesn't exist, without trampling on
* ethernet cards, and without leaving any IRQs dangling to haunt us later.
*
* If a drive is "known" to exist (from CMOS or kernel parameters),
* but does not respond right away, the probe will "hang in there"
* for the maximum wait time (about 30 seconds), otherwise it will
* exit much more quickly.
*
* Returns: 0 device was identified
* 1 device timed-out (no response to identify request)
* 2 device aborted the command (refused to identify itself)
* 3 bad status from device (possible for ATAPI drives)
* 4 probe was not attempted because failure was obvious
*/
static int do_probe (ide_drive_t *drive, byte cmd)
{
int rc;
ide_hwif_t *hwif = HWIF(drive);
unsigned long timeout;
#ifdef CONFIG_BLK_DEV_IDEATAPI
if (drive->present) { /* avoid waiting for inappropriate probes */
if ((drive->media != ide_disk) && (cmd == WIN_IDENTIFY))
return 4;
}
#endif /* CONFIG_BLK_DEV_IDEATAPI */
#ifdef DEBUG
printk("probing for %s: present=%d, media=%d, probetype=%s\n",
drive->name, drive->present, drive->media,
(cmd == WIN_IDENTIFY) ? "ATA" : "ATAPI");
#endif
SELECT_DRIVE(hwif,drive);
delay_50ms();
if (IN_BYTE(IDE_SELECT_REG) != drive->select.all && !drive->present) {
OUT_BYTE(0xa0,IDE_SELECT_REG); /* exit with drive0 selected */
delay_50ms(); /* allow BUSY_STAT to assert & clear */
return 3; /* no i/f present: avoid killing ethernet cards */
}
if (OK_STAT(GET_STAT(),READY_STAT,BUSY_STAT)
|| drive->present || cmd == WIN_PIDENTIFY)
{
if ((rc = try_to_identify(drive,cmd))) /* send cmd and wait */
rc = try_to_identify(drive,cmd); /* failed: try again */
if (rc == 1 && cmd == WIN_PIDENTIFY && drive->autotune != 2) {
printk("%s: no response (status = 0x%02x), resetting drive\n", drive->name, GET_STAT());
delay_50ms();
OUT_BYTE (drive->select.all, IDE_SELECT_REG);
delay_50ms();
OUT_BYTE(WIN_SRST, IDE_COMMAND_REG);
timeout = jiffies;
while ((GET_STAT() & BUSY_STAT) && jiffies < timeout + WAIT_WORSTCASE)
delay_50ms();
rc = try_to_identify(drive, cmd);
}
if (rc == 1)
printk("%s: no response (status = 0x%02x)\n", drive->name, GET_STAT());
(void) GET_STAT(); /* ensure drive irq is clear */
} else {
rc = 3; /* not present or maybe ATAPI */
}
if (drive->select.b.unit != 0) {
OUT_BYTE(0xa0,IDE_SELECT_REG); /* exit with drive0 selected */
delay_50ms();
(void) GET_STAT(); /* ensure drive irq is clear */
}
return rc;
}
static void enable_nest (ide_drive_t *drive)
{
unsigned long timeout;
printk("%s: enabling %s -- ", HWIF(drive)->name, drive->id->model);
SELECT_DRIVE(HWIF(drive), drive);
delay_50ms();
OUT_BYTE(EXABYTE_ENABLE_NEST, IDE_COMMAND_REG);
timeout = jiffies + WAIT_WORSTCASE;
do {
if (jiffies > timeout) {
printk("failed (timeout)\n");
return;
}
delay_50ms();
} while (GET_STAT() & BUSY_STAT);
delay_50ms();
if (!OK_STAT(GET_STAT(), 0, BAD_STAT))
printk("failed (status = 0x%02x)\n", GET_STAT());
else
printk("success\n");
if (do_probe(drive, WIN_IDENTIFY) >= 2) { /* if !(success||timed-out) */
#ifdef CONFIG_BLK_DEV_IDEATAPI
(void) do_probe(drive, WIN_PIDENTIFY); /* look for ATAPI device */
#endif /* CONFIG_BLK_DEV_IDEATAPI */
}
}
/*
* probe_for_drive() tests for existence of a given drive using do_probe().
*
* Returns: 0 no device was found
* 1 device was found (note: drive->present might still be 0)
*/
static inline byte probe_for_drive (ide_drive_t *drive)
{
if (drive->noprobe) /* skip probing? */
return drive->present;
if (do_probe(drive, WIN_IDENTIFY) >= 2) { /* if !(success||timed-out) */
#ifdef CONFIG_BLK_DEV_IDEATAPI
(void) do_probe(drive, WIN_PIDENTIFY); /* look for ATAPI device */
#endif /* CONFIG_BLK_DEV_IDEATAPI */
}
if (drive->id && strstr((char *)drive->id->model, "E X A B Y T E N E S T"))
enable_nest(drive);
if (!drive->present)
return 0; /* drive not found */
if (drive->id == NULL) { /* identification failed? */
if (drive->media == ide_disk) {
printk ("%s: non-IDE drive, CHS=%d/%d/%d\n",
drive->name, drive->cyl, drive->head, drive->sect);
}
#ifdef CONFIG_BLK_DEV_IDECD
else if (drive->media == ide_cdrom) {
printk("%s: ATAPI cdrom (?)\n", drive->name);
}
#endif /* CONFIG_BLK_DEV_IDECD */
else {
drive->present = 0; /* nuke it */
}
}
return 1; /* drive was found */
}
/*
* We query CMOS about hard disks : it could be that we have a SCSI/ESDI/etc
* controller that is BIOS compatible with ST-506, and thus showing up in our
* BIOS table, but not register compatible, and therefore not present in CMOS.
*
* Furthermore, we will assume that our ST-506 drives <if any> are the primary
* drives in the system -- the ones reflected as drive 1 or 2. The first
* drive is stored in the high nibble of CMOS byte 0x12, the second in the low
* nibble. This will be either a 4 bit drive type or 0xf indicating use byte
* 0x19 for an 8 bit type, drive 1, 0x1a for drive 2 in CMOS. A non-zero value
* means we have an AT controller hard disk for that drive.
*
* Of course, there is no guarantee that either drive is actually on the
* "primary" IDE interface, but we don't bother trying to sort that out here.
* If a drive is not actually on the primary interface, then these parameters
* will be ignored. This results in the user having to supply the logical
* drive geometry as a boot parameter for each drive not on the primary i/f.
*
* The only "perfect" way to handle this would be to modify the setup.[cS] code
* to do BIOS calls Int13h/Fn08h and Int13h/Fn48h to get all of the drive info
* for us during initialization. I have the necessary docs -- any takers? -ml
*/
static void probe_cmos_for_drives (ide_hwif_t *hwif)
{
#ifdef __i386__
extern struct drive_info_struct drive_info;
byte cmos_disks, *BIOS = (byte *) &drive_info;
int unit;
#ifdef CONFIG_BLK_DEV_PROMISE
if (hwif->is_promise2)
return;
#endif /* CONFIG_BLK_DEV_PROMISE */
outb_p(0x12,0x70); /* specify CMOS address 0x12 */
cmos_disks = inb_p(0x71); /* read the data from 0x12 */
/* Extract drive geometry from CMOS+BIOS if not already setup */
for (unit = 0; unit < MAX_DRIVES; ++unit) {
ide_drive_t *drive = &hwif->drives[unit];
if ((cmos_disks & (0xf0 >> (unit*4))) && !drive->present && !drive->nobios) {
unsigned short cyl = *(unsigned short *)BIOS;
unsigned char head = *(BIOS+2);
unsigned char sect = *(BIOS+14);
unsigned char ctl = *(BIOS+8);
if (cyl > 0 && head > 0 && sect > 0 && sect < 64) {
drive->cyl = drive->bios_cyl = cyl;
drive->head = drive->bios_head = head;
drive->sect = drive->bios_sect = sect;
drive->ctl = ctl;
drive->present = 1;
printk("hd%d: got CHS=%d/%d/%d CTL=%x from BIOS\n",
unit, cyl, head, sect, ctl);
} else {
printk("hd%d: CHS=%d/%d/%d CTL=%x from BIOS ignored\n",
unit, cyl, head, sect, ctl);
}
}
BIOS += 16;
}
#endif
}
/*
* This routine only knows how to look for drive units 0 and 1
* on an interface, so any setting of MAX_DRIVES > 2 won't work here.
*/
static void probe_hwif (ide_hwif_t *hwif)
{
unsigned int unit;
if (hwif->noprobe)
return;
if (hwif->io_base == HD_DATA)
probe_cmos_for_drives (hwif);
#if CONFIG_BLK_DEV_PROMISE
if (!hwif->is_promise2 &&
(check_region(hwif->io_base,8) || check_region(hwif->ctl_port,1))) {
#else
if (check_region(hwif->io_base,8) || check_region(hwif->ctl_port,1)) {
#endif /* CONFIG_BLK_DEV_PROMISE */
int msgout = 0;
for (unit = 0; unit < MAX_DRIVES; ++unit) {
ide_drive_t *drive = &hwif->drives[unit];
if (drive->present) {
drive->present = 0;
printk("%s: ERROR, PORTS ALREADY IN USE\n", drive->name);
msgout = 1;
}
}
if (!msgout)
printk("%s: ports already in use, skipping probe\n", hwif->name);
} else {
unsigned long flags;
save_flags(flags);
sti(); /* needed for jiffies and irq probing */
/*
* Second drive should only exist if first drive was found,
* but a lot of cdrom drives are configured as single slaves.
*/
for (unit = 0; unit < MAX_DRIVES; ++unit) {
ide_drive_t *drive = &hwif->drives[unit];
(void) probe_for_drive (drive);
if (drive->present && drive->media == ide_disk) {
if ((!drive->head || drive->head > 16) && !drive->select.b.lba) {
printk("%s: INVALID GEOMETRY: %d PHYSICAL HEADS?\n",
drive->name, drive->head);
drive->present = 0;
}
}
if (drive->present && !hwif->present) {
hwif->present = 1;
request_region(hwif->io_base, 8, hwif->name);
request_region(hwif->ctl_port, 1, hwif->name);
}
}
restore_flags(flags);
for (unit = 0; unit < MAX_DRIVES; ++unit) {
ide_drive_t *drive = &hwif->drives[unit];
if (drive->present && drive->media != ide_tape) {
ide_tuneproc_t *tuneproc = HWIF(drive)->tuneproc;
if (tuneproc != NULL && drive->autotune == 1)
tuneproc(drive, 255); /* auto-tune PIO mode */
}
}
}
}
/*
* stridx() returns the offset of c within s,
* or -1 if c is '\0' or not found within s.
*/
static int stridx (const char *s, char c)
{
char *i = strchr(s, c);
return (i && c) ? i - s : -1;
}
/*
* match_parm() does parsing for ide_setup():
*
* 1. the first char of s must be '='.
* 2. if the remainder matches one of the supplied keywords,
* the index (1 based) of the keyword is negated and returned.
* 3. if the remainder is a series of no more than max_vals numbers
* separated by commas, the numbers are saved in vals[] and a
* count of how many were saved is returned. Base10 is assumed,
* and base16 is allowed when prefixed with "0x".
* 4. otherwise, zero is returned.
*/
static int match_parm (char *s, const char *keywords[], int vals[], int max_vals)
{
static const char *decimal = "0123456789";
static const char *hex = "0123456789abcdef";
int i, n;
if (*s++ == '=') {
/*
* Try matching against the supplied keywords,
* and return -(index+1) if we match one
*/
if (keywords != NULL) {
for (i = 0; *keywords != NULL; ++i) {
if (!strcmp(s, *keywords++))
return -(i+1);
}
}
/*
* Look for a series of no more than "max_vals"
* numeric values separated by commas, in base10,
* or base16 when prefixed with "0x".
* Return a count of how many were found.
*/
for (n = 0; (i = stridx(decimal, *s)) >= 0;) {
vals[n] = i;
while ((i = stridx(decimal, *++s)) >= 0)
vals[n] = (vals[n] * 10) + i;
if (*s == 'x' && !vals[n]) {
while ((i = stridx(hex, *++s)) >= 0)
vals[n] = (vals[n] * 0x10) + i;
}
if (++n == max_vals)
break;
if (*s == ',')
++s;
}
if (!*s)
return n;
}
return 0; /* zero = nothing matched */
}
/*
* ide_setup() gets called VERY EARLY during initialization,
* to handle kernel "command line" strings beginning with "hdx="
* or "ide". Here is the complete set currently supported:
*
* "hdx=" is recognized for all "x" from "a" to "h", such as "hdc".
* "idex=" is recognized for all "x" from "0" to "3", such as "ide1".
*
* "hdx=noprobe" : drive may be present, but do not probe for it
* "hdx=none" : drive is NOT present, ignore cmos and do not probe
* "hdx=nowerr" : ignore the WRERR_STAT bit on this drive
* "hdx=cdrom" : drive is present, and is a cdrom drive
* "hdx=cyl,head,sect" : disk drive is present, with specified geometry
* "hdx=autotune" : driver will attempt to tune interface speed
* to the fastest PIO mode supported,
* if possible for this drive only.
* Not fully supported by all chipset types,
* and quite likely to cause trouble with
* older/odd IDE drives.
*
* "idebus=xx" : inform IDE driver of VESA/PCI bus speed in Mhz,
* where "xx" is between 20 and 66 inclusive,
* used when tuning chipset PIO modes.
* For PCI bus, 25 is correct for a P75 system,
* 30 is correct for P90,P120,P180 systems,
* and 33 is used for P100,P133,P166 systems.
* If in doubt, use idebus=33 for PCI.
* As for VLB, it is safest to not specify it.
*
* "idex=noprobe" : do not attempt to access/use this interface
* "idex=base" : probe for an interface at the addr specified,
* where "base" is usually 0x1f0 or 0x170
* and "ctl" is assumed to be "base"+0x206
* "idex=base,ctl" : specify both base and ctl
* "idex=base,ctl,irq" : specify base, ctl, and irq number
* "idex=autotune" : driver will attempt to tune interface speed
* to the fastest PIO mode supported,
* for all drives on this interface.
* Not fully supported by all chipset types,
* and quite likely to cause trouble with
* older/odd IDE drives.
* "idex=noautotune" : driver will NOT attempt to tune interface speed
* This is the default for most chipsets,
* except the cmd640.
* "idex=serialize" : do not overlap operations on idex and ide(x^1)
*
* The following are valid ONLY on ide0,
* and the defaults for the base,ctl ports must not be altered.
*
* "ide0=dtc2278" : probe/support DTC2278 interface
* "ide0=ht6560b" : probe/support HT6560B interface
* "ide0=cmd640_vlb" : *REQUIRED* for VLB cards with the CMD640 chip
* (not for PCI -- automatically detected)
* "ide0=qd6580" : probe/support qd6580 interface
* "ide0=ali14xx" : probe/support ali14xx chipsets (ALI M1439, M1443, M1445)
* "ide0=umc8672" : probe/support umc8672 chipsets
*/
void ide_setup (char *s)
{
int i, vals[3];
ide_hwif_t *hwif;
ide_drive_t *drive;
unsigned int hw, unit;
const char max_drive = 'a' + ((MAX_HWIFS * MAX_DRIVES) - 1);
const char max_hwif = '0' + (MAX_HWIFS - 1);
printk("ide_setup: %s", s);
init_ide_data ();
/*
* Look for drive options: "hdx="
*/
if (s[0] == 'h' && s[1] == 'd' && s[2] >= 'a' && s[2] <= max_drive) {
const char *hd_words[] = {"none", "noprobe", "nowerr", "cdrom",
"serialize", "autotune", "noautotune",
"slow", "ide-scsi", NULL};
unit = s[2] - 'a';
hw = unit / MAX_DRIVES;
unit = unit % MAX_DRIVES;
hwif = &ide_hwifs[hw];
drive = &hwif->drives[unit];
switch (match_parm(&s[3], hd_words, vals, 3)) {
case -1: /* "none" */
drive->nobios = 1; /* drop into "noprobe" */
case -2: /* "noprobe" */
drive->noprobe = 1;
goto done;
case -3: /* "nowerr" */
drive->bad_wstat = BAD_R_STAT;
hwif->noprobe = 0;
goto done;
case -4: /* "cdrom" */
drive->present = 1;
drive->media = ide_cdrom;
hwif->noprobe = 0;
goto done;
case -5: /* "serialize" */
printk(" -- USE \"ide%d=serialize\" INSTEAD", hw);
goto do_serialize;
case -6: /* "autotune" */
drive->autotune = 1;
goto done;
case -7: /* "noautotune" */
drive->autotune = 2;
goto done;
case -8: /* "slow" */
drive->slow = 1;
goto done;
case -9: /* "ide-scsi" */
drive->ide_scsi = 1;
goto done;
case 3: /* cyl,head,sect */
drive->media = ide_disk;
drive->cyl = drive->bios_cyl = vals[0];
drive->head = drive->bios_head = vals[1];
drive->sect = drive->bios_sect = vals[2];
drive->present = 1;
drive->forced_geom = 1;
hwif->noprobe = 0;
goto done;
default:
goto bad_option;
}
}
if (s[0] != 'i' || s[1] != 'd' || s[2] != 'e')
goto bad_option;
/*
* Look for bus speed option: "idebus="
*/
if (s[3] == 'b' && s[4] == 'u' && s[5] == 's') {
if (match_parm(&s[6], NULL, vals, 1) != 1)
goto bad_option;
if (vals[0] >= 20 && vals[0] <= 66)
idebus_parameter = vals[0];
else
printk(" -- BAD BUS SPEED! Expected value from 20 to 66");
goto done;
}
/*
* Look for interface options: "idex="
*/
if (s[3] >= '0' && s[3] <= max_hwif) {
/*
* Be VERY CAREFUL changing this: note hardcoded indexes below
*/
const char *ide_words[] = {"noprobe", "serialize", "autotune", "noautotune",
"qd6580", "ht6560b", "cmd640_vlb", "dtc2278", "umc8672", "ali14xx", "dc4030", NULL};
hw = s[3] - '0';
hwif = &ide_hwifs[hw];
i = match_parm(&s[4], ide_words, vals, 3);
/*
* Cryptic check to ensure chipset not already set for hwif:
*/
if (i > 0 || i <= -5) {
if (hwif->chipset != ide_unknown)
goto bad_option;
if (i <= -5) {
if (ide_hwifs[1].chipset != ide_unknown)
goto bad_option;
/*
* Interface keywords work only for ide0:
*/
if (hw != 0)
goto bad_hwif;
}
}
switch (i) {
#ifdef CONFIG_BLK_DEV_PROMISE
case -11: /* "dc4030" */
{
setup_dc4030(hwif);
goto done;
}
#endif /* CONFIG_BLK_DEV_PROMISE */
#ifdef CONFIG_BLK_DEV_ALI14XX
case -10: /* "ali14xx" */
{
extern void init_ali14xx (void);
init_ali14xx();
goto done;
}
#endif /* CONFIG_BLK_DEV_ALI14XX */
#ifdef CONFIG_BLK_DEV_UMC8672
case -9: /* "umc8672" */
{
extern void init_umc8672 (void);
init_umc8672();
goto done;
}
#endif /* CONFIG_BLK_DEV_UMC8672 */
#ifdef CONFIG_BLK_DEV_DTC2278
case -8: /* "dtc2278" */
{
extern void init_dtc2278 (void);
init_dtc2278();
goto done;
}
#endif /* CONFIG_BLK_DEV_DTC2278 */
#ifdef CONFIG_BLK_DEV_CMD640
case -7: /* "cmd640_vlb" */
{
extern int cmd640_vlb; /* flag for cmd640.c */
cmd640_vlb = 1;
goto done;
}
#endif /* CONFIG_BLK_DEV_CMD640 */
#ifdef CONFIG_BLK_DEV_HT6560B
case -6: /* "ht6560b" */
{
extern void init_ht6560b (void);
init_ht6560b();
goto done;
}
#endif /* CONFIG_BLK_DEV_HT6560B */
#if CONFIG_BLK_DEV_QD6580
case -5: /* "qd6580" (has secondary i/f) */
{
extern void init_qd6580 (void);
init_qd6580();
goto done;
}
#endif /* CONFIG_BLK_DEV_QD6580 */
case -4: /* "noautotune" */
hwif->drives[0].autotune = 2;
hwif->drives[1].autotune = 2;
goto done;
case -3: /* "autotune" */
hwif->drives[0].autotune = 1;
hwif->drives[1].autotune = 1;
goto done;
case -2: /* "serialize" */
do_serialize:
ide_hwifs[hw].serialized = 1; /* serialize */
ide_hwifs[hw^1].serialized = 1; /* with mate */
goto done;
case -1: /* "noprobe" */
hwif->noprobe = 1;
goto done;
case 1: /* base */
vals[1] = vals[0] + 0x206; /* default ctl */
case 2: /* base,ctl */
vals[2] = 0; /* default irq = probe for it */
case 3: /* base,ctl,irq */
hwif->io_base = vals[0];
hwif->ctl_port = vals[1];
hwif->irq = vals[2];
hwif->noprobe = 0;
hwif->chipset = ide_generic;
goto done;
case 0: goto bad_option;
default:
printk(" -- SUPPORT NOT CONFIGURED IN THIS KERNEL\n");
return;
}
}
bad_option:
printk(" -- BAD OPTION\n");
return;
bad_hwif:
printk("-- NOT SUPPORTED ON ide%d", hw);
done:
printk("\n");
}
/*
* This routine is called from the partition-table code in genhd.c
* to "convert" a drive to a logical geometry with fewer than 1024 cyls.
*
* The second parameter, "xparm", determines exactly how the translation
* will be handled:
* 0 = convert to CHS with fewer than 1024 cyls
* using the same method as Ontrack DiskManager.
* 1 = same as "0", plus offset everything by 63 sectors.
* -1 = similar to "0", plus redirect sector 0 to sector 1.
* >1 = convert to a CHS geometry with "xparm" heads.
*
* Returns 0 if the translation was not possible, if the device was not
* an IDE disk drive, or if a geometry was "forced" on the commandline.
* Returns 1 if the geometry translation was successful.
*/
int ide_xlate_1024 (kdev_t i_rdev, int xparm, const char *msg)
{
ide_drive_t *drive;
static const byte head_vals[] = {4, 8, 16, 32, 64, 128, 255, 0};
const byte *heads = head_vals;
unsigned long tracks;
drive = get_info_ptr(i_rdev);
if (!drive)
return 0;
if (drive->forced_geom)
return 0;
if (xparm > 1 && xparm <= drive->bios_head && drive->bios_sect == 63)
return 0; /* we already have a translation */
printk("%s ", msg);
if (xparm < 0 && (drive->bios_cyl * drive->bios_head * drive->bios_sect) < (1024 * 16 * 63)) {
return 0; /* small disk: no translation needed */
}
if (drive->id) {
drive->cyl = drive->id->cyls;
drive->head = drive->id->heads;
drive->sect = drive->id->sectors;
}
drive->bios_cyl = drive->cyl;
drive->bios_head = drive->head;
drive->bios_sect = drive->sect;
drive->special.b.set_geometry = 1;
tracks = drive->bios_cyl * drive->bios_head * drive->bios_sect / 63;
drive->bios_sect = 63;
if (xparm > 1) {
drive->bios_head = xparm;
drive->bios_cyl = tracks / drive->bios_head;
} else {
while (drive->bios_cyl >= 1024) {
drive->bios_head = *heads;
drive->bios_cyl = tracks / drive->bios_head;
if (0 == *++heads)
break;
}
#if FAKE_FDISK_FOR_EZDRIVE
if (xparm == -1) {
drive->remap_0_to_1 = 1;
msg = "0->1";
} else
#endif /* FAKE_FDISK_FOR_EZDRIVE */
if (xparm == 1) {
drive->sect0 = 63;
drive->bios_cyl = (tracks - 1) / drive->bios_head;
msg = "+63";
}
printk("[remap %s] ", msg);
}
drive->part[0].nr_sects = current_capacity(drive);
printk("[%d/%d/%d]", drive->bios_cyl, drive->bios_head, drive->bios_sect);
return 1;
}
#if MAX_HWIFS > 1
/*
* save_match() is used to simplify logic in init_irq() below.
*
* A loophole here is that we may not know about a particular
* hwif's irq until after that hwif is actually probed/initialized..
* This could be a problem for the case where an hwif is on a
* dual interface that requires serialization (eg. cmd640) and another
* hwif using one of the same irqs is initialized beforehand.
*
* This routine detects and reports such situations, but does not fix them.
*/
static void save_match (ide_hwif_t *hwif, ide_hwif_t *new, ide_hwif_t **match)
{
ide_hwif_t *m = *match;
if (m && m->hwgroup && m->hwgroup != new->hwgroup) {
if (!new->hwgroup)
return;
printk("%s: potential irq problem with %s and %s\n", hwif->name, new->name, m->name);
}
if (!m || m->irq != hwif->irq) /* don't undo a prior perfect match */
*match = new;
}
#endif /* MAX_HWIFS > 1 */
/*
* This routine sets up the irq for an ide interface, and creates a new
* hwgroup for the irq/hwif if none was previously assigned.
*
* Much of the code is for correctly detecting/handling irq sharing
* and irq serialization situations. This is somewhat complex because
* it handles static as well as dynamic (PCMCIA) IDE interfaces.
*
* The SA_INTERRUPT in sa_flags means ide_intr() is always entered with
* interrupts completely disabled. This can be bad for interrupt latency,
* but anything else has led to problems on some machines. We re-enable
* interrupts as much as we can safely do in most places.
*/
static int init_irq (ide_hwif_t *hwif)
{
unsigned long flags;
#if MAX_HWIFS > 1
unsigned int index;
#endif /* MAX_HWIFS > 1 */
ide_hwgroup_t *hwgroup;
ide_hwif_t *match = NULL;
save_flags(flags);
cli();
hwif->hwgroup = NULL;
#if MAX_HWIFS > 1
/*
* Group up with any other hwifs that share our irq(s).
*/
for (index = 0; index < MAX_HWIFS; index++) {
ide_hwif_t *h = &ide_hwifs[index];
if (h->hwgroup) { /* scan only initialized hwif's */
if (hwif->irq == h->irq) {
hwif->sharing_irq = h->sharing_irq = 1;
save_match(hwif, h, &match);
}
if (hwif->serialized) {
ide_hwif_t *mate = &ide_hwifs[hwif->index^1];
if (index == mate->index || h->irq == mate->irq)
save_match(hwif, h, &match);
}
if (h->serialized) {
ide_hwif_t *mate = &ide_hwifs[h->index^1];
if (hwif->irq == mate->irq)
save_match(hwif, h, &match);
}
}
}
#endif /* MAX_HWIFS > 1 */
/*
* If we are still without a hwgroup, then form a new one
*/
if (match) {
hwgroup = match->hwgroup;
} else {
hwgroup = kmalloc(sizeof(ide_hwgroup_t), GFP_KERNEL);
hwgroup->hwif = hwgroup->next_hwif = hwif->next = hwif;
hwgroup->rq = NULL;
hwgroup->handler = NULL;
if (hwif->drives[0].present)
hwgroup->drive = &hwif->drives[0];
else
hwgroup->drive = &hwif->drives[1];
hwgroup->poll_timeout = 0;
hwgroup->active = 0;
init_timer(&hwgroup->timer);
hwgroup->timer.function = &timer_expiry;
hwgroup->timer.data = (unsigned long) hwgroup;
}
/*
* Allocate the irq, if not already obtained for another hwif
*/
if (!match || match->irq != hwif->irq) {
if (request_irq(hwif->irq, ide_intr, SA_INTERRUPT, hwif->name, hwgroup)) {
if (!match)
kfree(hwgroup);
restore_flags(flags);
return 1;
}
}
/*
* Everything is okay, so link us into the hwgroup
*/
hwif->hwgroup = hwgroup;
hwif->next = hwgroup->hwif->next;
hwgroup->hwif->next = hwif;
restore_flags(flags); /* safe now that hwif->hwgroup is set up */
printk("%s at 0x%03x-0x%03x,0x%03x on irq %d", hwif->name,
hwif->io_base, hwif->io_base+7, hwif->ctl_port, hwif->irq);
if (match)
printk(" (%sed with %s)", hwif->sharing_irq ? "shar" : "serializ", match->name);
printk("\n");
return 0;
}
static struct file_operations ide_fops = {
NULL, /* lseek - default */
block_read, /* read - general block-dev read */
block_write, /* write - general block-dev write */
NULL, /* readdir - bad */
NULL, /* select */
ide_ioctl, /* ioctl */
NULL, /* mmap */
ide_open, /* open */
ide_release, /* release */
block_fsync /* fsync */
,NULL, /* fasync */
ide_check_media_change, /* check_media_change */
revalidate_disk /* revalidate */
};
#ifdef CONFIG_PCI
#if defined(CONFIG_BLK_DEV_RZ1000) || defined(CONFIG_BLK_DEV_TRITON)
typedef void (ide_pci_init_proc_t)(byte, byte);
/*
* ide_probe_pci() scans PCI for a specific vendor/device function,
* and invokes the supplied init routine for each instance detected.
*/
static void ide_probe_pci (unsigned short vendor, unsigned short device, ide_pci_init_proc_t *init, int func_adj)
{
unsigned long flags;
unsigned index;
byte fn, bus;
save_flags(flags);
cli();
for (index = 0; !pcibios_find_device (vendor, device, index, &bus, &fn); ++index) {
init (bus, fn + func_adj);
}
restore_flags(flags);
}
#endif /* defined(CONFIG_BLK_DEV_RZ1000) || defined(CONFIG_BLK_DEV_TRITON) */
static void ide_probe_promise_20246(void)
{
byte fn, bus;
unsigned short io[6], count = 0;
unsigned int reg, tmp, i;
ide_hwif_t *hwif;
memset(io, 0, 6 * sizeof(unsigned short));
if (pcibios_find_device(PCI_VENDOR_ID_PROMISE, PCI_DEVICE_ID_PROMISE_20246, 0, &bus, &fn))
return;
printk("ide: Promise Technology IDE Ultra-DMA 33 on PCI bus %d function %d\n", bus, fn);
for (reg = PCI_BASE_ADDRESS_0; reg <= PCI_BASE_ADDRESS_5; reg += 4) {
pcibios_read_config_dword(bus, fn, reg, &tmp);
if (tmp & PCI_BASE_ADDRESS_SPACE_IO)
io[count++] = tmp & PCI_BASE_ADDRESS_IO_MASK;
}
for (i = 2; i < 4; i++) {
hwif = ide_hwifs + i;
if (hwif->chipset == ide_generic) {
printk("ide%d: overridden with command line parameter\n", i);
return;
}
tmp = (i - 2) * 2;
if (!io[tmp] || !io[tmp + 1]) {
printk("ide%d: invalid port address %x, %x -- aborting\n", i, io[tmp], io[tmp + 1]);
return;
}
hwif->io_base = io[tmp];
hwif->ctl_port = io[tmp + 1] + 2;
hwif->noprobe = 0;
}
}
#endif /* CONFIG_PCI */
/*
* ide_init_pci() finds/initializes "known" PCI IDE interfaces
*
* This routine should ideally be using pcibios_find_class() to find
* all IDE interfaces, but that function causes some systems to "go weird".
*/
static void probe_for_hwifs (void)
{
#ifdef CONFIG_PCI
/*
* Find/initialize PCI IDE interfaces
*/
if (pcibios_present()) {
#ifdef CONFIG_BLK_DEV_RZ1000
ide_pci_init_proc_t init_rz1000;
ide_probe_pci (PCI_VENDOR_ID_PCTECH, PCI_DEVICE_ID_PCTECH_RZ1000, &init_rz1000, 0);
ide_probe_pci (PCI_VENDOR_ID_PCTECH, PCI_DEVICE_ID_PCTECH_RZ1001, &init_rz1000, 0);
#endif /* CONFIG_BLK_DEV_RZ1000 */
#ifdef CONFIG_BLK_DEV_TRITON
/*
* Apparently the BIOS32 services on Intel motherboards are
* buggy and won't find the PCI_DEVICE_ID_INTEL_82371_1 for us.
* So instead, we search for PCI_DEVICE_ID_INTEL_82371_0,
* and then add 1.
*/
ide_probe_pci (PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82371_0, &ide_init_triton, 1);
ide_probe_pci (PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82371SB_1, &ide_init_triton, 0);
ide_probe_pci (PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82371AB, &ide_init_triton, 0);
ide_probe_pci (PCI_VENDOR_ID_SI, PCI_DEVICE_ID_SI_5513, &ide_init_triton, 0);
ide_probe_pci (PCI_VENDOR_ID_VIA, PCI_DEVICE_ID_VIA_82C586_1, &ide_init_triton, 0);
ide_probe_pci (PCI_VENDOR_ID_AL, PCI_DEVICE_ID_AL_M5229, &ide_init_triton, 0);
#endif /* CONFIG_BLK_DEV_TRITON */
ide_probe_promise_20246();
}
#endif /* CONFIG_PCI */
#ifdef CONFIG_BLK_DEV_CMD640
{
extern void ide_probe_for_cmd640x (void);
ide_probe_for_cmd640x();
}
#endif
#ifdef CONFIG_BLK_DEV_PROMISE
init_dc4030();
#endif
}
static int hwif_init (int h)
{
ide_hwif_t *hwif = &ide_hwifs[h];
void (*rfn)(void);
if (!hwif->present)
return 0;
if (!hwif->irq) {
if (!(hwif->irq = default_irqs[h])) {
printk("%s: DISABLED, NO IRQ\n", hwif->name);
return (hwif->present = 0);
}
}
#ifdef CONFIG_BLK_DEV_HD
if (hwif->irq == HD_IRQ && hwif->io_base != HD_DATA) {
printk("%s: CANNOT SHARE IRQ WITH OLD HARDDISK DRIVER (hd.c)\n", hwif->name);
return (hwif->present = 0);
}
#endif /* CONFIG_BLK_DEV_HD */
hwif->present = 0; /* we set it back to 1 if all is ok below */
switch (hwif->major) {
case IDE0_MAJOR: rfn = &do_ide0_request; break;
#if MAX_HWIFS > 1
case IDE1_MAJOR: rfn = &do_ide1_request; break;
#endif
#if MAX_HWIFS > 2
case IDE2_MAJOR: rfn = &do_ide2_request; break;
#endif
#if MAX_HWIFS > 3
case IDE3_MAJOR: rfn = &do_ide3_request; break;
#endif
default:
printk("%s: request_fn NOT DEFINED\n", hwif->name);
return (hwif->present = 0);
}
if (register_blkdev (hwif->major, hwif->name, &ide_fops)) {
printk("%s: UNABLE TO GET MAJOR NUMBER %d\n", hwif->name, hwif->major);
} else if (init_irq (hwif)) {
printk("%s: UNABLE TO GET IRQ %d\n", hwif->name, hwif->irq);
(void) unregister_blkdev (hwif->major, hwif->name);
} else {
init_gendisk(hwif);
blk_dev[hwif->major].request_fn = rfn;
read_ahead[hwif->major] = 8; /* (4kB) */
hwif->present = 1; /* success */
}
return hwif->present;
}
/*
* This is gets invoked once during initialization, to set *everything* up
*/
int ide_init (void)
{
int index;
init_ide_data ();
/*
* Probe for special "known" interface chipsets
*/
probe_for_hwifs ();
/*
* Probe for drives in the usual way.. CMOS/BIOS, then poke at ports
*/
for (index = 0; index < MAX_HWIFS; ++index)
probe_hwif (&ide_hwifs[index]);
for (index = 0; index < MAX_HWIFS; ++index)
hwif_init (index);
#ifdef CONFIG_BLK_DEV_IDETAPE
idetape_register_chrdev(); /* Register character device interface to the ide tape */
#endif /* CONFIG_BLK_DEV_IDETAPE */
return 0;
}
#ifdef CONFIG_BLK_DEV_IDE_PCMCIA
int ide_register(int io_base, int ctl_port, int irq)
{
int index, i, rc = -1;
ide_hwif_t *hwif;
ide_drive_t *drive;
unsigned long flags;
save_flags(flags);
cli();
for (index = 0; index < MAX_HWIFS; ++index) {
hwif = &ide_hwifs[index];
if (hwif->present) {
if (hwif->io_base == io_base || hwif->ctl_port == ctl_port)
break; /* this ide port already exists */
} else {
hwif->io_base = io_base;
hwif->ctl_port = ctl_port;
hwif->irq = irq;
hwif->noprobe = 0;
probe_hwif(hwif);
if (!hwif_init(index))
break;
for (i = 0; i < hwif->gd->nr_real; i++) {
drive = &hwif->drives[i];
revalidate_disk(MKDEV(hwif->major, i<<PARTN_BITS));
#ifdef CONFIG_BLK_DEV_IDECD
if (drive->present && drive->media == ide_cdrom)
ide_cdrom_setup(drive);
#endif /* CONFIG_BLK_DEV_IDECD */
}
rc = index;
break;
}
}
restore_flags(flags);
return rc;
}
void ide_unregister (unsigned int index)
{
struct gendisk *gd, **gdp;
ide_hwif_t *hwif, *g;
ide_hwgroup_t *hwgroup;
int irq_count = 0;
unsigned long flags;
if (index >= MAX_HWIFS)
return;
save_flags(flags);
cli();
hwif = &ide_hwifs[index];
if (!hwif->present || hwif->drives[0].busy || hwif->drives[1].busy) {
restore_flags(flags);
return;
}
hwif->present = 0;
hwgroup = hwif->hwgroup;
/*
* free the irq if we were the only hwif using it
*/
g = hwgroup->hwif;
do {
if (g->irq == hwif->irq)
++irq_count;
g = g->next;
} while (g != hwgroup->hwif);
if (irq_count == 1)
free_irq(hwif->irq, hwgroup);
/*
* Note that we only release the standard ports,
* and do not even try to handle any extra ports
* allocated for weird IDE interface chipsets.
*/
release_region(hwif->io_base, 8);
release_region(hwif->ctl_port, 1);
/*
* Remove us from the hwgroup, and free
* the hwgroup if we were the only member
*/
while (hwgroup->hwif->next != hwif)
hwgroup->hwif = hwgroup->hwif->next;
hwgroup->hwif->next = hwif->next;
if (hwgroup->hwif == hwif)
hwgroup->hwif = hwif->next;
if (hwgroup->next_hwif == hwif)
hwgroup->next_hwif = hwif->next;
if (hwgroup->hwif == hwif)
kfree(hwgroup);
/*
* Remove us from the kernel's knowledge
*/
unregister_blkdev(hwif->major, hwif->name);
kfree(blksize_size[hwif->major]);
blk_dev[hwif->major].request_fn = NULL;
blksize_size[hwif->major] = NULL;
for (gdp = &gendisk_head; *gdp; gdp = &((*gdp)->next))
if (*gdp == hwif->gd)
break;
if (*gdp == NULL)
printk("gd not in disk chain!\n");
else {
gd = *gdp; *gdp = gd->next;
kfree(gd->sizes);
kfree(gd->part);
kfree(gd);
}
init_hwif_data (index); /* restore hwif data to pristine status */
restore_flags(flags);
}
#endif /* CONFIG_BLK_DEV_IDE_PCMCIA */
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