drivers/char/ftape/lowlevel/fdc-io.h - pub/scm/linux/kernel/git/iwlwifi/iwlwifi-next - Git at Google

 #ifndef _FDC_IO_H
 #define _FDC_IO_H

 /*
  *    Copyright (C) 1993-1996 Bas Laarhoven,
  *              (C) 1996-1997 Claus-Justus Heine.

  This program is free software; you can redistribute it and/or modify
  it under the terms of the GNU General Public License as published by
  the Free Software Foundation; either version 2, or (at your option)
  any later version.

  This program is distributed in the hope that it will be useful,
  but WITHOUT ANY WARRANTY; without even the implied warranty of
  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  GNU General Public License for more details.

  You should have received a copy of the GNU General Public License
  along with this program; see the file COPYING.  If not, write to
  the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.

  *
  * $Source: /homes/cvs/ftape-stacked/ftape/lowlevel/fdc-io.h,v $
  * $Revision: 1.3 $
  * $Date: 1997/10/05 19:18:06 $
  *
  *      This file contains the declarations for the low level
  *      functions that communicate with the floppy disk controller,
  *      for the QIC-40/80/3010/3020 floppy-tape driver "ftape" for
  *      Linux.
  */

 #include <linux/fdreg.h>

 #include "../lowlevel/ftape-bsm.h"

 #define FDC_SK_BIT      (0x20)
 #define FDC_MT_BIT      (0x80)

 #define FDC_READ        (FD_READ & ~(FDC_SK_BIT | FDC_MT_BIT))
 #define FDC_WRITE       (FD_WRITE & ~FDC_MT_BIT)
 #define FDC_READ_DELETED  (0x4c)
 #define FDC_WRITE_DELETED (0x49)
 #define FDC_VERIFY        (0x56)
 #define FDC_READID      (0x4a)
 #define FDC_SENSED      (0x04)
 #define FDC_SENSEI      (FD_SENSEI)
 #define FDC_FORMAT      (FD_FORMAT)
 #define FDC_RECAL       (FD_RECALIBRATE)
 #define FDC_SEEK        (FD_SEEK)
 #define FDC_SPECIFY     (FD_SPECIFY)
 #define FDC_RECALIBR    (FD_RECALIBRATE)
 #define FDC_VERSION     (FD_VERSION)
 #define FDC_PERPEND     (FD_PERPENDICULAR)
 #define FDC_DUMPREGS    (FD_DUMPREGS)
 #define FDC_LOCK        (FD_LOCK)
 #define FDC_UNLOCK      (FD_UNLOCK)
 #define FDC_CONFIGURE   (FD_CONFIGURE)
 #define FDC_DRIVE_SPEC  (0x8e)	/* i82078 has this (any others?) */
 #define FDC_PARTID      (0x18)	/* i82078 has this */
 #define FDC_SAVE        (0x2e)	/* i82078 has this (any others?) */
 #define FDC_RESTORE     (0x4e)	/* i82078 has this (any others?) */

 #define FDC_STATUS_MASK (STATUS_BUSY | STATUS_DMA | STATUS_DIR | STATUS_READY)
 #define FDC_DATA_READY  (STATUS_READY)
 #define FDC_DATA_OUTPUT (STATUS_DIR)
 #define FDC_DATA_READY_MASK (STATUS_READY | STATUS_DIR)
 #define FDC_DATA_OUT_READY  (STATUS_READY | STATUS_DIR)
 #define FDC_DATA_IN_READY   (STATUS_READY)
 #define FDC_BUSY        (STATUS_BUSY)
 #define FDC_CLK48_BIT   (0x80)
 #define FDC_SEL3V_BIT   (0x40)

 #define ST0_INT_MASK    (ST0_INTR)
 #define FDC_INT_NORMAL  (ST0_INTR & 0x00)
 #define FDC_INT_ABNORMAL (ST0_INTR & 0x40)
 #define FDC_INT_INVALID (ST0_INTR & 0x80)
 #define FDC_INT_READYCH (ST0_INTR & 0xC0)
 #define ST0_SEEK_END    (ST0_SE)
 #define ST3_TRACK_0     (ST3_TZ)

 #define FDC_RESET_NOT   (0x04)
 #define FDC_DMA_MODE    (0x08)
 #define FDC_MOTOR_0     (0x10)
 #define FDC_MOTOR_1     (0x20)

 typedef struct {
 	void (**hook) (void);	/* our wedge into the isr */
 	enum {
 		no_fdc, i8272, i82077, i82077AA, fc10,
 		i82078, i82078_1
 	} type;			/* FDC type */
 	unsigned int irq; /* FDC irq nr */
 	unsigned int dma; /* FDC dma channel nr */
 	__u16 sra;	  /* Status register A (PS/2 only) */
 	__u16 srb;	  /* Status register B (PS/2 only) */
 	__u16 dor;	  /* Digital output register */
 	__u16 tdr;	  /* Tape Drive Register (82077SL-1 &
 			     82078 only) */
 	__u16 msr;	  /* Main Status Register */
 	__u16 dsr;	  /* Datarate Select Register (8207x only) */
 	__u16 fifo;	  /* Data register / Fifo on 8207x */
 	__u16 dir;	  /* Digital Input Register */
 	__u16 ccr;	  /* Configuration Control Register */
 	__u16 dor2;	  /* Alternate dor on MACH-2 controller,
 			     also used with FC-10, meaning unknown */
 } fdc_config_info;

 typedef enum {
 	fdc_data_rate_250  = 2,
 	fdc_data_rate_300  = 1,	/* any fdc in default configuration */
 	fdc_data_rate_500  = 0,
 	fdc_data_rate_1000 = 3,
 	fdc_data_rate_2000 = 1,	/* i82078-1: when using Data Rate Table #2 */
 } fdc_data_rate_type;

 typedef enum {
 	fdc_idle          = 0,
 	fdc_reading_data  = FDC_READ,
 	fdc_seeking       = FDC_SEEK,
 	fdc_writing_data  = FDC_WRITE,
 	fdc_deleting      = FDC_WRITE_DELETED,
 	fdc_reading_id    = FDC_READID,
 	fdc_recalibrating = FDC_RECAL,
 	fdc_formatting    = FDC_FORMAT,
 	fdc_verifying     = FDC_VERIFY
 } fdc_mode_enum;

 typedef enum {
 	waiting = 0,
 	reading,
 	writing,
 	formatting,
 	verifying,
 	deleting,
 	done,
 	error,
 	mmapped,
 } buffer_state_enum;

 typedef struct {
 	__u8 *address;
 	volatile buffer_state_enum status;
 	volatile __u8 *ptr;
 	volatile unsigned int bytes;
 	volatile unsigned int segment_id;

 	/* bitmap for remainder of segment not yet handled.
 	 * one bit set for each bad sector that must be skipped.
 	 */
 	volatile SectorMap bad_sector_map;

 	/* bitmap with bad data blocks in data buffer.
 	 * the errors in this map may be retried.
 	 */
 	volatile SectorMap soft_error_map;

 	/* bitmap with bad data blocks in data buffer
 	 * the errors in this map may not be retried.
 	 */
 	volatile SectorMap hard_error_map;

 	/* retry counter for soft errors.
 	 */
 	volatile int retry;

 	/* sectors to skip on retry ???
 	 */
 	volatile unsigned int skip;

 	/* nr of data blocks in data buffer
 	 */
 	volatile unsigned int data_offset;

 	/* offset in segment for first sector to be handled.
 	 */
 	volatile unsigned int sector_offset;

 	/* size of cluster of good sectors to be handled.
 	 */
 	volatile unsigned int sector_count;

 	/* size of remaining part of segment to be handled.
 	 */
 	volatile unsigned int remaining;

 	/* points to next segment (contiguous) to be handled,
 	 * or is zero if no read-ahead is allowed.
 	 */
 	volatile unsigned int next_segment;

 	/* flag being set if deleted data was read.
 	 */
 	volatile int deleted;

 	/* floppy coordinates of first sector in segment */
 	volatile __u8 head;
 	volatile __u8 cyl;
 	volatile __u8 sect;

 	/* gap to use when formatting */
 	__u8 gap3;
 	/* flag set when buffer is mmaped */
 	int mmapped;
 } buffer_struct;

 /*
  *      fdc-io.c defined public variables
  */
 extern volatile fdc_mode_enum fdc_mode;
 extern int fdc_setup_error;	/* outdated ??? */
 extern wait_queue_head_t ftape_wait_intr;
 extern volatile int ftape_current_cylinder; /* track nr FDC thinks we're on */
 extern volatile __u8 fdc_head;	/* FDC head */
 extern volatile __u8 fdc_cyl;	/* FDC track */
 extern volatile __u8 fdc_sect;	/* FDC sector */
 extern fdc_config_info fdc;	/* FDC hardware configuration */

 extern unsigned int ft_fdc_base;
 extern unsigned int ft_fdc_irq;
 extern unsigned int ft_fdc_dma;
 extern unsigned int ft_fdc_threshold;
 extern unsigned int ft_fdc_rate_limit;
 extern int ft_probe_fc10;
 extern int ft_mach2;
 /*
  *      fdc-io.c defined public functions
  */
 extern void fdc_catch_stray_interrupts(int count);
 extern int fdc_ready_wait(unsigned int timeout);
 extern int fdc_command(const __u8 * cmd_data, int cmd_len);
 extern int fdc_result(__u8 * res_data, int res_len);
 extern int fdc_interrupt_wait(unsigned int time);
 extern int fdc_seek(int track);
 extern int fdc_sense_drive_status(int *st3);
 extern void fdc_motor(int motor);
 extern void fdc_reset(void);
 extern void fdc_disable(void);
 extern int fdc_fifo_threshold(__u8 threshold,
 			      int *fifo_state, int *lock_state, int *fifo_thr);
 extern void fdc_wait_calibrate(void);
 extern int fdc_sense_interrupt_status(int *st0, int *current_cylinder);
 extern void fdc_save_drive_specs(void);
 extern void fdc_restore_drive_specs(void);
 extern int fdc_set_data_rate(int rate);
 extern void fdc_set_write_precomp(int precomp);
 extern int fdc_release_irq_and_dma(void);
 extern void fdc_release_regions(void);
 extern int fdc_init(void);
 extern int fdc_setup_read_write(buffer_struct * buff, __u8 operation);
 extern int fdc_setup_formatting(buffer_struct * buff);
 #endif
	#ifndef _FDC_IO_H
	#define _FDC_IO_H

	/*
	* Copyright (C) 1993-1996 Bas Laarhoven,
	* (C) 1996-1997 Claus-Justus Heine.

	This program is free software; you can redistribute it and/or modify
	it under the terms of the GNU General Public License as published by
	the Free Software Foundation; either version 2, or (at your option)
	any later version.

	This program is distributed in the hope that it will be useful,
	but WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	GNU General Public License for more details.

	You should have received a copy of the GNU General Public License
	along with this program; see the file COPYING. If not, write to
	the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.

	*
	* $Source: /homes/cvs/ftape-stacked/ftape/lowlevel/fdc-io.h,v $
	* $Revision: 1.3 $
	* $Date: 1997/10/05 19:18:06 $
	*
	* This file contains the declarations for the low level
	* functions that communicate with the floppy disk controller,
	* for the QIC-40/80/3010/3020 floppy-tape driver "ftape" for
	* Linux.
	*/

	#include <linux/fdreg.h>

	#include "../lowlevel/ftape-bsm.h"

	#define FDC_SK_BIT (0x20)
	#define FDC_MT_BIT (0x80)

	#define FDC_READ (FD_READ & ~(FDC_SK_BIT \| FDC_MT_BIT))
	#define FDC_WRITE (FD_WRITE & ~FDC_MT_BIT)
	#define FDC_READ_DELETED (0x4c)
	#define FDC_WRITE_DELETED (0x49)
	#define FDC_VERIFY (0x56)
	#define FDC_READID (0x4a)
	#define FDC_SENSED (0x04)
	#define FDC_SENSEI (FD_SENSEI)
	#define FDC_FORMAT (FD_FORMAT)
	#define FDC_RECAL (FD_RECALIBRATE)
	#define FDC_SEEK (FD_SEEK)
	#define FDC_SPECIFY (FD_SPECIFY)
	#define FDC_RECALIBR (FD_RECALIBRATE)
	#define FDC_VERSION (FD_VERSION)
	#define FDC_PERPEND (FD_PERPENDICULAR)
	#define FDC_DUMPREGS (FD_DUMPREGS)
	#define FDC_LOCK (FD_LOCK)
	#define FDC_UNLOCK (FD_UNLOCK)
	#define FDC_CONFIGURE (FD_CONFIGURE)
	#define FDC_DRIVE_SPEC (0x8e) /* i82078 has this (any others?) */
	#define FDC_PARTID (0x18) /* i82078 has this */
	#define FDC_SAVE (0x2e) /* i82078 has this (any others?) */
	#define FDC_RESTORE (0x4e) /* i82078 has this (any others?) */

	#define FDC_STATUS_MASK (STATUS_BUSY \| STATUS_DMA \| STATUS_DIR \| STATUS_READY)
	#define FDC_DATA_READY (STATUS_READY)
	#define FDC_DATA_OUTPUT (STATUS_DIR)
	#define FDC_DATA_READY_MASK (STATUS_READY \| STATUS_DIR)
	#define FDC_DATA_OUT_READY (STATUS_READY \| STATUS_DIR)
	#define FDC_DATA_IN_READY (STATUS_READY)
	#define FDC_BUSY (STATUS_BUSY)
	#define FDC_CLK48_BIT (0x80)
	#define FDC_SEL3V_BIT (0x40)

	#define ST0_INT_MASK (ST0_INTR)
	#define FDC_INT_NORMAL (ST0_INTR & 0x00)
	#define FDC_INT_ABNORMAL (ST0_INTR & 0x40)
	#define FDC_INT_INVALID (ST0_INTR & 0x80)
	#define FDC_INT_READYCH (ST0_INTR & 0xC0)
	#define ST0_SEEK_END (ST0_SE)
	#define ST3_TRACK_0 (ST3_TZ)

	#define FDC_RESET_NOT (0x04)
	#define FDC_DMA_MODE (0x08)
	#define FDC_MOTOR_0 (0x10)
	#define FDC_MOTOR_1 (0x20)

	typedef struct {
	void (*hook) (void); / our wedge into the isr */
	enum {
	no_fdc, i8272, i82077, i82077AA, fc10,
	i82078, i82078_1
	} type; /* FDC type */
	unsigned int irq; /* FDC irq nr */
	unsigned int dma; /* FDC dma channel nr */
	__u16 sra; /* Status register A (PS/2 only) */
	__u16 srb; /* Status register B (PS/2 only) */
	__u16 dor; /* Digital output register */
	__u16 tdr; /* Tape Drive Register (82077SL-1 &
	82078 only) */
	__u16 msr; /* Main Status Register */
	__u16 dsr; /* Datarate Select Register (8207x only) */
	__u16 fifo; /* Data register / Fifo on 8207x */
	__u16 dir; /* Digital Input Register */
	__u16 ccr; /* Configuration Control Register */
	__u16 dor2; /* Alternate dor on MACH-2 controller,
	also used with FC-10, meaning unknown */
	} fdc_config_info;

	typedef enum {
	fdc_data_rate_250 = 2,
	fdc_data_rate_300 = 1, /* any fdc in default configuration */
	fdc_data_rate_500 = 0,
	fdc_data_rate_1000 = 3,
	fdc_data_rate_2000 = 1, /* i82078-1: when using Data Rate Table #2 */
	} fdc_data_rate_type;

	typedef enum {
	fdc_idle = 0,
	fdc_reading_data = FDC_READ,
	fdc_seeking = FDC_SEEK,
	fdc_writing_data = FDC_WRITE,
	fdc_deleting = FDC_WRITE_DELETED,
	fdc_reading_id = FDC_READID,
	fdc_recalibrating = FDC_RECAL,
	fdc_formatting = FDC_FORMAT,
	fdc_verifying = FDC_VERIFY
	} fdc_mode_enum;

	typedef enum {
	waiting = 0,
	reading,
	writing,
	formatting,
	verifying,
	deleting,
	done,
	error,
	mmapped,
	} buffer_state_enum;

	typedef struct {
	__u8 *address;
	volatile buffer_state_enum status;
	volatile __u8 *ptr;
	volatile unsigned int bytes;
	volatile unsigned int segment_id;

	/* bitmap for remainder of segment not yet handled.
	* one bit set for each bad sector that must be skipped.
	*/
	volatile SectorMap bad_sector_map;

	/* bitmap with bad data blocks in data buffer.
	* the errors in this map may be retried.
	*/
	volatile SectorMap soft_error_map;

	/* bitmap with bad data blocks in data buffer
	* the errors in this map may not be retried.
	*/
	volatile SectorMap hard_error_map;

	/* retry counter for soft errors.
	*/
	volatile int retry;

	/* sectors to skip on retry ???
	*/
	volatile unsigned int skip;

	/* nr of data blocks in data buffer
	*/
	volatile unsigned int data_offset;

	/* offset in segment for first sector to be handled.
	*/
	volatile unsigned int sector_offset;

	/* size of cluster of good sectors to be handled.
	*/
	volatile unsigned int sector_count;

	/* size of remaining part of segment to be handled.
	*/
	volatile unsigned int remaining;

	/* points to next segment (contiguous) to be handled,
	* or is zero if no read-ahead is allowed.
	*/
	volatile unsigned int next_segment;

	/* flag being set if deleted data was read.
	*/
	volatile int deleted;

	/* floppy coordinates of first sector in segment */
	volatile __u8 head;
	volatile __u8 cyl;
	volatile __u8 sect;

	/* gap to use when formatting */
	__u8 gap3;
	/* flag set when buffer is mmaped */
	int mmapped;
	} buffer_struct;

	/*
	* fdc-io.c defined public variables
	*/
	extern volatile fdc_mode_enum fdc_mode;
	extern int fdc_setup_error; /* outdated ??? */
	extern wait_queue_head_t ftape_wait_intr;
	extern volatile int ftape_current_cylinder; /* track nr FDC thinks we're on */
	extern volatile __u8 fdc_head; /* FDC head */
	extern volatile __u8 fdc_cyl; /* FDC track */
	extern volatile __u8 fdc_sect; /* FDC sector */
	extern fdc_config_info fdc; /* FDC hardware configuration */

	extern unsigned int ft_fdc_base;
	extern unsigned int ft_fdc_irq;
	extern unsigned int ft_fdc_dma;
	extern unsigned int ft_fdc_threshold;
	extern unsigned int ft_fdc_rate_limit;
	extern int ft_probe_fc10;
	extern int ft_mach2;
	/*
	* fdc-io.c defined public functions
	*/
	extern void fdc_catch_stray_interrupts(int count);
	extern int fdc_ready_wait(unsigned int timeout);
	extern int fdc_command(const __u8 * cmd_data, int cmd_len);
	extern int fdc_result(__u8 * res_data, int res_len);
	extern int fdc_interrupt_wait(unsigned int time);
	extern int fdc_seek(int track);
	extern int fdc_sense_drive_status(int *st3);
	extern void fdc_motor(int motor);
	extern void fdc_reset(void);
	extern void fdc_disable(void);
	extern int fdc_fifo_threshold(__u8 threshold,
	int fifo_state, int lock_state, int *fifo_thr);
	extern void fdc_wait_calibrate(void);
	extern int fdc_sense_interrupt_status(int st0, int current_cylinder);
	extern void fdc_save_drive_specs(void);
	extern void fdc_restore_drive_specs(void);
	extern int fdc_set_data_rate(int rate);
	extern void fdc_set_write_precomp(int precomp);
	extern int fdc_release_irq_and_dma(void);
	extern void fdc_release_regions(void);
	extern int fdc_init(void);
	extern int fdc_setup_read_write(buffer_struct * buff, __u8 operation);
	extern int fdc_setup_formatting(buffer_struct * buff);
	#endif