freebsd-skq/usr.sbin/dumpcis/cis.h

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2009-02-15 03:21:37 +00:00
/*
* PCMCIA card structures and defines.
* These defines relate to the user level
* structures and card information, not
* driver/process communication.
*-------------------------------------------------------------------------
*/
/*-
* Copyright (c) 1995 Andrew McRae. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* $FreeBSD$
*
*/
/*
* Card Information Structure tuples definitions
* The structure of a tuple is basically:
*
* Tuple_code
* Tuple_data_length
* Tuple_data ...
*
* Tuples are contiguous in attribute memory, and
* are terminated with a 0xFF for the tuple code or
* the tuple length.
*/
#ifndef _PCCARD_CIS_H
#define _PCCARD_CIS_H
#define CIS_NULL 0 /* Empty tuple */
#define CIS_MEM_COMMON 0x01 /* Device descriptor, common memory */
#define CIS_LONGLINK_CB 0x02 /* Long link to next chain for CardBus */
#define CIS_INDIRECT 0x03 /* Indirect access */
#define CIS_CONF_MAP_CB 0x04 /* Card Configuration map for CardBus */
#define CIS_CONFIG_CB 0x05 /* Card Configuration entry for CardBus */
#define CIS_LONGLINK_MFC 0x06 /* Long link to next chain for Multi function card */
#define CIS_BAR 0x07 /* Base address register for CardBus */
#define CIS_CHECKSUM 0x10 /* Checksum */
#define CIS_LONGLINK_A 0x11 /* Link to Attribute memory */
#define CIS_LONGLINK_C 0x12 /* Link to Common memory */
#define CIS_LINKTARGET 0x13 /* Linked tuple must start with this. */
#define CIS_NOLINK 0x14 /* Assume no common memory link tuple. */
#define CIS_INFO_V1 0x15 /* Card info data, version 1 */
#define CIS_ALTSTR 0x16 /* Alternate language string tuple. */
#define CIS_MEM_ATTR 0x17 /* Device descriptor, Attribute memory */
#define CIS_JEDEC_C 0x18 /* JEDEC descr for common memory */
#define CIS_JEDEC_A 0x19 /* JEDEC descr for Attribute memory */
#define CIS_CONF_MAP 0x1A /* Card Configuration map */
#define CIS_CONFIG 0x1B /* Card Configuration entry */
#define CIS_DEVICE_OC 0x1C /* Other conditions info - common memory */
#define CIS_DEVICE_OA 0x1D /* Other conditions info - attribute memory */
#define CIS_DEVICEGEO 0x1E /* Geometry info for common memory */
#define CIS_DEVICEGEO_A 0x1F /* Geometry info for attribute memory */
#define CIS_MANUF_ID 0x20 /* Card manufacturer's ID */
#define CIS_FUNC_ID 0x21 /* Function of card */
#define CIS_FUNC_EXT 0x22 /* Functional extension */
/*
* Data recording format tuples.
*/
#define CIS_SW_INTERLV 0x23 /* Software interleave */
#define CIS_VERS_2 0x40 /* Card info data, version 2 */
#define CIS_FORMAT 0x41 /* Memory card format */
#define CIS_GEOMETRY 0x42 /* Disk sector layout */
#define CIS_BYTEORDER 0x43 /* Byte order of memory data */
#define CIS_DATE 0x44 /* Format data/time */
#define CIS_BATTERY 0x45 /* Battery replacement date */
#define CIS_ORG 0x46 /* Organization of data on card */
#define CIS_END 0xFF /* Termination code */
/*
* Internal tuple definitions.
*
* Device descriptor for memory (CIS_MEM_ATTR, CIS_MEM_COMMON)
*
* Byte 1:
* 0xF0 - Device type
* 0x08 - Write protect switch
* 0x07 - Speed index (7 = extended speed)
* Byte 2: Extended speed (bit 7 = another follows)
* Byte 3: (ignored if 0xFF)
* 0xF8 - Addressable units (0's numbered)
* 0x07 - Unit size
* The three byte sequence is repeated until byte 1 == 0xFF
*/
/*
* CIS_INFO_V1 - Version one card information.
*
* Byte 1: Major version number (should be 4)
* Byte 2: Minor version number (should be 1)
* Byte 3-x: Null terminated Manufacturer name
* Byte x-x: Null terminated product name
* Byte x-x: Null terminated additional info 1
* Byte x-x: Null terminated additional info 2
* Byte x: final byte must be 0xFF
*/
#define CIS_MAJOR_VERSION 4
#define CIS_MINOR_VERSION 1
/*
* CIS_CONF_MAP - Provides an address map for the card
* configuration register(s), and a max value
* identifying the last configuration tuple.
*
* Byte 1:
* 0x3C - Register mask size (0's numbered)
* 0x03 - Register address size (0's numbered)
* Byte 2:
* 0x3F - ID of last configuration.
* Byte 3-n: Card register address (size is determined by
* the value in byte 1).
* Byte x-x: Card register masks (size determined by the
* value in byte 1)
*/
/*
* CIS_CONFIG - Card configuration entry. Multiple tuples may
* exist of this type, each one describing a different
* memory/I-O map that can be used to address this card.
* The first one usually has extra config data about the
* card features. The final configuration tuple number
* is stored in the CIS_CONF_MAP tuple so that the complete
* list can be scanned.
*
* Byte 1:
* 0x3F - Configuration ID number.
* 0x40 - Indicates this is the default configuration
* 0x80 - Interface byte exists
* Byte 2: (exists only if bit 0x80 set in byte 1)
* 0x0F - Interface type value
* 0x10 - Battery voltage detect
* 0x20 - Write protect active
* 0x40 - RdyBsy active bit
* 0x80 - Wait signal required
* Byte 3: (features byte)
* 0x03 - Power sub-tuple(s) exists
* 0x04 - Timing sub-tuple exists
* 0x08 - I/O space sub-tuple exists
* 0x10 - IRQ sub-tuple exists
* 0x60 - Memory space sub-tuple(s) exists
* 0x80 - Miscellaneous sub-tuple exists
*/
#define CIS_FEAT_POWER(x) ((x) & 0x3)
#define CIS_FEAT_TIMING 0x4
#define CIS_FEAT_I_O 0x8
#define CIS_FEAT_IRQ 0x10
#define CIS_FEAT_MEMORY(x) (((x) >> 5) & 0x3)
#define CIS_FEAT_MISC 0x80
/*
* Depending on whether the "features" byte has the corresponding
* bit set, a number of sub-tuples follow. Some features have
* more than one sub-tuple, depending on the count within the
* features byte (e.g power feature bits allows up to 3 sub-tuples).
*
* Power structure sub-tuple:
* Byte 1: parameter exists - Each bit (starting from 0x01) indicates
* that a parameter block exists - up to 8 parameter blocks
* are therefore allowed).
* Byte 2:
* 0x7F - Parameter data
* 0x80 - More bytes follow (0 = last byte)
*
* Timing sub-tuple
* Byte 1:
* 0x03 - Wait scale
* 0x1C - Ready scale
* 0xE0 - Reserved scale
* Byte 2: extended wait scale if wait scale != 3
* Byte 3: extended ready scale if ready scale != 7
* Byte 4: extended reserved scale if reserved scale != 7
*/
#define CIS_WAIT_SCALE(x) ((x) & 0x3)
#define CIS_READY_SCALE(x) (((x)>>2) & 0x7)
#define CIS_RESERVED_SCALE(x) (((x)>>5) & 0x7)
/*
* I/O mapping sub-tuple:
* Byte 1:
* 0x1F - I/O address lines
* 0x20 - 8 bit I/O
* 0x40 - 16 bit I/O
* 0x80 - I/O range??
* Byte 2:
* 0x0F - 0's numbered count of I/O block subtuples following.
* 0x30 - Size of I/O address value within subtuple. Values
* can be 1 (8 bits), 2 (16 bits) or 3 (32 bits).
* 0xC0 - Size of I/O port block size value within subtuple.
* I/O block sub-tuples, count from previous block:
* Byte 1-n: I/O start address
* Byte x-x: Size of I/O port block.
*/
#define CIS_IO_ADDR(x) ((x) & 0x1F)
#define CIS_IO_8BIT 0x20
#define CIS_IO_16BIT 0x40
#define CIS_IO_RANGE 0x80
#define CIS_IO_BLKS(x) ((x) & 0xF)
#define CIS_IO_ADSZ(x) (((x)>>4) & 3)
#define CIS_IO_BLKSZ(x) (((x)>>6) & 3)
/*
* IRQ sub-tuple.
* Byte 1:
* 0x0F - Irq number or mask bits
* 0x10 - IRQ mask values exist
* 0x20 - Level triggered interrupts
* 0x40 - Pulse triggered requests
* 0x80 - Interrupt sharing.
* Byte 2-3: Interrupt req mask (if 0x10 of byte 1 set).
*/
#define CIS_IRQ_IRQN(x) ((x) & 0xF)
#define CIS_IRQ_MASK 0x10
#define CIS_IRQ_LEVEL 0x20
#define CIS_IRQ_PULSE 0x40
#define CIS_IRQ_SHARING 0x80
/*
* Memory block subtuple. Depending on the features bits, the
* following subtuples are used:
* mem features == 1
* Byte 1-2: upper 16 bits of 24 bit memory length.
* mem features == 2
* Byte 1-2: upper 16 bits of 24 bit memory length.
* Byte 3-4: upper 16 bits of 24 bit memory address.
* mem_features == 3
* Byte 1:
* 0x07 - 0's numbered count of memory sub-tuples
* 0x18 - Memory length size (1's numbered)
* 0x60 - Memory address size (1's numbered)
* 0x80 - Host address value exists
* Memory sub-tuples follow:
* Byte 1-n: Memory length value (<< 8)
* Byte n-n: Memory card address value (<< 8)
* Byte n-n: Memory host address value (<< 8)
*/
#define CIS_FEAT_MEM_NONE 0 /* No memory config */
#define CIS_FEAT_MEM_LEN 1 /* Just length */
#define CIS_FEAT_MEM_ADDR 2 /* Card address & length */
#define CIS_FEAT_MEM_WIN 3 /* Multiple windows */
#define CIS_MEM_WINS(x) (((x) & 0x7)+1)
#define CIS_MEM_LENSZ(x) (((x) >> 3) & 0x3)
#define CIS_MEM_ADDRSZ(x) (((x) >> 5) & 0x3)
#define CIS_MEM_HOST 0x80
/*
* Misc sub-tuple.
* Byte 1:
* Byte 2:
* 0x0c - DMA Request Signal
* 00 - not support DMA
* 01 - use SPKR# line
* 10 - use IOIS16# line
* 11 - use INPACK# line
* 0x10 - DMA Width
* 0 - 8 bit DMA
* 1 - 16 bit DMA
*/
#define CIS_MISC_DMA_WIDTH(x) (((x) & 0x10) >> 4)
#define CIS_MISC_DMA_REQ(x) (((x) >> 2) & 0x3)
#endif /* _PCCARD_CIS_H */