1101 lines
39 KiB
C
1101 lines
39 KiB
C
/* tcic2.h Mon Jul 25 1994 18:30:04 zema */
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/*
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Module: tcic2.h
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Function:
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Definitions for DB86082 (TCIC-2/N) PCMCIA
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V2 interface controller chip.
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Version:
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V6.62f Mon Jul 25 1994 18:30:04 zema Edit level 34
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Copyright Notice:
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This file is in the public domain. It was created by:
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Databook Inc.
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Building E, Suite 6
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3495 Winton Place
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Rochester, NY 14623
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Telephone: +1-716-292-5720
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Fax: +1-716-292-5737
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BBS: +1-716-292-5741
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Email: support@databook.com
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Compuserve: go databook
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This code is provided as-is. Databook makes no warrantees of
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any kind as to its correctness or suitability for any purpose,
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and disclaims all liability for any loss or damage resulting from
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the use of this file, including without limitation contingent,
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special, or other liability.
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Author:
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Terry Moore, Databook Inc. April 1991
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Revision history:
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1.00a Mon Apr 15 1991 19:16:41 tmm
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Module created.
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6.62f Mon Jul 25 1994 18:30:04 zema
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Incorporated define of a Chip's Silicon ID into ILOCKTEST define. ex.-
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#define SILID_DBxxxx (n)
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#define ILOCKTEST_DBxxxx ((SILID_DBxxxx) << ILOCKTEST_ID_SHFT)
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*/
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/*****************************************************************************\
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This file contains a set of common definitions for the Databook/Fujitsu
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family of memory and I/O card controller chips, known by Databook as the
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TCIC family.
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When this file is included it will define symbols for one or more chips,
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depending on whether the following symbols are defined:
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MB86301 gets definitions for the Fujitsu 86301
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DB86081 gets definitions for the Databook TCIC-2/P
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DB86082 gets definitions for the Databook TCIC-2/N.
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DB86082A gets definitions for 86082a, and for the 86082.
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For backwards compatibility, the file "mcic.h" will define MB86301, then
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call this file.
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\*****************************************************************************/
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#ifndef _TCIC2_H_ /* prevent multiple includes */
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#define _TCIC2_H_
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#define NUMSOCKETS 2
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#define CHIPBASE 0x240
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/* register definitions */
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#define R_DATA 0 /* data register */
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#define R_ADDR 2 /* address register */
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#define R_ADDR2 (R_ADDR+2) /* high order word of address register */
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#define R_SCTRL 6 /* socket ctrl register */
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#define R_SSTAT 7 /* socket status register */
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#define R_MODE 8 /* controller mode register */
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#define R_PWR 9 /* controller power register */
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#define R_EDC 10 /* EDC register */
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#define R_ICSR 12 /* interrupt control/status register */
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#define R_IENA 13 /* interrupt enable register */
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#define R_AUX 14 /* auxiliary control registers */
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/*
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The TCIC-2 family defines architectural extensions for handling multiple
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sockets with a single chip. Much of this is handled via a "socket select"
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field in the address register.
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We define the fields first as bit fields within the high order word
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of the address register, as this will be the most convenient way for
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software to access them; for completeness, and for the benefit of C code, we
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define the fields as part of the ULONG that represents the entire address
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register.
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*/
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/**** first, some simple definitions ****/
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#define TCIC_SS_SHFT 12 /* default location for the
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socket select bits
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*/
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#define TCIC_SS_MASK (7 << TCIC_SS_SHFT) /* default mask for the
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socket select bits
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*/
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/* bits in ADDR2 */
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#define ADR2_REG (1 << 15) /* select REG space */
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#define ADR2_SS_SHFT TCIC_SS_SHFT /* select sockets the usual
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way */
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#define ADR2_SS_MASK TCIC_SS_MASK /* ditto */
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#define ADR2_INDREG (1 << 11) /* access indirect registers
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|| (not card data)
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*/
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#define ADR2_IO (1 << 10) /* select I/O cycles, readback
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|| card /IORD, /IOWR in diag-
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|| nostic mode.
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*/
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/* Bits in address register */
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#define ADDR_REG ((unsigned long) ADR2_REG << 16) /* OR with this for REG space */
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#define ADDR_SS_SHFT ((unsigned long) ADR2_SS_SHFT + 16)
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/* shift count, cast so that
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|| you'll get the right type
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|| if you use it but forget
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|| to cast the left arg.
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*/
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#define ADDR_SS_MASK ((unsigned long) ADR2_SS_MASK << 16)
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#define ADDR_INDREG ((unsigned long) ADR2_INDREG << 16)
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#define ADDR_IO ((unsigned long) ADR2_IO << 16)
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#define ADDR_SPACE_SIZE ((unsigned long) 1 << 26)
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#define ADDR_MASK (ADDR_SPACE_SIZE - 1)
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/* following bits are defined in diagnostic mode */
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#define ADDR_DIAG_NREG ((unsigned long) 1 << 31) /* inverted! */
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#define ADDR_DIAG_NCEH ((unsigned long) 1 << 30)
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#define ADDR_DIAG_NCEL ((unsigned long) 1 << 29)
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#define ADDR_DIAG_NCWR ((unsigned long) 1 << 28)
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#define ADDR_DIAG_NCRD ((unsigned long) 1 << 27)
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#define ADDR_DIAG_CRESET ((unsigned long) 1 << 26)
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/* Bits in socket control register */
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#define SCTRL_ENA (1 << 0) /* enable access to card */
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#define SCTRL_INCMODE (3 << 3) /* mask for increment mode: */
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#define SCTRL_INCMODE_AUTO (3 << 3) /* auto-increment mode */
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#define SCTRL_INCMODE_HOLD (0 << 3) /* byte hold mode */
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#define SCTRL_INCMODE_WORD (1 << 3) /* word hold mode */
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#define SCTRL_INCMODE_REG (2 << 3) /* reg-space increment mode */
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#define SCTRL_EDCSUM (1 << 5) /* if set, use checksum (not CRC) */
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#define SCTRL_RESET (1 << 7) /* internal software reset */
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/**** the status register (read-only): R_SSTAT ****/
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#define SSTAT_6US (1 << 0) /* 6 microseconds have elapsed */
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#define SSTAT_10US (1 << 1) /* 10 microseconds have elapsed */
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#define SSTAT_PROGTIME (1 << 2) /* programming pulse timeout */
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#define SSTAT_LBAT1 (1 << 3) /* low battery 1 */
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#define SSTAT_LBAT2 (1 << 4) /* low battery 2 */
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#define SSTAT_BATOK (0 << 3) /* battery is OK */
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#define SSTAT_BATBAD1 (1 << 3) /* battery is low */
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#define SSTAT_BATLO (2 << 3) /* battery is getting low */
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#define SSTAT_BATBAD2 (3 << 3) /* battery is low */
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#define SSTAT_RDY (1 << 5) /* card is ready (not busy) */
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#define SSTAT_WP (1 << 6) /* card is write-protected */
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#define SSTAT_CD (1 << 7) /* card present */
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/**** mode register contents (R_MODE) ****/
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#define MODE_PGMMASK (0x1F) /* the programming mode bits */
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#define MODE_NORMAL (0) /* normal mode */
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#define MODE_PGMWR (1 << 0) /* assert /WR */
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#define MODE_PGMRD (1 << 1) /* assert /RD */
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#define MODE_PGMCE (1 << 2) /* assert /CEx */
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#define MODE_PGMDBW (1 << 3) /* databus in write mode */
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#define MODE_PGMWORD (1 << 4) /* word programming mode */
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#define MODE_AUXSEL_SHFT (5) /* shift count for aux regs */
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#define MODE_AUXSEL_MASK (7 << 5) /* the aux-reg select bits */
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#define MODE_AR_TCTL (0 << MODE_AUXSEL_SHFT) /* timing control */
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#define MODE_AR_PCTL (1 << MODE_AUXSEL_SHFT) /* pulse control */
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#define MODE_AR_WCTL (2 << MODE_AUXSEL_SHFT) /* wait-state control */
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#define MODE_AR_EXTERN (3 << MODE_AUXSEL_SHFT) /* external reg select */
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#define MODE_AR_PDATA (4 << MODE_AUXSEL_SHFT) /* programming data reg */
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#define MODE_AR_SYSCFG (5 << MODE_AUXSEL_SHFT) /* system config reg */
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#define MODE_AR_ILOCK (6 << MODE_AUXSEL_SHFT) /* interlock control reg */
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#define MODE_AR_TEST (7 << MODE_AUXSEL_SHFT) /* test control reg */
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#define PWR_VCC_SHFT (0) /* the VCC ctl shift */
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#define PWR_VCC_MASK (3 << PWR_VCC_SHFT)
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#define PWR_VPP_SHFT (3) /* the VPP ctl shift */
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#define PWR_VPP_MASK (3 << PWR_VPP_SHFT)
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#define PWR_ENA (1 << 5) /* on 084, successors, this
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|| must be set to turn on
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|| power.
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*/
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#define PWR_VCC5V (1 << 2) /* enable +5 (not +3) */
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#define PWR_VOFF_POFF (0) /* turn off VCC, VPP */
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#define PWR_VON_PVCC (1) /* turn on VCC, VPP=VCC */
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#define PWR_VON_PVPP (2) /* turn on VCC, VPP=12V */
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#define PWR_VON_POFF (3) /* turn on VCC, VPP=0V */
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#define PWR_CLIMENA (1 << 6) /* the current-limit enable */
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#define PWR_CLIMSTAT (1 << 7) /* current limit sense (r/o) */
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/**** int CSR ****/
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#define ICSR_IOCHK (1 << 7) /* I/O check */
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#define ICSR_CDCHG (1 << 6) /* card status change: top 5
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|| bits of SSTAT register.
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*/
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#define ICSR_ERR (1 << 5) /* error condition */
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#define ICSR_PROGTIME (1 << 4) /* program timer ding */
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#define ICSR_ILOCK (1 << 3) /* interlock change */
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#define ICSR_STOPCPU (1 << 2) /* Stop CPU was asserted */
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#define ICSR_SET (1 << 1) /* (w/o: enable writes that set bits */
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#define ICSR_CLEAR (1 << 0) /* (w/o: enable writes that clear */
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#define ICSR_JAM (ICSR_SET|ICSR_CLEAR) /* jam value into ICSR */
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/**** interrupt enable bits ****/
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#define IENA_CDCHG (1 << 6) /* enable INT when ICSR_CDCHG is set */
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#define IENA_ERR (1 << 5) /* enable INT when ICSR_ERR is set */
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#define IENA_PROGTIME (1 << 4) /* enable INT when ICSR_PROGTIME " */
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#define IENA_ILOCK (1 << 3) /* enable INT when ICSR_ILOCK is set */
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#define IENA_CFG_MASK (3 << 0) /* select the bits for IRQ config: */
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#define IENA_CFG_OFF (0 << 0) /* IRQ is high-impedance */
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#define IENA_CFG_OD (1 << 0) /* IRQ is active low, open drain. */
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#define IENA_CFG_LOW (2 << 0) /* IRQ is active low, totem pole */
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#define IENA_CFG_HIGH (3 << 0) /* IRQ is active high, totem pole */
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/**** aux registers ****/
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#define WAIT_COUNT_MASK (0x1F) /* the count of 1/2 wait states */
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#define WAIT_COUNT_SHFT (0) /* the wait-count shift */
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#define WAIT_ASYNC (1 << 5) /* set for asynch, clear for synch cycles */
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#define WAIT_SENSE (1 << 6) /* select rising (1) or falling (0)
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|| edge of wait clock as reference
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|| edge.
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*/
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#define WAIT_SRC (1 << 7) /* select constant clock (0) or bus
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|| clock (1) as the timing source
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*/
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/**** some derived constants ****/
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#define WAIT_BCLK (1 * WAIT_SRC)
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#define WAIT_CCLK (0 * WAIT_SRC)
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#define WAIT_RISING (1 * WAIT_SENSE)
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#define WAIT_FALLING (0 * WAIT_SENSE)
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/**** high byte ****/
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#define WCTL_WR (1 << 8) /* control: pulse write */
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#define WCTL_RD (1 << 9) /* control: pulse read */
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#define WCTL_CE (1 << 10) /* control: pulse chip ena */
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#define WCTL_LLBAT1 (1 << 11) /* status: latched LBAT1 */
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#define WCTL_LLBAT2 (1 << 12) /* status: latched LBAT2 */
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#define WCTL_LRDY (1 << 13) /* status: latched RDY */
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#define WCTL_LWP (1 << 14) /* status: latched WP */
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#define WCTL_LCD (1 << 15) /* status: latched CD */
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/**** the same thing, from a byte perspective ****/
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#define AR_WCTL_WAIT (R_AUX + 0) /* the wait state control byte */
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#define AR_WCTL_XCSR (R_AUX + 1) /* extended control/status */
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#define XCSR_WR (1 << 0) /* control: pulse write */
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#define XCSR_RD (1 << 1) /* control: pulse read */
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#define XCSR_CE (1 << 2) /* control: pulse chip ena */
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#define XCSR_LLBAT1 (1 << 3) /* status: latched LBAT1 */
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#define XCSR_LLBAT2 (1 << 4) /* status: latched LBAT2 */
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#define XCSR_LRDY (1 << 5) /* status: latched RDY */
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#define XCSR_LWP (1 << 6) /* status: latched WP */
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#define XCSR_LCD (1 << 7) /* status: latched CD */
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/**** prog timers ****/
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#define TCTL_6US_SHFT (0) /* the shift count for the 6 us ctr */
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#define TCTL_10US_SHFT (8) /* the shift count for the 10 us ctr */
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#define TCTL_6US_MASK (0xFF << TCTL_6US_SHFT)
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#define TCTL_10US_MASK (0xFF << TCTL_10US_SHFT)
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#define AR_TCTL_6US (R_AUX + 0) /* the byte access handle */
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#define AR_TCTL_10US (R_AUX + 1) /* the byte access handle */
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/**** The programming pulse register ****/
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#define AR_PULSE_LO (R_AUX + 0)
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#define AR_PULSE_HI (R_AUX + 1)
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/**** The programming data register ****/
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#define AR_PDATA_LO (R_AUX + 0)
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#define AR_PDATA_HI (R_AUX + 1)
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/**** the system configuration register ****/
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/*
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|| The bottom four bits specify the steering of the socket IRQ. On
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|| the 2N, the socket IRQ is (by default) pointed at the dedicated
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|| pin.
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*/
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#define SYSCFG_IRQ_MASK (0xF) /* mask for this bit field. */
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#define SYSCFG_SSIRQDFLT (0) /* default: use SKTIRQ (2/N)
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|| disable (2/P)
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*/
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#define SYSCFG_SSIRQ (0x1) /* use SKTIRQ (explicit) (2/N)
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|| do not use (2/P)
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*/
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#define SYSCFG_SIRQ3 (0x3) /* use IRQ3 */
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#define SYSCFG_SIRQ4 (0x4) /* use IRQ4 */
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#define SYSCFG_SIRQ5 (0x5) /* use IRQ5 (2/N) */
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#define SYSCFG_SIRQ6 (0x6) /* use IRQ6 (2/N) */
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#define SYSCFG_SIRQ7 (0x7) /* use IRQ7 (2/N) */
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#define SYSCFG_SIRQ10 (0xA) /* use IRQ10 */
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#define SYSCFG_SIRQ14 (0xE) /* use IRQ14 */
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#define SYSCFG_MCSFULL (1 << 4) /*
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If set, use full address (a[12:23]) for MCS16 generation.
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If clear, run in ISA-compatible mode (only using a[17:23]).
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With many chip sets, the TCIC-2/N's timing will will allow full
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address decoding to be used rather than limiting us to LA[17:23];
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thus we can get around the ISA spec which limits the granularity
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of bus sizing to 128K blocks.
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*/
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#define SYSCFG_IO1723 (1 << 5) /*
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Flag indicating that LA[17:23] can be trusted to be zero during a true
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I/O cycle. Setting this bit will allow us to reduce power consumption
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further by eliminating I/O address broadcasts for memory cycles.
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Unfortunately, you cannot trust LA[17:23] to be zero on all systems,
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because the ISA specs do not require that LA[17:23] be zero when an
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alternate bus master runs an I/O cycle. However, on a palmtop or
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notebook, it is a good guess.
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*/
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#define SYSCFG_MCSXB (1 << 6) /*
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If set, assume presence of an external buffer for MCS16: operate
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the driver as a totem-pole output.
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If clear, run in psuedo-ISA mode; output is open drain. But note
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that on the 082 the output buffers cannot drive a 300-ohm
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load.
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*/
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#define SYSCFG_ICSXB (1 << 7) /*
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If set, assume presence of an external buffer for IOCS16*; operate
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the buffer as a totem-pole output.
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If clear, run in psuedo-ISA mode; output is open drain. But note
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that on the 082 the output buffers cannot drive a 300-ohm
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load.
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*/
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#define SYSCFG_NOPDN (1 << 8) /*
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If set, disable the auto power-down sequencing. The chip will
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run card cycles somewhat more quickly (though perhaps not
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significantly so); but it will dissipate significantly more power.
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If clear, the low-power operating modes are enabled. This
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causes the part to go into low-power mode automatically at
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system reset.
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*/
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#define SYSCFG_MPSEL_SHFT (9)
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#define SYSCFG_MPSEL_MASK (7 << 9) /*
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This field controls the operation of the multipurpose pin on the
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86082. It has the following codes:
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*/
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#define SYSCFGMPSEL_OFF (0 << SYSCFG_MPSEL_SHFT) /*
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This is the reset state; it indicates that the Multi-purpose
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pin is not used. The pin will be held in a high-impedance
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state. It can be read by monitoring SYSCFG_MPSENSE.
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*/
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#define SYSCFGMPSEL_NEEDCLK (1 << SYSCFG_MPSEL_SHFT) /*
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NMULTI is an output.
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External indication that CCLK or BCLK are needed in order
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to complete an internal operation. External logic can use
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this to control the clocks coming to the chip.
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*/
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#define SYSCFGMPSEL_MIO (2 << SYSCFG_MPSEL_SHFT) /*
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NMULTI is an input; it is an unambiguous M/IO signal, issued
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with timing similar to the LA[] lines.
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*/
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#define SYSCFGMPSEL_EXTSEL (3 << SYSCFG_MPSEL_SHFT) /*
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NMULTI is an output; it is the external register select
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pulse, generated whenever software attempts to access
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aux register AR_EXTRN. Of course, the 86082 will ignore
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writes to AR_EXTRN, and will float the data bus if
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the CPU reads from AR_EXTRN.
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*/
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/* (4 << SCFG_MPSEL_SHFT) is reserved */
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#define SYSCFGMPSEL_RI (5 << SYSCFG_MPSEL_SHFT) /*
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NMULTI is an output; it indicates a RI (active-going)
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transition has occurred lately on a an appropriately-
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configured socket. The output is active low.
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*/
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/*
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Codes 4, 6 and 7 are reserved, and must NOT be output. It is
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indeed possibly hazardous to your system to encode values in
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this field that do not match your hardware!
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*/
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/* 1 << 12 reserved */
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#define SYSCFG_MPSENSE (1 << 13) /*
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This bit, when read, returns the sense of the multi-purpose
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pin.
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*/
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#define SYSCFG_AUTOBUSY (1 << 14) /*
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This bit, when set, causes the busy led to be gated with the
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SYSCFG_ACC bit. When clear, the busy led reflects whether the
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socket is actually enabled. If AUTOBUSY is set and ACC is clear,
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then the busy light will be off, even if a socket is enabled.
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If AUTOBUSY is clear, then the busy light will be on if either
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socket is enabled.
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Note, that when in a programming mode, you should either clear this
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bit (causing the busy light to be on whenever the socket is enabled)
|
||
or set both this bit and the ACC bit (causing the light to be on
|
||
all the time).
|
||
|
||
On the '084 and '184, this bit is per-socket.
|
||
|
||
*/
|
||
|
||
#define SYSCFG_ACC (1<<15) /*
|
||
This bit will be set automatically by the hardware whenever the CPU
|
||
accesses data on a card. It can be cleared under software control.
|
||
|
||
In AUTOBUSY mode, it has the additional effect of turning on the
|
||
busy light.
|
||
|
||
Since we'll tristate the command lines as the card is going out of
|
||
the socket, and since the shared lines idle low, there's no real
|
||
danger if the busy light is off even though the socket is enabled.
|
||
|
||
On the '084 and '184, this bit is per-socket.
|
||
|
||
*/
|
||
|
||
/*
|
||
C0: The interlock control register.
|
||
*/
|
||
#define AR_ILOCK (R_AUX+0) /* symbolic handle for low byte */
|
||
|
||
#define ILOCK_OUT (1 << 0) /* interlock output
|
||
|| per-socket on x84
|
||
*/
|
||
#define ILOCK_SENSE (1 << 1) /* (r/o) interlock sense
|
||
|| 0 -> /cilock not asserted;
|
||
|| 1 -> /cilock is asserted.
|
||
|| per-socket on x84.
|
||
*/
|
||
#define ILOCK_CRESET (1 << 2) /* card reset output level (S) */
|
||
#define ILOCK_CRESENA (1 << 3) /* enable card reset output (S) */
|
||
#define ILOCK_CWAIT (1 << 4) /* enable card wait (S) */
|
||
#define ILOCK_CWAITSNS (1 << 5) /* (r/o) sense current state of wait
|
||
|| 0 -> /cwait not asserted;
|
||
|| 1 -> /cwait is asserted
|
||
|| (S)
|
||
*/
|
||
/* the shift count & mask for the hold-time control */
|
||
#define ILOCK_HOLD_SHIFT 6 /* shift count for the hold-time ctl (G) */
|
||
#define ILOCK_HOLD_MASK (3 << ILOCK_HOLD_SHIFT)
|
||
|
||
/*
|
||
|| quick hold mode waits until we observe that the strobe is high,
|
||
|| guaranteeing 10ns or so of hold time.
|
||
*/
|
||
#define ILOCK_HOLD_QUICK (0 << ILOCK_HOLD_SHIFT)
|
||
|
||
/*
|
||
|| CCLK hold mode waits (asynchronously) for an edge on CCLK. Minimum is 1
|
||
|| CCLK + epsilon; maximum is 2 CCLKs + epsilon.
|
||
||
|
||
|| for the 86081 & '82, this mode enables the multi-step
|
||
|| sequencer that generates setup and hold times based on CCLK. This
|
||
|| is the recommended mode of operation for the '81 and '82.
|
||
*/
|
||
#define ILOCK_HOLD_CCLK (3 << ILOCK_HOLD_SHIFT)
|
||
|
||
/**** The following bits are only present on the x84 and later parts ****/
|
||
#define ILOCK_INPACK (1 << 11) /* (r/o, S) this bit is a diagnostic
|
||
|| read-back for card input
|
||
|| acknowledge.
|
||
|| The sense is inverted from the
|
||
|| level at the pin.
|
||
*/
|
||
#define ILOCK_CP0 (1 << 12) /* (r/o, S) this bit is a diagnostic
|
||
|| monitor for card present pin 0.
|
||
|| The sense is inverted from the
|
||
|| level at the pin.
|
||
*/
|
||
#define ILOCK_CP1 (1 << 13) /* (r/o, S) this bit is a diagnostic
|
||
|| monitor for card present pin 1.
|
||
|| The sense is inverted from the
|
||
|| level at the pin.
|
||
*/
|
||
#define ILOCK_VS1 (1 << 14) /* (r/o, S) this bit is the primary
|
||
|| monitor for Card Voltage Sense
|
||
|| pin 1.
|
||
|| The sense is inverted from the
|
||
|| level at the pin.
|
||
*/
|
||
#define ILOCK_VS2 (1 << 15) /* (r/o, S) this bit is the primary
|
||
|| monitor for Card Voltage Sense
|
||
|| pin 2.
|
||
|| The sense is inverted from the
|
||
|| level at the pin.
|
||
*/
|
||
/*
|
||
|
||
Silicon Version Register
|
||
|
||
In diagnostic mode, the high byte of the interlock register is defined as the
|
||
silicon identity byte.
|
||
|
||
In order to read this byte, the chip must be placed in diagnostic
|
||
mode by setting bit 15 of the TESTDIAG register. (This may or may
|
||
not be enforced by the silicon.)
|
||
|
||
The layout is:
|
||
|
||
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
|
||
m <-------ID-------> <----ILOCK---->
|
||
|
||
The fields are:
|
||
|
||
m Always reset.
|
||
|
||
ID This field is one of the following:
|
||
|
||
0x02 the db86082
|
||
|
||
0x03 the db86082a
|
||
|
||
0x04 the db86084
|
||
|
||
0x05 the DB86072ES, (Engineering Sample)
|
||
|
||
0x07 the db86082bES, (Engineering Sample)
|
||
|
||
0x08 the db86084a
|
||
|
||
0x14 the DB86184
|
||
|
||
0x15 the DB86072, (Production)
|
||
|
||
0x17 the db86082b, (Production)
|
||
|
||
*/
|
||
|
||
/*
|
||
|| Defines for Silicon IDs described above.
|
||
||
|
||
|| Use the following convention for defining SILID_DBxxxxxY:
|
||
||
|
||
|| SILID_DBxxxxx_1 The First step of chip.
|
||
|| SILID_DBxxxxxA The Second step of chip.
|
||
|| SILID_DBxxxxxB The Third step of chip.
|
||
|| SILID_DBxxxxx... The ... step of chip.
|
||
||
|
||
|| SILID_DBxxxxx"step of chip"_ES An Engineering Sample of chip.
|
||
||
|
||
*/
|
||
#define SILID_DB86082_1 (0x02)
|
||
#define SILID_DB86082A (0x03)
|
||
#define SILID_DB86082B_ES (0x07)
|
||
#define SILID_DB86082B (0x17)
|
||
|
||
#define SILID_DB86084_1 (0x04)
|
||
#define SILID_DB86084A (0x08)
|
||
|
||
#define SILID_DB86184_1 (0x14)
|
||
|
||
#define SILID_DB86072_1_ES (0x05)
|
||
#define SILID_DB86072_1 (0x15)
|
||
|
||
|
||
/**** the high order bits (in diag mode) give the chip version ****/
|
||
#define AR_ILOCK_ID (R_AUX + 1)
|
||
|
||
#define ILOCKTEST_ID_SHFT 8 /* the shift count */
|
||
#define ILOCKTEST_ID_MASK (0x7F << ILOCKTEST_ID_SHFT)
|
||
/* the mask for the field */
|
||
|
||
/*
|
||
|| Use the following convention for defining ILOCKTEST_DBxxxxxY:
|
||
||
|
||
|| ILOCKTEST_DBxxxxx_1 The First step of chip.
|
||
|| ILOCKTEST_DBxxxxxA The Second step of chip.
|
||
|| ILOCKTEST_DBxxxxxB The Third step of chip.
|
||
|| ILOCKTEST_DBxxxxx... The ... step of chip.
|
||
||
|
||
|| ILOCKTEST_DBxxxxx"step of chip"_ES An Engineering Sample of chip.
|
||
||
|
||
*/
|
||
#define ILOCKTEST_TCIC2N_1 ((SILID_DB86082_1) << ILOCKTEST_ID_SHFT)
|
||
#define ILOCKTEST_DB86082_1 ILOCKTEST_TCIC2N_1
|
||
#define ILOCKTEST_TCIC2N_2 ((SILID_DB86082A) << ILOCKTEST_ID_SHFT)
|
||
#define ILOCKTEST_DB86082A ILOCKTEST_TCIC2N_2
|
||
#define ILOCKTEST_TCIC2N_3 ((SILID_DB86082B_ES) << ILOCKTEST_ID_SHFT)
|
||
#define ILOCKTEST_DB86082B_ES ILOCKTEST_TCIC2N_3
|
||
|
||
#define ILOCKTEST_DB86082B ((SILID_DB86082B) << ILOCKTEST_ID_SHFT)
|
||
|
||
#define ILOCKTEST_DB86084_1 ((SILID_DB86084_1) << ILOCKTEST_ID_SHFT)
|
||
#define ILOCKTEST_DB86084A ((SILID_DB86084A) << ILOCKTEST_ID_SHFT)
|
||
|
||
#define ILOCKTEST_DB86184_1 ((SILID_DB86184_1) << ILOCKTEST_ID_SHFT)
|
||
|
||
#define ILOCKTEST_DB86072_1 ((SILID_DB86072_1) << ILOCKTEST_ID_SHFT)
|
||
#define ILOCKTEST_DB86072_1_ES ((SILID_DB86072_1_ES) << ILOCKTEST_ID_SHFT)
|
||
|
||
/**** the test control register ****/
|
||
#define AR_TEST (R_AUX + 0)
|
||
#define TEST_AEN (1 << 0) /* force card AEN */
|
||
#define TEST_CEN (1 << 1) /* force card CEN */
|
||
#define TEST_CTR (1 << 2) /* test programming pulse, address ctrs */
|
||
#define TEST_ENA (1 << 3) /* force card-present (for test), and
|
||
|| special VPP test mode
|
||
*/
|
||
#define TEST_IO (1 << 4) /* feed back some I/O signals
|
||
|| internally.
|
||
*/
|
||
#define TEST_OUT1 (1 << 5) /* force special address output mode */
|
||
#define TEST_ZPB (1 << 6) /* enter ZPB test mode */
|
||
#define TEST_WAIT (1 << 7) /* force-enable WAIT pin */
|
||
#define TEST_PCTR (1 << 8) /* program counter in read-test mode */
|
||
#define TEST_VCTL (1 << 9) /* force-enable power-supply controls */
|
||
#define TEST_EXTA (1 << 10) /* external access doesn't override
|
||
|| internal decoding.
|
||
*/
|
||
#define TEST_DRIVECDB (1 << 11) /* drive the card data bus all the time */
|
||
#define TEST_ISTP (1 << 12) /* turn off CCLK to the interrupt CSR */
|
||
#define TEST_BSTP (1 << 13) /* turn off BCLK internal to the chip */
|
||
#define TEST_CSTP (1 << 14) /* turn off CCLK except to int CSR */
|
||
#define TEST_DIAG (1 << 15) /* enable diagnostic read-back mode */
|
||
|
||
/*
|
||
|
||
Indirectly Addressed Registers
|
||
|
||
Indirect address Function
|
||
---------------- --------
|
||
|
||
[$000:$003] Socket configuration registers for socket 0.
|
||
[$008:$00A] Socket configuration registers for socket 1.
|
||
(we allow for up to 8 sockets per adapter)
|
||
|
||
[$00B:$0FF] reserved
|
||
|
||
[$100:$107] Memory window 0 translation registers:
|
||
$100: reserved;
|
||
$102: base window address
|
||
$104: map to card address
|
||
$106: control register.
|
||
[$108:$10F] Memory window 1 translation registers
|
||
[$110:$117] Memory window 2 translation registers
|
||
...
|
||
[$138:$13F] Memory window 7 translation registers
|
||
[$140:$147] Memory window 8 translation registers
|
||
[$148:$14F] Memory window 9 translation registers
|
||
|
||
(the architecture reserves room for up to
|
||
32 windows.)
|
||
|
||
[$200:$203] I/O window 0 translation registers
|
||
[$204:$207] I/O window 1 translation registers
|
||
[$208:$20B] I/O window 2 translation registers
|
||
[$20C:$20F] I/O window 3 translation registers
|
||
|
||
[$210:$2FF]
|
||
|
||
[$300:$301] Adapter configuration register 0 ('x84 and later)
|
||
|
||
[$320:$321] Configuration ROM CSR.
|
||
|
||
[$380:$381] Plug and Play ISA read port and address port reister
|
||
[$382:$383] Plug and Play ISA configuration sequence number and
|
||
logical device number register.
|
||
[$384:$385] Plug and Play chip ID/test register.
|
||
[$386:$387] Plug and Play config selection register.
|
||
[$386:$3FFFFFF] Reserved -- do not read or write.
|
||
|
||
*/
|
||
|
||
/*
|
||
|
||
Bit definitions:
|
||
|
||
1) The Indirect Socket Configuration Registers:
|
||
|
||
*/
|
||
|
||
#define IR_SCFG_S(skt) (0 + (skt) * 8) /* base indices of socket config */
|
||
#define IR_SCFG_S0 IR_SCFG_S(0) /* base indices of socket config */
|
||
#define IR_SCFG_S1 IR_SCFG_S(1) /* regs for socket 0, 1 */
|
||
|
||
|
||
#define IR_MWIN_BASE 0x100 /* where they start */
|
||
|
||
#define IR_MWIN_NUM_082 8 /* number of memory windows */
|
||
#define IR_MWIN_NUM_082A 10 /* number of memory windows in 082a */
|
||
#define IR_MWIN_NUM_082B 10 /* number of memory windows in 082b */
|
||
#define IR_MWIN_NUM_084 10 /* number of memory windows in 084 */
|
||
#define IR_MWIN_NUM_184 10 /* number of memory windows in 184 */
|
||
#define IR_MWIN_NUM_072 10 /* number of memory windows in 072 */
|
||
#define IR_MWIN_NUM_MAX 32 /* make arrays of windows this big */
|
||
|
||
#define IR_MWIN_SIZE 8 /* 8 bytes per window descriptor */
|
||
#define IR_MBASE_X 2 /* index to the memory base controlreg */
|
||
#define IR_MMAP_X 4 /* index to the memory map control reg */
|
||
#define IR_MCTL_X 6 /* index to the memory window control reg */
|
||
|
||
#define IR_MBASE_W(w) (IR_MWIN_BASE + (w) * IR_MWIN_SIZE + IR_MBASE_X)
|
||
#define IR_MMAP_W(w) (IR_MWIN_BASE + (w) * IR_MWIN_SIZE + IR_MMAP_X)
|
||
#define IR_MCTL_W(w) (IR_MWIN_BASE + (w) * IR_MWIN_SIZE + IR_MCTL_X)
|
||
|
||
#define IR_IOWIN_BASE 0x200 /* where they start */
|
||
#define IR_IOWIN_SIZE 4 /* bytes per window descriptor */
|
||
#define IR_IOWIN_NUM 4 /* we have 4 of them on the 082 */
|
||
/* should be defined as 0 on the
|
||
86301 */
|
||
#define IR_IOBASE_X 0 /* index to the I/O base register */
|
||
#define IR_IOCTL_X 2 /* index to the I/O window control register */
|
||
|
||
#define IR_IOBASE_W(w) (IR_IOWIN_BASE + (w) * IR_IOWIN_SIZE + IR_IOBASE_X)
|
||
#define IR_IOCTL_W(w) (IR_IOWIN_BASE + (w) * IR_IOWIN_SIZE + IR_IOCTL_X)
|
||
|
||
/**** patterns in the indirect registers ****/
|
||
#define IRSCFG_IRQ_MASK (0xF) /* mask for this bit field */
|
||
#define IRSCFG_IRQOFF (0) /* disable */
|
||
#define IRSCFG_SIRQ (0x1) /* use SKTIRQ (2/N) */
|
||
#define IRSCFG_IRQ3 (0x3) /* use IRQ3 */
|
||
#define IRSCFG_IRQ4 (0x4) /* use IRQ4 */
|
||
#define IRSCFG_IRQ5 (0x5) /* use IRQ5 */
|
||
#define IRSCFG_IRQ6 (0x6) /* use IRQ6 */
|
||
#define IRSCFG_IRQ7 (0x7) /* use IRQ7 */
|
||
#define IRSCFG_IRQ9 (0x9) /* use IRQ9 */
|
||
#define IRSCFG_IRQ10 (0xA) /* use IRQ10 */
|
||
#define IRSCFG_IRQ11 (0xB) /* use IRQ11 */
|
||
#define IRSCFG_IRQ12 (0xC) /* use IRQ12 */
|
||
#define IRSCFG_IRQ14 (0xE) /* use IRQ14 */
|
||
#define IRSCFG_IRQ15 (0xF) /* use IRQ15 */
|
||
|
||
|
||
#define IRSCFG_IRQOC (1 << 4) /* selected IRQ is
|
||
|| open-collector, and active
|
||
|| low; otherwise it's totem-
|
||
|| pole and active hi.
|
||
*/
|
||
#define IRSCFG_PCVT (1 << 5) /* convert level-mode IRQ
|
||
|| to pulse mode, or stretch
|
||
|| pulses from card.
|
||
*/
|
||
#define IRSCFG_IRDY (1 << 6) /* interrupt from RDY (not
|
||
|| from /IREQ). Used with
|
||
|| ATA drives.
|
||
*/
|
||
#define IRSCFG_ATA (1 << 7) /* Special ATA drive mode.
|
||
|| CEL/H become CE1/2 in
|
||
|| the IDE sense; CEL is
|
||
|| activated for even window
|
||
|| matches, and CEH for
|
||
|| odd window matches.
|
||
*/
|
||
#define IRSCFG_DMA_SHIFT 8 /* offset to DMA selects; */
|
||
#define IRSCFG_DMA_MASK (0x7 << IRSCFG_DMA_SHIFT)
|
||
|
||
#define IRSCFG_DMAOFF (0 << IRSCFG_DMA_SHIFT) /* disable DMA */
|
||
#define IRSCFG_DREQ2 (2 << IRSCFG_DMA_SHIFT) /* enable DMA on DRQ2 */
|
||
|
||
#define IRSCFG_IOSTS (1 << 11) /* enable I/O status mode;
|
||
|| allows CIORD/CIOWR to
|
||
|| become low-Z.
|
||
*/
|
||
#define IRSCFG_SPKR (1 << 12) /* enable SPKR output from
|
||
|| this card
|
||
*/
|
||
#define IRSCFG_FINPACK (1 << 13) /* force card input
|
||
|| acknowledge during I/O
|
||
|| cycles. Has no effect
|
||
|| if no windows map to card
|
||
*/
|
||
#define IRSCFG_DELWR (1 << 14) /* force -all- data to
|
||
|| meet 60ns setup time
|
||
|| ("DELay WRite")
|
||
*/
|
||
#define IRSCFG_HD7IDE (1 << 15) /* Enable special IDE
|
||
|| data register mode: odd
|
||
|| byte addresses in odd
|
||
|| I/O windows will not
|
||
|| drive HD7.
|
||
*/
|
||
|
||
/***** bits in the second config register *****/
|
||
#define IR_SCF2_S(skt) (IR_SCFG_S(skt) + 2) /* index to second config reg */
|
||
#define IR_SCF2_S0 IR_SCF2_S(0) /* second config for socket 0 */
|
||
#define IR_SCF2_S1 IR_SCF2_S(1) /* second config for socket 0 */
|
||
|
||
#define IRSCF2_RI (1 << 0) /* enable RI pin from STSCHG
|
||
|| (2/N)
|
||
*/
|
||
#define IRSCF2_IDBR (1 << 1) /* force I/O data bus routing
|
||
|| for this socket, regardless
|
||
|| of cycle type. (2/N)
|
||
*/
|
||
#define IRSCF2_MDBR (1 << 2) /* force memory window data
|
||
|| bus routing for this
|
||
|| socket, regardless of cycle
|
||
|| type. (2/N)
|
||
*/
|
||
#define IRSCF2_MLBAT1 (1 << 3) /* disable status change
|
||
|| ints from LBAT1 (or
|
||
|| "STSCHG"
|
||
*/
|
||
#define IRSCF2_MLBAT2 (1 << 4) /* disable status change
|
||
|| ints from LBAT2 (or
|
||
|| "SPKR"
|
||
*/
|
||
#define IRSCF2_MRDY (1 << 5) /* disable status change ints
|
||
|| from RDY/BSY (or /IREQ).
|
||
|| note that you get ints on
|
||
|| both high- and low-going
|
||
|| edges if this is enabled.
|
||
*/
|
||
#define IRSCF2_MWP (1 << 6) /* disable status-change ints
|
||
|| from WP (or /IOIS16).
|
||
|| If you're using status
|
||
|| change ints, you better set
|
||
|| this once an I/O window is
|
||
|| enabled, before accessing
|
||
|| it.
|
||
*/
|
||
#define IRSCF2_MCD (1 << 7) /* disable status-change ints
|
||
|| from Card Detect.
|
||
*/
|
||
|
||
/*
|
||
|| note that these bits match the top 5 bits of the socket status register
|
||
|| in order and sense.
|
||
*/
|
||
|
||
#define IRSCF2_DMASRC_MASK (0x3 << 8) /* mask for this bit field */
|
||
/*-- DMA Source --*/
|
||
#define IRSCF2_DRQ_BVD2 (0x0 << 8) /* BVD2 */
|
||
#define IRSCF2_DRQ_IOIS16 (0x1 << 8) /* IOIS16 */
|
||
#define IRSCF2_DRQ_INPACK (0x2 << 8) /* INPACK */
|
||
#define IRSCF2_DRQ_FORCE (0x3 << 8) /* Force it */
|
||
|
||
/* reserved (0xFC00) */ /* top 6 bits are RFU */
|
||
|
||
|
||
/****************************************************************************\
|
||
|
|
||
| The memory window control registers.
|
||
|
|
||
\****************************************************************************/
|
||
|
||
/*
|
||
|| The BASE ADDRESS register establishes a correspondence between
|
||
|| a host bus address and a particular memory window.
|
||
||
|
||
|| The MAP ADDRESS register establishes a correspondence between a
|
||
|| window and a particular card address. The contents of this register
|
||
|| are ADDED to the address from the host, and (therefore) are not
|
||
|| independent of the value in the BASE ADDRESS register. That is,
|
||
|| the value to put into the MAP ADDRESS register to map to page
|
||
|| 0 of common space is NOT (in general) 0; it is, rather, (-window
|
||
|| base address), in twos complement.
|
||
||
|
||
|| Of course, you must use the twos complement of the actual window
|
||
|| base, NOT of the value that's actually in the BASE ADDRESS register;
|
||
|| that value also has the window size encoded in it.
|
||
||
|
||
|| The window enable bit for a given window is automatically cleared whenever
|
||
|| you write to the BASE ADDRESS register.
|
||
*/
|
||
/**** the base register ****/
|
||
#define MBASE_ILV (1 << 15) /* rfu */
|
||
#define MBASE_4K (1 << MBASE_4K_BIT) /* if set, addresses are 4K */
|
||
#define MBASE_4K_BIT 14 /* (bit shift count) */
|
||
#define MBASE_HA_SHFT (12) /* shift host addresses
|
||
|| right this much
|
||
*/
|
||
#define MBASE_HA_MASK (0xFFF) /* mask for host address
|
||
|| bits in this register
|
||
*/
|
||
#define MBASE_HA2BASE(ha) \
|
||
( \
|
||
((USHORT) ((ha) >> MBASE_HA_SHFT) & MBASE_HA_MASK) \
|
||
| \
|
||
(((USHORT) (ha) & (1 << 11)) << (MBASE_4K_BIT - 11)) \
|
||
)
|
||
|
||
#define MBASE_BASE2HA(base) \
|
||
( \
|
||
((ULONG) ((base) & MBASE_HA_MASK) << MBASE_HA_SHFT) \
|
||
| \
|
||
(((base) & MBASE_4K) >> (MBASE_4K_BIT - 11)) \
|
||
)
|
||
|
||
/**** the card mapping register ****/
|
||
#define MMAP_CA_SHFT 12 /* shift card address right this much */
|
||
#define MMAP_CA_MASK (0x3FFF) /* then mask with this */
|
||
#define MMAP_REG (1 << 15) /* the REG bit */
|
||
|
||
/**** the mem window control register ****/
|
||
#define MCTL_WSCNT_MASK 0x1F /* the wait-state mask register */
|
||
#define MCTL_WSCNT_SHFT 0 /* how to align it */
|
||
|
||
/* reserved (1<<5) -- this bit is reserved */
|
||
|
||
#define MCTL_QUIET (1<<6) /* the window is quiet */
|
||
#define MCTL_WP (1<<7) /* prohibit writes via this window */
|
||
#define MCTL_ACC (1<<8) /* if set, we've used this window */
|
||
#define MCTL_KE (1<<9) /* enable caching on this window */
|
||
#define MCTL_EDC (1<<10) /* enable EDC on this window */
|
||
#define MCTL_B8 (1<<11) /* force window to be 8 bits */
|
||
#define MCTL_SS_SHFT (TCIC_SS_SHFT) /* socket select in standard place (bits 12-14) */
|
||
#define MCTL_SS_MASK (TCIC_SS_MASK) /* ditto for mask */
|
||
#define MCTL_ENA (1<<15) /* enable the window */
|
||
|
||
/**** the I/O base register ****/
|
||
/*
|
||
|| the base and length are encoded here, pretty much as they are for the
|
||
|| memory base register; however, a 17th bit is needed, and can be found
|
||
|| in the I/O window control register (IOCTL_TINY).
|
||
*/
|
||
|
||
/**** the I/O control register ****/
|
||
#define ICTL_WSCNT_MASK MCTL_WSCNT_MASK /* these are the same */
|
||
#define ICTL_WSCNT_SFHT MCTL_WSCNT_SHFT /* and are shown this way to ensure
|
||
|| that you can use the same code to
|
||
||generate them, if you like
|
||
*/
|
||
#define ICTL_PASS16 (1 << 5) /* If this bit is set, then all 16
|
||
|| bits of an I/O address will be
|
||
|| passed through to the card, even
|
||
|| if the window is only a 10-bit
|
||
|| window. If reset, then only 10
|
||
|| bits will be passed if this is a
|
||
|| 1K window, even if HA[15:10] were
|
||
|| non-zero. Regardless of the
|
||
|| value of this bit, the 082 always
|
||
|| acts as if this bit were clear.
|
||
*/
|
||
#define ICTL_QUIET MCTL_QUIET /* more commonality */
|
||
#define ICTL_1K (1 << 7) /* ignore ha[15:10] in comparisons;
|
||
|| this makes us 100% PC compatible.
|
||
*/
|
||
#define ICTL_ACC MCTL_ACC /* more commonality */
|
||
#define ICTL_TINY (1 << 9) /* window is exactly 1 byte long */
|
||
#define ICTL_B16 (1 << 10) /* I/O mode stuff; force 16 bit, but
|
||
|| also encodes stuff; see below.
|
||
*/
|
||
#define ICTL_B8 (MCTL_B8)
|
||
|
||
/* B8 and B16, taken together, define the bus width for this window: */
|
||
#define ICTL_BW_MASK (ICTL_B8 | ICTL_B16) /* the field itself. */
|
||
#define ICTL_BW_DYN (0) /* use CIOIS16 */
|
||
#define ICTL_BW_8 (ICTL_B8) /* force 8-bit (no /HIOCS16) */
|
||
#define ICTL_BW_16 (ICTL_B16) /* force 16-bit (force HIOCS16) */
|
||
#define ICTL_BW_ATA (ICTL_B8|ICTL_B16) /* ATA mode IOCS16 */
|
||
|
||
/*
|
||
|
||
"ATA mode IOCS16" means that this window is to be used with an ATA/IDE-like
|
||
drive. /HIOCS16 is asserted for references to addresses 0, 8, ... within
|
||
the window; it is deasserted for all other addresses.
|
||
|
||
*/
|
||
|
||
/* socket is selected in the usual way, using the usual fields */
|
||
#define ICTL_SS_SHFT (TCIC_SS_SHFT) /* the shift count for the socket
|
||
|| for this window (12)
|
||
*/
|
||
#define ICTL_SS_MASK (TCIC_SS_MASK) /* the mask for the field (0x7000) */
|
||
|
||
#define ICTL_ENA (MCTL_ENA) /* enable the window (same fn/same bit) */
|
||
|
||
/****************************************************************************\
|
||
|
|
||
| The TCIC architecture V2.0 registers
|
||
|
|
||
\****************************************************************************/
|
||
|
||
#define IR_ADPTCFG0 0x300 /* The primary adapter config register */
|
||
#define IRADPCF0_PNPCS (1 << 0) /* if set, using PnP to set base addr */
|
||
#define IRADPCF0_MULTI (1 << 1) /* if set, NMULTI# functions are available */
|
||
#define IRADPCF0_EE1K (1 << 2) /* if set, if EEPROM is present, it's 1K (max) */
|
||
#define IRADPCF0_EE (1 << 3) /* if set, EE control is present */
|
||
#define IRADPCF0_DRQ2 (1 << 4) /* if set, DMA is possible */
|
||
#define IRADPCF0_IRQ6 (1 << 5) /* if set, IRQ6 is available */
|
||
#define IRADPCF0_IRQ9 (1 << 6) /* if set, IRQ9 is available */
|
||
#define IRADPCF0_IRQ12 (1 << 7) /* if set, IRQ12 is available */
|
||
#define IRADPCF0_IRQ15 (1 << 8) /* if set, IRQ15 is available */
|
||
#define IRADPCF0_3V (1 << 9) /* if set, CVS & 3V/5V are enabled */
|
||
#define IRADPCF0_BUSYLED (1 << 10) /* if set, we have busy light(s) */
|
||
#define IRADPCF0_BUSYSKT (1 << 11) /* if set, busy lights are per skt */
|
||
#define IRADPCF0_ILOCK (1 << 12) /* if set, we have interlocks */
|
||
#define IRADPCF0_ILOCKSKT (1 << 13) /* if set, ilocks are per-skt */
|
||
#define IRADPCF0_NONSTD (1 << 14) /* if set, a hardware-specific driver
|
||
|| is required.
|
||
*/
|
||
#define IRADPCF0_READY (1 << 15) /* if set, TCIC has finished power-up
|
||
|| self configuration.
|
||
*/
|
||
|
||
#define IR_ROMCSR 0x320 /* the config ROM csr */
|
||
|
||
#define IR_ROMCSR_ADDR_MASK 0xFF /* the WORD address bits */
|
||
#define IR_ROMCSR_CMD_SHFT 12 /* the ROM command bit offset */
|
||
#define IR_ROMCSR_CMD_MASK (3 << 12)
|
||
|
||
#define IR_ROMCSR_GO (1 << 14) /* set this bit to process a command */
|
||
#define IR_ROMCSR_BUSY (1 << 15) /* r/o: set while working */
|
||
|
||
/**** the READ command -- data shows up in PDATA ****/
|
||
#define IR_ROMCSR_READCMD(a) \
|
||
((2 << IR_ROMCSR_CMD_SHFT) | \
|
||
((a) & IR_ROMCSR_ADDR_MASK))
|
||
|
||
/**** the WRITE command ****/
|
||
#define IR_ROMCSR_WRITECMD(a) \
|
||
((1 << IR_ROMCSR_CMD_SHFT) | \
|
||
((a) & IR_ROMCSR_ADDR_MASK))
|
||
|
||
/**** the ERASE WORD command ****/
|
||
#define IR_ROMCSR_ERASEWDCMD(a) \
|
||
((3 << IR_ROMCSR_CMD_SHFT) | \
|
||
((a) & IR_ROMCSR_ADDR_MASK))
|
||
|
||
/**** the WRITE-ENABLE command ****/
|
||
#define IR_ROMCSR_WRITEENA \
|
||
((0 << IR_ROMCSR_CMD_SHFT) | \
|
||
((0x03) & IR_ROMCSR_ADDR_MASK))
|
||
|
||
/**** the WRITE-DISABLE command ****/
|
||
#define IR_ROMCSR_WRITEDSA \
|
||
((0 << IR_ROMCSR_CMD_SHFT) | \
|
||
((0x00) & IR_ROMCSR_ADDR_MASK))
|
||
|
||
/****************************************************************************\
|
||
|
|
||
| The plug and play test registers
|
||
|
|
||
\****************************************************************************/
|
||
|
||
#define IR_PNPADDRP 0x380 /* PnP ISA: read port, address port */
|
||
#define IRPNPADDR_ADDR_MASK 0x00FF /* the last value written to the
|
||
|| PnP address register.
|
||
*/
|
||
#define IRPNPADDR_ADDR_SHFT 0
|
||
#define IRPNPADDR_RDP_MASK 0xFF00 /* the last value written to the read-
|
||
|| data port-address PnP register.
|
||
*/
|
||
#define IRPNPADDR_RDP_SHFT 8
|
||
|
||
/**** handy place to figure out CSN, LDN ****/
|
||
#define IR_PNPCSNLDN 0x382 /* PnP ISA: card seq no, log dev no */
|
||
#define IRPNPCSN_LDN_MASK 0xFF00 /* the last value written to this
|
||
|| chip's PnP logical dev # reg.
|
||
*/
|
||
#define IRPNPCSN_LDN_SHFT 8
|
||
#define IRPNPCSN_CSN_MASK 0x00FF /* the last value written to this
|
||
|| chip's PnP CSN register.
|
||
*/
|
||
#define IRPNPCSN_CSN_SHFT 0
|
||
|
||
/**** handy place to figure out chip ID ****/
|
||
#define IR_PNPTEST 0x384 /* PnP ISA: chip id */
|
||
#define IRPNPTEST_CHIPID_MASK 0x00FF /* the Chip ID captured during the last
|
||
|| PnP wake-up seqeunce.
|
||
*/
|
||
#define IRPNPTEST_CHIPID_SHFT 0
|
||
#define IRPNPTEST_LSTCFGCTL_SHFT 8 /* the last value written to cfgctl */
|
||
#define IRPNPTEST_LSTCFGCTL_MASK (7 << IRPNPTEST_LSTCFGCTL_SHFT)
|
||
#define IRPNPTEST_ISO2ND (1 << 11)
|
||
#define IRPNPTEST_MTCH1ST (1 << 12)
|
||
#define IRPNPTEST_STATE_SHFT 13
|
||
#define IRPNPTEST_STATE_MASK (3 << IRPNPTEST_STATE_SHFT)
|
||
#define IRPNPTEST_STATE_WFK (0 << IRPNPTEST_STATE_SHFT)
|
||
#define IRPNPTEST_STATE_SLP (1 << IRPNPTEST_STATE_SHFT)
|
||
#define IRPNPTEST_STATE_ISO (2 << IRPNPTEST_STATE_SHFT)
|
||
#define IRPNPTEST_STATE_CFG (3 << IRPNPTEST_STATE_SHFT)
|
||
|
||
/**** the following register lets us see what PNP software has done ****/
|
||
#define IR_PNPCFG 0x386 /* PnP ISA: configuration info */
|
||
#define IRPNPCFG_IRQ_SHFT 0
|
||
#define IRPNPCFG_IRQ_MASK (0xF << IRPNPCFG_IRQ_SHFT)
|
||
|
||
#define IRPNPCFG_IRQLVL (1 << 4) /* Level IRQ selected */
|
||
#define IRPNPCFG_IRQHIGH (1 << 5) /* active high IRQ select */
|
||
|
||
#define IRPNPCFG_DMA_SHFT 8
|
||
#define IRPNPCFG_DMA_MASK (7 << IRPNPCFG_DMA_SHFT)
|
||
|
||
/**** end of tcic2.h ****/
|
||
#endif /* _TCIC2_H_ */
|