NetBSD/sys/arch/sparc/dev/espreg.h

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/*
* Copyright (c) 1988, 1992, 1993
* The Regents of the University of California. All rights reserved.
*
* This software was developed by the Computer Systems Engineering group
* at Lawrence Berkeley Laboratory under DARPA contract BG 91-66 and
* contributed to Berkeley.
*
* All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Lawrence Berkeley Laboratory.
*
* 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. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``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 REGENTS OR CONTRIBUTORS 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.
*
* @(#)espreg.h 8.1 (Berkeley) 6/11/93
*
* from: Header: espreg.h,v 1.7 92/11/26 02:28:10 torek Exp (LBL)
* $Id: espreg.h,v 1.1 1993/10/02 10:23:52 deraadt Exp $
*
* Derived from Mary Baker's devSCSIC90.c from the Berkeley
* Sprite project, which is:
*
* Copyright 1988 Regents of the University of California
* Permission to use, copy, modify, and distribute this
* software and its documentation for any purpose and without
* fee is hereby granted, provided that the above copyright
* notice appear in all copies. The University of California
* makes no representations about the suitability of this
* software for any purpose. It is provided "as is" without
* express or implied warranty.
*/
/*
* Emulex ESP100, ESP100A, and ESP200 registers, as found on the
* Sun-4c Sbus.
*
* The registers are all bytes, and all on longword boundaries.
* Grody to the max!
*/
struct espreg {
u_char esp_tcl; /* transfer count low (byte 0) (rw) */
u_char esp_xxx0[3];
u_char esp_tch; /* transfer count high (byte 1) (rw) */
u_char esp_xxx1[3];
u_char esp_fifo; /* fifo data register (rw) */
u_char esp_xxx2[3];
u_char esp_cmd; /* command (rw) */
u_char esp_xxx3[3];
u_char esp_stat; /* status (ro); scsi id (wo) */
#define esp_id esp_stat
u_char esp_xxx4[3];
u_char esp_intr; /* interrupt (ro); timeout (wo) */
#define esp_timeout esp_intr
u_char esp_xxx5[3];
u_char esp_step; /* sequence step (ro); sync period (wo) */
#define esp_syncperiod esp_step
u_char esp_xxx6[3];
u_char esp_fflags; /* fifo flags (ro); sync offset (wo) */
#define esp_syncoff esp_fflags
u_char esp_xxx7[3];
u_char esp_conf1; /* configuration #1 (rw) */
u_char esp_xxx8[3];
u_char esp_ccf; /* clock conversion factor (wo) */
u_char esp_xxx9[3];
u_char esp_test; /* test (do not use) */
u_char esp_xxxA[3];
u_char esp_conf2; /* configuration #2 (rw) */
u_char esp_xxxB[3];
u_char esp_conf3; /* configuration #3 (rw, ESP-236) */
u_char esp_xxxC[3];
};
/* THE REST OF THESE NAMES COULD STAND TO BE SHORTENED */
/*
* Bits in esp_cmd. Note that the cmd register is two levels deep (see
* Emulex documentation, p. 4-3); our typical usage is to set the command,
* then set it again with DMA.
*
* Targets will use disconnected and target mode commands; initiators will use
* disconnected and initiator mode commands. Bit 0x40 indicates disconnected
* mode, 0x20 target mode, and 0x10 initiator mode. (However, everyone can
* use the miscellaneous commands, which have none of those bits set.)
*/
#define ESPCMD_DMA 0x80 /* flag => do DMA */
/* miscellaneous */
#define ESPCMD_NOP 0x00 /* do nothing */
#define ESPCMD_FLUSH_FIFO 0x01 /* flush FIFO */
#define ESPCMD_RESET_CHIP 0x02 /* reset ESP chip */
#define ESPCMD_RESET_BUS 0x03 /* reset SCSI bus */
/* disconnected */
#define ESPCMD_RESEL_SEQ 0x40 /* reselect sequence */
#define ESPCMD_SEL_NATN 0x41 /* select without ATN sequence */
#define ESPCMD_SEL_ATN 0x42 /* select with ATN sequence */
#define ESPCMD_SEL_ATNS 0x43 /* select with ATN & stop seq */
#define ESPCMD_SEL_ENA 0x44 /* enable selection/reselection */
#define ESPCMD_SEL_DIS 0x45 /* disable selection/reselection */
#define ESPCMD_SEL_ATN3 0x46 /* select with ATN3 sequence */
/* target state */
#define ESPCMD_SEND_MSG 0x20 /* send message */
#define ESPCMD_SEND_STATUS 0x21 /* send status */
#define ESPCMD_SEND_DATA 0x22 /* send data */
#define ESPCMD_DIS_SEQ 0x23 /* disconnect sequence */
#define ESPCMD_TERM_SEQ 0x24 /* terminate sequence */
#define ESPCMD_TARG_COMP 0x25 /* target command complete sequence */
#define ESPCMD_DISCONNECT 0x27 /* disconnect */
#define ESPCMD_RCV_MSG 0x28 /* receive message sequence */
#define ESPCMD_RCV_CMD 0x29 /* receive command */
#define ESPCMD_RCV_DATA 0x2a /* receive data */
#define ESPCMD_REC_CMD_SEQ 0x2b /* receive command sequence */
#define ESPCMD_STOP_DMA 0x04 /* stop DMA (see p. 4-6) */
/* ESPCMD_TARG_ABORT 0x06 target abort sequence */
/* initiator state */
#define ESPCMD_XFER_INFO 0x10 /* transfer information */
#define ESPCMD_INIT_COMP 0x11 /* initiator command complete seq */
#define ESPCMD_MSG_ACCEPT 0x12 /* message accepted */
#define ESPCMD_XFER_PAD 0x18 /* transfer pad (use only w/ DMA) */
#define ESPCMD_SET_ATN 0x1a /* set ATN */
#define ESPCMD_RESET_ATN 0x1b /* reset ATN */
/*
* Bits in esp_stat.
* Bits 3 through 7 are latched until esp_intr is read;
* bits 0 through 2 (the phase) are not normally latched.
* The interrupt bit is set even if interrupts are disabled.
* Hardware or software reset, or reading esp_intr, will
* clear the interrupt and turn off ESPSTAT_INT.
*/
#ifdef notdef
#define ESPSTAT_INT 0x80 /* ASC interrupting processor */
#else
#define ESPSTAT_XXX 0x80 /* rumored unreliable: use dma IP */
#endif
#define ESPSTAT_GE 0x40 /* gross error */
#define ESPSTAT_PE 0x20 /* parity error */
#define ESPSTAT_ERR 0x60 /* pseudo composite */
#define ESPSTAT_TC 0x10 /* terminal count */
#define ESPSTAT_VGC 0x08 /* valid group code */
#define ESPSTAT_MSG 0x04 /* MSG line from SCSI bus */
#define ESPSTAT_CD 0x02 /* CD line from SCSI bus */
#define ESPSTAT_IO 0x01 /* IO line from SCSI bus */
#define ESPSTAT_PHASE 7 /* phase mask */
#define ESPPHASE_DATA_OUT 0 /* data out */
#define ESPPHASE_DATA_IN 1 /* data in */
#define ESPPHASE_CMD 2 /* command */
#define ESPPHASE_STATUS 3 /* status */
#define ESPPHASE_MSG_OUT 6 /* message out (w.r.t. initiator) */
#define ESPPHASE_MSG_IN 7 /* message in */
#ifdef ESP_PHASE_NAMES
/* printed as `... during %s phase' */
char *espphases[] =
{ "data out", "data in", "command", "status",
"impossible(4)", "impossible(5)", "message out", "message in" };
#endif
#define ESPSTAT_BITS "\20\10INT\7GE\6PE\5TC\4VGC\3MSG\2CD\1IO"
/*
* Bits in esp_intr.
*/
#define ESPINTR_SBR 0x80 /* SCSI bus reset detected */
#define ESPINTR_ILC 0x40 /* illegal command */
#define ESPINTR_DSC 0x20 /* target disconnected, or timeout */
#define ESPINTR_SVC 0x10 /* a device wants bus service */
#define ESPINTR_CMP 0x08 /* function complete */
#define ESPINTR_RSL 0x04 /* reselected */
#define ESPINTR_SAT 0x02 /* selected with ATN */
#define ESPINTR_SEL 0x01 /* selected (no ATN) */
#define ESPINTR_BITS "\20\10SBR\7ILC\6DSC\5SVC\4CMP\3RSL\2SAT\1SEL"
/*
* Formula for select/reselect timeout (esp_timeout).
* TU = 7682 * CCF * TCP
* T / TU = register value
* CCF = clock conversion factor
* TCP = input clock period (in same units as T)
* TU = time unit (i.e., the esp_timeout register counts in TUs)
* T = desired timeout
* (i.e., we want ceil(timeout / (7682*ccf*tcp))). If timeout is in ms.,
* and tcp is in MHz, then (ccf * 7682)/tcp gives us 1000*TU, and
* 1000*timeout/(1000*TU) gives us our result (but remember to round up).
*
* N.B.: The register value 0 gives a TU of 256.
*/
#define ESPTIMO_REGVAL(timo_ms, ccf, mhz) \
howmany(1000 * (timo_ms), ((ccf) * 7682) / (mhz))
/*
* Value in esp_step. These tell us how much of a `sequence' completed,
* and apply to the following sequenced operations:
* [initiator]
* select without ATN
* select with ATN
* select with ATN3
* select with ATN and stop
* [target]
* bus-initiated select with ATN
* bus-initiated select
* receive command sequence
* command complete sequence
* disconnect sequence
* terminate sequence
* The actual values are too complicated to define here, except that
* code 4 always means `everything worked and the command went out'
* (and is thus typical for everything except ATN-and-stop).
*/
#define ESPSTEP_MASK 0x07 /* only these bits are valid */
#define ESPSTEP_DONE 4 /* command went out */
/*
* Synchronous transfer period (esp_syncper, 5 bits).
* The minimum clocks-per-period is 5 and the max is 35;
* the default on reset is 5. Note that a period value of 4
* actually gives 5 clocks.
*/
#define ESP_CLOCKS_TO_PERIOD(nclocks) ((nclocks) & 31)
/*
* Bits in fifo flags (esp_fflags) register. The FIFO itself
* is only 16 bytes, so the byte count fits in 5 bits. Normally
* a copy of the sequence step register appears in the top 3 bits,
* but in test mode the chip re-uses one of those for a synchronous
* offset bit.
*/
#define ESP_NFIFO(esp) ((esp)->esp_fflags & 0x1f)
#define ESP_FFSTEP(esp) (((esp)->esp_fflags >> 5) & 3)
#define ESPFFLAGS_TM_SOFFNZ 0x20 /* nonzero sync offset (test mode) */
/*
* Bits in esp_conf1.
*/
#define ESPCONF1_SLOW_CABLE 0x80 /* ``slow cable'' mode */
#define ESPCONF1_REPORT 0x40 /* disable reporting of interrupts
from scsi bus reset command */
#define ESPCONF1_PARTST 0x20 /* parity test mode */
#define ESPCONF1_PARENB 0x10 /* enable parity */
#define ESPCONF1_TEST 0x08 /* chip test mode */
#define ESPCONF1_ID_MASK 0x07 /* SCSI bus ID field */
#define ESPCONF1_BITS "\20\10SLOW_CABLE\7REPORT\6PARTST\5PARENB\4TEST"
/*
* Values for clock conversion factor (esp_ccf).
*/
#define ESPCCF_FROMMHZ(mhz) (((mhz) + 4) / 5)
#define ESPCCF_MIN 2 /* minimum CCF value */
/*
* Bits in esp_test (for board testing only; can only be used in test mode).
*/
#define ESPTEST_MBZ 0xf8 /* reserved; must be 0 */
#define ESPTEST_TRISTATE 0x04 /* all output pins tristated */
#define ESPTEST_INITIATOR 0x02 /* operate as initiator */
#define ESPTEST_TARGET 0x01 /* operate as target */
/*
* Bits in esp_conf2.
*/
#define ESPCONF2_RSVD 0xe0 /* reserved */
#define ESPCONF2_TRISTATE_DMA 0x10 /* tristate the DMA REQ pin */
#define ESPCONF2_SCSI2 0x08 /* enable SCSI 2 (see p. 4-18) */
#define ESPCONF2_TBPA 0x04 /* enable target bad parity abort */
#define ESPCONF2_RPE 0x02 /* register parity ena (ESP2xx only) */
#define ESPCONF2_DPE 0x01 /* DMA parity enable (ESP2xx only) */