mac68k/dev/ncr5380reg.h

1.11.24.1  nathanw /*	$NetBSD: ncr5380reg.h,v 1.11.24.1 2001/06/21 19:26:50 nathanw Exp $	*/
      1.1   briggs
      1.1   briggs /*
      1.1   briggs  * Copyright (c) 1995 Leo Weppelman.
      1.1   briggs  * All rights reserved.
      1.1   briggs  *
      1.1   briggs  * Redistribution and use in source and binary forms, with or without
      1.1   briggs  * modification, are permitted provided that the following conditions
      1.1   briggs  * are met:
      1.1   briggs  * 1. Redistributions of source code must retain the above copyright
      1.1   briggs  *    notice, this list of conditions and the following disclaimer.
      1.1   briggs  * 2. Redistributions in binary form must reproduce the above copyright
      1.1   briggs  *    notice, this list of conditions and the following disclaimer in the
      1.1   briggs  *    documentation and/or other materials provided with the distribution.
      1.1   briggs  * 3. All advertising materials mentioning features or use of this software
      1.1   briggs  *    must display the following acknowledgement:
      1.1   briggs  *      This product includes software developed by Leo Weppelman.
      1.1   briggs  * 4. The name of the author may not be used to endorse or promote products
      1.1   briggs  *    derived from this software without specific prior written permission
      1.1   briggs  *
      1.1   briggs  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
      1.1   briggs  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
      1.1   briggs  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
      1.1   briggs  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
      1.1   briggs  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
      1.1   briggs  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
      1.1   briggs  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
      1.1   briggs  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
      1.1   briggs  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
      1.1   briggs  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
      1.1   briggs  */
      1.1   briggs
      1.1   briggs #ifndef _NCR5380REG_H
      1.1   briggs #define _NCR5380REG_H
      1.1   briggs /*
      1.1   briggs  * NCR5380 common interface definitions.
      1.1   briggs  */
      1.1   briggs
      1.1   briggs /*
      1.1   briggs  * Register numbers: (first argument to GET/SET_5380_REG )
      1.1   briggs  */
      1.1   briggs #define	NCR5380_DATA	0		/* Data register		*/
      1.1   briggs #define	NCR5380_ICOM	1		/* Initiator command register	*/
      1.1   briggs #define	NCR5380_MODE	2		/* Mode register		*/
      1.1   briggs #define	NCR5380_TCOM	3		/* Target command register	*/
      1.1   briggs #define	NCR5380_IDSTAT	4		/* Bus status register		*/
      1.1   briggs #define	NCR5380_DMSTAT	5		/* DMA status register		*/
      1.1   briggs #define	NCR5380_TRCV	6		/* Target receive register	*/
      1.1   briggs #define	NCR5380_IRCV	7		/* Initiator receive register	*/
      1.1   briggs
      1.1   briggs /*
      1.1   briggs  * Definitions for Initiator command register.
      1.1   briggs  */
      1.1   briggs #define	SC_A_RST	0x80	/* RW - Assert RST			*/
      1.1   briggs #define	SC_TEST		0x40	/* W  - Test mode			*/
      1.1   briggs #define	SC_AIP		0x40	/* R  - Arbitration in progress		*/
      1.1   briggs #define	SC_LA		0x20	/* R  - Lost arbitration		*/
      1.1   briggs #define	SC_A_ACK	0x10	/* RW - Assert ACK			*/
      1.1   briggs #define	SC_A_BSY	0x08	/* RW - Assert BSY			*/
      1.1   briggs #define	SC_A_SEL	0x04	/* RW - Assert SEL			*/
      1.1   briggs #define	SC_A_ATN	0x02	/* RW - Assert ATN			*/
      1.1   briggs #define	SC_ADTB		0x01	/* RW - Assert Data To Bus		*/
      1.1   briggs
      1.1   briggs /*
      1.1   briggs  * Definitions for mode register
      1.1   briggs  */
      1.1   briggs #define	SC_B_DMA	0x80	/* RW - Block mode DMA (not on TT!)	*/
      1.1   briggs #define	SC_T_MODE	0x40	/* RW - Target mode			*/
      1.1   briggs #define	SC_E_PAR	0x20	/* RW - Enable parity check		*/
      1.1   briggs #define	SC_E_PARI	0x10	/* RW - Enable parity interrupt		*/
      1.1   briggs #define	SC_E_EOPI	0x08	/* RW - Enable End Of Process Interrupt	*/
      1.1   briggs #define	SC_MON_BSY	0x04	/* RW - Monitor BSY			*/
      1.1   briggs #define	SC_M_DMA	0x02	/* RW - Set DMA mode			*/
      1.1   briggs #define	SC_ARBIT	0x01	/* RW - Arbitrate			*/
      1.1   briggs
      1.1   briggs /*
      1.1   briggs  * Definitions for tcom register
      1.1   briggs  */
      1.1   briggs #define	SC_LBS		0x80	/* RW - Last Byte Send (not on TT!)	*/
      1.1   briggs #define	SC_A_REQ	0x08	/* RW - Assert REQ			*/
      1.1   briggs #define	SC_A_MSG	0x04	/* RW - Assert MSG			*/
      1.1   briggs #define	SC_A_CD		0x02	/* RW - Assert C/D			*/
      1.1   briggs #define	SC_A_IO		0x01	/* RW - Assert I/O			*/
      1.1   briggs
      1.1   briggs /*
      1.1   briggs  * Definitions for idstat register
      1.1   briggs  */
      1.1   briggs #define	SC_S_RST	0x80	/* R  - RST is set			*/
      1.1   briggs #define	SC_S_BSY	0x40	/* R  - BSY is set			*/
      1.1   briggs #define	SC_S_REQ	0x20	/* R  - REQ is set			*/
      1.1   briggs #define	SC_S_MSG	0x10	/* R  - MSG is set			*/
      1.1   briggs #define	SC_S_CD		0x08	/* R  - C/D is set			*/
      1.1   briggs #define	SC_S_IO		0x04	/* R  - I/O is set			*/
      1.1   briggs #define	SC_S_SEL	0x02	/* R  - SEL is set			*/
      1.1   briggs #define	SC_S_PAR	0x01	/* R  - Parity bit			*/
      1.1   briggs
      1.1   briggs /*
      1.1   briggs  * Definitions for dmastat register
      1.1   briggs  */
      1.1   briggs #define	SC_END_DMA	0x80	/* R  - End of DMA			*/
      1.1   briggs #define	SC_DMA_REQ	0x40	/* R  - DMA request			*/
      1.1   briggs #define	SC_PAR_ERR	0x20	/* R  - Parity error			*/
      1.1   briggs #define	SC_IRQ_SET	0x10	/* R  - IRQ is active			*/
      1.1   briggs #define	SC_PHS_MTCH	0x08	/* R  - Phase Match			*/
      1.1   briggs #define	SC_BSY_ERR	0x04	/* R  - Busy error			*/
      1.1   briggs #define	SC_ATN_STAT	0x02	/* R  - State of ATN line		*/
      1.1   briggs #define	SC_ACK_STAT	0x01	/* R  - State of ACK line		*/
      1.1   briggs #define	SC_S_SEND	0x00	/* W  - Start DMA output		*/
      1.1   briggs
      1.1   briggs #define	SC_CLINT	{ 		/* Clear interrupts	*/	\
      1.1   briggs 			int i = GET_5380_REG(NCR5380_IRCV);		\
      1.1   briggs 			}
      1.1   briggs
      1.1   briggs
      1.1   briggs /*
      1.1   briggs  * Definition of SCSI-bus phases. The values are determined by signals
      1.1   briggs  * on the SCSI-bus. DO NOT CHANGE!
      1.1   briggs  * The values must be used to index the pointers in SCSI-PARMS.
      1.1   briggs  */
      1.1   briggs #define	NR_PHASE	8
      1.1   briggs #define	PH_DATAOUT	0
      1.1   briggs #define	PH_DATAIN	1
      1.1   briggs #define	PH_CMD		2
      1.1   briggs #define	PH_STATUS	3
      1.1   briggs #define	PH_RES1		4
      1.1   briggs #define	PH_RES2		5
      1.1   briggs #define	PH_MSGOUT	6
      1.1   briggs #define	PH_MSGIN	7
      1.1   briggs
      1.1   briggs #define	PH_OUT(phase)	(!(phase & 1))	/* TRUE if output phase		*/
      1.1   briggs #define	PH_IN(phase)	(phase & 1)	/* TRUE if input phase		*/
      1.1   briggs
      1.1   briggs /*
      1.1   briggs  * Id of Host-adapter
      1.1   briggs  */
      1.1   briggs #define SC_HOST_ID	0x80
      1.1   briggs
      1.1   briggs /*
      1.1   briggs  * Base setting for 5380 mode register
      1.1   briggs  */
      1.1   briggs #define	IMODE_BASE	SC_E_PAR
      1.1   briggs
      1.1   briggs /*
      1.1   briggs  * SCSI completion status codes, should move to sys/scsi/????
      1.1   briggs  */
      1.1   briggs #define SCSMASK		0x1e	/* status code mask			*/
      1.1   briggs #define SCSGOOD		0x00	/* good status				*/
      1.1   briggs #define SCSCHKC		0x02	/* check condition			*/
      1.1   briggs #define SCSBUSY		0x08	/* busy status				*/
      1.1   briggs #define SCSCMET		0x04	/* condition met / good			*/
      1.1   briggs
      1.1   briggs /*
      1.1   briggs  * Return values of check_intr()
      1.1   briggs  */
      1.1   briggs #define	INTR_SPURIOUS	0
      1.1   briggs #define	INTR_RESEL	2
      1.1   briggs #define	INTR_DMA	3
      1.1   briggs
      1.1   briggs struct	ncr_softc {
      1.1   briggs 	struct	device		sc_dev;
1.11.24.1  nathanw 	struct	scsipi_channel	sc_channel;
     1.11  thorpej 	struct	scsipi_adapter	sc_adapter;
      1.3   briggs
      1.3   briggs 	/*
      1.3   briggs 	 * Some (pre-SCSI2) devices don't support select with ATN.
      1.3   briggs 	 * If the device responds to select with ATN by going into
      1.3   briggs 	 * command phase (ignoring ATN), then we flag it in the
      1.3   briggs 	 * following bitmask.
      1.3   briggs 	 * We also keep track of which devices have been selected
      1.3   briggs 	 * before.  This allows us to not even try raising ATN if
      1.3   briggs 	 * the target doesn't respond to it the first time.
      1.3   briggs 	 */
      1.3   briggs 	u_int8_t	sc_noselatn;
      1.3   briggs 	u_int8_t	sc_selected;
      1.1   briggs };
      1.1   briggs
      1.1   briggs /*
      1.1   briggs  * Max. number of dma-chains per request
      1.1   briggs  */
      1.1   briggs #define	MAXDMAIO	(MAXPHYS/NBPG + 1)
      1.1   briggs
      1.1   briggs /*
      1.1   briggs  * Some requests are not contiguous in physical memory. We need to break them
      1.1   briggs  * up into contiguous parts for DMA.
      1.1   briggs  */
      1.1   briggs struct dma_chain {
      1.1   briggs 	u_int	dm_count;
      1.1   briggs 	u_long	dm_addr;
      1.1   briggs };
      1.1   briggs
      1.1   briggs /*
      1.1   briggs  * Define our issue, free and disconnect queue's.
      1.1   briggs  */
      1.1   briggs typedef struct	req_q {
      1.1   briggs     struct req_q	*next;	    /* next in free, issue or discon queue  */
      1.1   briggs     struct req_q	*link;	    /* next linked command to execute       */
     1.10   bouyer     struct scsipi_xfer	*xs;	    /* request from high-level driver       */
      1.1   briggs     u_short		dr_flag;    /* driver state			    */
      1.1   briggs     u_char		phase;	    /* current SCSI phase		    */
      1.1   briggs     u_char		msgout;	    /* message to send when requested       */
      1.1   briggs     u_char		targ_id;    /* target for command		    */
      1.1   briggs     u_char		targ_lun;   /* lun for command			    */
      1.1   briggs     u_char		status;	    /* returned status byte		    */
      1.1   briggs     u_char		message;    /* returned message byte		    */
      1.1   briggs     u_char		*bounceb;   /* allocated bounce buffer		    */
      1.1   briggs     u_char		*bouncerp;  /* bounce read-pointer		    */
      1.1   briggs     struct dma_chain	dm_chain[MAXDMAIO];
      1.1   briggs     struct dma_chain	*dm_cur;    /* current dma-request		    */
      1.1   briggs     struct dma_chain	*dm_last;   /* last dma-request			    */
      1.1   briggs     long		xdata_len;  /* length of transfer		    */
      1.2   briggs     u_char		*xdata_ptr; /* virtual address of transfer	    */
      1.1   briggs     struct scsi_generic	xcmd;	    /* command to execute		    */
      1.1   briggs } SC_REQ;
      1.1   briggs
      1.1   briggs /*
      1.1   briggs  * Values for dr_flag:
      1.1   briggs  */
      1.1   briggs #define	DRIVER_IN_DMA	0x01	/* Non-polled DMA activated		*/
      1.1   briggs #define	DRIVER_AUTOSEN	0x02	/* Doing automatic sense		*/
      1.1   briggs #define	DRIVER_NOINT	0x04	/* We are booting: no interrupts	*/
      1.1   briggs #define	DRIVER_DMAOK	0x08	/* DMA can be used on this request	*/
      1.1   briggs #define	DRIVER_BOUNCING	0x10	/* Using the bounce buffer		*/
      1.5   briggs #define DRIVER_LINKCHK	0x20	/* Doing the linked command check	*/
      1.1   briggs
      1.1   briggs /* XXX: Should go to ncr5380var.h */
      1.1   briggs static SC_REQ	*issue_q   = NULL;	/* Commands waiting to be issued*/
      1.1   briggs static SC_REQ	*discon_q  = NULL;	/* Commands disconnected	*/
      1.1   briggs static SC_REQ	*connected = NULL;	/* Command currently connected	*/
      1.1   briggs
      1.1   briggs /*
      1.1   briggs  * Function decls:
      1.1   briggs  */
      1.2   briggs static int  transfer_pio __P((u_char *, u_char *, u_long *, int));
      1.1   briggs static int  wait_req_true __P((void));
      1.1   briggs static int  wait_req_false __P((void));
      1.1   briggs static int  scsi_select __P((SC_REQ *, int));
      1.1   briggs static int  handle_message __P((SC_REQ *, u_int));
      1.2   briggs static void ack_message __P((void));
      1.4   briggs static void nack_message __P((SC_REQ *, u_char));
      1.9   briggs static void finish_req __P((SC_REQ *reqp));
      1.9   briggs static int command_size __P((u_char opcode));
      1.8   briggs static int  information_transfer __P((struct ncr_softc *));
      1.1   briggs static void reselect __P((struct ncr_softc *));
      1.1   briggs static int  check_autosense __P((SC_REQ *, int));
      1.1   briggs static int  reach_msg_out __P((struct ncr_softc *, u_long));
      1.1   briggs static int  check_intr __P((struct ncr_softc *));
      1.8   briggs static void scsi_reset __P((void));
      1.8   briggs static void scsi_reset_verbose __P((struct ncr_softc *, const char *));
      1.1   briggs static void run_main __P((struct ncr_softc *));
      1.1   briggs static void scsi_main __P((struct ncr_softc *));
      1.1   briggs static void ncr_ctrl_intr __P((struct ncr_softc *));
      1.1   briggs static void ncr_tprint __P((SC_REQ *, char *, ...));
      1.1   briggs static void ncr_aprint __P((struct ncr_softc *, char *, ...));
      1.1   briggs
     1.10   bouyer static void show_data_sense __P((struct scsipi_xfer *xs));
      1.1   briggs static void show_request __P((SC_REQ *, char *));
      1.7   briggs /* static void show_phase __P((SC_REQ *, int)); */
      1.2   briggs static void show_signals __P((u_char, u_char));
      1.1   briggs
      1.1   briggs #endif /* _NCR5380REG_H */