mac68k/dev/if_snvar.h

1.10.8.1  mellon /*	$NetBSD: if_snvar.h,v 1.10.8.1 1997/11/15 01:13:30 mellon Exp $	*/
     1.1  briggs
     1.1  briggs /*
     1.1  briggs  * Copyright (c) 1991   Algorithmics Ltd (http://www.algor.co.uk)
     1.1  briggs  * You may use, copy, and modify this program so long as you retain the
     1.1  briggs  * copyright line.
     1.1  briggs  */
     1.1  briggs
     1.1  briggs /*
     1.9  scottr  * if_snvar.h -- National Semiconductor DP8393X (SONIC) NetBSD/mac68k vars
     1.1  briggs  */
     1.1  briggs
     1.1  briggs /*
     1.9  scottr  * Vendor types
     1.9  scottr  */
     1.9  scottr #define	SN_VENDOR_UNKNOWN	0xff	/* Unknown */
     1.9  scottr #define	SN_VENDOR_APPLE		0x00	/* Apple Computer/compatible */
     1.9  scottr #define	SN_VENDOR_DAYNA		0x01	/* Dayna/Kinetics EtherPort */
    1.10  scottr #define	SN_VENDOR_APPLE16	0x02	/* Apple Twisted Pair NB */
     1.9  scottr
     1.9  scottr /*
     1.1  briggs  * Memory access macros. Since we handle SONIC in 16 bit mode (PB5X0)
     1.1  briggs  * and 32 bit mode (everything else) using a single GENERIC kernel
     1.1  briggs  * binary, all structures have to be accessed using macros which can
     1.1  briggs  * adjust the offsets appropriately.
     1.1  briggs  */
     1.9  scottr #define	SWO(m, a, o, x)	(m ? (*(u_int32_t *)((u_int32_t *)(a) + (o)) = (x)) : \
     1.9  scottr 			     (*(u_int16_t *)((u_int16_t *)(a) + (o)) = (x)))
     1.9  scottr #define	SRO(m, a, o)	(m ? (*(u_int32_t *)((u_int32_t *)(a) + (o)) & 0xffff) : \
     1.9  scottr 			     (*(u_int16_t *)((u_int16_t *)(a) + (o)) & 0xffff))
     1.1  briggs
     1.1  briggs /*
     1.4  briggs  * Register access macros. We use bus_space_* to talk to the Sonic
     1.4  briggs  * registers. A mapping table is used in case a particular configuration
     1.4  briggs  * hooked the regs up at non-word offsets.
     1.4  briggs  */
     1.4  briggs #define	NIC_GET(sc, reg)	(bus_space_read_2((sc)->sc_regt,	\
     1.4  briggs 					(sc)->sc_regh,			\
     1.9  scottr 					((sc)->sc_reg_map[(reg)])))
     1.4  briggs #define	NIC_PUT(sc, reg, val)	(bus_space_write_2((sc)->sc_regt,	\
     1.4  briggs 					(sc)->sc_regh,			\
     1.4  briggs 					((sc)->sc_reg_map[reg]),	\
     1.4  briggs 					(val)))
     1.9  scottr
     1.9  scottr extern int	kvtop(caddr_t addr);
     1.9  scottr #define	SONIC_GETDMA(p)	(u_int32_t)(kvtop((caddr_t)(p)))
     1.9  scottr
     1.4  briggs #define	SN_REGSIZE	SN_NREGS*4
     1.4  briggs
     1.4  briggs /* mac68k does not have any write buffers to flush... */
     1.4  briggs #define	wbflush()
     1.4  briggs
     1.4  briggs /*
     1.1  briggs  * buffer sizes in 32 bit mode
     1.8  briggs  * 1 TXpkt is 4 hdr words + (3 * FRAGMAX) + 1 link word == 23 words == 92 bytes
     1.1  briggs  *
     1.1  briggs  * 1 RxPkt is 7 words == 28 bytes
     1.1  briggs  * 1 Rda   is 4 words == 16 bytes
     1.8  briggs  *
     1.8  briggs  * The CDA is 17 words == 68 bytes
     1.8  briggs  *
     1.8  briggs  * total space in page 0 = NTDA * 92 + NRRA * 16 + NRDA * 28 + 68
     1.1  briggs  */
     1.1  briggs
1.10.8.1  mellon #define NRBA    32		/* # receive buffers < NRRA */
     1.8  briggs #define RBAMASK (NRBA-1)
1.10.8.1  mellon #define NTDA    16		/* # transmit descriptors */
1.10.8.1  mellon #define NRRA    64		/* # receive resource descriptors */
     1.8  briggs #define RRAMASK (NRRA-1)	/* the reason why NRRA must be power of two */
     1.1  briggs
     1.1  briggs #define FCSSIZE 4		/* size of FCS appended to packets */
     1.1  briggs
     1.1  briggs /*
     1.1  briggs  * maximum receive packet size plus 2 byte pad to make each
     1.1  briggs  * one aligned. 4 byte slop (required for eobc)
     1.1  briggs  */
     1.1  briggs #define RBASIZE(sc)	(sizeof(struct ether_header) + ETHERMTU + FCSSIZE + \
     1.1  briggs 			 ((sc)->bitmode ? 6 : 2))
     1.1  briggs
     1.1  briggs /*
     1.1  briggs  * transmit buffer area
     1.1  briggs  */
     1.7  scottr #define TXBSIZE	1536	/* 6*2^8 -- the same size as the 8390 TXBUF */
     1.1  briggs
     1.9  scottr #define	SN_NPAGES	2 + NRBA + (NTDA/2)
     1.1  briggs
     1.1  briggs typedef struct mtd {
     1.1  briggs 	void		*mtd_txp;
     1.9  scottr 	u_int32_t	mtd_vtxp;
     1.9  scottr 	caddr_t		mtd_buf;
     1.9  scottr 	u_int32_t	mtd_vbuf;
     1.9  scottr 	struct mbuf	*mtd_mbuf;
     1.1  briggs } mtd_t;
     1.1  briggs
     1.1  briggs /*
     1.1  briggs  * The sn_softc for Mac68k if_sn.
     1.1  briggs  */
     1.1  briggs typedef struct sn_softc {
     1.9  scottr 	struct device	sc_dev;
     1.9  scottr 	struct ethercom	sc_ethercom;
     1.2      is #define	sc_if		sc_ethercom.ec_if	/* network visible interface */
     1.1  briggs
     1.1  briggs 	bus_space_tag_t		sc_regt;
     1.1  briggs 	bus_space_handle_t	sc_regh;
     1.1  briggs
     1.9  scottr 	int		bitmode;	/* 32 bit mode == 1, 16 == 0 */
     1.4  briggs 	bus_size_t	sc_reg_map[SN_NREGS];	/* register offsets */
     1.1  briggs
     1.4  briggs 	u_int16_t	snr_dcr;	/* DCR for this instance */
     1.4  briggs 	u_int16_t	snr_dcr2;	/* DCR2 for this instance */
     1.9  scottr 	int		slotno;		/* Slot number */
     1.1  briggs
     1.9  scottr 	int		sc_rramark;	/* index into p_rra of wp */
     1.9  scottr 	void		*p_rra[NRRA];	/* RX resource descs */
     1.9  scottr 	u_int32_t	v_rra[NRRA];	/* DMA addresses of p_rra */
     1.9  scottr 	u_int32_t	v_rea;		/* ptr to the end of the rra space */
     1.9  scottr
     1.9  scottr 	int		sc_rxmark;	/* current hw pos in rda ring */
     1.9  scottr 	int		sc_rdamark;	/* current sw pos in rda ring */
     1.9  scottr 	int		sc_nrda;	/* total number of RDAs */
     1.9  scottr 	caddr_t		p_rda;
     1.9  scottr 	u_int32_t	v_rda;
     1.1  briggs
     1.9  scottr 	caddr_t		rbuf[NRBA];
     1.1  briggs
     1.1  briggs 	struct mtd	mtda[NTDA];
     1.1  briggs 	int		mtd_hw;		/* idx of first mtd given to hw */
     1.1  briggs 	int		mtd_prev;	/* idx of last mtd given to hardware */
     1.1  briggs 	int		mtd_free;	/* next free mtd to use */
     1.1  briggs 	int		mtd_tlinko;	/*
     1.1  briggs 					 * offset of tlink of last txp given
     1.1  briggs 					 * to SONIC. Need to clear EOL on
     1.1  briggs 					 * this word to add a desc.
     1.1  briggs 					 */
     1.9  scottr 	int		mtd_pint;	/* Counter to set TXP_PINT */
     1.1  briggs
     1.1  briggs 	void		*p_cda;
     1.9  scottr 	u_int32_t	v_cda;
     1.1  briggs
     1.4  briggs 	unsigned char	*space;
     1.1  briggs } sn_softc_t;
     1.1  briggs
     1.1  briggs /*
     1.1  briggs  * Accessing SONIC data structures and registers as 32 bit values
     1.1  briggs  * makes code endianess independent.  The SONIC is however always in
     1.1  briggs  * bigendian mode so it is necessary to ensure that data structures shared
     1.1  briggs  * between the CPU and the SONIC are always in bigendian order.
     1.1  briggs  */
     1.1  briggs
     1.1  briggs /*
     1.1  briggs  * Receive Resource Descriptor
     1.1  briggs  * This structure describes the buffers into which packets
     1.1  briggs  * will be received.  Note that more than one packet may be
     1.1  briggs  * packed into a single buffer if constraints permit.
     1.1  briggs  */
     1.1  briggs #define	RXRSRC_PTRLO	0	/* buffer address LO */
     1.1  briggs #define	RXRSRC_PTRHI	1	/* buffer address HI */
     1.1  briggs #define	RXRSRC_WCLO	2	/* buffer size (16bit words) LO */
     1.1  briggs #define	RXRSRC_WCHI	3	/* buffer size (16bit words) HI */
     1.1  briggs
     1.1  briggs #define	RXRSRC_SIZE(sc)	(sc->bitmode ? (4 * 4) : (4 * 2))
     1.1  briggs
     1.1  briggs /*
     1.1  briggs  * Receive Descriptor
     1.1  briggs  * This structure holds information about packets received.
     1.1  briggs  */
     1.1  briggs #define	RXPKT_STATUS	0
     1.1  briggs #define	RXPKT_BYTEC	1
     1.1  briggs #define	RXPKT_PTRLO	2
     1.1  briggs #define	RXPKT_PTRHI	3
     1.1  briggs #define	RXPKT_SEQNO	4
     1.1  briggs #define	RXPKT_RLINK	5
     1.1  briggs #define	RXPKT_INUSE	6
     1.1  briggs #define	RXPKT_SIZE(sc)	(sc->bitmode ? (7 * 4) : (7 * 2))
     1.1  briggs
     1.1  briggs #define RBASEQ(x) (((x)>>8)&0xff)
     1.1  briggs #define PSNSEQ(x) ((x) & 0xff)
     1.1  briggs
     1.1  briggs /*
     1.1  briggs  * Transmit Descriptor
     1.1  briggs  * This structure holds information about packets to be transmitted.
     1.1  briggs  */
     1.5  briggs #define FRAGMAX	8		/* maximum number of fragments in a packet */
     1.1  briggs
     1.1  briggs #define	TXP_STATUS	0	/* + transmitted packet status */
     1.1  briggs #define	TXP_CONFIG	1	/* transmission configuration */
     1.1  briggs #define	TXP_PKTSIZE	2	/* entire packet size in bytes */
     1.1  briggs #define	TXP_FRAGCNT	3	/* # fragments in packet */
     1.1  briggs
     1.1  briggs #define	TXP_FRAGOFF	4	/* offset to first fragment */
     1.1  briggs #define	TXP_FRAGSIZE	3	/* size of each fragment desc */
     1.1  briggs #define	TXP_FPTRLO	0	/* ptr to packet fragment LO */
     1.1  briggs #define	TXP_FPTRHI	1	/* ptr to packet fragment HI */
     1.1  briggs #define	TXP_FSIZE	2	/* fragment size */
     1.1  briggs
     1.5  briggs #define	TXP_WORDS	TXP_FRAGOFF + (FRAGMAX*TXP_FRAGSIZE) + 1	/* 1 for tlink */
     1.1  briggs #define	TXP_SIZE(sc)	((sc->bitmode) ? (TXP_WORDS*4) : (TXP_WORDS*2))
     1.1  briggs
     1.1  briggs #define EOL	0x0001		/* end of list marker for link fields */
     1.1  briggs
     1.1  briggs /*
     1.1  briggs  * CDA, the CAM descriptor area. The SONIC has a 16 entry CAM to
     1.1  briggs  * match incoming addresses against. It is programmed via DMA
     1.1  briggs  * from a memory region.
     1.1  briggs  */
     1.1  briggs #define MAXCAM	16	/* number of user entries in CAM */
     1.1  briggs #define	CDA_CAMDESC	4	/* # words i na descriptor */
     1.1  briggs #define	CDA_CAMEP	0	/* CAM Address Port 0 xx-xx-xx-xx-YY-YY */
     1.1  briggs #define	CDA_CAMAP0	1	/* CAM Address Port 1 xx-xx-YY-YY-xx-xx */
     1.1  briggs #define	CDA_CAMAP1	2	/* CAM Address Port 2 YY-YY-xx-xx-xx-xx */
     1.1  briggs #define	CDA_CAMAP2	3
     1.1  briggs #define	CDA_ENABLE	64	/* mask enabling CAM entries */
     1.1  briggs #define	CDA_SIZE(sc)	((4*16 + 1) * ((sc->bitmode) ? 4 : 2))
     1.1  briggs
     1.4  briggs int	snsetup __P((struct sn_softc *sc, u_int8_t *));
     1.4  briggs void	snintr __P((void *, int));
     1.6  briggs void	sn_get_enaddr __P((bus_space_tag_t t, bus_space_handle_t h,
     1.7  scottr 	    vm_offset_t o, u_char *dst));