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/*
 * Copyright (c) 1991   Algorithmics Ltd (http://www.algor.co.uk)
 * You may use, copy, and modify this program so long as you retain the
 * copyright line.
 */

/*
 * if_sonic.h -- National Semiconductor DP83932BVF (SONIC)
 */

/*
 * Accessing SONIC data structures and registers as 32 bit values
 * makes code endianess independent.  The SONIC is however always in
 * bigendian mode so it is necessary to ensure that data structures shared
 * between the CPU and the SONIC are always in bigendian order.
 */

/*
 * Receive Resource Descriptor
 * This structure describes the buffers into which packets
 * will be received.  Note that more than one packet may be
 * packed into a single buffer if constraints permit.
 */
#if SONICDW == 32
struct RXrsrc {
	u_long	buff_ptrlo;	/* buffer address LO */
	u_long	buff_ptrhi;	/* buffer address HI */
	u_long	buff_wclo;	/* buffer size (16bit words) LO */ 
	u_long	buff_wchi;	/* buffer size (16bit words) HI */
};
#endif

/*
 * Receive Descriptor
 * This structure holds information about packets received.
 */
#if SONICDW == 32
struct RXpkt {
	u_long	status;		/* + receive status */
	u_long	byte_count;	/* + packet byte count (including FCS) */
	u_long	pkt_ptrlo;	/* + packet data LO (in RBA) */
	u_long	pkt_ptrhi;	/* + packet data HI (in RBA) */
	u_long	seq_no;		/* + RBA sequence numbers */
	u_long	rlink;		/* link to next receive descriptor */
	u_long	in_use;		/* + packet available to SONIC */
};
#endif
#define RBASEQ(x) (((x)>>8)&0xff)
#define PSNSEQ(x) ((x) & 0xff)

/*
 * Transmit Descriptor
 * This structure holds information about packets to be transmitted.
 */
#define FRAGMAX	32		/* maximum number of fragments in a packet */
#if SONICDW == 32
struct TXpkt {
	u_long	status;		/* + transmitted packet status */
	u_long	config;		/* transmission configuration */
	u_long	pkt_size;	/* entire packet size in bytes */
	u_long	frag_count;	/* # fragments in packet */
	union {
		struct {
			u_long	_frag_ptrlo;	/* pointer to packet fragment LO */
			u_long	_frag_ptrhi;	/* pointer to packet fragment HI */
			u_long	_frag_size;	/* fragment size */
		} u_frag;
		struct {
			u_long	_tlink;		/* link to next transmit descriptor */
		} u_link;
	} u[FRAGMAX];
	u_long	:32;		/* This makes tcp->u[FRAGMAX].u_link.link valid! */
};
#endif

#define frag_ptrlo u_frag._frag_ptrlo
#define frag_ptrhi u_frag._frag_ptrhi
#define frag_size u_frag._frag_size
#define tlink u_link._tlink

#define EOL	0x0001		/* end of list marker for link fields */

#define MAXCAM	16	/* number of user entries in CAM */
#if SONICDW == 32
struct CDA {
	struct {
		u_long	cam_ep;		/* CAM Entry Pointer */
		u_long	cam_ap0;	/* CAM Address Port 0 xx-xx-xx-xx-YY-YY */
		u_long	cam_ap1;	/* CAM Address Port 1 xx-xx-YY-YY-xxxx */
		u_long	cam_ap2;	/* CAM Address Port 2 YY-YY-xx-xx-xx-xx */
	} desc[MAXCAM];
	u_long	enable;		/* mask enabling CAM entries */
};
#endif

/*
 * SONIC registers as seen by the processor
 */
struct sonic_reg {
	volatile u_long s_cr;		/* 00: Command */
	volatile u_long	s_dcr;		/* 01: Data Configuration */
	volatile u_long	s_rcr;		/* 02: Receive Control */
	volatile u_long	s_tcr;		/* 03: Transmit Control */
	volatile u_long	s_imr;		/* 04: Interrupt Mask */
	volatile u_long	s_isr;		/* 05: Interrupt Status */
	volatile u_long	s_utda;		/* 06: Upper Transmit Descriptor Address */
	volatile u_long	s_ctda;		/* 07: Current Transmit Descriptor Address */
	volatile u_long	_s_tps;		/* 08* Transmit Packet Size */
	volatile u_long	_s_tfc;		/* 09* Transmit Fragment Count */
	volatile u_long	_s_tsa0;	/* 0a* Transmit Start Address 0 */
	volatile u_long	_s_tsa1;	/* 0b* Transmit Start Address 1 */
	volatile u_long	_s_tfs;		/* 0c* Transmit Fragment Size */
	volatile u_long	s_urda;		/* 0d: Upper Receive Descriptor Address */
	volatile u_long	s_crda;		/* 0e: Current Receive Descriptor Address */
	volatile u_long	_s_crba0;	/* 0f* Current Receive Buffer Address 0 */
	volatile u_long	_s_crba1;	/* 10* Current Receive Buffer Address 1 */
	volatile u_long	_s_rbwc0;	/* 11* Remaining Buffer Word Count 0 */
	volatile u_long	_s_rbwc1;	/* 12* Remaining Buffer Word Count 1 */
	volatile u_long	s_eobc;		/* 13: End Of Buffer Word Count */
	volatile u_long	s_urra;		/* 14: Upper Receive Resource Address */
	volatile u_long	s_rsa;		/* 15: Resource Start Address */
	volatile u_long	s_rea;		/* 16: Resource End Address */
	volatile u_long	s_rrp;		/* 17: Resource Read Pointer */
	volatile u_long	s_rwp;		/* 18: Resource Write Pointer */
	volatile u_long	_s_trba0;	/* 19* Temporary Receive Buffer Address 0 */
	volatile u_long	_s_trba1;	/* 1a* Temporary Receive Buffer Address 1 */
	volatile u_long	_s_tbwc0;	/* 1b* Temporary Buffer Word Count 0 */
	volatile u_long	_s_tbwc1;	/* 1c* Temporary Buffer Word Count 1 */
	volatile u_long	_s_addr0;	/* 1d* Address Generator 0 */
	volatile u_long	_s_addr1;	/* 1e* Address Generator 1 */
	volatile u_long	_s_llfa;	/* 1f* Last Link Field Address */
	volatile u_long	_s_ttda;	/* 20* Temp Transmit Descriptor Address */
	volatile u_long	s_cep;		/* 21: CAM Entry Pointer */
	volatile u_long	s_cap2;		/* 22: CAM Address Port 2 */
	volatile u_long	s_cap1;		/* 23: CAM Address Port 1 */
	volatile u_long	s_cap0;		/* 24: CAM Address Port 0 */
	volatile u_long	s_ce;		/* 25: CAM Enable */
	volatile u_long	s_cdp;		/* 26: CAM Descriptor Pointer */
	volatile u_long	s_cdc;		/* 27: CAM Descriptor Count */
	volatile u_long	s_sr;		/* 28: Silicon Revision */
	volatile u_long	s_wt0;		/* 29: Watchdog Timer 0 */
	volatile u_long	s_wt1;		/* 2a: Watchdog Timer 1 */
	volatile u_long	s_rsc;		/* 2b: Receive Sequence Counter */
	volatile u_long	s_crct;		/* 2c: CRC Error Tally */
	volatile u_long	s_faet;		/* 2d: FAE Tally */
	volatile u_long	s_mpt;		/* 2e: Missed Packet Tally */
	volatile u_long	_s_mdt;		/* 2f* Maximum Deferral Timer */
	volatile u_long	_s_rtc;		/* 30* Receive Test Control */
	volatile u_long	_s_ttc;		/* 31* Transmit Test Control */
	volatile u_long	_s_dtc;		/* 32* DMA Test Control */
	volatile u_long	_s_cc0;		/* 33* CAM Comparison 0 */
	volatile u_long	_s_cc1;		/* 34* CAM Comparison 1 */
	volatile u_long	_s_cc2;		/* 35* CAM Comparison 2 */
	volatile u_long	_s_cm;		/* 36* CAM Match */
	volatile u_long	:32;		/* 37* reserved */
	volatile u_long	:32;		/* 38* reserved */
	volatile u_long	_s_rbc;		/* 39* Receiver Byte Count */
	volatile u_long	:32;		/* 3a* reserved */
	volatile u_long	_s_tbo;		/* 3b* Transmitter Backoff Counter */
	volatile u_long	_s_trc;		/* 3c* Transmitter Random Counter */
	volatile u_long	_s_tbm;		/* 3d* Transmitter Backoff Mask */
	volatile u_long	:32;		/* 3e* Reserved */
	volatile u_long	s_dcr2;		/* 3f Data Configuration 2 (AVF) */
};

/*
 * Register Interpretations
 */

/*
 * The command register is used for issuing commands to the SONIC.
 * With the exception of CR_RST, the bit is reset when the operation
 * completes.
 */
#define CR_LCAM		0x0200	/* load CAM with descriptor at s_cdp */
#define CR_RRRA		0x0100	/* read next RRA descriptor at s_rrp */
#define CR_RST		0x0080	/* software reset */
#define CR_ST		0x0020	/* start timer */
#define CR_STP		0x0010	/* stop timer */
#define CR_RXEN		0x0008	/* receiver enable */
#define CR_RXDIS	0x0004	/* receiver disable */
#define CR_TXP		0x0002	/* transmit packets */
#define CR_HTX		0x0001	/* halt transmission */

/*
 * The data configuration register establishes the SONIC's bus cycle
 * operation.  This register can only be accessed when the SONIC is in
 * reset mode (s_cr.CR_RST is set.)
 */
#define DCR_EXBUS	0x8000	/* extended bus mode (AVF) */
#define DCR_LBR		0x2000	/* latched bus retry */
#define DCR_PO1		0x1000	/* programmable output 1 */
#define DCR_PO0		0x0800	/* programmable output 0 */
#define DCR_STERM	0x0400	/* synchronous termination */
#define DCR_USR1	0x0200	/* reflects USR1 input pin */
#define DCR_USR0	0x0100	/* reflects USR0 input pin */
#define DCR_WC1		0x0080	/* wait state control 1 */
#define DCR_WC0		0x0040	/* wait state control 0 */
#define DCR_DW		0x0020	/* data width select */
#define DCR_BMS		0x0010	/* DMA block mode select */
#define DCR_RFT1	0x0008	/* receive FIFO threshold control 1 */
#define DCR_RFT0	0x0004	/* receive FIFO threshold control 0 */
#define DCR_TFT1	0x0002	/* transmit FIFO threshold control 1 */
#define DCR_TFT0	0x0001	/* transmit FIFO threshold control 0 */

/* data configuration register aliases */
#define DCR_SYNC	DCR_STERM /* synchronous (memory cycle 2 clocks) */
#define DCR_ASYNC	0	  /* asynchronous (memory cycle 3 clocks) */

#define DCR_WAIT0	0		  /* 0 wait states added */
#define DCR_WAIT1	DCR_WC0		  /* 1 wait state added */
#define DCR_WAIT2	DCR_WC1		  /* 2 wait states added */
#define DCR_WAIT3	(DCR_WC1|DCR_WC0) /* 3 wait states added */

#define DCR_DW16	0	/* use 16-bit DMA accesses */
#define DCR_DW32	DCR_DW	/* use 32-bit DMA accesses */

#define DCR_DMAEF	0	/* DMA until TX/RX FIFO has emptied/filled */
#define DCR_DMABLOCK	DCR_BMS	/* DMA until RX/TX threshold crossed */

#define DCR_RFT4	0		/* receive threshold 4 bytes */
#define DCR_RFT8	DCR_RFT0	/* receive threshold 8 bytes */
#define DCR_RFT16	DCR_RFT1 	/* receive threshold 16 bytes */
#define DCR_RFT24	(DCR_RFT1|DCR_RFT0) /* receive threshold 24 bytes */

#define DCR_TFT8	0		/* transmit threshold 8 bytes */
#define DCR_TFT16	DCR_TFT0	/* transmit threshold 16 bytes */
#define DCR_TFT24	DCR_TFT1	/* transmit threshold 24 bytes */
#define DCR_TFT28	(DCR_TFT1|DCR_TFT0) /* transmit threshold 28 bytes */

/*
 * The receive control register is used to filter incoming packets and
 * provides status information on packets received.
 * The contents of the register are copied into the RXpkt.status field
 * when a packet is received. RCR_MC - RCR_PRX are then reset.
 */
#define RCR_ERR		0x8000	/* accept packets with CRC errors */
#define RCR_RNT		0x4000	/* accept runt (length < 64) packets */
#define RCR_BRD		0x2000	/* accept broadcast packets */
#define RCR_PRO		0x1000	/* accept all physical address packets */
#define RCR_AMC		0x0800	/* accept all multicast packets */
#define RCR_LB1		0x0400	/* loopback control 1 */
#define RCR_LB0		0x0200	/* loopback control 0 */
#define RCR_MC		0x0100	/* multicast packet received */
#define RCR_BC		0x0080	/* broadcast packet received */
#define RCR_LPKT	0x0040	/* last packet in RBA (RBWC < EOBC) */
#define RCR_CRS		0x0020	/* carrier sense activity */
#define RCR_COL		0x0010	/* collision activity */
#define RCR_CRC		0x0008	/* CRC error */
#define RCR_FAE		0x0004	/* frame alignment error */
#define RCR_LBK		0x0002	/* loopback packet received */
#define RCR_PRX		0x0001	/* packet received without errors */

/* receiver control register aliases */
/* the loopback control bits provide the following options */
#define RCR_LBNONE	0		/* no loopback - normal operation */
#define RCR_LBMAC	RCR_LB0		/* MAC loopback */
#define RCR_LBENDEC	RCR_LB1		/* ENDEC loopback */
#define RCR_LBTRANS	(RCR_LB1|RCR_LB0) /* transceiver loopback */

/*
 * The transmit control register controls the SONIC's transmit operations.
 * TCR_PINT - TCR_EXDIS are loaded from the TXpkt.config field at the
 * start of transmission.  TCR_EXD-TCR_PTX are cleared at the beginning
 * of transmission and updated when the transmission is completed.
 */
#define TCR_PINT	0x8000	/* interrupt when transmission starts */
#define TCR_POWC	0x4000	/* program out of window collision timer */
#define TCR_CRCI	0x2000	/* transmit packet without 4 byte FCS */
#define TCR_EXDIS	0x1000	/* disable excessive deferral timer */
#define TCR_EXD		0x0400	/* excessive deferrals occurred (>3.2ms) */
#define TCR_DEF		0x0200	/* deferred transmissions occurred */
#define TCR_NCRS	0x0100	/* carrier not present during transmission */
#define TCR_CRSL	0x0080	/* carrier lost during transmission */
#define TCR_EXC		0x0040	/* excessive collisions (>16) detected */
#define TCR_OWC		0x0020	/* out of window (bad) collision occurred */
#define TCR_PMB		0x0008	/* packet monitored bad - the tansmitted
				 * packet had a bad source address or CRC */
#define TCR_FU		0x0004	/* FIFO underrun (memory access failed) */
#define TCR_BCM		0x0002	/* byte count mismatch (TXpkt.pkt_size
				 * != sum(TXpkt.frag_size) */
#define TCR_PTX		0x0001	/* packet transmitted without errors */

/* transmit control register aliases */
#define TCR_OWCSFD	0        /* start after start of frame delimiter */
#define TCR_OWCPRE	TCR_POWC /* start after first bit of preamble */


/*
 * The interrupt mask register masks the interrupts that
 * are generated from the interrupt status register.
 * All reserved bits should be written with 0.
 */
#define IMR_BREN	0x4000	/* bus retry occurred enable */
#define IMR_HBLEN	0x2000	/* heartbeat lost enable */
#define IMR_LCDEN	0x1000	/* load CAM done interrupt enable */
#define IMR_PINTEN	0x0800	/* programmable interrupt enable */
#define IMR_PRXEN	0x0400	/* packet received enable */
#define IMR_PTXEN	0x0200	/* packet transmitted enable */
#define IMR_TXEREN	0x0100	/* transmit error enable */
#define IMR_TCEN	0x0080	/* timer complete enable */
#define IMR_RDEEN	0x0040	/* receive descriptors exhausted enable */
#define IMR_RBEEN	0x0020	/* receive buffers exhausted enable */
#define IMR_RBAEEN	0x0010	/* receive buffer area exceeded enable */
#define IMR_CRCEN	0x0008	/* CRC tally counter rollover enable */
#define IMR_FAEEN	0x0004	/* FAE tally counter rollover enable */
#define IMR_MPEN	0x0002	/* MP tally counter rollover enable */
#define IMR_RFOEN	0x0001	/* receive FIFO overrun enable */


/*
 * The interrupt status register indicates the source of an interrupt when
 * the INT pin goes active.  The interrupt is acknowledged by writing
 * the appropriate bit(s) in this register.
 */
#define ISR_ALL		0xffff	/* all interrupts */
#define ISR_BR		0x4000	/* bus retry occurred */
#define ISR_HBL		0x2000	/* CD heartbeat lost */
#define ISR_LCD		0x1000	/* load CAM command has completed */
#define ISR_PINT	0x0800	/* programmed interrupt from TXpkt.config */
#define ISR_PKTRX	0x0400	/* packet received */
#define ISR_TXDN	0x0200	/* no remaining packets to be transmitted */
#define ISR_TXER	0x0100	/* packet transmission caused error */
#define ISR_TC		0x0080	/* timer complete */
#define ISR_RDE		0x0040	/* receive descriptors exhausted */
#define ISR_RBE		0x0020	/* receive buffers exhausted */
#define ISR_RBAE	0x0010	/* receive buffer area exceeded */
#define ISR_CRC		0x0008	/* CRC tally counter rollover */
#define ISR_FAE		0x0004	/* FAE tally counter rollover */
#define ISR_MP		0x0002	/* MP tally counter rollover */
#define ISR_RFO		0x0001	/* receive FIFO overrun */

/*
 * The second data configuration register allows additional user defined
 * pins to be controlled.  These bits are only available if s_dcr.DCR_EXBUS
 * is set.
 */
#define DCR2_EXPO3	0x8000	/* EXUSR3 output */
#define DCR2_EXPO2	0x4000	/* EXUSR2 output */
#define DCR2_EXPO1	0x2000	/* EXUSR1 output */
#define DCR2_EXPO0	0x1000	/* EXUSR0 output */
#define DCR2_PHL	0x0010	/* extend HOLD signal by 1/2 clock */
#define DCR2_LRDY	0x0008	/* set latched ready mode */
#define DCR2_PCM	0x0004	/* packet compress on match */
#define DCR2_PCNM	0x0002	/* packet compress on mismatch */
#define DCR2_RJM	0x0001	/* reject on match */