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path: root/drivers/net/smc91111.h
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/*------------------------------------------------------------------------
 . smc91111.h - macros for the LAN91C111 Ethernet Driver
 .
 . (C) Copyright 2002
 . Sysgo Real-Time Solutions, GmbH <www.elinos.com>
 . Rolf Offermanns <rof@sysgo.de>
 . Copyright (C) 2001 Standard Microsystems Corporation (SMSC)
 .       Developed by Simple Network Magic Corporation (SNMC)
 . Copyright (C) 1996 by Erik Stahlman (ES)
 .
  * SPDX-License-Identifier:	GPL-2.0+
 .
 . This file contains register information and access macros for
 . the LAN91C111 single chip ethernet controller.  It is a modified
 . version of the smc9194.h file.
 .
 . Information contained in this file was obtained from the LAN91C111
 . manual from SMC.  To get a copy, if you really want one, you can find
 . information under www.smsc.com.
 .
 . Authors
 .	Erik Stahlman				( erik@vt.edu )
 .	Daris A Nevil				( dnevil@snmc.com )
 .
 . History
 . 03/16/01		Daris A Nevil	Modified for use with LAN91C111 device
 .
 ---------------------------------------------------------------------------*/
#ifndef _SMC91111_H_
#define _SMC91111_H_

#include <asm/types.h>
#include <config.h>

/*
 * This function may be called by the board specific initialisation code
 * in order to override the default mac address.
 */

void smc_set_mac_addr (const unsigned char *addr);


/* I want some simple types */

typedef unsigned char			byte;
typedef unsigned short			word;
typedef unsigned long int		dword;

struct smc91111_priv{
	u8 dev_num;
};

/*
 . DEBUGGING LEVELS
 .
 . 0 for normal operation
 . 1 for slightly more details
 . >2 for various levels of increasingly useless information
 .    2 for interrupt tracking, status flags
 .    3 for packet info
 .    4 for complete packet dumps
*/
/*#define SMC_DEBUG 0 */

/* Because of bank switching, the LAN91xxx uses only 16 I/O ports */

#define	SMC_IO_EXTENT	16

#ifdef CONFIG_CPU_PXA25X

#ifdef CONFIG_XSENGINE
#define	SMC_inl(a,r)	(*((volatile dword *)((a)->iobase+((r)<<1))))
#define	SMC_inw(a,r)	(*((volatile word *)((a)->iobase+((r)<<1))))
#define SMC_inb(a,p)  ({ \
	unsigned int __p = (unsigned int)((a)->iobase + ((p)<<1)); \
	unsigned int __v = *(volatile unsigned short *)((__p) & ~2); \
	if (__p & 2) __v >>= 8; \
	else __v &= 0xff; \
	__v; })
#elif defined(CONFIG_XAENIAX)
#define SMC_inl(a,r)	(*((volatile dword *)((a)->iobase+(r))))
#define SMC_inw(a,z)	({ \
	unsigned int __p = (unsigned int)((a)->iobase + (z)); \
	unsigned int __v = *(volatile unsigned int *)((__p) & ~3); \
	if (__p & 3) __v >>= 16; \
	else __v &= 0xffff; \
	__v; })
#define SMC_inb(a,p)	({ \
	unsigned int ___v = SMC_inw((a),(p) & ~1); \
	if ((p) & 1) ___v >>= 8; \
	else ___v &= 0xff; \
	___v; })
#else
#define	SMC_inl(a,r)	(*((volatile dword *)((a)->iobase+(r))))
#define	SMC_inw(a,r)	(*((volatile word *)((a)->iobase+(r))))
#define SMC_inb(a,p)	({ \
	unsigned int __p = (unsigned int)((a)->iobase + (p)); \
	unsigned int __v = *(volatile unsigned short *)((__p) & ~1); \
	if (__p & 1) __v >>= 8; \
	else __v &= 0xff; \
	__v; })
#endif

#ifdef CONFIG_XSENGINE
#define	SMC_outl(a,d,r)	(*((volatile dword *)((a)->iobase+(r<<1))) = d)
#define	SMC_outw(a,d,r)	(*((volatile word *)((a)->iobase+(r<<1))) = d)
#elif defined (CONFIG_XAENIAX)
#define SMC_outl(a,d,r)	(*((volatile dword *)((a)->iobase+(r))) = d)
#define SMC_outw(a,d,p)	({ \
	dword __dwo = SMC_inl((a),(p) & ~3); \
	dword __dwn = (word)(d); \
	__dwo &= ((p) & 3) ? 0x0000ffff : 0xffff0000; \
	__dwo |= ((p) & 3) ? __dwn << 16 : __dwn; \
	SMC_outl((a), __dwo, (p) & ~3); \
})
#else
#define	SMC_outl(a,d,r)	(*((volatile dword *)((a)->iobase+(r))) = d)
#define	SMC_outw(a,d,r)	(*((volatile word *)((a)->iobase+(r))) = d)
#endif

#define	SMC_outb(a,d,r)	({	word __d = (byte)(d);  \
				word __w = SMC_inw((a),(r)&~1);  \
				__w &= ((r)&1) ? 0x00FF : 0xFF00;  \
				__w |= ((r)&1) ? __d<<8 : __d;  \
				SMC_outw((a),__w,(r)&~1);  \
			})

#define SMC_outsl(a,r,b,l)	({	int __i; \
					dword *__b2; \
					__b2 = (dword *) b; \
					for (__i = 0; __i < l; __i++) { \
					    SMC_outl((a), *(__b2 + __i), r); \
					} \
				})

#define SMC_outsw(a,r,b,l)	({	int __i; \
					word *__b2; \
					__b2 = (word *) b; \
					for (__i = 0; __i < l; __i++) { \
					    SMC_outw((a), *(__b2 + __i), r); \
					} \
				})

#define SMC_insl(a,r,b,l)	({	int __i ;  \
					dword *__b2;  \
					__b2 = (dword *) b;  \
					for (__i = 0; __i < l; __i++) {  \
					  *(__b2 + __i) = SMC_inl((a),(r));  \
					  SMC_inl((a),0);  \
					};  \
				})

#define SMC_insw(a,r,b,l)		({	int __i ;  \
					word *__b2;  \
					__b2 = (word *) b;  \
					for (__i = 0; __i < l; __i++) {  \
					  *(__b2 + __i) = SMC_inw((a),(r));  \
					  SMC_inw((a),0);  \
					};  \
				})

#define SMC_insb(a,r,b,l)	({	int __i ;  \
					byte *__b2;  \
					__b2 = (byte *) b;  \
					for (__i = 0; __i < l; __i++) {  \
					  *(__b2 + __i) = SMC_inb((a),(r));  \
					  SMC_inb((a),0);  \
					};  \
				})

#elif defined(CONFIG_LEON)	/* if not CONFIG_CPU_PXA25X */

#define SMC_LEON_SWAP16(_x_) ({ word _x = (_x_); ((_x << 8) | (_x >> 8)); })

#define SMC_LEON_SWAP32(_x_)			\
    ({ dword _x = (_x_);			\
       ((_x << 24) |				\
       ((0x0000FF00UL & _x) <<  8) |		\
       ((0x00FF0000UL & _x) >>  8) |		\
       (_x  >> 24)); })

#define	SMC_inl(a,r)	(SMC_LEON_SWAP32((*(volatile dword *)((a)->iobase+((r)<<0)))))
#define	SMC_inl_nosw(a,r)	((*(volatile dword *)((a)->iobase+((r)<<0))))
#define	SMC_inw(a,r)	(SMC_LEON_SWAP16((*(volatile word *)((a)->iobase+((r)<<0)))))
#define	SMC_inw_nosw(a,r)	((*(volatile word *)((a)->iobase+((r)<<0))))
#define SMC_inb(a,p)	({ \
	word ___v = SMC_inw((a),(p) & ~1); \
	if ((p) & 1) ___v >>= 8; \
	else ___v &= 0xff; \
	___v; })

#define	SMC_outl(a,d,r)	(*(volatile dword *)((a)->iobase+((r)<<0))=SMC_LEON_SWAP32(d))
#define	SMC_outl_nosw(a,d,r)	(*(volatile dword *)((a)->iobase+((r)<<0))=(d))
#define	SMC_outw(a,d,r)	(*(volatile word *)((a)->iobase+((r)<<0))=SMC_LEON_SWAP16(d))
#define	SMC_outw_nosw(a,d,r)	(*(volatile word *)((a)->iobase+((r)<<0))=(d))
#define	SMC_outb(a,d,r)	do{	word __d = (byte)(d);  \
				word __w = SMC_inw((a),(r)&~1);  \
				__w &= ((r)&1) ? 0x00FF : 0xFF00;  \
				__w |= ((r)&1) ? __d<<8 : __d;  \
				SMC_outw((a),__w,(r)&~1);  \
			}while(0)
#define SMC_outsl(a,r,b,l)	do{	int __i; \
					dword *__b2; \
					__b2 = (dword *) b; \
					for (__i = 0; __i < l; __i++) { \
					    SMC_outl_nosw((a), *(__b2 + __i), r); \
					} \
				}while(0)
#define SMC_outsw(a,r,b,l)	do{	int __i; \
					word *__b2; \
					__b2 = (word *) b; \
					for (__i = 0; __i < l; __i++) { \
					    SMC_outw_nosw((a), *(__b2 + __i), r); \
					} \
				}while(0)
#define SMC_insl(a,r,b,l)	do{	int __i ;  \
					dword *__b2;  \
					__b2 = (dword *) b;  \
					for (__i = 0; __i < l; __i++) {  \
					  *(__b2 + __i) = SMC_inl_nosw((a),(r));  \
					};  \
				}while(0)

#define SMC_insw(a,r,b,l)		do{	int __i ;  \
					word *__b2;  \
					__b2 = (word *) b;  \
					for (__i = 0; __i < l; __i++) {  \
					  *(__b2 + __i) = SMC_inw_nosw((a),(r));  \
					};  \
				}while(0)

#define SMC_insb(a,r,b,l)		do{	int __i ;  \
					byte *__b2;  \
					__b2 = (byte *) b;  \
					for (__i = 0; __i < l; __i++) {  \
					  *(__b2 + __i) = SMC_inb((a),(r));  \
					};  \
				}while(0)

#else			/* if not CONFIG_CPU_PXA25X and not CONFIG_LEON */

#ifndef CONFIG_SMC_USE_IOFUNCS /* these macros don't work on some boards */
/*
 * We have only 16 Bit PCMCIA access on Socket 0
 */

#ifdef CONFIG_ADNPESC1
#define	SMC_inw(a,r)	(*((volatile word *)((a)->iobase+((r)<<1))))
#elif CONFIG_BLACKFIN
#define	SMC_inw(a,r)	({ word __v = (*((volatile word *)((a)->iobase+(r)))); SSYNC(); __v;})
#else
#define	SMC_inw(a,r)	(*((volatile word *)((a)->iobase+(r))))
#endif
#define  SMC_inb(a,r)	(((r)&1) ? SMC_inw((a),(r)&~1)>>8 : SMC_inw((a),(r)&0xFF))

#ifdef CONFIG_ADNPESC1
#define	SMC_outw(a,d,r)	(*((volatile word *)((a)->iobase+((r)<<1))) = d)
#elif CONFIG_BLACKFIN
#define	SMC_outw(a,d,r)	{(*((volatile word *)((a)->iobase+(r))) = d); SSYNC();}
#else
#define	SMC_outw(a,d,r)	(*((volatile word *)((a)->iobase+(r))) = d)
#endif
#define	SMC_outb(a,d,r)	({	word __d = (byte)(d);  \
				word __w = SMC_inw((a),(r)&~1);  \
				__w &= ((r)&1) ? 0x00FF : 0xFF00;  \
				__w |= ((r)&1) ? __d<<8 : __d;  \
				SMC_outw((a),__w,(r)&~1);  \
			})
#if 0
#define	SMC_outsw(a,r,b,l)	outsw((a)->iobase+(r), (b), (l))
#else
#define SMC_outsw(a,r,b,l)	({	int __i; \
					word *__b2; \
					__b2 = (word *) b; \
					for (__i = 0; __i < l; __i++) { \
					    SMC_outw((a), *(__b2 + __i), r); \
					} \
				})
#endif

#if 0
#define	SMC_insw(a,r,b,l)	insw((a)->iobase+(r), (b), (l))
#else
#define SMC_insw(a,r,b,l)	({	int __i ;  \
					word *__b2;  \
					__b2 = (word *) b;  \
					for (__i = 0; __i < l; __i++) {  \
					  *(__b2 + __i) = SMC_inw((a),(r));  \
					  SMC_inw((a),0);  \
					};  \
				})
#endif

#endif  /* CONFIG_SMC_USE_IOFUNCS */

#if defined(CONFIG_SMC_USE_32_BIT)

#ifdef CONFIG_XSENGINE
#define	SMC_inl(a,r)	(*((volatile dword *)((a)->iobase+(r<<1))))
#else
#define	SMC_inl(a,r)	(*((volatile dword *)((a)->iobase+(r))))
#endif

#define SMC_insl(a,r,b,l)	({	int __i ;  \
					dword *__b2;  \
					__b2 = (dword *) b;  \
					for (__i = 0; __i < l; __i++) {  \
					  *(__b2 + __i) = SMC_inl((a),(r));  \
					  SMC_inl((a),0);  \
					};  \
				})

#ifdef CONFIG_XSENGINE
#define	SMC_outl(a,d,r)	(*((volatile dword *)((a)->iobase+(r<<1))) = d)
#else
#define	SMC_outl(a,d,r)	(*((volatile dword *)((a)->iobase+(r))) = d)
#endif
#define SMC_outsl(a,r,b,l)	({	int __i; \
					dword *__b2; \
					__b2 = (dword *) b; \
					for (__i = 0; __i < l; __i++) { \
					    SMC_outl((a), *(__b2 + __i), r); \
					} \
				})

#endif /* CONFIG_SMC_USE_32_BIT */

#endif

/*---------------------------------------------------------------
 .
 . A description of the SMSC registers is probably in order here,
 . although for details, the SMC datasheet is invaluable.
 .
 . Basically, the chip has 4 banks of registers ( 0 to 3 ), which
 . are accessed by writing a number into the BANK_SELECT register
 . ( I also use a SMC_SELECT_BANK macro for this ).
 .
 . The banks are configured so that for most purposes, bank 2 is all
 . that is needed for simple run time tasks.
 -----------------------------------------------------------------------*/

/*
 . Bank Select Register:
 .
 .		yyyy yyyy 0000 00xx
 .		xx		= bank number
 .		yyyy yyyy	= 0x33, for identification purposes.
*/
#define	BANK_SELECT		14

/* Transmit Control Register */
/* BANK 0  */
#define	TCR_REG		0x0000	/* transmit control register */
#define TCR_ENABLE	0x0001	/* When 1 we can transmit */
#define TCR_LOOP	0x0002	/* Controls output pin LBK */
#define TCR_FORCOL	0x0004	/* When 1 will force a collision */
#define TCR_PAD_EN	0x0080	/* When 1 will pad tx frames < 64 bytes w/0 */
#define TCR_NOCRC	0x0100	/* When 1 will not append CRC to tx frames */
#define TCR_MON_CSN	0x0400	/* When 1 tx monitors carrier */
#define TCR_FDUPLX	0x0800  /* When 1 enables full duplex operation */
#define TCR_STP_SQET	0x1000	/* When 1 stops tx if Signal Quality Error */
#define	TCR_EPH_LOOP	0x2000	/* When 1 enables EPH block loopback */
#define	TCR_SWFDUP	0x8000	/* When 1 enables Switched Full Duplex mode */

#define	TCR_CLEAR	0	/* do NOTHING */
/* the default settings for the TCR register : */
/* QUESTION: do I want to enable padding of short packets ? */
#define	TCR_DEFAULT	TCR_ENABLE


/* EPH Status Register */
/* BANK 0  */
#define EPH_STATUS_REG	0x0002
#define ES_TX_SUC	0x0001	/* Last TX was successful */
#define ES_SNGL_COL	0x0002	/* Single collision detected for last tx */
#define ES_MUL_COL	0x0004	/* Multiple collisions detected for last tx */
#define ES_LTX_MULT	0x0008	/* Last tx was a multicast */
#define ES_16COL	0x0010	/* 16 Collisions Reached */
#define ES_SQET		0x0020	/* Signal Quality Error Test */
#define ES_LTXBRD	0x0040	/* Last tx was a broadcast */
#define ES_TXDEFR	0x0080	/* Transmit Deferred */
#define ES_LATCOL	0x0200	/* Late collision detected on last tx */
#define ES_LOSTCARR	0x0400	/* Lost Carrier Sense */
#define ES_EXC_DEF	0x0800	/* Excessive Deferral */
#define ES_CTR_ROL	0x1000	/* Counter Roll Over indication */
#define ES_LINK_OK	0x4000	/* Driven by inverted value of nLNK pin */
#define ES_TXUNRN	0x8000	/* Tx Underrun */


/* Receive Control Register */
/* BANK 0  */
#define	RCR_REG		0x0004
#define	RCR_RX_ABORT	0x0001	/* Set if a rx frame was aborted */
#define	RCR_PRMS	0x0002	/* Enable promiscuous mode */
#define	RCR_ALMUL	0x0004	/* When set accepts all multicast frames */
#define RCR_RXEN	0x0100	/* IFF this is set, we can receive packets */
#define	RCR_STRIP_CRC	0x0200	/* When set strips CRC from rx packets */
#define	RCR_ABORT_ENB	0x0200	/* When set will abort rx on collision */
#define	RCR_FILT_CAR	0x0400	/* When set filters leading 12 bit s of carrier */
#define RCR_SOFTRST	0x8000	/* resets the chip */

/* the normal settings for the RCR register : */
#define	RCR_DEFAULT	(RCR_STRIP_CRC | RCR_RXEN)
#define RCR_CLEAR	0x0	/* set it to a base state */

/* Counter Register */
/* BANK 0  */
#define	COUNTER_REG	0x0006

/* Memory Information Register */
/* BANK 0  */
#define	MIR_REG		0x0008

/* Receive/Phy Control Register */
/* BANK 0  */
#define	RPC_REG		0x000A
#define	RPC_SPEED	0x2000	/* When 1 PHY is in 100Mbps mode. */
#define	RPC_DPLX	0x1000	/* When 1 PHY is in Full-Duplex Mode */
#define	RPC_ANEG	0x0800	/* When 1 PHY is in Auto-Negotiate Mode */
#define	RPC_LSXA_SHFT	5	/* Bits to shift LS2A,LS1A,LS0A to lsb */
#define	RPC_LSXB_SHFT	2	/* Bits to get LS2B,LS1B,LS0B to lsb */
#define RPC_LED_100_10	(0x00)	/* LED = 100Mbps OR's with 10Mbps link detect */
#define RPC_LED_RES	(0x01)	/* LED = Reserved */
#define RPC_LED_10	(0x02)	/* LED = 10Mbps link detect */
#define RPC_LED_FD	(0x03)	/* LED = Full Duplex Mode */
#define RPC_LED_TX_RX	(0x04)	/* LED = TX or RX packet occurred */
#define RPC_LED_100	(0x05)	/* LED = 100Mbps link dectect */
#define RPC_LED_TX	(0x06)	/* LED = TX packet occurred */
#define RPC_LED_RX	(0x07)	/* LED = RX packet occurred */
#if defined(CONFIG_DK1C20) || defined(CONFIG_DK1S10)
/* buggy schematic: LEDa -> yellow, LEDb --> green */
#define RPC_DEFAULT	( RPC_SPEED | RPC_DPLX | RPC_ANEG	\
			| (RPC_LED_TX_RX << RPC_LSXA_SHFT)	\
			| (RPC_LED_100_10 << RPC_LSXB_SHFT)	)
#elif defined(CONFIG_ADNPESC1)
/* SSV ADNP/ESC1 has only one LED: LEDa -> Rx/Tx indicator */
#define RPC_DEFAULT	( RPC_SPEED | RPC_DPLX | RPC_ANEG	\
			| (RPC_LED_TX_RX << RPC_LSXA_SHFT)	\
			| (RPC_LED_100_10 << RPC_LSXB_SHFT)	)
#else
/* SMSC reference design: LEDa --> green, LEDb --> yellow */
#define RPC_DEFAULT	( RPC_SPEED | RPC_DPLX | RPC_ANEG	\
			| (RPC_LED_100_10 << RPC_LSXA_SHFT)	\
			| (RPC_LED_TX_RX << RPC_LSXB_SHFT)	)
#endif

/* Bank 0 0x000C is reserved */

/* Bank Select Register */
/* All Banks */
#define BSR_REG	0x000E


/* Configuration Reg */
/* BANK 1 */
#define CONFIG_REG	0x0000
#define CONFIG_EXT_PHY	0x0200	/* 1=external MII, 0=internal Phy */
#define CONFIG_GPCNTRL	0x0400	/* Inverse value drives pin nCNTRL */
#define CONFIG_NO_WAIT	0x1000	/* When 1 no extra wait states on ISA bus */
#define CONFIG_EPH_POWER_EN 0x8000 /* When 0 EPH is placed into low power mode. */

/* Default is powered-up, Internal Phy, Wait States, and pin nCNTRL=low */
#define CONFIG_DEFAULT	(CONFIG_EPH_POWER_EN)


/* Base Address Register */
/* BANK 1 */
#define	BASE_REG	0x0002


/* Individual Address Registers */
/* BANK 1 */
#define	ADDR0_REG	0x0004
#define	ADDR1_REG	0x0006
#define	ADDR2_REG	0x0008


/* General Purpose Register */
/* BANK 1 */
#define	GP_REG		0x000A


/* Control Register */
/* BANK 1 */
#define	CTL_REG		0x000C
#define CTL_RCV_BAD	0x4000 /* When 1 bad CRC packets are received */
#define CTL_AUTO_RELEASE 0x0800 /* When 1 tx pages are released automatically */
#define	CTL_LE_ENABLE	0x0080 /* When 1 enables Link Error interrupt */
#define	CTL_CR_ENABLE	0x0040 /* When 1 enables Counter Rollover interrupt */
#define	CTL_TE_ENABLE	0x0020 /* When 1 enables Transmit Error interrupt */
#define	CTL_EEPROM_SELECT 0x0004 /* Controls EEPROM reload & store */
#define	CTL_RELOAD	0x0002 /* When set reads EEPROM into registers */
#define	CTL_STORE	0x0001 /* When set stores registers into EEPROM */
#define CTL_DEFAULT     (0x1A10) /* Autorelease enabled*/

/* MMU Command Register */
/* BANK 2 */
#define MMU_CMD_REG	0x0000
#define MC_BUSY		1	/* When 1 the last release has not completed */
#define MC_NOP		(0<<5)	/* No Op */
#define	MC_ALLOC	(1<<5)	/* OR with number of 256 byte packets */
#define	MC_RESET	(2<<5)	/* Reset MMU to initial state */
#define	MC_REMOVE	(3<<5)	/* Remove the current rx packet */
#define MC_RELEASE	(4<<5)	/* Remove and release the current rx packet */
#define MC_FREEPKT	(5<<5)	/* Release packet in PNR register */
#define MC_ENQUEUE	(6<<5)	/* Enqueue the packet for transmit */
#define MC_RSTTXFIFO	(7<<5)	/* Reset the TX FIFOs */


/* Packet Number Register */
/* BANK 2 */
#define	PN_REG		0x0002


/* Allocation Result Register */
/* BANK 2 */
#define	AR_REG		0x0003
#define AR_FAILED	0x80	/* Alocation Failed */


/* RX FIFO Ports Register */
/* BANK 2 */
#define RXFIFO_REG	0x0004	/* Must be read as a word */
#define RXFIFO_REMPTY	0x8000	/* RX FIFO Empty */


/* TX FIFO Ports Register */
/* BANK 2 */
#define TXFIFO_REG	RXFIFO_REG	/* Must be read as a word */
#define TXFIFO_TEMPTY	0x80	/* TX FIFO Empty */


/* Pointer Register */
/* BANK 2 */
#define PTR_REG		0x0006
#define	PTR_RCV		0x8000 /* 1=Receive area, 0=Transmit area */
#define	PTR_AUTOINC	0x4000 /* Auto increment the pointer on each access */
#define PTR_READ	0x2000 /* When 1 the operation is a read */
#define PTR_NOTEMPTY	0x0800 /* When 1 _do not_ write fifo DATA REG */


/* Data Register */
/* BANK 2 */
#define	SMC91111_DATA_REG	0x0008


/* Interrupt Status/Acknowledge Register */
/* BANK 2 */
#define	SMC91111_INT_REG	0x000C


/* Interrupt Mask Register */
/* BANK 2 */
#define IM_REG		0x000D
#define	IM_MDINT	0x80 /* PHY MI Register 18 Interrupt */
#define	IM_ERCV_INT	0x40 /* Early Receive Interrupt */
#define	IM_EPH_INT	0x20 /* Set by Etheret Protocol Handler section */
#define	IM_RX_OVRN_INT	0x10 /* Set by Receiver Overruns */
#define	IM_ALLOC_INT	0x08 /* Set when allocation request is completed */
#define	IM_TX_EMPTY_INT	0x04 /* Set if the TX FIFO goes empty */
#define	IM_TX_INT	0x02 /* Transmit Interrrupt */
#define IM_RCV_INT	0x01 /* Receive Interrupt */


/* Multicast Table Registers */
/* BANK 3 */
#define	MCAST_REG1	0x0000
#define	MCAST_REG2	0x0002
#define	MCAST_REG3	0x0004
#define	MCAST_REG4	0x0006


/* Management Interface Register (MII) */
/* BANK 3 */
#define	MII_REG		0x0008
#define MII_MSK_CRS100	0x4000 /* Disables CRS100 detection during tx half dup */
#define MII_MDOE	0x0008 /* MII Output Enable */
#define MII_MCLK	0x0004 /* MII Clock, pin MDCLK */
#define MII_MDI		0x0002 /* MII Input, pin MDI */
#define MII_MDO		0x0001 /* MII Output, pin MDO */


/* Revision Register */
/* BANK 3 */
#define	REV_REG		0x000A /* ( hi: chip id   low: rev # ) */


/* Early RCV Register */
/* BANK 3 */
/* this is NOT on SMC9192 */
#define	ERCV_REG	0x000C
#define ERCV_RCV_DISCRD	0x0080 /* When 1 discards a packet being received */
#define ERCV_THRESHOLD	0x001F /* ERCV Threshold Mask */

/* External Register */
/* BANK 7 */
#define	EXT_REG		0x0000


#define CHIP_9192	3
#define CHIP_9194	4
#define CHIP_9195	5
#define CHIP_9196	6
#define CHIP_91100	7
#define CHIP_91100FD	8
#define CHIP_91111FD	9

#if 0
static const char * chip_ids[ 15 ] =  {
	NULL, NULL, NULL,
	/* 3 */ "SMC91C90/91C92",
	/* 4 */ "SMC91C94",
	/* 5 */ "SMC91C95",
	/* 6 */ "SMC91C96",
	/* 7 */ "SMC91C100",
	/* 8 */ "SMC91C100FD",
	/* 9 */ "SMC91C111",
	NULL, NULL,
	NULL, NULL, NULL};
#endif

/*
 . Transmit status bits
*/
#define TS_SUCCESS 0x0001
#define TS_LOSTCAR 0x0400
#define TS_LATCOL  0x0200
#define TS_16COL   0x0010

/*
 . Receive status bits
*/
#define RS_ALGNERR	0x8000
#define RS_BRODCAST	0x4000
#define RS_BADCRC	0x2000
#define RS_ODDFRAME	0x1000	/* bug: the LAN91C111 never sets this on receive */
#define RS_TOOLONG	0x0800
#define RS_TOOSHORT	0x0400
#define RS_MULTICAST	0x0001
#define RS_ERRORS	(RS_ALGNERR | RS_BADCRC | RS_TOOLONG | RS_TOOSHORT)


/* PHY Types */
enum {
	PHY_LAN83C183 = 1,	/* LAN91C111 Internal PHY */
	PHY_LAN83C180
};


/* PHY Register Addresses (LAN91C111 Internal PHY) */

/* PHY Control Register */
#define PHY_CNTL_REG		0x00
#define PHY_CNTL_RST		0x8000	/* 1=PHY Reset */
#define PHY_CNTL_LPBK		0x4000	/* 1=PHY Loopback */
#define PHY_CNTL_SPEED		0x2000	/* 1=100Mbps, 0=10Mpbs */
#define PHY_CNTL_ANEG_EN	0x1000 /* 1=Enable Auto negotiation */
#define PHY_CNTL_PDN		0x0800	/* 1=PHY Power Down mode */
#define PHY_CNTL_MII_DIS	0x0400	/* 1=MII 4 bit interface disabled */
#define PHY_CNTL_ANEG_RST	0x0200 /* 1=Reset Auto negotiate */
#define PHY_CNTL_DPLX		0x0100	/* 1=Full Duplex, 0=Half Duplex */
#define PHY_CNTL_COLTST		0x0080	/* 1= MII Colision Test */

/* PHY Status Register */
#define PHY_STAT_REG		0x01
#define PHY_STAT_CAP_T4		0x8000	/* 1=100Base-T4 capable */
#define PHY_STAT_CAP_TXF	0x4000	/* 1=100Base-X full duplex capable */
#define PHY_STAT_CAP_TXH	0x2000	/* 1=100Base-X half duplex capable */
#define PHY_STAT_CAP_TF		0x1000	/* 1=10Mbps full duplex capable */
#define PHY_STAT_CAP_TH		0x0800	/* 1=10Mbps half duplex capable */
#define PHY_STAT_CAP_SUPR	0x0040	/* 1=recv mgmt frames with not preamble */
#define PHY_STAT_ANEG_ACK	0x0020	/* 1=ANEG has completed */
#define PHY_STAT_REM_FLT	0x0010	/* 1=Remote Fault detected */
#define PHY_STAT_CAP_ANEG	0x0008	/* 1=Auto negotiate capable */
#define PHY_STAT_LINK		0x0004	/* 1=valid link */
#define PHY_STAT_JAB		0x0002	/* 1=10Mbps jabber condition */
#define PHY_STAT_EXREG		0x0001	/* 1=extended registers implemented */

/* PHY Identifier Registers */
#define PHY_ID1_REG		0x02	/* PHY Identifier 1 */
#define PHY_ID2_REG		0x03	/* PHY Identifier 2 */

/* PHY Auto-Negotiation Advertisement Register */
#define PHY_AD_REG		0x04
#define PHY_AD_NP		0x8000	/* 1=PHY requests exchange of Next Page */
#define PHY_AD_ACK		0x4000	/* 1=got link code word from remote */
#define PHY_AD_RF		0x2000	/* 1=advertise remote fault */
#define PHY_AD_T4		0x0200	/* 1=PHY is capable of 100Base-T4 */
#define PHY_AD_TX_FDX		0x0100	/* 1=PHY is capable of 100Base-TX FDPLX */
#define PHY_AD_TX_HDX		0x0080	/* 1=PHY is capable of 100Base-TX HDPLX */
#define PHY_AD_10_FDX		0x0040	/* 1=PHY is capable of 10Base-T FDPLX */
#define PHY_AD_10_HDX		0x0020	/* 1=PHY is capable of 10Base-T HDPLX */
#define PHY_AD_CSMA		0x0001	/* 1=PHY is capable of 802.3 CMSA */

/* PHY Auto-negotiation Remote End Capability Register */
#define PHY_RMT_REG		0x05
/* Uses same bit definitions as PHY_AD_REG */

/* PHY Configuration Register 1 */
#define PHY_CFG1_REG		0x10
#define PHY_CFG1_LNKDIS		0x8000	/* 1=Rx Link Detect Function disabled */
#define PHY_CFG1_XMTDIS		0x4000	/* 1=TP Transmitter Disabled */
#define PHY_CFG1_XMTPDN		0x2000	/* 1=TP Transmitter Powered Down */
#define PHY_CFG1_BYPSCR		0x0400	/* 1=Bypass scrambler/descrambler */
#define PHY_CFG1_UNSCDS		0x0200	/* 1=Unscramble Idle Reception Disable */
#define PHY_CFG1_EQLZR		0x0100	/* 1=Rx Equalizer Disabled */
#define PHY_CFG1_CABLE		0x0080	/* 1=STP(150ohm), 0=UTP(100ohm) */
#define PHY_CFG1_RLVL0		0x0040	/* 1=Rx Squelch level reduced by 4.5db */
#define PHY_CFG1_TLVL_SHIFT	2	/* Transmit Output Level Adjust */
#define PHY_CFG1_TLVL_MASK	0x003C
#define PHY_CFG1_TRF_MASK	0x0003	/* Transmitter Rise/Fall time */


/* PHY Configuration Register 2 */
#define PHY_CFG2_REG		0x11
#define PHY_CFG2_APOLDIS	0x0020	/* 1=Auto Polarity Correction disabled */
#define PHY_CFG2_JABDIS		0x0010	/* 1=Jabber disabled */
#define PHY_CFG2_MREG		0x0008	/* 1=Multiple register access (MII mgt) */
#define PHY_CFG2_INTMDIO	0x0004	/* 1=Interrupt signaled with MDIO pulseo */

/* PHY Status Output (and Interrupt status) Register */
#define PHY_INT_REG		0x12	/* Status Output (Interrupt Status) */
#define PHY_INT_INT		0x8000	/* 1=bits have changed since last read */
#define	PHY_INT_LNKFAIL		0x4000	/* 1=Link Not detected */
#define PHY_INT_LOSSSYNC	0x2000	/* 1=Descrambler has lost sync */
#define PHY_INT_CWRD		0x1000	/* 1=Invalid 4B5B code detected on rx */
#define PHY_INT_SSD		0x0800	/* 1=No Start Of Stream detected on rx */
#define PHY_INT_ESD		0x0400	/* 1=No End Of Stream detected on rx */
#define PHY_INT_RPOL		0x0200	/* 1=Reverse Polarity detected */
#define PHY_INT_JAB		0x0100	/* 1=Jabber detected */
#define PHY_INT_SPDDET		0x0080	/* 1=100Base-TX mode, 0=10Base-T mode */
#define PHY_INT_DPLXDET		0x0040	/* 1=Device in Full Duplex */

/* PHY Interrupt/Status Mask Register */
#define PHY_MASK_REG		0x13	/* Interrupt Mask */
/* Uses the same bit definitions as PHY_INT_REG */


/*-------------------------------------------------------------------------
 .  I define some macros to make it easier to do somewhat common
 . or slightly complicated, repeated tasks.
 --------------------------------------------------------------------------*/

/* select a register bank, 0 to 3  */

#define SMC_SELECT_BANK(a,x)  { SMC_outw((a), (x), BANK_SELECT ); }

/* this enables an interrupt in the interrupt mask register */
#define SMC_ENABLE_INT(a,x) {\
		unsigned char mask;\
		SMC_SELECT_BANK((a),2);\
		mask = SMC_inb((a), IM_REG );\
		mask |= (x);\
		SMC_outb( (a), mask, IM_REG ); \
}

/* this disables an interrupt from the interrupt mask register */

#define SMC_DISABLE_INT(a,x) {\
		unsigned char mask;\
		SMC_SELECT_BANK(2);\
		mask = SMC_inb( (a), IM_REG );\
		mask &= ~(x);\
		SMC_outb( (a), mask, IM_REG ); \
}

/*----------------------------------------------------------------------
 . Define the interrupts that I want to receive from the card
 .
 . I want:
 .  IM_EPH_INT, for nasty errors
 .  IM_RCV_INT, for happy received packets
 .  IM_RX_OVRN_INT, because I have to kick the receiver
 .  IM_MDINT, for PHY Register 18 Status Changes
 --------------------------------------------------------------------------*/
#define SMC_INTERRUPT_MASK   (IM_EPH_INT | IM_RX_OVRN_INT | IM_RCV_INT | \
	IM_MDINT)

#endif  /* _SMC_91111_H_ */