linux_dsm_epyc7002/drivers/net/ethernet/apple/mace.h
Jeff Kirsher 8fb6b09081 bmac/mace/macmace/mac89x0/cs89x0: Move the Macintosh (Apple) drivers
Move the Apple drivers into driver/net/ethernet/apple/ and make the
necessary Kconfig and Makefile changes.

CC: Paul Mackerras <paulus@samba.org>
CC: Paul Mackerras <paulus@au.ibm.com>
CC: Russell Nelson <nelson@crynwr.com>
Signed-off-by: Jeff Kirsher <jeffrey.t.kirsher@intel.com>
2011-08-11 16:29:07 -07:00

174 lines
7.0 KiB
C

/*
* mace.h - definitions for the registers in the Am79C940 MACE
* (Medium Access Control for Ethernet) controller.
*
* Copyright (C) 1996 Paul Mackerras.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version
* 2 of the License, or (at your option) any later version.
*/
#define REG(x) volatile unsigned char x; char x ## _pad[15]
struct mace {
REG(rcvfifo); /* receive FIFO */
REG(xmtfifo); /* transmit FIFO */
REG(xmtfc); /* transmit frame control */
REG(xmtfs); /* transmit frame status */
REG(xmtrc); /* transmit retry count */
REG(rcvfc); /* receive frame control */
REG(rcvfs); /* receive frame status (4 bytes) */
REG(fifofc); /* FIFO frame count */
REG(ir); /* interrupt register */
REG(imr); /* interrupt mask register */
REG(pr); /* poll register */
REG(biucc); /* bus interface unit config control */
REG(fifocc); /* FIFO configuration control */
REG(maccc); /* medium access control config control */
REG(plscc); /* phys layer signalling config control */
REG(phycc); /* physical configuration control */
REG(chipid_lo); /* chip ID, lsb */
REG(chipid_hi); /* chip ID, msb */
REG(iac); /* internal address config */
REG(reg19);
REG(ladrf); /* logical address filter (8 bytes) */
REG(padr); /* physical address (6 bytes) */
REG(reg22);
REG(reg23);
REG(mpc); /* missed packet count (clears when read) */
REG(reg25);
REG(rntpc); /* runt packet count (clears when read) */
REG(rcvcc); /* recv collision count (clears when read) */
REG(reg28);
REG(utr); /* user test reg */
REG(reg30);
REG(reg31);
};
/* Bits in XMTFC */
#define DRTRY 0x80 /* don't retry transmission after collision */
#define DXMTFCS 0x08 /* don't append FCS to transmitted frame */
#define AUTO_PAD_XMIT 0x01 /* auto-pad short packets on transmission */
/* Bits in XMTFS: only valid when XMTSV is set in PR and XMTFS */
#define XMTSV 0x80 /* transmit status (i.e. XMTFS) valid */
#define UFLO 0x40 /* underflow - xmit fifo ran dry */
#define LCOL 0x20 /* late collision (transmission aborted) */
#define MORE 0x10 /* 2 or more retries needed to xmit frame */
#define ONE 0x08 /* 1 retry needed to xmit frame */
#define DEFER 0x04 /* MACE had to defer xmission (enet busy) */
#define LCAR 0x02 /* loss of carrier (transmission aborted) */
#define RTRY 0x01 /* too many retries (transmission aborted) */
/* Bits in XMTRC: only valid when XMTSV is set in PR (and XMTFS) */
#define EXDEF 0x80 /* had to defer for excessive time */
#define RETRY_MASK 0x0f /* number of retries (0 - 15) */
/* Bits in RCVFC */
#define LLRCV 0x08 /* low latency receive: early DMA request */
#define M_RBAR 0x04 /* sets function of EAM/R pin */
#define AUTO_STRIP_RCV 0x01 /* auto-strip short LLC frames on recv */
/*
* Bits in RCVFS. After a frame is received, four bytes of status
* are automatically read from this register and appended to the frame
* data in memory. These are:
* Byte 0 and 1: message byte count and frame status
* Byte 2: runt packet count
* Byte 3: receive collision count
*/
#define RS_OFLO 0x8000 /* receive FIFO overflowed */
#define RS_CLSN 0x4000 /* received frame suffered (late) collision */
#define RS_FRAMERR 0x2000 /* framing error flag */
#define RS_FCSERR 0x1000 /* frame had FCS error */
#define RS_COUNT 0x0fff /* mask for byte count field */
/* Bits (fields) in FIFOFC */
#define RCVFC_SH 4 /* receive frame count in FIFO */
#define RCVFC_MASK 0x0f
#define XMTFC_SH 0 /* transmit frame count in FIFO */
#define XMTFC_MASK 0x0f
/*
* Bits in IR and IMR. The IR clears itself when read.
* Setting a bit in the IMR will disable the corresponding interrupt.
*/
#define JABBER 0x80 /* jabber error - 10baseT xmission too long */
#define BABBLE 0x40 /* babble - xmitter xmitting for too long */
#define CERR 0x20 /* collision err - no SQE test (heartbeat) */
#define RCVCCO 0x10 /* RCVCC overflow */
#define RNTPCO 0x08 /* RNTPC overflow */
#define MPCO 0x04 /* MPC overflow */
#define RCVINT 0x02 /* receive interrupt */
#define XMTINT 0x01 /* transmitter interrupt */
/* Bits in PR */
#define XMTSV 0x80 /* XMTFS valid (same as in XMTFS) */
#define TDTREQ 0x40 /* set when xmit fifo is requesting data */
#define RDTREQ 0x20 /* set when recv fifo requests data xfer */
/* Bits in BIUCC */
#define BSWP 0x40 /* byte swap, i.e. big-endian bus */
#define XMTSP_4 0x00 /* start xmitting when 4 bytes in FIFO */
#define XMTSP_16 0x10 /* start xmitting when 16 bytes in FIFO */
#define XMTSP_64 0x20 /* start xmitting when 64 bytes in FIFO */
#define XMTSP_112 0x30 /* start xmitting when 112 bytes in FIFO */
#define SWRST 0x01 /* software reset */
/* Bits in FIFOCC */
#define XMTFW_8 0x00 /* xmit fifo watermark = 8 words free */
#define XMTFW_16 0x40 /* 16 words free */
#define XMTFW_32 0x80 /* 32 words free */
#define RCVFW_16 0x00 /* recv fifo watermark = 16 bytes avail */
#define RCVFW_32 0x10 /* 32 bytes avail */
#define RCVFW_64 0x20 /* 64 bytes avail */
#define XMTFWU 0x08 /* xmit fifo watermark update enable */
#define RCVFWU 0x04 /* recv fifo watermark update enable */
#define XMTBRST 0x02 /* enable transmit burst mode */
#define RCVBRST 0x01 /* enable receive burst mode */
/* Bits in MACCC */
#define PROM 0x80 /* promiscuous mode */
#define DXMT2PD 0x40 /* disable xmit two-part deferral algorithm */
#define EMBA 0x20 /* enable modified backoff algorithm */
#define DRCVPA 0x08 /* disable receiving physical address */
#define DRCVBC 0x04 /* disable receiving broadcasts */
#define ENXMT 0x02 /* enable transmitter */
#define ENRCV 0x01 /* enable receiver */
/* Bits in PLSCC */
#define XMTSEL 0x08 /* select DO+/DO- state when idle */
#define PORTSEL_AUI 0x00 /* select AUI port */
#define PORTSEL_10T 0x02 /* select 10Base-T port */
#define PORTSEL_DAI 0x04 /* select DAI port */
#define PORTSEL_GPSI 0x06 /* select GPSI port */
#define ENPLSIO 0x01 /* enable optional PLS I/O pins */
/* Bits in PHYCC */
#define LNKFL 0x80 /* reports 10Base-T link failure */
#define DLNKTST 0x40 /* disable 10Base-T link test */
#define REVPOL 0x20 /* 10Base-T receiver polarity reversed */
#define DAPC 0x10 /* disable auto receiver polarity correction */
#define LRT 0x08 /* low receive threshold for long links */
#define ASEL 0x04 /* auto-select AUI or 10Base-T port */
#define RWAKE 0x02 /* remote wake function */
#define AWAKE 0x01 /* auto wake function */
/* Bits in IAC */
#define ADDRCHG 0x80 /* request address change */
#define PHYADDR 0x04 /* access physical address */
#define LOGADDR 0x02 /* access multicast filter */
/* Bits in UTR */
#define RTRE 0x80 /* reserved test register enable. DON'T SET. */
#define RTRD 0x40 /* reserved test register disable. Sticky */
#define RPAC 0x20 /* accept runt packets */
#define FCOLL 0x10 /* force collision */
#define RCVFCSE 0x08 /* receive FCS enable */
#define LOOP_NONE 0x00 /* no loopback */
#define LOOP_EXT 0x02 /* external loopback */
#define LOOP_INT 0x04 /* internal loopback, excludes MENDEC */
#define LOOP_MENDEC 0x06 /* internal loopback, includes MENDEC */