stand/altboot/nvt.c

1.3       phx /* $NetBSD: nvt.c,v 1.3 2011/10/30 21:08:33 phx Exp $ */
1.1  nisimura
1.1  nisimura /*-
1.1  nisimura  * Copyright (c) 2007 The NetBSD Foundation, Inc.
1.1  nisimura  * All rights reserved.
1.1  nisimura  *
1.1  nisimura  * This code is derived from software contributed to The NetBSD Foundation
1.1  nisimura  * by Tohru Nishimura.
1.1  nisimura  *
1.1  nisimura  * Redistribution and use in source and binary forms, with or without
1.1  nisimura  * modification, are permitted provided that the following conditions
1.1  nisimura  * are met:
1.1  nisimura  * 1. Redistributions of source code must retain the above copyright
1.1  nisimura  *    notice, this list of conditions and the following disclaimer.
1.1  nisimura  * 2. Redistributions in binary form must reproduce the above copyright
1.1  nisimura  *    notice, this list of conditions and the following disclaimer in the
1.1  nisimura  *    documentation and/or other materials provided with the distribution.
1.1  nisimura  *
1.1  nisimura  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.1  nisimura  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.1  nisimura  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.1  nisimura  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.1  nisimura  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.1  nisimura  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.1  nisimura  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1  nisimura  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1  nisimura  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1  nisimura  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1  nisimura  * POSSIBILITY OF SUCH DAMAGE.
1.1  nisimura  */
1.1  nisimura
1.1  nisimura #include <sys/param.h>
1.1  nisimura
1.1  nisimura #include <netinet/in.h>
1.1  nisimura #include <netinet/in_systm.h>
1.1  nisimura
1.1  nisimura #include <lib/libsa/stand.h>
1.1  nisimura #include <lib/libsa/net.h>
1.1  nisimura
1.1  nisimura #include "globals.h"
1.1  nisimura
1.1  nisimura /*
1.1  nisimura  * - reverse endian access every CSR.
1.1  nisimura  * - no vtophys() translation, vaddr_t == paddr_t.
1.1  nisimura  * - PIPT writeback cache aware.
1.1  nisimura  */
1.3       phx #define CSR_WRITE_1(l, r, v)	out8((l)->csr+(r), (v))
1.3       phx #define CSR_READ_1(l, r)	in8((l)->csr+(r))
1.1  nisimura #define CSR_WRITE_2(l, r, v)	out16rb((l)->csr+(r), (v))
1.1  nisimura #define CSR_READ_2(l, r)	in16rb((l)->csr+(r))
1.1  nisimura #define CSR_WRITE_4(l, r, v)	out32rb((l)->csr+(r), (v))
1.1  nisimura #define CSR_READ_4(l, r)	in32rb((l)->csr+(r))
1.1  nisimura #define VTOPHYS(va)		(uint32_t)(va)
1.1  nisimura #define DEVTOV(pa)		(uint32_t)(pa)
1.1  nisimura #define wbinv(adr, siz)		_wbinv(VTOPHYS(adr), (uint32_t)(siz))
1.1  nisimura #define inv(adr, siz)		_inv(VTOPHYS(adr), (uint32_t)(siz))
1.1  nisimura #define DELAY(n)		delay(n)
1.1  nisimura #define ALLOC(T,A)		(T *)allocaligned(sizeof(T),(A))
1.1  nisimura
1.1  nisimura struct desc {
1.1  nisimura 	uint32_t xd0, xd1, xd2, xd3;
1.1  nisimura };
1.1  nisimura #define T0_OWN		(1U << 31)	/* 1: loaded for HW to send */
1.1  nisimura #define T0_TERR		(1U << 15)	/* Tx error; ABT|CBH */
1.1  nisimura #define T0_UDF		(1U << 11)	/* FIFO underflow */
1.1  nisimura #define T0_CRS		(1U << 10)	/* found carrier sense lost */
1.1  nisimura #define T0_OWC		(1U << 9)	/* found out of window collision */
1.1  nisimura #define T0_ABT		(1U << 8)	/* excess collision Tx abort */
1.1  nisimura #define T0_CBH		(1U << 7)	/* heartbeat check failure */
1.1  nisimura #define T0_COLS		(1U << 4)	/* collision detected */
1.1  nisimura #define T0_NCRMASK	0x3		/* number of collision retries */
1.1  nisimura #define T1_IC		(1U << 23)	/* post Tx done interrupt */
1.1  nisimura #define T1_STP		(1U << 22)	/* first frame segment */
1.1  nisimura #define T1_EDP		(1U << 21)	/* last frame segment */
1.1  nisimura #define T1_CRC		(1U << 16)	/* _disable_ CRC generation */
1.1  nisimura #define T1_CHN		(1U << 15)	/* "more bit," not the last seg. */
1.1  nisimura #define T_FLMASK	0x00007fff	/* Tx frame/segment length */
1.1  nisimura
1.1  nisimura #define R0_OWN		(1U << 31)	/* 1: empty for HW to load anew */
1.1  nisimura #define R0_FLMASK	0x7fff0000	/* frame length */
1.1  nisimura #define R0_RXOK		(1U << 15)
1.1  nisimura #define R0_MAR		(1U << 13)	/* multicast frame */
1.1  nisimura #define R0_BAR		(1U << 12)	/* broadcast frame */
1.1  nisimura #define R0_PHY		(1U << 11)	/* unicast frame */
1.1  nisimura #define R0_CHN		(1U << 10)	/* "more bit," not the last seg. */
1.1  nisimura #define R0_STP		(1U << 9)	/* first frame segment */
1.1  nisimura #define R0_EDP		(1U << 8)	/* last frame segment */
1.1  nisimura #define R0_BUFF		(1U << 7)	/* segment chain was broken */
1.1  nisimura #define R0_RUNT		(1U << 5)	/* runt frame received */
1.1  nisimura #define R0_LONG		(1U << 4)	/* frame too long */
1.1  nisimura #define R0_FOV		(1U << 3)	/* Rx FIFO overflow */
1.1  nisimura #define R0_FAE		(1U << 2)	/* frame alignment error */
1.1  nisimura #define R0_CRCE		(1U << 1)	/* CRC error */
1.1  nisimura #define R0_RERR		(1U << 0)	/* Rx error summary */
1.1  nisimura #define R1_FLMASK	0x00007ffc	/* Rx segment buffer length */
1.1  nisimura
1.1  nisimura #define VR_PAR0		0x00		/* SA [0] */
1.1  nisimura #define VR_PAR1		0x01		/* SA [1] */
1.1  nisimura #define VR_PAR2		0x02		/* SA [2] */
1.1  nisimura #define VR_PAR3		0x03		/* SA [3] */
1.1  nisimura #define VR_PAR4		0x04		/* SA [4] */
1.1  nisimura #define VR_PAR5		0x05		/* SA [5] */
1.1  nisimura #define VR_RCR		0x06		/* Rx control */
1.1  nisimura #define  RCR_PROM	(1U << 4)	/* accept any frame */
1.1  nisimura #define  RCR_AB		(1U << 3)	/* accept broadcast frame */
1.1  nisimura #define  RCR_AM		(1U << 2)	/* use multicast filter */
1.1  nisimura #define VR_TCR		0x07		/* Tx control */
1.1  nisimura #define VR_CTL0		0x08		/* control #0 */
1.1  nisimura #define  CTL0_RDMD	(1U << 6)	/* instruct Rx descriptor poll */
1.1  nisimura #define  CTL0_TDMD	(1U << 5)	/* instruct Tx descriptor poll */
1.1  nisimura #define  CTL0_TXON	(1U << 4)	/* enable Tx DMA */
1.1  nisimura #define  CTL0_RXON	(1U << 3)	/* enable Rx DMA */
1.1  nisimura #define  CTL0_STOP	(1U << 2)	/* activate stop processing */
1.1  nisimura #define  CTL0_START	(1U << 1)	/* start and activate */
1.1  nisimura #define VR_CTL1		0x09		/* control #1 */
1.1  nisimura #define  CTL1_RESET	(1U << 7)	/* SW reset, self-clearing */
1.1  nisimura #define  CTL1_DPOLL	(1U << 3)	/* _disable_ Tx auto polling */
1.1  nisimura #define  CTL1_FDX	(1U << 2)	/* set full duplex */
1.1  nisimura #define VR_ISR		0x0c		/* interrupt status */
1.1  nisimura #define VR_IEN		0x0e		/* interrupt enable */
1.1  nisimura #define VR_RDBA		0x18		/* Rx descriptor list base */
1.1  nisimura #define VR_TDBA		0x1c		/* Tx descriptor list base */
1.1  nisimura #define VR_MIICFG	0x6c		/* 4:0 PHY number */
1.1  nisimura #define VR_MIISR	0x6d		/* MII status */
1.1  nisimura #define VR_MIICR	0x70		/* MII control */
1.1  nisimura #define  MIICR_MAUTO	(1U << 7)	/* activate autopoll mode */
1.1  nisimura #define  MIICR_RCMD	(1U << 6)	/* MII read operation */
1.1  nisimura #define  MIICR_WCMD	(1U << 5)	/* MII write operation */
1.1  nisimura #define VR_MIIADR	0x71		/* MII indirect */
1.1  nisimura #define  MIIADR_MIDLE	(1U << 7)	/* not in auto polling */
1.1  nisimura #define VR_MIIDATA	0x72		/* MII read/write */
1.1  nisimura #define VR_RXC		0x7e		/* Rx feature control */
1.1  nisimura #define VR_TXC		0x7f		/* Tx feature control */
1.1  nisimura #define VR_MCR0		0x80		/* misc control #0 */
1.1  nisimura #define  MCR0_RFDXFLC	(1U << 3)	/* FCR1? */
1.1  nisimura #define  MCR0_HDXFLC	(1U << 2)	/* FCR2? */
1.1  nisimura #define VR_MCR1		0x81		/* misc control #1 */
1.1  nisimura
1.1  nisimura #define FRAMESIZE	1536
1.1  nisimura
1.1  nisimura struct local {
1.1  nisimura 	struct desc txd[2];
1.1  nisimura 	struct desc rxd[2];
1.1  nisimura 	uint8_t rxstore[2][FRAMESIZE];
1.1  nisimura 	unsigned csr, tx, rx;
1.1  nisimura 	unsigned phy, bmsr, anlpar;
1.1  nisimura 	unsigned ctl0;
1.1  nisimura };
1.1  nisimura
1.1  nisimura static void mii_autopoll(struct local *);
1.1  nisimura static void mii_stoppoll(struct local *);
1.1  nisimura static int mii_read(struct local *, int, int);
1.1  nisimura static void mii_write(struct local *, int, int, int);
1.1  nisimura static void mii_dealan(struct local *, unsigned);
1.1  nisimura
1.1  nisimura int
1.1  nisimura nvt_match(unsigned tag, void *data)
1.1  nisimura {
1.1  nisimura 	unsigned v;
1.1  nisimura
1.1  nisimura 	v = pcicfgread(tag, PCI_ID_REG);
1.1  nisimura 	switch (v) {
1.1  nisimura 	case PCI_DEVICE(0x1106, 0x3053):
1.1  nisimura 	case PCI_DEVICE(0x1106, 0x3065):
1.1  nisimura 		return 1;
1.1  nisimura 	}
1.1  nisimura 	return 0;
1.1  nisimura }
1.1  nisimura
1.1  nisimura void *
1.1  nisimura nvt_init(unsigned tag, void *data)
1.1  nisimura {
1.1  nisimura 	unsigned val, fdx;
1.1  nisimura 	struct local *l;
1.1  nisimura 	struct desc *txd, *rxd;
1.1  nisimura 	uint8_t *en;
1.1  nisimura
1.1  nisimura 	l = ALLOC(struct local, 32); /* desc alignment */
1.1  nisimura 	memset(l, 0, sizeof(struct local));
1.1  nisimura 	l->csr = ~01 & DEVTOV(pcicfgread(tag, 0x10)); /* use IO space */
1.1  nisimura
1.1  nisimura 	val = CTL1_RESET;
1.1  nisimura 	CSR_WRITE_1(l, VR_CTL1, val);
1.1  nisimura 	do {
1.1  nisimura 		val = CSR_READ_1(l, VR_CTL1);
1.1  nisimura 	} while (val & CTL1_RESET);
1.1  nisimura 	/* PHY number is loaded from EEPROM */
1.1  nisimura 	l->phy = CSR_READ_1(l, VR_MIICFG) & 0x1f;
1.1  nisimura
1.1  nisimura 	en = data;
1.1  nisimura 	en[0] = CSR_READ_1(l, VR_PAR0);
1.1  nisimura 	en[1] = CSR_READ_1(l, VR_PAR1);
1.1  nisimura 	en[2] = CSR_READ_1(l, VR_PAR2);
1.1  nisimura 	en[3] = CSR_READ_1(l, VR_PAR3);
1.1  nisimura 	en[4] = CSR_READ_1(l, VR_PAR4);
1.1  nisimura 	en[5] = CSR_READ_1(l, VR_PAR5);
1.1  nisimura
1.1  nisimura 	printf("MAC address %02x:%02x:%02x:%02x:%02x:%02x\n",
1.1  nisimura 	    en[0], en[1], en[2], en[3], en[4], en[5]);
1.2       phx 	DPRINTF(("PHY %d (%04x.%04x)\n", l->phy,
1.2       phx 	    mii_read(l, l->phy, 2), mii_read(l, l->phy, 3)));
1.1  nisimura
1.1  nisimura 	mii_dealan(l, 5);
1.1  nisimura
1.1  nisimura 	/* speed and duplexity can be seen in MII 20 */
1.1  nisimura 	val = mii_read(l, l->phy, 20);
1.1  nisimura 	fdx = !!(val & (1U << 0));
1.1  nisimura 	printf("%s", (val & (1U << 1)) ? "100Mbps" : "10Mbps");
1.1  nisimura 	if (fdx)
1.1  nisimura 		printf("-FDX");
1.1  nisimura 	printf("\n");
1.1  nisimura
1.1  nisimura 	txd = &l->txd[0];
1.1  nisimura 	rxd = &l->rxd[0];
1.1  nisimura 	rxd[0].xd0 = htole32(R0_OWN);
1.1  nisimura 	rxd[0].xd1 = htole32(FRAMESIZE << 16);
1.1  nisimura 	rxd[0].xd2 = htole32(VTOPHYS(l->rxstore[0]));
1.1  nisimura 	rxd[0].xd3 = htole32(VTOPHYS(&rxd[1]));
1.1  nisimura 	rxd[1].xd0 = htole32(R0_OWN);
1.1  nisimura 	rxd[1].xd1 = htole32(VTOPHYS(l->rxstore[1]));
1.1  nisimura 	rxd[1].xd2 = htole32(FRAMESIZE << 16);
1.1  nisimura 	rxd[1].xd3 = htole32(VTOPHYS(&rxd[0]));
1.1  nisimura 	wbinv(l, sizeof(struct local));
1.1  nisimura 	l->tx = l->rx = 0;
1.1  nisimura
1.1  nisimura 	/* enable transmitter and receiver */
1.1  nisimura 	l->ctl0 = CTL0_TXON | CTL0_RXON | CTL0_START;
1.1  nisimura 	CSR_WRITE_4(l, VR_RDBA, VTOPHYS(rxd));
1.1  nisimura 	CSR_WRITE_4(l, VR_TDBA, VTOPHYS(txd));
1.1  nisimura 	CSR_WRITE_1(l, VR_RCR, 0);
1.1  nisimura 	CSR_WRITE_1(l, VR_TCR, 0);
1.1  nisimura 	CSR_WRITE_2(l, VR_ISR, ~0);
1.1  nisimura 	CSR_WRITE_2(l, VR_IEN, 0);
1.1  nisimura 	if (fdx)
1.1  nisimura 		CSR_WRITE_1(l, VR_CTL1, CTL1_FDX);
1.1  nisimura 	CSR_WRITE_1(l, VR_CTL0, CTL0_START);
1.1  nisimura 	CSR_WRITE_1(l, VR_CTL0, l->ctl0);
1.1  nisimura
1.1  nisimura 	return l;
1.1  nisimura }
1.1  nisimura
1.1  nisimura int
1.1  nisimura nvt_send(void *dev, char *buf, unsigned len)
1.1  nisimura {
1.1  nisimura 	struct local *l = dev;
1.1  nisimura 	volatile struct desc *txd;
1.1  nisimura 	unsigned loop;
1.1  nisimura
1.1  nisimura 	len = (len & T_FLMASK);
1.1  nisimura 	if (len < 60)
1.1  nisimura 		len = 60; /* needs to stretch to ETHER_MIN_LEN - 4 */
1.1  nisimura 	wbinv(buf, len);
1.1  nisimura 	txd = &l->txd[l->tx];
1.1  nisimura 	txd->xd3 = htole32(txd);
1.1  nisimura 	txd->xd2 = htole32(VTOPHYS(buf));
1.1  nisimura 	txd->xd1 = htole32(T1_STP | T1_EDP | len);
1.1  nisimura 	txd->xd0 = htole32(T0_OWN);
1.1  nisimura 	wbinv(txd, sizeof(struct desc));
1.1  nisimura 	CSR_WRITE_1(l, VR_CTL0, l->ctl0 | CTL0_TDMD);
1.1  nisimura 	loop = 100;
1.1  nisimura 	do {
1.1  nisimura 		if ((le32toh(txd->xd0) & T0_OWN) == 0)
1.1  nisimura 			goto done;
1.1  nisimura 		DELAY(10);
1.1  nisimura 		inv(txd, sizeof(struct desc));
1.1  nisimura 	} while (--loop > 0);
1.1  nisimura 	printf("xmit failed\n");
1.1  nisimura 	return -1;
1.1  nisimura   done:
1.1  nisimura 	l->tx ^= 1;
1.1  nisimura 	return len;
1.1  nisimura }
1.1  nisimura
1.1  nisimura int
1.1  nisimura nvt_recv(void *dev, char *buf, unsigned maxlen, unsigned timo)
1.1  nisimura {
1.1  nisimura 	struct local *l = dev;
1.1  nisimura 	volatile struct desc *rxd;
1.1  nisimura 	unsigned bound, rxstat, len;
1.1  nisimura 	uint8_t *ptr;
1.1  nisimura
1.1  nisimura 	bound = 1000 * timo;
1.1  nisimura printf("recving with %u sec. timeout\n", timo);
1.1  nisimura   again:
1.1  nisimura 	rxd = &l->rxd[l->rx];
1.1  nisimura 	do {
1.1  nisimura 		inv(rxd, sizeof(struct desc));
1.1  nisimura 		rxstat = le32toh(rxd->xd0);
1.1  nisimura 		if ((rxstat & R0_OWN) == 0)
1.1  nisimura 			goto gotone;
1.1  nisimura 		DELAY(1000);	/* 1 milli second */
1.1  nisimura 	} while (--bound > 0);
1.1  nisimura 	errno = 0;
1.1  nisimura 	return -1;
1.1  nisimura   gotone:
1.1  nisimura 	if ((rxstat & R0_RXOK) == 0) {
1.1  nisimura 		rxd->xd0 = htole32(R0_OWN);
1.1  nisimura 		wbinv(rxd, sizeof(struct desc));
1.1  nisimura 		l->rx ^= 1;
1.1  nisimura 		goto again;
1.1  nisimura 	}
1.1  nisimura 	len = ((rxstat & R0_FLMASK) >> 16) - 4 /* HASFCS */;
1.1  nisimura 	if (len > maxlen)
1.1  nisimura 		len = maxlen;
1.1  nisimura 	ptr = l->rxstore[l->rx];
1.1  nisimura 	inv(ptr, len);
1.1  nisimura 	memcpy(buf, ptr, len);
1.1  nisimura 	rxd->xd0 = htole32(R0_OWN);
1.1  nisimura 	wbinv(rxd, sizeof(struct desc));
1.1  nisimura 	l->rx ^= 1;
1.1  nisimura 	return len;
1.1  nisimura }
1.1  nisimura
1.1  nisimura static void
1.1  nisimura mii_autopoll(struct local *l)
1.1  nisimura {
1.1  nisimura 	int v;
1.1  nisimura
1.1  nisimura 	CSR_WRITE_1(l, VR_MIICR, 0);
1.1  nisimura 	do {
1.1  nisimura 		DELAY(1);
1.1  nisimura 		v = CSR_READ_1(l, VR_MIISR);
1.1  nisimura 	} while ((v & MIIADR_MIDLE) == 0);
1.1  nisimura 	CSR_WRITE_1(l, VR_MIICR, MIICR_MAUTO);
1.1  nisimura 	do {
1.1  nisimura 		DELAY(1);
1.1  nisimura 		v = CSR_READ_1(l, VR_MIISR);
1.1  nisimura 	} while ((v & MIIADR_MIDLE) != 0);
1.1  nisimura }
1.1  nisimura
1.1  nisimura static void
1.1  nisimura mii_stoppoll(struct local *l)
1.1  nisimura {
1.1  nisimura 	int v;
1.1  nisimura
1.1  nisimura 	CSR_WRITE_1(l, VR_MIICR, 0);
1.1  nisimura 	do {
1.1  nisimura 		DELAY(1);
1.1  nisimura 		v = CSR_READ_1(l, VR_MIISR);
1.1  nisimura 	} while ((v & MIIADR_MIDLE) == 0);
1.1  nisimura }
1.1  nisimura
1.1  nisimura static int
1.1  nisimura mii_read(struct local *l, int phy, int reg)
1.1  nisimura {
1.1  nisimura 	int v;
1.1  nisimura
1.1  nisimura 	mii_stoppoll(l);
1.1  nisimura 	CSR_WRITE_1(l, VR_MIICFG, phy);
1.1  nisimura 	CSR_WRITE_1(l, VR_MIIADR, reg);
1.1  nisimura 	CSR_WRITE_1(l, VR_MIICR, MIICR_RCMD);
1.1  nisimura 	do {
1.1  nisimura 		v = CSR_READ_1(l, VR_MIICR);
1.1  nisimura 	} while (v & MIICR_RCMD);
1.1  nisimura 	v = CSR_READ_2(l, VR_MIIDATA);
1.1  nisimura 	mii_autopoll(l);
1.1  nisimura 	return v;
1.1  nisimura }
1.1  nisimura
1.1  nisimura static void
1.1  nisimura mii_write(struct local *l, int phy, int reg, int data)
1.1  nisimura {
1.1  nisimura 	int v;
1.1  nisimura
1.1  nisimura 	mii_stoppoll(l);
1.1  nisimura 	CSR_WRITE_2(l, VR_MIIDATA, data);
1.1  nisimura 	CSR_WRITE_1(l, VR_MIICFG, phy);
1.1  nisimura 	CSR_WRITE_1(l, VR_MIIADR, reg);
1.1  nisimura 	CSR_WRITE_1(l, VR_MIICR, MIICR_WCMD);
1.1  nisimura 	do {
1.1  nisimura 		v = CSR_READ_1(l, VR_MIICR);
1.1  nisimura 	} while (v & MIICR_WCMD);
1.1  nisimura 	mii_autopoll(l);
1.1  nisimura }
1.1  nisimura
1.1  nisimura #define MII_BMCR	0x00	/* Basic mode control register (rw) */
1.1  nisimura #define  BMCR_RESET	0x8000	/* reset */
1.1  nisimura #define  BMCR_AUTOEN	0x1000	/* autonegotiation enable */
1.1  nisimura #define  BMCR_ISO	0x0400	/* isolate */
1.1  nisimura #define  BMCR_STARTNEG	0x0200	/* restart autonegotiation */
1.1  nisimura #define MII_BMSR	0x01	/* Basic mode status register (ro) */
1.1  nisimura #define  BMSR_ACOMP	0x0020	/* Autonegotiation complete */
1.1  nisimura #define  BMSR_LINK	0x0004	/* Link status */
1.1  nisimura #define MII_ANAR	0x04	/* Autonegotiation advertisement (rw) */
1.1  nisimura #define  ANAR_FC	0x0400	/* local device supports PAUSE */
1.1  nisimura #define  ANAR_TX_FD	0x0100	/* local device supports 100bTx FD */
1.1  nisimura #define  ANAR_TX	0x0080	/* local device supports 100bTx */
1.1  nisimura #define  ANAR_10_FD	0x0040	/* local device supports 10bT FD */
1.1  nisimura #define  ANAR_10	0x0020	/* local device supports 10bT */
1.1  nisimura #define  ANAR_CSMA	0x0001	/* protocol selector CSMA/CD */
1.1  nisimura #define MII_ANLPAR	0x05	/* Autonegotiation lnk partner abilities (rw) */
1.1  nisimura
1.1  nisimura void
1.1  nisimura mii_dealan(struct local *l, unsigned timo)
1.1  nisimura {
1.1  nisimura 	unsigned anar, bound;
1.1  nisimura
1.1  nisimura 	anar = ANAR_TX_FD | ANAR_TX | ANAR_10_FD | ANAR_10 | ANAR_CSMA;
1.1  nisimura 	mii_write(l, l->phy, MII_ANAR, anar);
1.1  nisimura 	mii_write(l, l->phy, MII_BMCR, BMCR_AUTOEN | BMCR_STARTNEG);
1.1  nisimura 	l->anlpar = 0;
1.1  nisimura 	bound = getsecs() + timo;
1.1  nisimura 	do {
1.1  nisimura 		l->bmsr = mii_read(l, l->phy, MII_BMSR) |
1.1  nisimura 		   mii_read(l, l->phy, MII_BMSR); /* read twice */
1.1  nisimura 		if ((l->bmsr & BMSR_LINK) && (l->bmsr & BMSR_ACOMP)) {
1.1  nisimura 			l->anlpar = mii_read(l, l->phy, MII_ANLPAR);
1.1  nisimura 			break;
1.1  nisimura 		}
1.1  nisimura 		DELAY(10 * 1000);
1.1  nisimura 	} while (getsecs() < bound);
1.1  nisimura 	return;
1.1  nisimura }