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path: root/drivers/tsec.c
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/*
 * tsec.c
 * Freescale Three Speed Ethernet Controller driver
 *
 * This software may be used and distributed according to the
 * terms of the GNU Public License, Version 2, incorporated
 * herein by reference.
 *
 * Copyright 2004 Freescale Semiconductor.
 * (C) Copyright 2003, Motorola, Inc.
 * maintained by Jon Loeliger (loeliger@freescale.com)
 * author Andy Fleming
 *
 */

#include <config.h>
#include <mpc85xx.h>
#include <common.h>
#include <malloc.h>
#include <net.h>
#include <command.h>

#if defined(CONFIG_TSEC_ENET)
#include "tsec.h"

#define TX_BUF_CNT 2

static uint rxIdx;	/* index of the current RX buffer */
static uint txIdx;	/* index of the current TX buffer */

typedef volatile struct rtxbd {
	txbd8_t txbd[TX_BUF_CNT];
	rxbd8_t rxbd[PKTBUFSRX];
}  RTXBD;

struct tsec_info_struct {
	unsigned int phyaddr;
	u32 flags;
	unsigned int phyregidx;
};


/* The tsec_info structure contains 3 values which the
 * driver uses to determine how to operate a given ethernet
 * device.  For now, the structure is initialized with the
 * knowledge that all current implementations have 2 TSEC
 * devices, and one FEC.  The information needed is:
 *  phyaddr - The address of the PHY which is attached to
 *	the given device.
 *
 *  flags - This variable indicates whether the device
 *	supports gigabit speed ethernet, and whether it should be
 *	in reduced mode.
 *
 *  phyregidx - This variable specifies which ethernet device
 *	controls the MII Management registers which are connected
 *	to the PHY.  For 8540/8560, only TSEC1 (index 0) has
 *	access to the PHYs, so all of the entries have "0".
 *
 * The values specified in the table are taken from the board's
 * config file in include/configs/.  When implementing a new
 * board with ethernet capability, it is necessary to define:
 *   TSEC1_PHY_ADDR
 *   TSEC1_PHYIDX
 *   TSEC2_PHY_ADDR
 *   TSEC2_PHYIDX
 *
 * and for 8560:
 *   FEC_PHY_ADDR
 *   FEC_PHYIDX
 */
static struct tsec_info_struct tsec_info[] = {
#ifdef CONFIG_MPC85XX_TSEC1
	{TSEC1_PHY_ADDR, TSEC_GIGABIT, TSEC1_PHYIDX},
#else
	{ 0, 0, 0},
#endif
#ifdef CONFIG_MPC85XX_TSEC2
	{TSEC2_PHY_ADDR, TSEC_GIGABIT, TSEC2_PHYIDX},
#else
	{ 0, 0, 0},
#endif
#ifdef CONFIG_MPC85XX_FEC
	{FEC_PHY_ADDR, 0, FEC_PHYIDX},
#else
#    ifdef CONFIG_MPC85XX_TSEC3
	{TSEC3_PHY_ADDR, TSEC_GIGABIT | TSEC_REDUCED, TSEC3_PHYIDX},
#    else
	{ 0, 0, 0},
#    endif
#    ifdef CONFIG_MPC85XX_TSEC4
	{TSEC4_PHY_ADDR, TSEC_REDUCED, TSEC4_PHYIDX},
#    else
	{ 0, 0, 0},
#    endif
#endif
};

#define MAXCONTROLLERS	(4)

static int relocated = 0;

static struct tsec_private *privlist[MAXCONTROLLERS];

#ifdef __GNUC__
static RTXBD rtx __attribute__ ((aligned(8)));
#else
#error "rtx must be 64-bit aligned"
#endif

static int tsec_send(struct eth_device* dev, volatile void *packet, int length);
static int tsec_recv(struct eth_device* dev);
static int tsec_init(struct eth_device* dev, bd_t * bd);
static void tsec_halt(struct eth_device* dev);
static void init_registers(volatile tsec_t *regs);
static void startup_tsec(struct eth_device *dev);
static int init_phy(struct eth_device *dev);
void write_phy_reg(struct tsec_private *priv, uint regnum, uint value);
uint read_phy_reg(struct tsec_private *priv, uint regnum);
struct phy_info * get_phy_info(struct eth_device *dev);
void phy_run_commands(struct tsec_private *priv, struct phy_cmd *cmd);
static void adjust_link(struct eth_device *dev);
static void relocate_cmds(void);

/* Initialize device structure. Returns success if PHY
 * initialization succeeded (i.e. if it recognizes the PHY)
 */
int tsec_initialize(bd_t *bis, int index, char *devname)
{
	struct eth_device* dev;
	int i;
	struct tsec_private *priv;

	dev = (struct eth_device*) malloc(sizeof *dev);

	if(NULL == dev)
		return 0;

	memset(dev, 0, sizeof *dev);

	priv = (struct tsec_private *) malloc(sizeof(*priv));

	if(NULL == priv)
		return 0;

	privlist[index] = priv;
	priv->regs = (volatile tsec_t *)(TSEC_BASE_ADDR + index*TSEC_SIZE);
	priv->phyregs = (volatile tsec_t *)(TSEC_BASE_ADDR +
			tsec_info[index].phyregidx*TSEC_SIZE);

	priv->phyaddr = tsec_info[index].phyaddr;
	priv->flags = tsec_info[index].flags;

	sprintf(dev->name, devname);
	dev->iobase = 0;
	dev->priv   = priv;
	dev->init   = tsec_init;
	dev->halt   = tsec_halt;
	dev->send   = tsec_send;
	dev->recv   = tsec_recv;

	/* Tell u-boot to get the addr from the env */
	for(i=0;i<6;i++)
		dev->enetaddr[i] = 0;

	eth_register(dev);


	/* Reset the MAC */
	priv->regs->maccfg1 |= MACCFG1_SOFT_RESET;
	priv->regs->maccfg1 &= ~(MACCFG1_SOFT_RESET);

	/* Try to initialize PHY here, and return */
	return init_phy(dev);
}


/* Initializes data structures and registers for the controller,
 * and brings the interface up.	 Returns the link status, meaning
 * that it returns success if the link is up, failure otherwise.
 * This allows u-boot to find the first active controller. */
int tsec_init(struct eth_device* dev, bd_t * bd)
{
	uint tempval;
	char tmpbuf[MAC_ADDR_LEN];
	int i;
	struct tsec_private *priv = (struct tsec_private *)dev->priv;
	volatile tsec_t *regs = priv->regs;

	/* Make sure the controller is stopped */
	tsec_halt(dev);

	/* Init MACCFG2.  Defaults to GMII */
	regs->maccfg2 = MACCFG2_INIT_SETTINGS;

	/* Init ECNTRL */
	regs->ecntrl = ECNTRL_INIT_SETTINGS;

	/* Copy the station address into the address registers.
	 * Backwards, because little endian MACS are dumb */
	for(i=0;i<MAC_ADDR_LEN;i++) {
		tmpbuf[MAC_ADDR_LEN - 1 - i] = dev->enetaddr[i];
	}
	(uint)(regs->macstnaddr1) = *((uint *)(tmpbuf));

	tempval = *((uint *)(tmpbuf +4));

	(uint)(regs->macstnaddr2) = tempval;

	/* reset the indices to zero */
	rxIdx = 0;
	txIdx = 0;

	/* Clear out (for the most part) the other registers */
	init_registers(regs);

	/* Ready the device for tx/rx */
	startup_tsec(dev);

	/* If there's no link, fail */
	return priv->link;

}


/* Write value to the device's PHY through the registers
 * specified in priv, modifying the register specified in regnum.
 * It will wait for the write to be done (or for a timeout to
 * expire) before exiting
 */
void write_phy_reg(struct tsec_private *priv, uint regnum, uint value)
{
	volatile tsec_t *regbase = priv->phyregs;
	uint phyid = priv->phyaddr;
	int timeout=1000000;

	regbase->miimadd = (phyid << 8) | regnum;
	regbase->miimcon = value;
	asm("msync");

	timeout=1000000;
	while((regbase->miimind & MIIMIND_BUSY) && timeout--);
}


/* Reads register regnum on the device's PHY through the
 * registers specified in priv.	 It lowers and raises the read
 * command, and waits for the data to become valid (miimind
 * notvalid bit cleared), and the bus to cease activity (miimind
 * busy bit cleared), and then returns the value
 */
uint read_phy_reg(struct tsec_private *priv, uint regnum)
{
	uint value;
	volatile tsec_t *regbase = priv->phyregs;
	uint phyid = priv->phyaddr;

	/* Put the address of the phy, and the register
	 * number into MIIMADD */
	regbase->miimadd = (phyid << 8) | regnum;

	/* Clear the command register, and wait */
	regbase->miimcom = 0;
	asm("msync");

	/* Initiate a read command, and wait */
	regbase->miimcom = MIIM_READ_COMMAND;
	asm("msync");

	/* Wait for the the indication that the read is done */
	while((regbase->miimind & (MIIMIND_NOTVALID | MIIMIND_BUSY)));

	/* Grab the value read from the PHY */
	value = regbase->miimstat;

	return value;
}


/* Discover which PHY is attached to the device, and configure it
 * properly.  If the PHY is not recognized, then return 0
 * (failure).  Otherwise, return 1
 */
static int init_phy(struct eth_device *dev)
{
	struct tsec_private *priv = (struct tsec_private *)dev->priv;
	struct phy_info *curphy;

	/* Assign a Physical address to the TBI */

	{
		volatile tsec_t *regs = (volatile tsec_t *)(TSEC_BASE_ADDR);
		regs->tbipa = TBIPA_VALUE;
		regs = (volatile tsec_t *)(TSEC_BASE_ADDR + TSEC_SIZE);
		regs->tbipa = TBIPA_VALUE;
		asm("msync");
	}

	/* Reset MII (due to new addresses) */
	priv->phyregs->miimcfg = MIIMCFG_RESET;
	asm("msync");
	priv->phyregs->miimcfg = MIIMCFG_INIT_VALUE;
	asm("msync");
	while(priv->phyregs->miimind & MIIMIND_BUSY);

	if(0 == relocated)
		relocate_cmds();

	/* Get the cmd structure corresponding to the attached
	 * PHY */
	curphy = get_phy_info(dev);

	if(NULL == curphy) {
		printf("%s: No PHY found\n", dev->name);

		return 0;
	}

	priv->phyinfo = curphy;

	phy_run_commands(priv, priv->phyinfo->config);

	return 1;
}


/* Returns which value to write to the control register. */
/* For 10/100, the value is slightly different */
uint mii_cr_init(uint mii_reg, struct tsec_private *priv)
{
	if(priv->flags & TSEC_GIGABIT)
		return MIIM_CONTROL_INIT;
	else
		return MIIM_CR_INIT;
}


/* Parse the status register for link, and then do
 * auto-negotiation */
uint mii_parse_sr(uint mii_reg, struct tsec_private *priv)
{
	uint timeout = TSEC_TIMEOUT;

	if(mii_reg & MIIM_STATUS_LINK)
		priv->link = 1;
	else
		priv->link = 0;

	if(priv->link) {
		while((!(mii_reg & MIIM_STATUS_AN_DONE)) && timeout--)
			mii_reg = read_phy_reg(priv, MIIM_STATUS);
	}

	return 0;
}


/* Parse the 88E1011's status register for speed and duplex
 * information */
uint mii_parse_88E1011_psr(uint mii_reg, struct tsec_private *priv)
{
	uint speed;

	if(mii_reg & MIIM_88E1011_PHYSTAT_DUPLEX)
		priv->duplexity = 1;
	else
		priv->duplexity = 0;

	speed = (mii_reg &MIIM_88E1011_PHYSTAT_SPEED);

	switch(speed) {
		case MIIM_88E1011_PHYSTAT_GBIT:
			priv->speed = 1000;
			break;
		case MIIM_88E1011_PHYSTAT_100:
			priv->speed = 100;
			break;
		default:
			priv->speed = 10;
	}

	return 0;
}


/* Parse the cis8201's status register for speed and duplex
 * information */
uint mii_parse_cis8201(uint mii_reg, struct tsec_private *priv)
{
	uint speed;

	if(mii_reg & MIIM_CIS8201_AUXCONSTAT_DUPLEX)
		priv->duplexity = 1;
	else
		priv->duplexity = 0;

	speed = mii_reg & MIIM_CIS8201_AUXCONSTAT_SPEED;
	switch(speed) {
		case MIIM_CIS8201_AUXCONSTAT_GBIT:
			priv->speed = 1000;
			break;
		case MIIM_CIS8201_AUXCONSTAT_100:
			priv->speed = 100;
			break;
		default:
			priv->speed = 10;
			break;
	}

	return 0;
}


/* Parse the DM9161's status register for speed and duplex
 * information */
uint mii_parse_dm9161_scsr(uint mii_reg, struct tsec_private *priv)
{
	if(mii_reg & (MIIM_DM9161_SCSR_100F | MIIM_DM9161_SCSR_100H))
		priv->speed = 100;
	else
		priv->speed = 10;

	if(mii_reg & (MIIM_DM9161_SCSR_100F | MIIM_DM9161_SCSR_10F))
		priv->duplexity = 1;
	else
		priv->duplexity = 0;

	return 0;
}


/* Hack to write all 4 PHYs with the LED values */
uint mii_cis8204_fixled(uint mii_reg, struct tsec_private *priv)
{
	uint phyid;
	volatile tsec_t *regbase = priv->phyregs;
	int timeout=1000000;

	for(phyid=0;phyid<4;phyid++) {
		regbase->miimadd = (phyid << 8) | mii_reg;
		regbase->miimcon = MIIM_CIS8204_SLEDCON_INIT;
		asm("msync");

		timeout=1000000;
		while((regbase->miimind & MIIMIND_BUSY) && timeout--);
	}

	return MIIM_CIS8204_SLEDCON_INIT;
}

uint mii_cis8204_setmode(uint mii_reg, struct tsec_private *priv)
{
	if (priv->flags & TSEC_REDUCED)
		return MIIM_CIS8204_EPHYCON_INIT | MIIM_CIS8204_EPHYCON_RGMII;
	else
		return MIIM_CIS8204_EPHYCON_INIT;
}

/* Initialized required registers to appropriate values, zeroing
 * those we don't care about (unless zero is bad, in which case,
 * choose a more appropriate value) */
static void init_registers(volatile tsec_t *regs)
{
	/* Clear IEVENT */
	regs->ievent = IEVENT_INIT_CLEAR;

	regs->imask = IMASK_INIT_CLEAR;

	regs->hash.iaddr0 = 0;
	regs->hash.iaddr1 = 0;
	regs->hash.iaddr2 = 0;
	regs->hash.iaddr3 = 0;
	regs->hash.iaddr4 = 0;
	regs->hash.iaddr5 = 0;
	regs->hash.iaddr6 = 0;
	regs->hash.iaddr7 = 0;

	regs->hash.gaddr0 = 0;
	regs->hash.gaddr1 = 0;
	regs->hash.gaddr2 = 0;
	regs->hash.gaddr3 = 0;
	regs->hash.gaddr4 = 0;
	regs->hash.gaddr5 = 0;
	regs->hash.gaddr6 = 0;
	regs->hash.gaddr7 = 0;

	regs->rctrl = 0x00000000;

	/* Init RMON mib registers */
	memset((void *)&(regs->rmon), 0, sizeof(rmon_mib_t));

	regs->rmon.cam1 = 0xffffffff;
	regs->rmon.cam2 = 0xffffffff;

	regs->mrblr = MRBLR_INIT_SETTINGS;

	regs->minflr = MINFLR_INIT_SETTINGS;

	regs->attr = ATTR_INIT_SETTINGS;
	regs->attreli = ATTRELI_INIT_SETTINGS;

}


/* Configure maccfg2 based on negotiated speed and duplex
 * reported by PHY handling code */
static void adjust_link(struct eth_device *dev)
{
	struct tsec_private *priv = (struct tsec_private *)dev->priv;
	volatile tsec_t *regs = priv->regs;

	if(priv->link) {
		if(priv->duplexity != 0)
			regs->maccfg2 |= MACCFG2_FULL_DUPLEX;
		else
			regs->maccfg2 &= ~(MACCFG2_FULL_DUPLEX);

		switch(priv->speed) {
			case 1000:
				regs->maccfg2 = ((regs->maccfg2&~(MACCFG2_IF))
					| MACCFG2_GMII);
				break;
			case 100:
			case 10:
				regs->maccfg2 = ((regs->maccfg2&~(MACCFG2_IF))
					| MACCFG2_MII);

				/* If We're in reduced mode, we
				 * need to say whether we're 10
				 * or 100 MB. */
				if ((priv->speed == 100) 
						&& (priv->flags & TSEC_REDUCED))
					regs->ecntrl |= ECNTRL_R100;
				else
					regs->ecntrl &= ~(ECNTRL_R100);
				break;
			default:
				printf("%s: Speed was bad\n", dev->name);
				break;
		}

		printf("Speed: %d, %s duplex\n", priv->speed,
				(priv->duplexity) ? "full" : "half");

	} else {
		printf("%s: No link.\n", dev->name);
	}
}


/* Set up the buffers and their descriptors, and bring up the
 * interface */
static void startup_tsec(struct eth_device *dev)
{
	int i;
	struct tsec_private *priv = (struct tsec_private *)dev->priv;
	volatile tsec_t *regs = priv->regs;

	/* Point to the buffer descriptors */
	regs->tbase = (unsigned int)(&rtx.txbd[txIdx]);
	regs->rbase = (unsigned int)(&rtx.rxbd[rxIdx]);

	/* Initialize the Rx Buffer descriptors */
	for (i = 0; i < PKTBUFSRX; i++) {
		rtx.rxbd[i].status = RXBD_EMPTY;
		rtx.rxbd[i].length = 0;
		rtx.rxbd[i].bufPtr = (uint)NetRxPackets[i];
	}
	rtx.rxbd[PKTBUFSRX -1].status |= RXBD_WRAP;

	/* Initialize the TX Buffer Descriptors */
	for(i=0; i<TX_BUF_CNT; i++) {
		rtx.txbd[i].status = 0;
		rtx.txbd[i].length = 0;
		rtx.txbd[i].bufPtr = 0;
	}
	rtx.txbd[TX_BUF_CNT -1].status |= TXBD_WRAP;

	/* Start up the PHY */
	phy_run_commands(priv, priv->phyinfo->startup);
	adjust_link(dev);

	/* Enable Transmit and Receive */
	regs->maccfg1 |= (MACCFG1_RX_EN | MACCFG1_TX_EN);

	/* Tell the DMA it is clear to go */
	regs->dmactrl |= DMACTRL_INIT_SETTINGS;
	regs->tstat = TSTAT_CLEAR_THALT;
	regs->dmactrl &= ~(DMACTRL_GRS | DMACTRL_GTS);
}

/* This returns the status bits of the device.	The return value
 * is never checked, and this is what the 8260 driver did, so we
 * do the same.	 Presumably, this would be zero if there were no
 * errors */
static int tsec_send(struct eth_device* dev, volatile void *packet, int length)
{
	int i;
	int result = 0;
	struct tsec_private *priv = (struct tsec_private *)dev->priv;
	volatile tsec_t *regs = priv->regs;

	/* Find an empty buffer descriptor */
	for(i=0; rtx.txbd[txIdx].status & TXBD_READY; i++) {
		if (i >= TOUT_LOOP) {
			debug ("%s: tsec: tx buffers full\n", dev->name);
			return result;
		}
	}

	rtx.txbd[txIdx].bufPtr = (uint)packet;
	rtx.txbd[txIdx].length = length;
	rtx.txbd[txIdx].status |= (TXBD_READY | TXBD_LAST | TXBD_CRC | TXBD_INTERRUPT);

	/* Tell the DMA to go */
	regs->tstat = TSTAT_CLEAR_THALT;

	/* Wait for buffer to be transmitted */
	for(i=0; rtx.txbd[txIdx].status & TXBD_READY; i++) {
		if (i >= TOUT_LOOP) {
			debug ("%s: tsec: tx error\n", dev->name);
			return result;
		}
	}

	txIdx = (txIdx + 1) % TX_BUF_CNT;
	result = rtx.txbd[txIdx].status & TXBD_STATS;

	return result;
}

static int tsec_recv(struct eth_device* dev)
{
	int length;
	struct tsec_private *priv = (struct tsec_private *)dev->priv;
	volatile tsec_t *regs = priv->regs;

	while(!(rtx.rxbd[rxIdx].status & RXBD_EMPTY)) {

		length = rtx.rxbd[rxIdx].length;

		/* Send the packet up if there were no errors */
		if (!(rtx.rxbd[rxIdx].status & RXBD_STATS)) {
			NetReceive(NetRxPackets[rxIdx], length - 4);
		} else {
			printf("Got error %x\n",
					(rtx.rxbd[rxIdx].status & RXBD_STATS));
		}

		rtx.rxbd[rxIdx].length = 0;

		/* Set the wrap bit if this is the last element in the list */
		rtx.rxbd[rxIdx].status = RXBD_EMPTY | (((rxIdx + 1) == PKTBUFSRX) ? RXBD_WRAP : 0);

		rxIdx = (rxIdx + 1) % PKTBUFSRX;
	}

	if(regs->ievent&IEVENT_BSY) {
		regs->ievent = IEVENT_BSY;
		regs->rstat = RSTAT_CLEAR_RHALT;
	}

	return -1;

}


/* Stop the interface */
static void tsec_halt(struct eth_device* dev)
{
	struct tsec_private *priv = (struct tsec_private *)dev->priv;
	volatile tsec_t *regs = priv->regs;

	regs->dmactrl &= ~(DMACTRL_GRS | DMACTRL_GTS);
	regs->dmactrl |= (DMACTRL_GRS | DMACTRL_GTS);

	while(!(regs->ievent & (IEVENT_GRSC | IEVENT_GTSC)));

	regs->maccfg1 &= ~(MACCFG1_TX_EN | MACCFG1_RX_EN);

	/* Shut down the PHY, as needed */
	phy_run_commands(priv, priv->phyinfo->shutdown);
}


struct phy_info phy_info_M88E1011S = {
	0x01410c6,
	"Marvell 88E1011S",
	4,
	(struct phy_cmd[]) { /* config */
		/* Reset and configure the PHY */
		{MIIM_CONTROL, MIIM_CONTROL_RESET, NULL},
		{0x1d, 0x1f, NULL},
		{0x1e, 0x200c, NULL},
		{0x1d, 0x5, NULL},
		{0x1e, 0x0, NULL},
		{0x1e, 0x100, NULL},
		{MIIM_GBIT_CONTROL, MIIM_GBIT_CONTROL_INIT, NULL},
		{MIIM_ANAR, MIIM_ANAR_INIT, NULL},
		{MIIM_CONTROL, MIIM_CONTROL_RESET, NULL},
		{MIIM_CONTROL, MIIM_CONTROL_INIT, &mii_cr_init},
		{miim_end,}
	},
	(struct phy_cmd[]) { /* startup */
		/* Status is read once to clear old link state */
		{MIIM_STATUS, miim_read, NULL},
		/* Auto-negotiate */
		{MIIM_STATUS, miim_read, &mii_parse_sr},
		/* Read the status */
		{MIIM_88E1011_PHY_STATUS, miim_read, &mii_parse_88E1011_psr},
		{miim_end,}
	},
	(struct phy_cmd[]) { /* shutdown */
		{miim_end,}
	},
};

struct phy_info phy_info_M88E1111S = {
	0x01410cc,
	"Marvell 88E1111S",
	4,
	(struct phy_cmd[]) { /* config */
	  /* Reset and configure the PHY */
		{MIIM_CONTROL, MIIM_CONTROL_RESET, NULL},
		{0x1d, 0x1f, NULL},
		{0x1e, 0x200c, NULL},
		{0x1d, 0x5, NULL},
		{0x1e, 0x0, NULL},
		{0x1e, 0x100, NULL},
		{MIIM_GBIT_CONTROL, MIIM_GBIT_CONTROL_INIT, NULL},
		{MIIM_ANAR, MIIM_ANAR_INIT, NULL},
		{MIIM_CONTROL, MIIM_CONTROL_RESET, NULL},
		{MIIM_CONTROL, MIIM_CONTROL_INIT, &mii_cr_init},
		{miim_end,}
	},
	(struct phy_cmd[]) { /* startup */
	  /* Status is read once to clear old link state */
		{MIIM_STATUS, miim_read, NULL},
		/* Auto-negotiate */
		{MIIM_STATUS, miim_read, &mii_parse_sr},
		/* Read the status */
		{MIIM_88E1011_PHY_STATUS, miim_read, &mii_parse_88E1011_psr},
		{miim_end,}
	},
	(struct phy_cmd[]) { /* shutdown */
		{miim_end,}
	},
};

struct phy_info phy_info_cis8204 = {
	0x3f11,
	"Cicada Cis8204",
	6,
	(struct phy_cmd[]) { /* config */
		/* Override PHY config settings */
		{MIIM_CIS8201_AUX_CONSTAT, MIIM_CIS8201_AUXCONSTAT_INIT, NULL},
		/* Configure some basic stuff */
		{MIIM_CONTROL, MIIM_CONTROL_INIT, &mii_cr_init},
		{MIIM_CIS8204_SLED_CON, MIIM_CIS8204_SLEDCON_INIT, &mii_cis8204_fixled},
		{MIIM_CIS8204_EPHY_CON, MIIM_CIS8204_EPHYCON_INIT, &mii_cis8204_setmode},
		{miim_end,}
	},
	(struct phy_cmd[]) { /* startup */
		/* Read the Status (2x to make sure link is right) */
		{MIIM_STATUS, miim_read, NULL},
		/* Auto-negotiate */
		{MIIM_STATUS, miim_read, &mii_parse_sr},
		/* Read the status */
		{MIIM_CIS8201_AUX_CONSTAT, miim_read, &mii_parse_cis8201},
		{miim_end,}
	},
	(struct phy_cmd[]) { /* shutdown */
		{miim_end,}
	},
};

/* Cicada 8201 */
struct phy_info phy_info_cis8201 = {
	0xfc41,
	"CIS8201",
	4,
	(struct phy_cmd[]) { /* config */
		/* Override PHY config settings */
		{MIIM_CIS8201_AUX_CONSTAT, MIIM_CIS8201_AUXCONSTAT_INIT, NULL},
		/* Set up the interface mode */
		{MIIM_CIS8201_EXT_CON1, MIIM_CIS8201_EXTCON1_INIT, NULL},
		/* Configure some basic stuff */
		{MIIM_CONTROL, MIIM_CONTROL_INIT, &mii_cr_init},
		{miim_end,}
	},
	(struct phy_cmd[]) { /* startup */
		/* Read the Status (2x to make sure link is right) */
		{MIIM_STATUS, miim_read, NULL},
		/* Auto-negotiate */
		{MIIM_STATUS, miim_read, &mii_parse_sr},
		/* Read the status */
		{MIIM_CIS8201_AUX_CONSTAT, miim_read, &mii_parse_cis8201},
		{miim_end,}
	},
	(struct phy_cmd[]) { /* shutdown */
		{miim_end,}
	},
};


struct phy_info phy_info_dm9161 = {
	0x0181b88,
	"Davicom DM9161E",
	4,
	(struct phy_cmd[]) { /* config */
		{MIIM_CONTROL, MIIM_DM9161_CR_STOP, NULL},
		/* Do not bypass the scrambler/descrambler */
		{MIIM_DM9161_SCR, MIIM_DM9161_SCR_INIT, NULL},
		/* Clear 10BTCSR to default */
		{MIIM_DM9161_10BTCSR, MIIM_DM9161_10BTCSR_INIT, NULL},
		/* Configure some basic stuff */
		{MIIM_CONTROL, MIIM_CR_INIT, NULL},
		/* Restart Auto Negotiation */
		{MIIM_CONTROL, MIIM_DM9161_CR_RSTAN, NULL},
		{miim_end,}
	},
	(struct phy_cmd[]) { /* startup */
		/* Status is read once to clear old link state */
		{MIIM_STATUS, miim_read, NULL},
		/* Auto-negotiate */
		{MIIM_STATUS, miim_read, &mii_parse_sr},
		/* Read the status */
		{MIIM_DM9161_SCSR, miim_read, &mii_parse_dm9161_scsr},
		{miim_end,}
	},
	(struct phy_cmd[]) { /* shutdown */
		{miim_end,}
	},
};

uint mii_parse_lxt971_sr2(uint mii_reg, struct tsec_private *priv)
{
	unsigned int speed;
	if (priv->link) {
		speed = mii_reg & MIIM_LXT971_SR2_SPEED_MASK;

		switch (speed) {
		case MIIM_LXT971_SR2_10HDX:
			priv->speed = 10;
			priv->duplexity = 0;
			break;
		case MIIM_LXT971_SR2_10FDX:
			priv->speed = 10;
			priv->duplexity = 1;
			break;
		case MIIM_LXT971_SR2_100HDX:
			priv->speed = 100;
			priv->duplexity = 0;
		default:
			priv->speed = 100;
			priv->duplexity = 1;
			break;
		}
	} else {
		priv->speed = 0;
		priv->duplexity = 0;
	}

	return 0;
}

static struct phy_info phy_info_lxt971 = {
	0x0001378e,
	"LXT971",
	4,
	(struct phy_cmd []) {  /* config */
		{ MIIM_CR, MIIM_CR_INIT, mii_cr_init }, /* autonegotiate */
		{ miim_end, }
	},
	(struct phy_cmd []) {  /* startup - enable interrupts */
		/* { 0x12, 0x00f2, NULL }, */
		{ MIIM_STATUS, miim_read, NULL },
		{ MIIM_STATUS, miim_read, &mii_parse_sr },
		{ MIIM_LXT971_SR2, miim_read, &mii_parse_lxt971_sr2 },
		{ miim_end, }
	},
	(struct phy_cmd []) {  /* shutdown - disable interrupts */
		{ miim_end, }
	},
};

struct phy_info *phy_info[] = {
#if 0
	&phy_info_cis8201,
#endif
	&phy_info_cis8204,
	&phy_info_M88E1011S,
	&phy_info_M88E1111S,
	&phy_info_dm9161,
	&phy_info_lxt971,
	NULL
};


/* Grab the identifier of the device's PHY, and search through
 * all of the known PHYs to see if one matches.	 If so, return
 * it, if not, return NULL */
struct phy_info * get_phy_info(struct eth_device *dev)
{
	struct tsec_private *priv = (struct tsec_private *)dev->priv;
	uint phy_reg, phy_ID;
	int i;
	struct phy_info *theInfo = NULL;

	/* Grab the bits from PHYIR1, and put them in the upper half */
	phy_reg = read_phy_reg(priv, MIIM_PHYIR1);
	phy_ID = (phy_reg & 0xffff) << 16;

	/* Grab the bits from PHYIR2, and put them in the lower half */
	phy_reg = read_phy_reg(priv, MIIM_PHYIR2);
	phy_ID |= (phy_reg & 0xffff);

	/* loop through all the known PHY types, and find one that */
	/* matches the ID we read from the PHY. */
	for(i=0; phy_info[i]; i++) {
		if(phy_info[i]->id == (phy_ID >> phy_info[i]->shift))
			theInfo = phy_info[i];
	}

	if(theInfo == NULL)
	{
		printf("%s: PHY id %x is not supported!\n", dev->name, phy_ID);
		return NULL;
	} else {
		printf("%s: PHY is %s (%x)\n", dev->name, theInfo->name,
				phy_ID);
	}

	return theInfo;
}


/* Execute the given series of commands on the given device's
 * PHY, running functions as necessary*/
void phy_run_commands(struct tsec_private *priv, struct phy_cmd *cmd)
{
	int i;
	uint result;
	volatile tsec_t *phyregs = priv->phyregs;

	phyregs->miimcfg = MIIMCFG_RESET;

	phyregs->miimcfg = MIIMCFG_INIT_VALUE;

	while(phyregs->miimind & MIIMIND_BUSY);

	for(i=0;cmd->mii_reg != miim_end;i++) {
		if(cmd->mii_data == miim_read) {
			result = read_phy_reg(priv, cmd->mii_reg);

			if(cmd->funct != NULL)
				(*(cmd->funct))(result, priv);

		} else {
			if(cmd->funct != NULL)
				result = (*(cmd->funct))(cmd->mii_reg, priv);
			else
				result = cmd->mii_data;

			write_phy_reg(priv, cmd->mii_reg, result);

		}
		cmd++;
	}
}


/* Relocate the function pointers in the phy cmd lists */
static void relocate_cmds(void)
{
	struct phy_cmd **cmdlistptr;
	struct phy_cmd *cmd;
	int i,j,k;
	DECLARE_GLOBAL_DATA_PTR;

	for(i=0; phy_info[i]; i++) {
		/* First thing's first: relocate the pointers to the
		 * PHY command structures (the structs were done) */
		phy_info[i] = (struct phy_info *) ((uint)phy_info[i]
				+ gd->reloc_off);
		phy_info[i]->name += gd->reloc_off;
		phy_info[i]->config =
			(struct phy_cmd *)((uint)phy_info[i]->config
					   + gd->reloc_off);
		phy_info[i]->startup =
			(struct phy_cmd *)((uint)phy_info[i]->startup
					   + gd->reloc_off);
		phy_info[i]->shutdown =
			(struct phy_cmd *)((uint)phy_info[i]->shutdown
					   + gd->reloc_off);

		cmdlistptr = &phy_info[i]->config;
		j=0;
		for(;cmdlistptr <= &phy_info[i]->shutdown;cmdlistptr++) {
			k=0;
			for(cmd=*cmdlistptr;cmd->mii_reg != miim_end;cmd++) {
				/* Only relocate non-NULL pointers */
				if(cmd->funct)
					cmd->funct += gd->reloc_off;

				k++;
			}
			j++;
		}
	}

	relocated = 1;
}


#ifndef CONFIG_BITBANGMII

struct tsec_private * get_priv_for_phy(unsigned char phyaddr)
{
	int i;

	for(i=0;i<MAXCONTROLLERS;i++) {
		if(privlist[i]->phyaddr == phyaddr)
			return privlist[i];
	}

	return NULL;
}

/*
 * Read a MII PHY register.
 *
 * Returns:
 *  0 on success
 */
int miiphy_read(unsigned char addr, unsigned char reg, unsigned short *value)
{
	unsigned short ret;
	struct tsec_private *priv = get_priv_for_phy(addr);

	if(NULL == priv) {
		printf("Can't read PHY at address %d\n", addr);
		return -1;
	}

	ret = (unsigned short)read_phy_reg(priv, reg);
	*value = ret;

	return 0;
}

/*
 * Write a MII PHY register.
 *
 * Returns:
 *  0 on success
 */
int miiphy_write(unsigned char addr, unsigned char reg, unsigned short value)
{
	struct tsec_private *priv = get_priv_for_phy(addr);

	if(NULL == priv) {
		printf("Can't write PHY at address %d\n", addr);
		return -1;
	}

	write_phy_reg(priv, reg, value);

	return 0;
}

#endif /* CONFIG_BITBANGMII */

#endif /* CONFIG_TSEC_ENET */