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/*
 * Copyright 2009-2011 Freescale Semiconductor, Inc.
 * Author: Srikanth Srinivasan <srikanth.srinivasan@freescale.com>
 *
 * SPDX-License-Identifier:	GPL-2.0+
 */

/*
 * This file handles the board muxing between the Fman Ethernet MACs and
 * the RGMII/SGMII/XGMII PHYs on a Freescale P5040 "Super Hydra" reference
 * board. The RGMII PHYs are the two on-board 1Gb ports.  The SGMII PHYs are
 * provided by the standard Freescale four-port SGMII riser card.  The 10Gb
 * XGMII PHYs are provided via the XAUI riser card.  The P5040 has 2 FMans
 * and 5 1G interfaces and 10G interface per FMan. Based on the options in
 * the RCW, we could have upto 3 SGMII cards and 1 XAUI card at a time.
 *
 * Muxing is handled via the PIXIS BRDCFG1 register.  The EMI1 bits control
 * muxing among the RGMII PHYs and the SGMII PHYs.  The value for RGMII is
 * always the same (0).  The value for SGMII depends on which slot the riser is
 * inserted in.  The EMI2 bits control muxing for the the XGMII.  Like SGMII,
 * the value is based on which slot the XAUI is inserted in.
 *
 * The SERDES configuration is used to determine where the SGMII and XAUI cards
 * exist, and also which Fman's MACs are routed to which PHYs.  So for a given
 * Fman MAC, there is one and only PHY it connects to.  MACs cannot be routed
 * to PHYs dynamically.
 *
 *
 * This file also updates the device tree in three ways:
 *
 * 1) The status of each virtual MDIO node that is referenced by an Ethernet
 *    node is set to "okay".
 *
 * 2) The phy-handle property of each active Ethernet MAC node is set to the
 *    appropriate PHY node.
 *
 * 3) The "mux value" for each virtual MDIO node is set to the correct value,
 *    if necessary.  Some virtual MDIO nodes do not have configurable mux
 *    values, so those values are hard-coded in the DTS.  On the HYDRA board,
 *    the virtual MDIO node for the SGMII card needs to be updated.
 *
 * For all this to work, the device tree needs to have the following:
 *
 * 1) An alias for each PHY node that an Ethernet node could be routed to.
 *
 * 2) An alias for each real and virtual MDIO node that is disabled by default
 * and might need to be enabled, and also might need to have its mux-value
 * updated.
 */

#include <common.h>
#include <netdev.h>
#include <asm/fsl_serdes.h>
#include <fm_eth.h>
#include <fsl_mdio.h>
#include <malloc.h>
#include <fdt_support.h>
#include <fsl_dtsec.h>

#include "../common/ngpixis.h"
#include "../common/fman.h"

#ifdef CONFIG_FMAN_ENET

#define BRDCFG1_EMI1_SEL_MASK	0x70
#define BRDCFG1_EMI1_SEL_SLOT1	0x10
#define BRDCFG1_EMI1_SEL_SLOT2	0x20
#define BRDCFG1_EMI1_SEL_SLOT5	0x30
#define BRDCFG1_EMI1_SEL_SLOT6	0x40
#define BRDCFG1_EMI1_SEL_SLOT7	0x50
#define BRDCFG1_EMI1_SEL_SLOT3	0x60
#define BRDCFG1_EMI1_SEL_RGMII	0x00
#define BRDCFG1_EMI1_EN		0x08
#define BRDCFG1_EMI2_SEL_MASK	0x06
#define BRDCFG1_EMI2_SEL_SLOT1	0x00
#define BRDCFG1_EMI2_SEL_SLOT2	0x02

#define BRDCFG2_REG_GPIO_SEL	0x20

/* SGMII */
#define PHY_BASE_ADDR		0x00
#define REGNUM			0x00
#define PORT_NUM_FM1		0x04
#define PORT_NUM_FM2		0x02

/*
 * BRDCFG1 mask and value for each MAC
 *
 * This array contains the BRDCFG1 values (in mask/val format) that route the
 * MDIO bus to a particular RGMII or SGMII PHY.
 */
static struct {
	u8 mask;
	u8 val;
} mdio_mux[NUM_FM_PORTS];

/*
 * Mapping of all 18 SERDES lanes to board slots. A value of '0' here means
 * that the mapping must be determined dynamically, or that the lane maps to
 * something other than a board slot
 */
static u8 lane_to_slot[] = {
	7, 7, 0, 0, 0, 0, 0, 0, 0, 0, 2, 2, 2, 2, 1, 1, 0, 0, 0, 0
};

/*
 * Set the board muxing for a given MAC
 *
 * The MDIO layer calls this function every time it wants to talk to a PHY.
 */
void super_hydra_mux_mdio(u8 mask, u8 val)
{
	clrsetbits_8(&pixis->brdcfg1, mask, val);
}

struct super_hydra_mdio {
	u8 mask;
	u8 val;
	struct mii_dev *realbus;
};

static int super_hydra_mdio_read(struct mii_dev *bus, int addr, int devad,
				int regnum)
{
	struct super_hydra_mdio *priv = bus->priv;

	super_hydra_mux_mdio(priv->mask, priv->val);

	return priv->realbus->read(priv->realbus, addr, devad, regnum);
}

static int super_hydra_mdio_write(struct mii_dev *bus, int addr, int devad,
				int regnum, u16 value)
{
	struct super_hydra_mdio *priv = bus->priv;

	super_hydra_mux_mdio(priv->mask, priv->val);

	return priv->realbus->write(priv->realbus, addr, devad, regnum, value);
}

static int super_hydra_mdio_reset(struct mii_dev *bus)
{
	struct super_hydra_mdio *priv = bus->priv;

	return priv->realbus->reset(priv->realbus);
}

static void super_hydra_mdio_set_mux(char *name, u8 mask, u8 val)
{
	struct mii_dev *bus = miiphy_get_dev_by_name(name);
	struct super_hydra_mdio *priv = bus->priv;

	priv->mask = mask;
	priv->val = val;
}

static int super_hydra_mdio_init(char *realbusname, char *fakebusname)
{
	struct super_hydra_mdio *hmdio;
	struct mii_dev *bus = mdio_alloc();

	if (!bus) {
		printf("Failed to allocate Hydra MDIO bus\n");
		return -1;
	}

	hmdio = malloc(sizeof(*hmdio));
	if (!hmdio) {
		printf("Failed to allocate Hydra private data\n");
		free(bus);
		return -1;
	}

	bus->read = super_hydra_mdio_read;
	bus->write = super_hydra_mdio_write;
	bus->reset = super_hydra_mdio_reset;
	strcpy(bus->name, fakebusname);

	hmdio->realbus = miiphy_get_dev_by_name(realbusname);

	if (!hmdio->realbus) {
		printf("No bus with name %s\n", realbusname);
		free(bus);
		free(hmdio);
		return -1;
	}

	bus->priv = hmdio;

	return mdio_register(bus);
}

/*
 * Given the following ...
 *
 * 1) A pointer to an Fman Ethernet node (as identified by the 'compat'
 * compatible string and 'addr' physical address)
 *
 * 2) An Fman port
 *
 * ... update the phy-handle property of the Ethernet node to point to the
 * right PHY.  This assumes that we already know the PHY for each port.  That
 * information is stored in mdio_mux[].
 *
 * The offset of the Fman Ethernet node is also passed in for convenience, but
 * it is not used.
 *
 * Note that what we call "Fman ports" (enum fm_port) is really an Fman MAC.
 * Inside the Fman, "ports" are things that connect to MACs.  We only call them
 * ports in U-Boot because on previous Ethernet devices (e.g. Gianfar), MACs
 * and ports are the same thing.
 */
void board_ft_fman_fixup_port(void *fdt, char *compat, phys_addr_t addr,
			      enum fm_port port, int offset)
{
	enum srds_prtcl device;
	int lane, slot, phy;
	char alias[32];

	/* RGMII and XGMII are already mapped correctly in the DTS */

	if (fm_info_get_enet_if(port) == PHY_INTERFACE_MODE_SGMII) {
		device = serdes_device_from_fm_port(port);
		lane = serdes_get_first_lane(device);
		slot = lane_to_slot[lane];
		phy = fm_info_get_phy_address(port);

		sprintf(alias, "phy_sgmii_slot%u_%x", slot, phy);
		fdt_set_phy_handle(fdt, compat, addr, alias);
	}
}

#define PIXIS_SW2_LANE_23_SEL		0x80
#define PIXIS_SW2_LANE_45_SEL		0x40
#define PIXIS_SW2_LANE_67_SEL_MASK	0x30
#define PIXIS_SW2_LANE_67_SEL_5		0x00
#define PIXIS_SW2_LANE_67_SEL_6		0x20
#define PIXIS_SW2_LANE_67_SEL_7		0x10
#define PIXIS_SW2_LANE_8_SEL		0x08
#define PIXIS_SW2_LANE_1617_SEL		0x04
#define PIXIS_SW11_LANE_9_SEL		0x04
/*
 * Initialize the lane_to_slot[] array.
 *
 * On the P4080DS "Expedition" board, the mapping of SERDES lanes to board
 * slots is hard-coded.  On the Hydra board, however, the mapping is controlled
 * by board switch SW2, so the lane_to_slot[] array needs to be dynamically
 * initialized.
 */
static void initialize_lane_to_slot(void)
{
	u8 sw2 = in_8(&PIXIS_SW(2));
	/* SW11 appears in the programming model as SW9 */
	u8 sw11 = in_8(&PIXIS_SW(9));

	lane_to_slot[2] = (sw2 & PIXIS_SW2_LANE_23_SEL) ? 7 : 4;
	lane_to_slot[3] = lane_to_slot[2];

	lane_to_slot[4] = (sw2 & PIXIS_SW2_LANE_45_SEL) ? 7 : 6;
	lane_to_slot[5] = lane_to_slot[4];

	switch (sw2 & PIXIS_SW2_LANE_67_SEL_MASK) {
	case PIXIS_SW2_LANE_67_SEL_5:
		lane_to_slot[6] = 5;
		break;
	case PIXIS_SW2_LANE_67_SEL_6:
		lane_to_slot[6] = 6;
		break;
	case PIXIS_SW2_LANE_67_SEL_7:
		lane_to_slot[6] = 7;
		break;
	}
	lane_to_slot[7] = lane_to_slot[6];

	lane_to_slot[8] = (sw2 & PIXIS_SW2_LANE_8_SEL) ? 3 : 0;
	lane_to_slot[9] = (sw11 & PIXIS_SW11_LANE_9_SEL) ? 0 : 3;

	lane_to_slot[16] = (sw2 & PIXIS_SW2_LANE_1617_SEL) ? 1 : 0;
	lane_to_slot[17] = lane_to_slot[16];
}

#endif /* #ifdef CONFIG_FMAN_ENET */

/*
 * Configure the status for the virtual MDIO nodes
 *
 * Rather than create the virtual MDIO nodes from scratch for each active
 * virtual MDIO, we expect the DTS to have the nodes defined already, and we
 * only enable the ones that are actually active.
 *
 * We assume that the DTS already hard-codes the status for all the
 * virtual MDIO nodes to "disabled", so all we need to do is enable the
 * active ones.
 */
void fdt_fixup_board_enet(void *fdt)
{
#ifdef CONFIG_FMAN_ENET
	enum fm_port i;
	int lane, slot;

	for (i = FM1_DTSEC1; i < FM1_DTSEC1 + CONFIG_SYS_NUM_FM1_DTSEC; i++) {
		int idx = i - FM1_DTSEC1;

		switch (fm_info_get_enet_if(i)) {
		case PHY_INTERFACE_MODE_SGMII:
			lane = serdes_get_first_lane(SGMII_FM1_DTSEC1 + idx);
			if (lane >= 0) {
				char alias[32];

				slot = lane_to_slot[lane];
				sprintf(alias, "hydra_sg_slot%u", slot);
				fdt_status_okay_by_alias(fdt, alias);
				debug("Enabled MDIO node %s (slot %i)\n",
				      alias, slot);
			}
			break;
		case PHY_INTERFACE_MODE_RGMII:
			fdt_status_okay_by_alias(fdt, "hydra_rg");
			debug("Enabled MDIO node hydra_rg\n");
			break;
		default:
			break;
		}
	}

	lane = serdes_get_first_lane(XAUI_FM1);
	if (lane >= 0) {
		char alias[32];

		slot = lane_to_slot[lane];
		sprintf(alias, "hydra_xg_slot%u", slot);
		fdt_status_okay_by_alias(fdt, alias);
		debug("Enabled MDIO node %s (slot %i)\n", alias, slot);
	}

#if CONFIG_SYS_NUM_FMAN == 2
	for (i = FM2_DTSEC1; i < FM2_DTSEC1 + CONFIG_SYS_NUM_FM2_DTSEC; i++) {
		int idx = i - FM2_DTSEC1;

		switch (fm_info_get_enet_if(i)) {
		case PHY_INTERFACE_MODE_SGMII:
			lane = serdes_get_first_lane(SGMII_FM2_DTSEC1 + idx);
			if (lane >= 0) {
				char alias[32];

				slot = lane_to_slot[lane];
				sprintf(alias, "hydra_sg_slot%u", slot);
				fdt_status_okay_by_alias(fdt, alias);
				debug("Enabled MDIO node %s (slot %i)\n",
				      alias, slot);
			}
			break;
		case PHY_INTERFACE_MODE_RGMII:
			fdt_status_okay_by_alias(fdt, "hydra_rg");
			debug("Enabled MDIO node hydra_rg\n");
			break;
		default:
			break;
		}
	}

	lane = serdes_get_first_lane(XAUI_FM2);
	if (lane >= 0) {
		char alias[32];

		slot = lane_to_slot[lane];
		sprintf(alias, "hydra_xg_slot%u", slot);
		fdt_status_okay_by_alias(fdt, alias);
		debug("Enabled MDIO node %s (slot %i)\n", alias, slot);
	}
#endif /* CONFIG_SYS_NUM_FMAN == 2 */
#endif /* CONFIG_FMAN_ENET */
}

/*
 * Mapping of SerDes Protocol to MDIO MUX value and PHY address.
 *
 * Fman 1:
 *       DTSEC1        |   DTSEC2        |   DTSEC3        |   DTSEC4
 *       Mux     Phy   |   Mux     Phy   |   Mux     Phy   |   Mux     Phy
 *       Value   Addr  |   Value   Addr  |   Value   Addr  |   Value   Addr
 * 0x00  2       1c    |   2       1d    |   2       1e    |   2       1f
 * 0x01                |                 |   6       1c    |
 * 0x02                |                 |   3       1c    |   3       1d
 * 0x03  2       1c    |   2       1d    |   2       1e    |   2       1f
 * 0x04  2       1c    |   2       1d    |   2       1e    |   2       1f
 * 0x05                |                 |   3       1c    |   3       1d
 * 0x06  2       1c    |   2       1d    |   2       1e    |   2       1f
 * 0x07                |                 |   6       1c    |
 * 0x11  2       1c    |   2       1d    |   2       1e    |   2       1f
 * 0x2a  2             |                 |   2       1e    |   2       1f
 * 0x34  6       1c    |   6       1d    |   4       1e    |   4       1f
 * 0x35                |                 |   3       1c    |   3       1d
 * 0x36  6       1c    |   6       1d    |   4       1e    |   4       1f
 *                     |                 |                 |
 * Fman  2:            |                 |                 |
 *       DTSEC1        |   DTSEC2        |   DTSEC3        |   DTSEC4
 *       EMI1          |   EMI1          |   EMI1          |   EMI1
 *       Mux     Phy   |   Mux     Phy   |   Mux     Phy   |   Mux     Phy
 *       Value   Addr  |   Value   Addr  |   Value   Addr  |   Value   Addr
 * 0x00                |                 |   6       1c    |   6       1d
 * 0x01                |                 |                 |
 * 0x02                |                 |   6       1c    |   6       1d
 * 0x03  3       1c    |   3       1d    |   6       1c    |   6       1d
 * 0x04  3       1c    |   3       1d    |   6       1c    |   6       1d
 * 0x05                |                 |   6       1c    |   6       1d
 * 0x06                |                 |   6       1c    |   6       1d
 * 0x07                |                 |                 |
 * 0x11                |                 |                 |
 * 0x2a                |                 |                 |
 * 0x34                |                 |                 |
 * 0x35                |                 |                 |
 * 0x36                |                 |                 |
 */

int board_eth_init(bd_t *bis)
{
#ifdef CONFIG_FMAN_ENET
	struct fsl_pq_mdio_info dtsec_mdio_info;
	struct tgec_mdio_info tgec_mdio_info;
	unsigned int i, slot;
	int lane;
	struct mii_dev *bus;
	int qsgmii;
	int phy_real_addr;
	ccsr_gur_t *gur = (void *)(CONFIG_SYS_MPC85xx_GUTS_ADDR);
	int srds_prtcl = (in_be32(&gur->rcwsr[4]) &
				FSL_CORENET_RCWSR4_SRDS_PRTCL) >> 26;

	printf("Initializing Fman\n");

	initialize_lane_to_slot();

	/* We want to use the PIXIS to configure MUX routing, not GPIOs. */
	setbits_8(&pixis->brdcfg2, BRDCFG2_REG_GPIO_SEL);

	memset(mdio_mux, 0, sizeof(mdio_mux));

	dtsec_mdio_info.regs =
		(struct tsec_mii_mng *)CONFIG_SYS_FM1_DTSEC1_MDIO_ADDR;
	dtsec_mdio_info.name = DEFAULT_FM_MDIO_NAME;

	/* Register the real 1G MDIO bus */
	fsl_pq_mdio_init(bis, &dtsec_mdio_info);

	tgec_mdio_info.regs =
		(struct tgec_mdio_controller *)CONFIG_SYS_FM1_TGEC_MDIO_ADDR;
	tgec_mdio_info.name = DEFAULT_FM_TGEC_MDIO_NAME;

	/* Register the real 10G MDIO bus */
	fm_tgec_mdio_init(bis, &tgec_mdio_info);

	/* Register the three virtual MDIO front-ends */
	super_hydra_mdio_init(DEFAULT_FM_MDIO_NAME,
				"SUPER_HYDRA_RGMII_MDIO");
	super_hydra_mdio_init(DEFAULT_FM_MDIO_NAME,
				"SUPER_HYDRA_FM1_SGMII_MDIO");
	super_hydra_mdio_init(DEFAULT_FM_MDIO_NAME,
				"SUPER_HYDRA_FM2_SGMII_MDIO");
	super_hydra_mdio_init(DEFAULT_FM_MDIO_NAME,
			      "SUPER_HYDRA_FM3_SGMII_MDIO");
	super_hydra_mdio_init(DEFAULT_FM_TGEC_MDIO_NAME,
				"SUPER_HYDRA_FM1_TGEC_MDIO");
	super_hydra_mdio_init(DEFAULT_FM_TGEC_MDIO_NAME,
				"SUPER_HYDRA_FM2_TGEC_MDIO");

	/*
	 * Program the DTSEC PHY addresses assuming that they are all SGMII.
	 * For any DTSEC that's RGMII, we'll override its PHY address later.
	 * We assume that DTSEC5 is only used for RGMII.
	 */
	fm_info_set_phy_address(FM1_DTSEC1, CONFIG_SYS_FM1_DTSEC1_PHY_ADDR);
	fm_info_set_phy_address(FM1_DTSEC2, CONFIG_SYS_FM1_DTSEC2_PHY_ADDR);
	fm_info_set_phy_address(FM1_10GEC1, CONFIG_SYS_FM2_10GEC1_PHY_ADDR);

#if (CONFIG_SYS_NUM_FMAN == 2)
	fm_info_set_phy_address(FM2_DTSEC1, CONFIG_SYS_FM2_DTSEC1_PHY_ADDR);
	fm_info_set_phy_address(FM2_DTSEC2, CONFIG_SYS_FM2_DTSEC2_PHY_ADDR);
	fm_info_set_phy_address(FM2_DTSEC3, CONFIG_SYS_FM2_DTSEC1_PHY_ADDR);
	fm_info_set_phy_address(FM2_DTSEC4, CONFIG_SYS_FM2_DTSEC2_PHY_ADDR);
	fm_info_set_phy_address(FM2_10GEC1, CONFIG_SYS_FM1_10GEC1_PHY_ADDR);
#endif

	switch (srds_prtcl) {
	case 0:
	case 3:
	case 4:
	case 6:
	case 0x11:
	case 0x2a:
	case 0x34:
	case 0x36:
		fm_info_set_phy_address(FM1_DTSEC3,
					CONFIG_SYS_FM1_DTSEC3_PHY_ADDR);
		fm_info_set_phy_address(FM1_DTSEC4,
					CONFIG_SYS_FM1_DTSEC4_PHY_ADDR);
		break;
	case 1:
	case 2:
	case 5:
	case 7:
	case 0x35:
		fm_info_set_phy_address(FM1_DTSEC3,
					CONFIG_SYS_FM1_DTSEC1_PHY_ADDR);
		fm_info_set_phy_address(FM1_DTSEC4,
					CONFIG_SYS_FM1_DTSEC2_PHY_ADDR);
		break;
	default:
		printf("Fman:  Unsupport SerDes Protocol 0x%02x\n", srds_prtcl);
		break;
	}

	for (i = FM1_DTSEC1; i < FM1_DTSEC1 + CONFIG_SYS_NUM_FM1_DTSEC; i++) {
		int idx = i - FM1_DTSEC1;

		switch (fm_info_get_enet_if(i)) {
		case PHY_INTERFACE_MODE_SGMII:
			lane = serdes_get_first_lane(SGMII_FM1_DTSEC1 + idx);
			if (lane < 0)
				break;
			slot = lane_to_slot[lane];
			mdio_mux[i].mask = BRDCFG1_EMI1_SEL_MASK;
			debug("FM1@DTSEC%u expects SGMII in slot %u\n",
			      idx + 1, slot);
			switch (slot) {
			case 1:
				mdio_mux[i].val = BRDCFG1_EMI1_SEL_SLOT1 |
						BRDCFG1_EMI1_EN;
				break;
			case 2:
				mdio_mux[i].val = BRDCFG1_EMI1_SEL_SLOT2 |
						BRDCFG1_EMI1_EN;
				break;
			case 3:
				mdio_mux[i].val = BRDCFG1_EMI1_SEL_SLOT3 |
						BRDCFG1_EMI1_EN;
				break;
			case 5:
				mdio_mux[i].val = BRDCFG1_EMI1_SEL_SLOT5 |
						BRDCFG1_EMI1_EN;
				break;
			case 6:
				mdio_mux[i].val = BRDCFG1_EMI1_SEL_SLOT6 |
						BRDCFG1_EMI1_EN;
				break;
			case 7:
				mdio_mux[i].val = BRDCFG1_EMI1_SEL_SLOT7 |
						BRDCFG1_EMI1_EN;
				break;
			};

			super_hydra_mdio_set_mux("SUPER_HYDRA_FM1_SGMII_MDIO",
					mdio_mux[i].mask, mdio_mux[i].val);
			fm_info_set_mdio(i,
			miiphy_get_dev_by_name("SUPER_HYDRA_FM1_SGMII_MDIO"));
			break;
		case PHY_INTERFACE_MODE_RGMII:
			/*
			 * FM1 DTSEC5 is routed via EC1 to the first on-board
			 * RGMII port. FM2 DTSEC5 is routed via EC2 to the
			 * second on-board RGMII port. The other DTSECs cannot
			 * be routed to RGMII.
			 */
			debug("FM1@DTSEC%u is RGMII at address %u\n",
			      idx + 1, 0);
			fm_info_set_phy_address(i, 0);
			mdio_mux[i].mask = BRDCFG1_EMI1_SEL_MASK;
			mdio_mux[i].val  = BRDCFG1_EMI1_SEL_RGMII |
					   BRDCFG1_EMI1_EN;
			super_hydra_mdio_set_mux("SUPER_HYDRA_RGMII_MDIO",
					mdio_mux[i].mask, mdio_mux[i].val);
			fm_info_set_mdio(i,
				miiphy_get_dev_by_name("SUPER_HYDRA_RGMII_MDIO"));
			break;
		case PHY_INTERFACE_MODE_NONE:
			fm_info_set_phy_address(i, 0);
			break;
		default:
			printf("Fman1: DTSEC%u set to unknown interface %i\n",
			       idx + 1, fm_info_get_enet_if(i));
			fm_info_set_phy_address(i, 0);
			break;
		}
	}

	bus = miiphy_get_dev_by_name("SUPER_HYDRA_FM1_SGMII_MDIO");
	qsgmii = is_qsgmii_riser_card(bus, PHY_BASE_ADDR, PORT_NUM_FM1, REGNUM);

	if (qsgmii) {
		for (i = FM1_DTSEC1; i < FM1_DTSEC1 + PORT_NUM_FM1; i++) {
			if (fm_info_get_enet_if(i) ==
					PHY_INTERFACE_MODE_SGMII) {
				phy_real_addr = PHY_BASE_ADDR + i - FM1_DTSEC1;
				fm_info_set_phy_address(i, phy_real_addr);
			}
		}
		switch (srds_prtcl) {
		case 0x00:
		case 0x03:
		case 0x04:
		case 0x06:
		case 0x11:
		case 0x2a:
		case 0x34:
		case 0x36:
			fm_info_set_phy_address(FM1_DTSEC3, PHY_BASE_ADDR + 2);
			fm_info_set_phy_address(FM1_DTSEC4, PHY_BASE_ADDR + 3);
			break;
		case 0x01:
		case 0x02:
		case 0x05:
		case 0x07:
		case 0x35:
			fm_info_set_phy_address(FM1_DTSEC3, PHY_BASE_ADDR + 0);
			fm_info_set_phy_address(FM1_DTSEC4, PHY_BASE_ADDR + 1);
			break;
		default:
			break;
		}
	}

	/*
	 * For 10G, we only support one XAUI card per Fman.  If present, then we
	 * force its routing and never touch those bits again, which removes the
	 * need for Linux to do any muxing.  This works because of the way
	 * BRDCFG1 is defined, but it's a bit hackish.
	 *
	 * The PHY address for the XAUI card depends on which slot it's in. The
	 * macros we use imply that the PHY address is based on which FM, but
	 * that's not true.  On the P4080DS, FM1 could only use XAUI in slot 5,
	 * and FM2 could only use a XAUI in slot 4.  On the Hydra board, we
	 * check the actual slot and just use the macros as-is, even though
	 * the P3041 and P5020 only have one Fman.
	 */
	lane = serdes_get_first_lane(XAUI_FM1);
	if (lane >= 0) {
		debug("FM1@TGEC1 expects XAUI in slot %u\n", lane_to_slot[lane]);
		mdio_mux[i].mask = BRDCFG1_EMI2_SEL_MASK;
		mdio_mux[i].val = BRDCFG1_EMI2_SEL_SLOT2;
		super_hydra_mdio_set_mux("SUPER_HYDRA_FM1_TGEC_MDIO",
					mdio_mux[i].mask, mdio_mux[i].val);
	}

	fm_info_set_mdio(FM1_10GEC1,
			miiphy_get_dev_by_name("SUPER_HYDRA_FM1_TGEC_MDIO"));

#if (CONFIG_SYS_NUM_FMAN == 2)
	for (i = FM2_DTSEC1; i < FM2_DTSEC1 + CONFIG_SYS_NUM_FM2_DTSEC; i++) {
		int idx = i - FM2_DTSEC1;

		switch (fm_info_get_enet_if(i)) {
		case PHY_INTERFACE_MODE_SGMII:
			lane = serdes_get_first_lane(SGMII_FM2_DTSEC1 + idx);
			if (lane < 0)
				break;
			slot = lane_to_slot[lane];
			mdio_mux[i].mask = BRDCFG1_EMI1_SEL_MASK;
			debug("FM2@DTSEC%u expects SGMII in slot %u\n",
			      idx + 1, slot);
			switch (slot) {
			case 1:
				mdio_mux[i].val = BRDCFG1_EMI1_SEL_SLOT1 |
						BRDCFG1_EMI1_EN;
				break;
			case 2:
				mdio_mux[i].val = BRDCFG1_EMI1_SEL_SLOT2 |
						BRDCFG1_EMI1_EN;
				break;
			case 3:
				mdio_mux[i].val = BRDCFG1_EMI1_SEL_SLOT3 |
						BRDCFG1_EMI1_EN;
				break;
			case 5:
				mdio_mux[i].val = BRDCFG1_EMI1_SEL_SLOT5 |
						BRDCFG1_EMI1_EN;
				break;
			case 6:
				mdio_mux[i].val = BRDCFG1_EMI1_SEL_SLOT6 |
						BRDCFG1_EMI1_EN;
				break;
			case 7:
				mdio_mux[i].val = BRDCFG1_EMI1_SEL_SLOT7 |
						BRDCFG1_EMI1_EN;
				break;
			};

			if (i == FM2_DTSEC1 || i == FM2_DTSEC2) {
				super_hydra_mdio_set_mux(
						"SUPER_HYDRA_FM3_SGMII_MDIO",
						mdio_mux[i].mask,
						mdio_mux[i].val);
				fm_info_set_mdio(i, miiphy_get_dev_by_name(
						"SUPER_HYDRA_FM3_SGMII_MDIO"));
			} else {
				super_hydra_mdio_set_mux(
						"SUPER_HYDRA_FM2_SGMII_MDIO",
						mdio_mux[i].mask,
						mdio_mux[i].val);
				fm_info_set_mdio(i, miiphy_get_dev_by_name(
						"SUPER_HYDRA_FM2_SGMII_MDIO"));
			}

			break;
		case PHY_INTERFACE_MODE_RGMII:
			/*
			 * FM1 DTSEC5 is routed via EC1 to the first on-board
			 * RGMII port. FM2 DTSEC5 is routed via EC2 to the
			 * second on-board RGMII port. The other DTSECs cannot
			 * be routed to RGMII.
			 */
			debug("FM2@DTSEC%u is RGMII at address %u\n",
			      idx + 1, 1);
			fm_info_set_phy_address(i, 1);
			mdio_mux[i].mask = BRDCFG1_EMI1_SEL_MASK;
			mdio_mux[i].val  = BRDCFG1_EMI1_SEL_RGMII |
					BRDCFG1_EMI1_EN;
			super_hydra_mdio_set_mux("SUPER_HYDRA_RGMII_MDIO",
					mdio_mux[i].mask, mdio_mux[i].val);
			fm_info_set_mdio(i,
			miiphy_get_dev_by_name("SUPER_HYDRA_RGMII_MDIO"));
			break;
		case PHY_INTERFACE_MODE_NONE:
			fm_info_set_phy_address(i, 0);
			break;
		default:
			printf("Fman2: DTSEC%u set to unknown interface %i\n",
				idx + 1, fm_info_get_enet_if(i));
			fm_info_set_phy_address(i, 0);
			break;
		}
	}

	bus = miiphy_get_dev_by_name("SUPER_HYDRA_FM2_SGMII_MDIO");
	set_sgmii_phy(bus, FM2_DTSEC3, PORT_NUM_FM2, PHY_BASE_ADDR);
	bus = miiphy_get_dev_by_name("SUPER_HYDRA_FM3_SGMII_MDIO");
	set_sgmii_phy(bus, FM2_DTSEC1, PORT_NUM_FM2, PHY_BASE_ADDR);

	/*
	 * For 10G, we only support one XAUI card per Fman.  If present, then we
	 * force its routing and never touch those bits again, which removes the
	 * need for Linux to do any muxing.  This works because of the way
	 * BRDCFG1 is defined, but it's a bit hackish.
	 *
	 * The PHY address for the XAUI card depends on which slot it's in. The
	 * macros we use imply that the PHY address is based on which FM, but
	 * that's not true.  On the P4080DS, FM1 could only use XAUI in slot 5,
	 * and FM2 could only use a XAUI in slot 4.  On the Hydra board, we
	 * check the actual slot and just use the macros as-is, even though
	 * the P3041 and P5020 only have one Fman.
	 */
	lane = serdes_get_first_lane(XAUI_FM2);
	if (lane >= 0) {
		debug("FM2@TGEC1 expects XAUI in slot %u\n", lane_to_slot[lane]);
		mdio_mux[i].mask = BRDCFG1_EMI2_SEL_MASK;
		mdio_mux[i].val = BRDCFG1_EMI2_SEL_SLOT1;
		super_hydra_mdio_set_mux("SUPER_HYDRA_FM2_TGEC_MDIO",
					mdio_mux[i].mask, mdio_mux[i].val);
	}

	fm_info_set_mdio(FM2_10GEC1,
			miiphy_get_dev_by_name("SUPER_HYDRA_FM2_TGEC_MDIO"));

#endif

	cpu_eth_init(bis);
#endif

	return pci_eth_init(bis);
}