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path: root/drivers/net/ixgbe/ixgbe_phy.c
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/*******************************************************************************

  Intel 10 Gigabit PCI Express Linux driver
  Copyright(c) 1999 - 2010 Intel Corporation.

  This program is free software; you can redistribute it and/or modify it
  under the terms and conditions of the GNU General Public License,
  version 2, as published by the Free Software Foundation.

  This program is distributed in the hope it will be useful, but WITHOUT
  ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
  more details.

  You should have received a copy of the GNU General Public License along with
  this program; if not, write to the Free Software Foundation, Inc.,
  51 Franklin St - Fifth Floor, Boston, MA 02110-1301 USA.

  The full GNU General Public License is included in this distribution in
  the file called "COPYING".

  Contact Information:
  e1000-devel Mailing List <e1000-devel@lists.sourceforge.net>
  Intel Corporation, 5200 N.E. Elam Young Parkway, Hillsboro, OR 97124-6497

*******************************************************************************/

#include <linux/pci.h>
#include <linux/delay.h>
#include <linux/sched.h>

#include "ixgbe_common.h"
#include "ixgbe_phy.h"

static void ixgbe_i2c_start(struct ixgbe_hw *hw);
static void ixgbe_i2c_stop(struct ixgbe_hw *hw);
static s32 ixgbe_clock_in_i2c_byte(struct ixgbe_hw *hw, u8 *data);
static s32 ixgbe_clock_out_i2c_byte(struct ixgbe_hw *hw, u8 data);
static s32 ixgbe_get_i2c_ack(struct ixgbe_hw *hw);
static s32 ixgbe_clock_in_i2c_bit(struct ixgbe_hw *hw, bool *data);
static s32 ixgbe_clock_out_i2c_bit(struct ixgbe_hw *hw, bool data);
static s32 ixgbe_raise_i2c_clk(struct ixgbe_hw *hw, u32 *i2cctl);
static void ixgbe_lower_i2c_clk(struct ixgbe_hw *hw, u32 *i2cctl);
static s32 ixgbe_set_i2c_data(struct ixgbe_hw *hw, u32 *i2cctl, bool data);
static bool ixgbe_get_i2c_data(u32 *i2cctl);
static void ixgbe_i2c_bus_clear(struct ixgbe_hw *hw);
static enum ixgbe_phy_type ixgbe_get_phy_type_from_id(u32 phy_id);
static s32 ixgbe_get_phy_id(struct ixgbe_hw *hw);

/**
 *  ixgbe_identify_phy_generic - Get physical layer module
 *  @hw: pointer to hardware structure
 *
 *  Determines the physical layer module found on the current adapter.
 **/
s32 ixgbe_identify_phy_generic(struct ixgbe_hw *hw)
{
	s32 status = IXGBE_ERR_PHY_ADDR_INVALID;
	u32 phy_addr;

	if (hw->phy.type == ixgbe_phy_unknown) {
		for (phy_addr = 0; phy_addr < IXGBE_MAX_PHY_ADDR; phy_addr++) {
			hw->phy.mdio.prtad = phy_addr;
			if (mdio45_probe(&hw->phy.mdio, phy_addr) == 0) {
				ixgbe_get_phy_id(hw);
				hw->phy.type =
				        ixgbe_get_phy_type_from_id(hw->phy.id);
				status = 0;
				break;
			}
		}
		/* clear value if nothing found */
		hw->phy.mdio.prtad = 0;
	} else {
		status = 0;
	}

	return status;
}

/**
 *  ixgbe_get_phy_id - Get the phy type
 *  @hw: pointer to hardware structure
 *
 **/
static s32 ixgbe_get_phy_id(struct ixgbe_hw *hw)
{
	u32 status;
	u16 phy_id_high = 0;
	u16 phy_id_low = 0;

	status = hw->phy.ops.read_reg(hw, MDIO_DEVID1, MDIO_MMD_PMAPMD,
	                              &phy_id_high);

	if (status == 0) {
		hw->phy.id = (u32)(phy_id_high << 16);
		status = hw->phy.ops.read_reg(hw, MDIO_DEVID2, MDIO_MMD_PMAPMD,
		                              &phy_id_low);
		hw->phy.id |= (u32)(phy_id_low & IXGBE_PHY_REVISION_MASK);
		hw->phy.revision = (u32)(phy_id_low & ~IXGBE_PHY_REVISION_MASK);
	}
	return status;
}

/**
 *  ixgbe_get_phy_type_from_id - Get the phy type
 *  @hw: pointer to hardware structure
 *
 **/
static enum ixgbe_phy_type ixgbe_get_phy_type_from_id(u32 phy_id)
{
	enum ixgbe_phy_type phy_type;

	switch (phy_id) {
	case TN1010_PHY_ID:
		phy_type = ixgbe_phy_tn;
		break;
	case X540_PHY_ID:
		phy_type = ixgbe_phy_aq;
		break;
	case QT2022_PHY_ID:
		phy_type = ixgbe_phy_qt;
		break;
	case ATH_PHY_ID:
		phy_type = ixgbe_phy_nl;
		break;
	default:
		phy_type = ixgbe_phy_unknown;
		break;
	}

	return phy_type;
}

/**
 *  ixgbe_reset_phy_generic - Performs a PHY reset
 *  @hw: pointer to hardware structure
 **/
s32 ixgbe_reset_phy_generic(struct ixgbe_hw *hw)
{
	/* Don't reset PHY if it's shut down due to overtemp. */
	if (!hw->phy.reset_if_overtemp &&
	    (IXGBE_ERR_OVERTEMP == hw->phy.ops.check_overtemp(hw)))
		return 0;

	/*
	 * Perform soft PHY reset to the PHY_XS.
	 * This will cause a soft reset to the PHY
	 */
	return hw->phy.ops.write_reg(hw, MDIO_CTRL1, MDIO_MMD_PHYXS,
				     MDIO_CTRL1_RESET);
}

/**
 *  ixgbe_read_phy_reg_generic - Reads a value from a specified PHY register
 *  @hw: pointer to hardware structure
 *  @reg_addr: 32 bit address of PHY register to read
 *  @phy_data: Pointer to read data from PHY register
 **/
s32 ixgbe_read_phy_reg_generic(struct ixgbe_hw *hw, u32 reg_addr,
                               u32 device_type, u16 *phy_data)
{
	u32 command;
	u32 i;
	u32 data;
	s32 status = 0;
	u16 gssr;

	if (IXGBE_READ_REG(hw, IXGBE_STATUS) & IXGBE_STATUS_LAN_ID_1)
		gssr = IXGBE_GSSR_PHY1_SM;
	else
		gssr = IXGBE_GSSR_PHY0_SM;

	if (ixgbe_acquire_swfw_sync(hw, gssr) != 0)
		status = IXGBE_ERR_SWFW_SYNC;

	if (status == 0) {
		/* Setup and write the address cycle command */
		command = ((reg_addr << IXGBE_MSCA_NP_ADDR_SHIFT)  |
		           (device_type << IXGBE_MSCA_DEV_TYPE_SHIFT) |
		           (hw->phy.mdio.prtad << IXGBE_MSCA_PHY_ADDR_SHIFT) |
		           (IXGBE_MSCA_ADDR_CYCLE | IXGBE_MSCA_MDI_COMMAND));

		IXGBE_WRITE_REG(hw, IXGBE_MSCA, command);

		/*
		 * Check every 10 usec to see if the address cycle completed.
		 * The MDI Command bit will clear when the operation is
		 * complete
		 */
		for (i = 0; i < IXGBE_MDIO_COMMAND_TIMEOUT; i++) {
			udelay(10);

			command = IXGBE_READ_REG(hw, IXGBE_MSCA);

			if ((command & IXGBE_MSCA_MDI_COMMAND) == 0)
				break;
		}

		if ((command & IXGBE_MSCA_MDI_COMMAND) != 0) {
			hw_dbg(hw, "PHY address command did not complete.\n");
			status = IXGBE_ERR_PHY;
		}

		if (status == 0) {
			/*
			 * Address cycle complete, setup and write the read
			 * command
			 */
			command = ((reg_addr << IXGBE_MSCA_NP_ADDR_SHIFT)  |
			           (device_type << IXGBE_MSCA_DEV_TYPE_SHIFT) |
			           (hw->phy.mdio.prtad <<
				    IXGBE_MSCA_PHY_ADDR_SHIFT) |
			           (IXGBE_MSCA_READ | IXGBE_MSCA_MDI_COMMAND));

			IXGBE_WRITE_REG(hw, IXGBE_MSCA, command);

			/*
			 * Check every 10 usec to see if the address cycle
			 * completed. The MDI Command bit will clear when the
			 * operation is complete
			 */
			for (i = 0; i < IXGBE_MDIO_COMMAND_TIMEOUT; i++) {
				udelay(10);

				command = IXGBE_READ_REG(hw, IXGBE_MSCA);

				if ((command & IXGBE_MSCA_MDI_COMMAND) == 0)
					break;
			}

			if ((command & IXGBE_MSCA_MDI_COMMAND) != 0) {
				hw_dbg(hw, "PHY read command didn't complete\n");
				status = IXGBE_ERR_PHY;
			} else {
				/*
				 * Read operation is complete.  Get the data
				 * from MSRWD
				 */
				data = IXGBE_READ_REG(hw, IXGBE_MSRWD);
				data >>= IXGBE_MSRWD_READ_DATA_SHIFT;
				*phy_data = (u16)(data);
			}
		}

		ixgbe_release_swfw_sync(hw, gssr);
	}

	return status;
}

/**
 *  ixgbe_write_phy_reg_generic - Writes a value to specified PHY register
 *  @hw: pointer to hardware structure
 *  @reg_addr: 32 bit PHY register to write
 *  @device_type: 5 bit device type
 *  @phy_data: Data to write to the PHY register
 **/
s32 ixgbe_write_phy_reg_generic(struct ixgbe_hw *hw, u32 reg_addr,
                                u32 device_type, u16 phy_data)
{
	u32 command;
	u32 i;
	s32 status = 0;
	u16 gssr;

	if (IXGBE_READ_REG(hw, IXGBE_STATUS) & IXGBE_STATUS_LAN_ID_1)
		gssr = IXGBE_GSSR_PHY1_SM;
	else
		gssr = IXGBE_GSSR_PHY0_SM;

	if (ixgbe_acquire_swfw_sync(hw, gssr) != 0)
		status = IXGBE_ERR_SWFW_SYNC;

	if (status == 0) {
		/* Put the data in the MDI single read and write data register*/
		IXGBE_WRITE_REG(hw, IXGBE_MSRWD, (u32)phy_data);

		/* Setup and write the address cycle command */
		command = ((reg_addr << IXGBE_MSCA_NP_ADDR_SHIFT)  |
		           (device_type << IXGBE_MSCA_DEV_TYPE_SHIFT) |
		           (hw->phy.mdio.prtad << IXGBE_MSCA_PHY_ADDR_SHIFT) |
		           (IXGBE_MSCA_ADDR_CYCLE | IXGBE_MSCA_MDI_COMMAND));

		IXGBE_WRITE_REG(hw, IXGBE_MSCA, command);

		/*
		 * Check every 10 usec to see if the address cycle completed.
		 * The MDI Command bit will clear when the operation is
		 * complete
		 */
		for (i = 0; i < IXGBE_MDIO_COMMAND_TIMEOUT; i++) {
			udelay(10);

			command = IXGBE_READ_REG(hw, IXGBE_MSCA);

			if ((command & IXGBE_MSCA_MDI_COMMAND) == 0)
				break;
		}

		if ((command & IXGBE_MSCA_MDI_COMMAND) != 0) {
			hw_dbg(hw, "PHY address cmd didn't complete\n");
			status = IXGBE_ERR_PHY;
		}

		if (status == 0) {
			/*
			 * Address cycle complete, setup and write the write
			 * command
			 */
			command = ((reg_addr << IXGBE_MSCA_NP_ADDR_SHIFT)  |
			           (device_type << IXGBE_MSCA_DEV_TYPE_SHIFT) |
			           (hw->phy.mdio.prtad <<
				    IXGBE_MSCA_PHY_ADDR_SHIFT) |
			           (IXGBE_MSCA_WRITE | IXGBE_MSCA_MDI_COMMAND));

			IXGBE_WRITE_REG(hw, IXGBE_MSCA, command);

			/*
			 * Check every 10 usec to see if the address cycle
			 * completed. The MDI Command bit will clear when the
			 * operation is complete
			 */
			for (i = 0; i < IXGBE_MDIO_COMMAND_TIMEOUT; i++) {
				udelay(10);

				command = IXGBE_READ_REG(hw, IXGBE_MSCA);

				if ((command & IXGBE_MSCA_MDI_COMMAND) == 0)
					break;
			}

			if ((command & IXGBE_MSCA_MDI_COMMAND) != 0) {
				hw_dbg(hw, "PHY address cmd didn't complete\n");
				status = IXGBE_ERR_PHY;
			}
		}

		ixgbe_release_swfw_sync(hw, gssr);
	}

	return status;
}

/**
 *  ixgbe_setup_phy_link_generic - Set and restart autoneg
 *  @hw: pointer to hardware structure
 *
 *  Restart autonegotiation and PHY and waits for completion.
 **/
s32 ixgbe_setup_phy_link_generic(struct ixgbe_hw *hw)
{
	s32 status = IXGBE_NOT_IMPLEMENTED;
	u32 time_out;
	u32 max_time_out = 10;
	u16 autoneg_reg;

	/*
	 * Set advertisement settings in PHY based on autoneg_advertised
	 * settings. If autoneg_advertised = 0, then advertise default values
	 * tnx devices cannot be "forced" to a autoneg 10G and fail.  But can
	 * for a 1G.
	 */
	hw->phy.ops.read_reg(hw, MDIO_AN_ADVERTISE, MDIO_MMD_AN, &autoneg_reg);

	if (hw->phy.autoneg_advertised == IXGBE_LINK_SPEED_1GB_FULL)
		autoneg_reg &= ~MDIO_AN_10GBT_CTRL_ADV10G;
	else
		autoneg_reg |= MDIO_AN_10GBT_CTRL_ADV10G;

	hw->phy.ops.write_reg(hw, MDIO_AN_ADVERTISE, MDIO_MMD_AN, autoneg_reg);

	/* Restart PHY autonegotiation and wait for completion */
	hw->phy.ops.read_reg(hw, MDIO_CTRL1, MDIO_MMD_AN, &autoneg_reg);

	autoneg_reg |= MDIO_AN_CTRL1_RESTART;

	hw->phy.ops.write_reg(hw, MDIO_CTRL1, MDIO_MMD_AN, autoneg_reg);

	/* Wait for autonegotiation to finish */
	for (time_out = 0; time_out < max_time_out; time_out++) {
		udelay(10);
		/* Restart PHY autonegotiation and wait for completion */
		status = hw->phy.ops.read_reg(hw, MDIO_STAT1, MDIO_MMD_AN,
		                              &autoneg_reg);

		autoneg_reg &= MDIO_AN_STAT1_COMPLETE;
		if (autoneg_reg == MDIO_AN_STAT1_COMPLETE) {
			status = 0;
			break;
		}
	}

	if (time_out == max_time_out)
		status = IXGBE_ERR_LINK_SETUP;

	return status;
}

/**
 *  ixgbe_setup_phy_link_speed_generic - Sets the auto advertised capabilities
 *  @hw: pointer to hardware structure
 *  @speed: new link speed
 *  @autoneg: true if autonegotiation enabled
 **/
s32 ixgbe_setup_phy_link_speed_generic(struct ixgbe_hw *hw,
                                       ixgbe_link_speed speed,
                                       bool autoneg,
                                       bool autoneg_wait_to_complete)
{

	/*
	 * Clear autoneg_advertised and set new values based on input link
	 * speed.
	 */
	hw->phy.autoneg_advertised = 0;

	if (speed & IXGBE_LINK_SPEED_10GB_FULL)
		hw->phy.autoneg_advertised |= IXGBE_LINK_SPEED_10GB_FULL;

	if (speed & IXGBE_LINK_SPEED_1GB_FULL)
		hw->phy.autoneg_advertised |= IXGBE_LINK_SPEED_1GB_FULL;

	/* Setup link based on the new speed settings */
	hw->phy.ops.setup_link(hw);

	return 0;
}

/**
 * ixgbe_get_copper_link_capabilities_generic - Determines link capabilities
 * @hw: pointer to hardware structure
 * @speed: pointer to link speed
 * @autoneg: boolean auto-negotiation value
 *
 * Determines the link capabilities by reading the AUTOC register.
 */
s32 ixgbe_get_copper_link_capabilities_generic(struct ixgbe_hw *hw,
                                               ixgbe_link_speed *speed,
                                               bool *autoneg)
{
	s32 status = IXGBE_ERR_LINK_SETUP;
	u16 speed_ability;

	*speed = 0;
	*autoneg = true;

	status = hw->phy.ops.read_reg(hw, MDIO_SPEED, MDIO_MMD_PMAPMD,
	                              &speed_ability);

	if (status == 0) {
		if (speed_ability & MDIO_SPEED_10G)
			*speed |= IXGBE_LINK_SPEED_10GB_FULL;
		if (speed_ability & MDIO_PMA_SPEED_1000)
			*speed |= IXGBE_LINK_SPEED_1GB_FULL;
		if (speed_ability & MDIO_PMA_SPEED_100)
			*speed |= IXGBE_LINK_SPEED_100_FULL;
	}

	return status;
}

/**
 *  ixgbe_reset_phy_nl - Performs a PHY reset
 *  @hw: pointer to hardware structure
 **/
s32 ixgbe_reset_phy_nl(struct ixgbe_hw *hw)
{
	u16 phy_offset, control, eword, edata, block_crc;
	bool end_data = false;
	u16 list_offset, data_offset;
	u16 phy_data = 0;
	s32 ret_val = 0;
	u32 i;

	hw->phy.ops.read_reg(hw, MDIO_CTRL1, MDIO_MMD_PHYXS, &phy_data);

	/* reset the PHY and poll for completion */
	hw->phy.ops.write_reg(hw, MDIO_CTRL1, MDIO_MMD_PHYXS,
	                      (phy_data | MDIO_CTRL1_RESET));

	for (i = 0; i < 100; i++) {
		hw->phy.ops.read_reg(hw, MDIO_CTRL1, MDIO_MMD_PHYXS,
		                     &phy_data);
		if ((phy_data & MDIO_CTRL1_RESET) == 0)
			break;
		msleep(10);
	}

	if ((phy_data & MDIO_CTRL1_RESET) != 0) {
		hw_dbg(hw, "PHY reset did not complete.\n");
		ret_val = IXGBE_ERR_PHY;
		goto out;
	}

	/* Get init offsets */
	ret_val = ixgbe_get_sfp_init_sequence_offsets(hw, &list_offset,
	                                              &data_offset);
	if (ret_val != 0)
		goto out;

	ret_val = hw->eeprom.ops.read(hw, data_offset, &block_crc);
	data_offset++;
	while (!end_data) {
		/*
		 * Read control word from PHY init contents offset
		 */
		ret_val = hw->eeprom.ops.read(hw, data_offset, &eword);
		control = (eword & IXGBE_CONTROL_MASK_NL) >>
		           IXGBE_CONTROL_SHIFT_NL;
		edata = eword & IXGBE_DATA_MASK_NL;
		switch (control) {
		case IXGBE_DELAY_NL:
			data_offset++;
			hw_dbg(hw, "DELAY: %d MS\n", edata);
			msleep(edata);
			break;
		case IXGBE_DATA_NL:
			hw_dbg(hw, "DATA:\n");
			data_offset++;
			hw->eeprom.ops.read(hw, data_offset++,
			                    &phy_offset);
			for (i = 0; i < edata; i++) {
				hw->eeprom.ops.read(hw, data_offset, &eword);
				hw->phy.ops.write_reg(hw, phy_offset,
				                      MDIO_MMD_PMAPMD, eword);
				hw_dbg(hw, "Wrote %4.4x to %4.4x\n", eword,
				       phy_offset);
				data_offset++;
				phy_offset++;
			}
			break;
		case IXGBE_CONTROL_NL:
			data_offset++;
			hw_dbg(hw, "CONTROL:\n");
			if (edata == IXGBE_CONTROL_EOL_NL) {
				hw_dbg(hw, "EOL\n");
				end_data = true;
			} else if (edata == IXGBE_CONTROL_SOL_NL) {
				hw_dbg(hw, "SOL\n");
			} else {
				hw_dbg(hw, "Bad control value\n");
				ret_val = IXGBE_ERR_PHY;
				goto out;
			}
			break;
		default:
			hw_dbg(hw, "Bad control type\n");
			ret_val = IXGBE_ERR_PHY;
			goto out;
		}
	}

out:
	return ret_val;
}

/**
 *  ixgbe_identify_sfp_module_generic - Identifies SFP module and assigns
 *                                      the PHY type.
 *  @hw: pointer to hardware structure
 *
 *  Searches for and indentifies the SFP module.  Assings appropriate PHY type.
 **/
s32 ixgbe_identify_sfp_module_generic(struct ixgbe_hw *hw)
{
	s32 status = IXGBE_ERR_PHY_ADDR_INVALID;
	u32 vendor_oui = 0;
	enum ixgbe_sfp_type stored_sfp_type = hw->phy.sfp_type;
	u8 identifier = 0;
	u8 comp_codes_1g = 0;
	u8 comp_codes_10g = 0;
	u8 oui_bytes[3] = {0, 0, 0};
	u8 cable_tech = 0;
	u8 cable_spec = 0;
	u16 enforce_sfp = 0;

	if (hw->mac.ops.get_media_type(hw) != ixgbe_media_type_fiber) {
		hw->phy.sfp_type = ixgbe_sfp_type_not_present;
		status = IXGBE_ERR_SFP_NOT_PRESENT;
		goto out;
	}

	status = hw->phy.ops.read_i2c_eeprom(hw, IXGBE_SFF_IDENTIFIER,
	                                     &identifier);

	if (status == IXGBE_ERR_SFP_NOT_PRESENT || status == IXGBE_ERR_I2C) {
		status = IXGBE_ERR_SFP_NOT_PRESENT;
		hw->phy.sfp_type = ixgbe_sfp_type_not_present;
		if (hw->phy.type != ixgbe_phy_nl) {
			hw->phy.id = 0;
			hw->phy.type = ixgbe_phy_unknown;
		}
		goto out;
	}

	if (identifier == IXGBE_SFF_IDENTIFIER_SFP) {
		hw->phy.ops.read_i2c_eeprom(hw, IXGBE_SFF_1GBE_COMP_CODES,
		                            &comp_codes_1g);
		hw->phy.ops.read_i2c_eeprom(hw, IXGBE_SFF_10GBE_COMP_CODES,
		                            &comp_codes_10g);
		hw->phy.ops.read_i2c_eeprom(hw, IXGBE_SFF_CABLE_TECHNOLOGY,
		                            &cable_tech);

		/* ID Module
		 * =========
		 * 0    SFP_DA_CU
		 * 1    SFP_SR
		 * 2    SFP_LR
		 * 3    SFP_DA_CORE0 - 82599-specific
		 * 4    SFP_DA_CORE1 - 82599-specific
		 * 5    SFP_SR/LR_CORE0 - 82599-specific
		 * 6    SFP_SR/LR_CORE1 - 82599-specific
		 * 7    SFP_act_lmt_DA_CORE0 - 82599-specific
		 * 8    SFP_act_lmt_DA_CORE1 - 82599-specific
		 * 9    SFP_1g_cu_CORE0 - 82599-specific
		 * 10   SFP_1g_cu_CORE1 - 82599-specific
		 */
		if (hw->mac.type == ixgbe_mac_82598EB) {
			if (cable_tech & IXGBE_SFF_DA_PASSIVE_CABLE)
				hw->phy.sfp_type = ixgbe_sfp_type_da_cu;
			else if (comp_codes_10g & IXGBE_SFF_10GBASESR_CAPABLE)
				hw->phy.sfp_type = ixgbe_sfp_type_sr;
			else if (comp_codes_10g & IXGBE_SFF_10GBASELR_CAPABLE)
				hw->phy.sfp_type = ixgbe_sfp_type_lr;
			else
				hw->phy.sfp_type = ixgbe_sfp_type_unknown;
		} else if (hw->mac.type == ixgbe_mac_82599EB) {
			if (cable_tech & IXGBE_SFF_DA_PASSIVE_CABLE) {
				if (hw->bus.lan_id == 0)
					hw->phy.sfp_type =
					             ixgbe_sfp_type_da_cu_core0;
				else
					hw->phy.sfp_type =
					             ixgbe_sfp_type_da_cu_core1;
			} else if (cable_tech & IXGBE_SFF_DA_ACTIVE_CABLE) {
				hw->phy.ops.read_i2c_eeprom(
						hw, IXGBE_SFF_CABLE_SPEC_COMP,
						&cable_spec);
				if (cable_spec &
				    IXGBE_SFF_DA_SPEC_ACTIVE_LIMITING) {
					if (hw->bus.lan_id == 0)
						hw->phy.sfp_type =
						ixgbe_sfp_type_da_act_lmt_core0;
					else
						hw->phy.sfp_type =
						ixgbe_sfp_type_da_act_lmt_core1;
				} else {
					hw->phy.sfp_type =
						ixgbe_sfp_type_unknown;
				}
			} else if (comp_codes_10g & IXGBE_SFF_10GBASESR_CAPABLE)
				if (hw->bus.lan_id == 0)
					hw->phy.sfp_type =
					              ixgbe_sfp_type_srlr_core0;
				else
					hw->phy.sfp_type =
					              ixgbe_sfp_type_srlr_core1;
			else if (comp_codes_10g & IXGBE_SFF_10GBASELR_CAPABLE)
				if (hw->bus.lan_id == 0)
					hw->phy.sfp_type =
					              ixgbe_sfp_type_srlr_core0;
				else
					hw->phy.sfp_type =
					              ixgbe_sfp_type_srlr_core1;
			else if (comp_codes_1g & IXGBE_SFF_1GBASET_CAPABLE)
				if (hw->bus.lan_id == 0)
					hw->phy.sfp_type =
						ixgbe_sfp_type_1g_cu_core0;
				else
					hw->phy.sfp_type =
						ixgbe_sfp_type_1g_cu_core1;
			else
				hw->phy.sfp_type = ixgbe_sfp_type_unknown;
		}

		if (hw->phy.sfp_type != stored_sfp_type)
			hw->phy.sfp_setup_needed = true;

		/* Determine if the SFP+ PHY is dual speed or not. */
		hw->phy.multispeed_fiber = false;
		if (((comp_codes_1g & IXGBE_SFF_1GBASESX_CAPABLE) &&
		   (comp_codes_10g & IXGBE_SFF_10GBASESR_CAPABLE)) ||
		   ((comp_codes_1g & IXGBE_SFF_1GBASELX_CAPABLE) &&
		   (comp_codes_10g & IXGBE_SFF_10GBASELR_CAPABLE)))
			hw->phy.multispeed_fiber = true;

		/* Determine PHY vendor */
		if (hw->phy.type != ixgbe_phy_nl) {
			hw->phy.id = identifier;
			hw->phy.ops.read_i2c_eeprom(hw,
			                            IXGBE_SFF_VENDOR_OUI_BYTE0,
			                            &oui_bytes[0]);
			hw->phy.ops.read_i2c_eeprom(hw,
			                            IXGBE_SFF_VENDOR_OUI_BYTE1,
			                            &oui_bytes[1]);
			hw->phy.ops.read_i2c_eeprom(hw,
			                            IXGBE_SFF_VENDOR_OUI_BYTE2,
			                            &oui_bytes[2]);

			vendor_oui =
			  ((oui_bytes[0] << IXGBE_SFF_VENDOR_OUI_BYTE0_SHIFT) |
			   (oui_bytes[1] << IXGBE_SFF_VENDOR_OUI_BYTE1_SHIFT) |
			   (oui_bytes[2] << IXGBE_SFF_VENDOR_OUI_BYTE2_SHIFT));

			switch (vendor_oui) {
			case IXGBE_SFF_VENDOR_OUI_TYCO:
				if (cable_tech & IXGBE_SFF_DA_PASSIVE_CABLE)
					hw->phy.type =
						ixgbe_phy_sfp_passive_tyco;
				break;
			case IXGBE_SFF_VENDOR_OUI_FTL:
				if (cable_tech & IXGBE_SFF_DA_ACTIVE_CABLE)
					hw->phy.type = ixgbe_phy_sfp_ftl_active;
				else
					hw->phy.type = ixgbe_phy_sfp_ftl;
				break;
			case IXGBE_SFF_VENDOR_OUI_AVAGO:
				hw->phy.type = ixgbe_phy_sfp_avago;
				break;
			case IXGBE_SFF_VENDOR_OUI_INTEL:
				hw->phy.type = ixgbe_phy_sfp_intel;
				break;
			default:
				if (cable_tech & IXGBE_SFF_DA_PASSIVE_CABLE)
					hw->phy.type =
						ixgbe_phy_sfp_passive_unknown;
				else if (cable_tech & IXGBE_SFF_DA_ACTIVE_CABLE)
					hw->phy.type =
						ixgbe_phy_sfp_active_unknown;
				else
					hw->phy.type = ixgbe_phy_sfp_unknown;
				break;
			}
		}

		/* All passive DA cables are supported */
		if (cable_tech & (IXGBE_SFF_DA_PASSIVE_CABLE |
		    IXGBE_SFF_DA_ACTIVE_CABLE)) {
			status = 0;
			goto out;
		}

		/* Verify supported 1G SFP modules */
		if (comp_codes_10g == 0 &&
		    !(hw->phy.sfp_type == ixgbe_sfp_type_1g_cu_core1 ||
		      hw->phy.sfp_type == ixgbe_sfp_type_1g_cu_core0)) {
			hw->phy.type = ixgbe_phy_sfp_unsupported;
			status = IXGBE_ERR_SFP_NOT_SUPPORTED;
			goto out;
		}

		/* Anything else 82598-based is supported */
		if (hw->mac.type == ixgbe_mac_82598EB) {
			status = 0;
			goto out;
		}

		/* This is guaranteed to be 82599, no need to check for NULL */
		hw->mac.ops.get_device_caps(hw, &enforce_sfp);
		if (!(enforce_sfp & IXGBE_DEVICE_CAPS_ALLOW_ANY_SFP) &&
		    !((hw->phy.sfp_type == ixgbe_sfp_type_1g_cu_core0) ||
		      (hw->phy.sfp_type == ixgbe_sfp_type_1g_cu_core1))) {
			/* Make sure we're a supported PHY type */
			if (hw->phy.type == ixgbe_phy_sfp_intel) {
				status = 0;
			} else {
				hw_dbg(hw, "SFP+ module not supported\n");
				hw->phy.type = ixgbe_phy_sfp_unsupported;
				status = IXGBE_ERR_SFP_NOT_SUPPORTED;
			}
		} else {
			status = 0;
		}
	}

out:
	return status;
}

/**
 *  ixgbe_get_sfp_init_sequence_offsets - Checks the MAC's EEPROM to see
 *  if it supports a given SFP+ module type, if so it returns the offsets to the
 *  phy init sequence block.
 *  @hw: pointer to hardware structure
 *  @list_offset: offset to the SFP ID list
 *  @data_offset: offset to the SFP data block
 **/
s32 ixgbe_get_sfp_init_sequence_offsets(struct ixgbe_hw *hw,
                                        u16 *list_offset,
                                        u16 *data_offset)
{
	u16 sfp_id;
	u16 sfp_type = hw->phy.sfp_type;

	if (hw->phy.sfp_type == ixgbe_sfp_type_unknown)
		return IXGBE_ERR_SFP_NOT_SUPPORTED;

	if (hw->phy.sfp_type == ixgbe_sfp_type_not_present)
		return IXGBE_ERR_SFP_NOT_PRESENT;

	if ((hw->device_id == IXGBE_DEV_ID_82598_SR_DUAL_PORT_EM) &&
	    (hw->phy.sfp_type == ixgbe_sfp_type_da_cu))
		return IXGBE_ERR_SFP_NOT_SUPPORTED;

	/*
	 * Limiting active cables and 1G Phys must be initialized as
	 * SR modules
	 */
	if (sfp_type == ixgbe_sfp_type_da_act_lmt_core0 ||
	    sfp_type == ixgbe_sfp_type_1g_cu_core0)
		sfp_type = ixgbe_sfp_type_srlr_core0;
	else if (sfp_type == ixgbe_sfp_type_da_act_lmt_core1 ||
	         sfp_type == ixgbe_sfp_type_1g_cu_core1)
		sfp_type = ixgbe_sfp_type_srlr_core1;

	/* Read offset to PHY init contents */
	hw->eeprom.ops.read(hw, IXGBE_PHY_INIT_OFFSET_NL, list_offset);

	if ((!*list_offset) || (*list_offset == 0xFFFF))
		return IXGBE_ERR_SFP_NO_INIT_SEQ_PRESENT;

	/* Shift offset to first ID word */
	(*list_offset)++;

	/*
	 * Find the matching SFP ID in the EEPROM
	 * and program the init sequence
	 */
	hw->eeprom.ops.read(hw, *list_offset, &sfp_id);

	while (sfp_id != IXGBE_PHY_INIT_END_NL) {
		if (sfp_id == sfp_type) {
			(*list_offset)++;
			hw->eeprom.ops.read(hw, *list_offset, data_offset);
			if ((!*data_offset) || (*data_offset == 0xFFFF)) {
				hw_dbg(hw, "SFP+ module not supported\n");
				return IXGBE_ERR_SFP_NOT_SUPPORTED;
			} else {
				break;
			}
		} else {
			(*list_offset) += 2;
			if (hw->eeprom.ops.read(hw, *list_offset, &sfp_id))
				return IXGBE_ERR_PHY;
		}
	}

	if (sfp_id == IXGBE_PHY_INIT_END_NL) {
		hw_dbg(hw, "No matching SFP+ module found\n");
		return IXGBE_ERR_SFP_NOT_SUPPORTED;
	}

	return 0;
}

/**
 *  ixgbe_read_i2c_eeprom_generic - Reads 8 bit EEPROM word over I2C interface
 *  @hw: pointer to hardware structure
 *  @byte_offset: EEPROM byte offset to read
 *  @eeprom_data: value read
 *
 *  Performs byte read operation to SFP module's EEPROM over I2C interface.
 **/
s32 ixgbe_read_i2c_eeprom_generic(struct ixgbe_hw *hw, u8 byte_offset,
                                  u8 *eeprom_data)
{
	return hw->phy.ops.read_i2c_byte(hw, byte_offset,
	                                 IXGBE_I2C_EEPROM_DEV_ADDR,
	                                 eeprom_data);
}

/**
 *  ixgbe_write_i2c_eeprom_generic - Writes 8 bit EEPROM word over I2C interface
 *  @hw: pointer to hardware structure
 *  @byte_offset: EEPROM byte offset to write
 *  @eeprom_data: value to write
 *
 *  Performs byte write operation to SFP module's EEPROM over I2C interface.
 **/
s32 ixgbe_write_i2c_eeprom_generic(struct ixgbe_hw *hw, u8 byte_offset,
                                   u8 eeprom_data)
{
	return hw->phy.ops.write_i2c_byte(hw, byte_offset,
	                                  IXGBE_I2C_EEPROM_DEV_ADDR,
	                                  eeprom_data);
}

/**
 *  ixgbe_read_i2c_byte_generic - Reads 8 bit word over I2C
 *  @hw: pointer to hardware structure
 *  @byte_offset: byte offset to read
 *  @data: value read
 *
 *  Performs byte read operation to SFP module's EEPROM over I2C interface at
 *  a specified deivce address.
 **/
s32 ixgbe_read_i2c_byte_generic(struct ixgbe_hw *hw, u8 byte_offset,
                                u8 dev_addr, u8 *data)
{
	s32 status = 0;
	u32 max_retry = 1;
	u32 retry = 0;
	bool nack = 1;

	do {
		ixgbe_i2c_start(hw);

		/* Device Address and write indication */
		status = ixgbe_clock_out_i2c_byte(hw, dev_addr);
		if (status != 0)
			goto fail;

		status = ixgbe_get_i2c_ack(hw);
		if (status != 0)
			goto fail;

		status = ixgbe_clock_out_i2c_byte(hw, byte_offset);
		if (status != 0)
			goto fail;

		status = ixgbe_get_i2c_ack(hw);
		if (status != 0)
			goto fail;

		ixgbe_i2c_start(hw);

		/* Device Address and read indication */
		status = ixgbe_clock_out_i2c_byte(hw, (dev_addr | 0x1));
		if (status != 0)
			goto fail;

		status = ixgbe_get_i2c_ack(hw);
		if (status != 0)
			goto fail;

		status = ixgbe_clock_in_i2c_byte(hw, data);
		if (status != 0)
			goto fail;

		status = ixgbe_clock_out_i2c_bit(hw, nack);
		if (status != 0)
			goto fail;

		ixgbe_i2c_stop(hw);
		break;

fail:
		ixgbe_i2c_bus_clear(hw);
		retry++;
		if (retry < max_retry)
			hw_dbg(hw, "I2C byte read error - Retrying.\n");
		else
			hw_dbg(hw, "I2C byte read error.\n");

	} while (retry < max_retry);

	return status;
}

/**
 *  ixgbe_write_i2c_byte_generic - Writes 8 bit word over I2C
 *  @hw: pointer to hardware structure
 *  @byte_offset: byte offset to write
 *  @data: value to write
 *
 *  Performs byte write operation to SFP module's EEPROM over I2C interface at
 *  a specified device address.
 **/
s32 ixgbe_write_i2c_byte_generic(struct ixgbe_hw *hw, u8 byte_offset,
                                 u8 dev_addr, u8 data)
{
	s32 status = 0;
	u32 max_retry = 1;
	u32 retry = 0;

	do {
		ixgbe_i2c_start(hw);

		status = ixgbe_clock_out_i2c_byte(hw, dev_addr);
		if (status != 0)
			goto fail;

		status = ixgbe_get_i2c_ack(hw);
		if (status != 0)
			goto fail;

		status = ixgbe_clock_out_i2c_byte(hw, byte_offset);
		if (status != 0)
			goto fail;

		status = ixgbe_get_i2c_ack(hw);
		if (status != 0)
			goto fail;

		status = ixgbe_clock_out_i2c_byte(hw, data);
		if (status != 0)
			goto fail;

		status = ixgbe_get_i2c_ack(hw);
		if (status != 0)
			goto fail;

		ixgbe_i2c_stop(hw);
		break;

fail:
		ixgbe_i2c_bus_clear(hw);
		retry++;
		if (retry < max_retry)
			hw_dbg(hw, "I2C byte write error - Retrying.\n");
		else
			hw_dbg(hw, "I2C byte write error.\n");
	} while (retry < max_retry);

	return status;
}

/**
 *  ixgbe_i2c_start - Sets I2C start condition
 *  @hw: pointer to hardware structure
 *
 *  Sets I2C start condition (High -> Low on SDA while SCL is High)
 **/
static void ixgbe_i2c_start(struct ixgbe_hw *hw)
{
	u32 i2cctl = IXGBE_READ_REG(hw, IXGBE_I2CCTL);

	/* Start condition must begin with data and clock high */
	ixgbe_set_i2c_data(hw, &i2cctl, 1);
	ixgbe_raise_i2c_clk(hw, &i2cctl);

	/* Setup time for start condition (4.7us) */
	udelay(IXGBE_I2C_T_SU_STA);

	ixgbe_set_i2c_data(hw, &i2cctl, 0);

	/* Hold time for start condition (4us) */
	udelay(IXGBE_I2C_T_HD_STA);

	ixgbe_lower_i2c_clk(hw, &i2cctl);

	/* Minimum low period of clock is 4.7 us */
	udelay(IXGBE_I2C_T_LOW);

}

/**
 *  ixgbe_i2c_stop - Sets I2C stop condition
 *  @hw: pointer to hardware structure
 *
 *  Sets I2C stop condition (Low -> High on SDA while SCL is High)
 **/
static void ixgbe_i2c_stop(struct ixgbe_hw *hw)
{
	u32 i2cctl = IXGBE_READ_REG(hw, IXGBE_I2CCTL);

	/* Stop condition must begin with data low and clock high */
	ixgbe_set_i2c_data(hw, &i2cctl, 0);
	ixgbe_raise_i2c_clk(hw, &i2cctl);

	/* Setup time for stop condition (4us) */
	udelay(IXGBE_I2C_T_SU_STO);

	ixgbe_set_i2c_data(hw, &i2cctl, 1);

	/* bus free time between stop and start (4.7us)*/
	udelay(IXGBE_I2C_T_BUF);
}

/**
 *  ixgbe_clock_in_i2c_byte - Clocks in one byte via I2C
 *  @hw: pointer to hardware structure
 *  @data: data byte to clock in
 *
 *  Clocks in one byte data via I2C data/clock
 **/
static s32 ixgbe_clock_in_i2c_byte(struct ixgbe_hw *hw, u8 *data)
{
	s32 status = 0;
	s32 i;
	bool bit = 0;

	for (i = 7; i >= 0; i--) {
		status = ixgbe_clock_in_i2c_bit(hw, &bit);
		*data |= bit << i;

		if (status != 0)
			break;
	}

	return status;
}

/**
 *  ixgbe_clock_out_i2c_byte - Clocks out one byte via I2C
 *  @hw: pointer to hardware structure
 *  @data: data byte clocked out
 *
 *  Clocks out one byte data via I2C data/clock
 **/
static s32 ixgbe_clock_out_i2c_byte(struct ixgbe_hw *hw, u8 data)
{
	s32 status = 0;
	s32 i;
	u32 i2cctl;
	bool bit = 0;

	for (i = 7; i >= 0; i--) {
		bit = (data >> i) & 0x1;
		status = ixgbe_clock_out_i2c_bit(hw, bit);

		if (status != 0)
			break;
	}

	/* Release SDA line (set high) */
	i2cctl = IXGBE_READ_REG(hw, IXGBE_I2CCTL);
	i2cctl |= IXGBE_I2C_DATA_OUT;
	IXGBE_WRITE_REG(hw, IXGBE_I2CCTL, i2cctl);

	return status;
}

/**
 *  ixgbe_get_i2c_ack - Polls for I2C ACK
 *  @hw: pointer to hardware structure
 *
 *  Clocks in/out one bit via I2C data/clock
 **/
static s32 ixgbe_get_i2c_ack(struct ixgbe_hw *hw)
{
	s32 status;
	u32 i = 0;
	u32 i2cctl = IXGBE_READ_REG(hw, IXGBE_I2CCTL);
	u32 timeout = 10;
	bool ack = 1;

	status = ixgbe_raise_i2c_clk(hw, &i2cctl);

	if (status != 0)
		goto out;

	/* Minimum high period of clock is 4us */
	udelay(IXGBE_I2C_T_HIGH);

	/* Poll for ACK.  Note that ACK in I2C spec is
	 * transition from 1 to 0 */
	for (i = 0; i < timeout; i++) {
		i2cctl = IXGBE_READ_REG(hw, IXGBE_I2CCTL);
		ack = ixgbe_get_i2c_data(&i2cctl);

		udelay(1);
		if (ack == 0)
			break;
	}

	if (ack == 1) {
		hw_dbg(hw, "I2C ack was not received.\n");
		status = IXGBE_ERR_I2C;
	}

	ixgbe_lower_i2c_clk(hw, &i2cctl);

	/* Minimum low period of clock is 4.7 us */
	udelay(IXGBE_I2C_T_LOW);

out:
	return status;
}

/**
 *  ixgbe_clock_in_i2c_bit - Clocks in one bit via I2C data/clock
 *  @hw: pointer to hardware structure
 *  @data: read data value
 *
 *  Clocks in one bit via I2C data/clock
 **/
static s32 ixgbe_clock_in_i2c_bit(struct ixgbe_hw *hw, bool *data)
{
	s32 status;
	u32 i2cctl = IXGBE_READ_REG(hw, IXGBE_I2CCTL);

	status = ixgbe_raise_i2c_clk(hw, &i2cctl);

	/* Minimum high period of clock is 4us */
	udelay(IXGBE_I2C_T_HIGH);

	i2cctl = IXGBE_READ_REG(hw, IXGBE_I2CCTL);
	*data = ixgbe_get_i2c_data(&i2cctl);

	ixgbe_lower_i2c_clk(hw, &i2cctl);

	/* Minimum low period of clock is 4.7 us */
	udelay(IXGBE_I2C_T_LOW);

	return status;
}

/**
 *  ixgbe_clock_out_i2c_bit - Clocks in/out one bit via I2C data/clock
 *  @hw: pointer to hardware structure
 *  @data: data value to write
 *
 *  Clocks out one bit via I2C data/clock
 **/
static s32 ixgbe_clock_out_i2c_bit(struct ixgbe_hw *hw, bool data)
{
	s32 status;
	u32 i2cctl = IXGBE_READ_REG(hw, IXGBE_I2CCTL);

	status = ixgbe_set_i2c_data(hw, &i2cctl, data);
	if (status == 0) {
		status = ixgbe_raise_i2c_clk(hw, &i2cctl);

		/* Minimum high period of clock is 4us */
		udelay(IXGBE_I2C_T_HIGH);

		ixgbe_lower_i2c_clk(hw, &i2cctl);

		/* Minimum low period of clock is 4.7 us.
		 * This also takes care of the data hold time.
		 */
		udelay(IXGBE_I2C_T_LOW);
	} else {
		status = IXGBE_ERR_I2C;
		hw_dbg(hw, "I2C data was not set to %X\n", data);
	}

	return status;
}
/**
 *  ixgbe_raise_i2c_clk - Raises the I2C SCL clock
 *  @hw: pointer to hardware structure
 *  @i2cctl: Current value of I2CCTL register
 *
 *  Raises the I2C clock line '0'->'1'
 **/
static s32 ixgbe_raise_i2c_clk(struct ixgbe_hw *hw, u32 *i2cctl)
{
	s32 status = 0;

	*i2cctl |= IXGBE_I2C_CLK_OUT;

	IXGBE_WRITE_REG(hw, IXGBE_I2CCTL, *i2cctl);

	/* SCL rise time (1000ns) */
	udelay(IXGBE_I2C_T_RISE);

	return status;
}

/**
 *  ixgbe_lower_i2c_clk - Lowers the I2C SCL clock
 *  @hw: pointer to hardware structure
 *  @i2cctl: Current value of I2CCTL register
 *
 *  Lowers the I2C clock line '1'->'0'
 **/
static void ixgbe_lower_i2c_clk(struct ixgbe_hw *hw, u32 *i2cctl)
{

	*i2cctl &= ~IXGBE_I2C_CLK_OUT;

	IXGBE_WRITE_REG(hw, IXGBE_I2CCTL, *i2cctl);

	/* SCL fall time (300ns) */
	udelay(IXGBE_I2C_T_FALL);
}

/**
 *  ixgbe_set_i2c_data - Sets the I2C data bit
 *  @hw: pointer to hardware structure
 *  @i2cctl: Current value of I2CCTL register
 *  @data: I2C data value (0 or 1) to set
 *
 *  Sets the I2C data bit
 **/
static s32 ixgbe_set_i2c_data(struct ixgbe_hw *hw, u32 *i2cctl, bool data)
{
	s32 status = 0;

	if (data)
		*i2cctl |= IXGBE_I2C_DATA_OUT;
	else
		*i2cctl &= ~IXGBE_I2C_DATA_OUT;

	IXGBE_WRITE_REG(hw, IXGBE_I2CCTL, *i2cctl);

	/* Data rise/fall (1000ns/300ns) and set-up time (250ns) */
	udelay(IXGBE_I2C_T_RISE + IXGBE_I2C_T_FALL + IXGBE_I2C_T_SU_DATA);

	/* Verify data was set correctly */
	*i2cctl = IXGBE_READ_REG(hw, IXGBE_I2CCTL);
	if (data != ixgbe_get_i2c_data(i2cctl)) {
		status = IXGBE_ERR_I2C;
		hw_dbg(hw, "Error - I2C data was not set to %X.\n", data);
	}

	return status;
}

/**
 *  ixgbe_get_i2c_data - Reads the I2C SDA data bit
 *  @hw: pointer to hardware structure
 *  @i2cctl: Current value of I2CCTL register
 *
 *  Returns the I2C data bit value
 **/
static bool ixgbe_get_i2c_data(u32 *i2cctl)
{
	bool data;

	if (*i2cctl & IXGBE_I2C_DATA_IN)
		data = 1;
	else
		data = 0;

	return data;
}

/**
 *  ixgbe_i2c_bus_clear - Clears the I2C bus
 *  @hw: pointer to hardware structure
 *
 *  Clears the I2C bus by sending nine clock pulses.
 *  Used when data line is stuck low.
 **/
static void ixgbe_i2c_bus_clear(struct ixgbe_hw *hw)
{
	u32 i2cctl = IXGBE_READ_REG(hw, IXGBE_I2CCTL);
	u32 i;

	ixgbe_set_i2c_data(hw, &i2cctl, 1);

	for (i = 0; i < 9; i++) {
		ixgbe_raise_i2c_clk(hw, &i2cctl);

		/* Min high period of clock is 4us */
		udelay(IXGBE_I2C_T_HIGH);

		ixgbe_lower_i2c_clk(hw, &i2cctl);

		/* Min low period of clock is 4.7us*/
		udelay(IXGBE_I2C_T_LOW);
	}

	/* Put the i2c bus back to default state */
	ixgbe_i2c_stop(hw);
}

/**
 *  ixgbe_check_phy_link_tnx - Determine link and speed status
 *  @hw: pointer to hardware structure
 *
 *  Reads the VS1 register to determine if link is up and the current speed for
 *  the PHY.
 **/
s32 ixgbe_check_phy_link_tnx(struct ixgbe_hw *hw, ixgbe_link_speed *speed,
                             bool *link_up)
{
	s32 status = 0;
	u32 time_out;
	u32 max_time_out = 10;
	u16 phy_link = 0;
	u16 phy_speed = 0;
	u16 phy_data = 0;

	/* Initialize speed and link to default case */
	*link_up = false;
	*speed = IXGBE_LINK_SPEED_10GB_FULL;

	/*
	 * Check current speed and link status of the PHY register.
	 * This is a vendor specific register and may have to
	 * be changed for other copper PHYs.
	 */
	for (time_out = 0; time_out < max_time_out; time_out++) {
		udelay(10);
		status = hw->phy.ops.read_reg(hw,
		                        IXGBE_MDIO_VENDOR_SPECIFIC_1_STATUS,
					MDIO_MMD_VEND1,
		                        &phy_data);
		phy_link = phy_data &
		           IXGBE_MDIO_VENDOR_SPECIFIC_1_LINK_STATUS;
		phy_speed = phy_data &
		            IXGBE_MDIO_VENDOR_SPECIFIC_1_SPEED_STATUS;
		if (phy_link == IXGBE_MDIO_VENDOR_SPECIFIC_1_LINK_STATUS) {
			*link_up = true;
			if (phy_speed ==
			    IXGBE_MDIO_VENDOR_SPECIFIC_1_SPEED_STATUS)
				*speed = IXGBE_LINK_SPEED_1GB_FULL;
			break;
		}
	}

	return status;
}

/**
 *  ixgbe_get_phy_firmware_version_tnx - Gets the PHY Firmware Version
 *  @hw: pointer to hardware structure
 *  @firmware_version: pointer to the PHY Firmware Version
 **/
s32 ixgbe_get_phy_firmware_version_tnx(struct ixgbe_hw *hw,
                                       u16 *firmware_version)
{
	s32 status = 0;

	status = hw->phy.ops.read_reg(hw, TNX_FW_REV, MDIO_MMD_VEND1,
	                              firmware_version);

	return status;
}

/**
 *  ixgbe_get_phy_firmware_version_generic - Gets the PHY Firmware Version
 *  @hw: pointer to hardware structure
 *  @firmware_version: pointer to the PHY Firmware Version
**/
s32 ixgbe_get_phy_firmware_version_generic(struct ixgbe_hw *hw,
                                           u16 *firmware_version)
{
	s32 status = 0;

	status = hw->phy.ops.read_reg(hw, AQ_FW_REV, MDIO_MMD_VEND1,
	                              firmware_version);

	return status;
}

/**
 *  ixgbe_tn_check_overtemp - Checks if an overtemp occured.
 *  @hw: pointer to hardware structure
 *
 *  Checks if the LASI temp alarm status was triggered due to overtemp
 **/
s32 ixgbe_tn_check_overtemp(struct ixgbe_hw *hw)
{
	s32 status = 0;
	u16 phy_data = 0;

	if (hw->device_id != IXGBE_DEV_ID_82599_T3_LOM)
		goto out;

	/* Check that the LASI temp alarm status was triggered */
	hw->phy.ops.read_reg(hw, IXGBE_TN_LASI_STATUS_REG,
	                     MDIO_MMD_PMAPMD, &phy_data);

	if (!(phy_data & IXGBE_TN_LASI_STATUS_TEMP_ALARM))
		goto out;

	status = IXGBE_ERR_OVERTEMP;
out:
	return status;
}