drivers/net/e1000.c


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/**************************************************************************
Intel Pro 1000 for ppcboot/das-u-boot
Drivers are port from Intel's Linux driver e1000-4.3.15
and from Etherboot pro 1000 driver by mrakes at vivato dot net
tested on both gig copper and gig fiber boards
***************************************************************************/
/*******************************************************************************


  Copyright(c) 1999 - 2002 Intel Corporation. All rights reserved.

  This program is free software; you can redistribute it and/or modify it
  under the terms of the GNU General Public License as published by the Free
  Software Foundation; either version 2 of the License, or (at your option)
  any later version.

  This program is distributed in the hope that 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., 59
  Temple Place - Suite 330, Boston, MA	02111-1307, USA.

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

  Contact Information:
  Linux NICS <linux.nics@intel.com>
  Intel Corporation, 5200 N.E. Elam Young Parkway, Hillsboro, OR 97124-6497

*******************************************************************************/
/*
 *  Copyright (C) Archway Digital Solutions.
 *
 *  written by Chrsitopher Li <cli at arcyway dot com> or <chrisl at gnuchina dot org>
 *  2/9/2002
 *
 *  Copyright (C) Linux Networx.
 *  Massive upgrade to work with the new intel gigabit NICs.
 *  <ebiederman at lnxi dot com>
 *
 *  Copyright 2011 Freescale Semiconductor, Inc.
 */

#include "e1000.h"

#define TOUT_LOOP   100000

#define virt_to_bus(devno, v)	pci_virt_to_mem(devno, (void *) (v))
#define bus_to_phys(devno, a)	pci_mem_to_phys(devno, a)

#define E1000_DEFAULT_PCI_PBA	0x00000030
#define E1000_DEFAULT_PCIE_PBA	0x000a0026

/* NIC specific static variables go here */

static char tx_pool[128 + 16];
static char rx_pool[128 + 16];
static char packet[2096];

static struct e1000_tx_desc *tx_base;
static struct e1000_rx_desc *rx_base;

static int tx_tail;
static int rx_tail, rx_last;

static struct pci_device_id e1000_supported[] = {
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82542},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82543GC_FIBER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82543GC_COPPER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82544EI_COPPER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82544EI_FIBER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82544GC_COPPER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82544GC_LOM},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82540EM},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82545EM_COPPER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82545GM_COPPER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82546EB_COPPER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82545EM_FIBER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82546EB_FIBER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82546GB_COPPER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82540EM_LOM},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82541ER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82541GI_LF},
	/* E1000 PCIe card */
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82571EB_COPPER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82571EB_FIBER      },
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82571EB_SERDES     },
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82571EB_QUAD_COPPER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82571PT_QUAD_COPPER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82571EB_QUAD_FIBER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82571EB_QUAD_COPPER_LOWPROFILE},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82571EB_SERDES_DUAL},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82571EB_SERDES_QUAD},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82572EI_COPPER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82572EI_FIBER},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82572EI_SERDES},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82572EI},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82573E},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82573E_IAMT},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82573L},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82574L},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82546GB_QUAD_COPPER_KSP3},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_80003ES2LAN_COPPER_DPT},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_80003ES2LAN_SERDES_DPT},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_80003ES2LAN_COPPER_SPT},
	{PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_80003ES2LAN_SERDES_SPT},
	{}
};

/* Function forward declarations */
static int e1000_setup_link(struct eth_device *nic);
static int e1000_setup_fiber_link(struct eth_device *nic);
static int e1000_setup_copper_link(struct eth_device *nic);
static int e1000_phy_setup_autoneg(struct e1000_hw *hw);
static void e1000_config_collision_dist(struct e1000_hw *hw);
static int e1000_config_mac_to_phy(struct e1000_hw *hw);
static int e1000_config_fc_after_link_up(struct e1000_hw *hw);
static int e1000_check_for_link(struct eth_device *nic);
static int e1000_wait_autoneg(struct e1000_hw *hw);
static int e1000_get_speed_and_duplex(struct e1000_hw *hw, uint16_t * speed,
				       uint16_t * duplex);
static int e1000_read_phy_reg(struct e1000_hw *hw, uint32_t reg_addr,
			      uint16_t * phy_data);
static int e1000_write_phy_reg(struct e1000_hw *hw, uint32_t reg_addr,
			       uint16_t phy_data);
static int32_t e1000_phy_hw_reset(struct e1000_hw *hw);
static int e1000_phy_reset(struct e1000_hw *hw);
static int e1000_detect_gig_phy(struct e1000_hw *hw);
static void e1000_put_hw_eeprom_semaphore(struct e1000_hw *hw);
static void e1000_set_media_type(struct e1000_hw *hw);

static int32_t e1000_swfw_sync_acquire(struct e1000_hw *hw, uint16_t mask);
static int32_t e1000_check_phy_reset_block(struct e1000_hw *hw);

#ifndef CONFIG_AP1000 /* remove for warnings */
static int32_t e1000_read_eeprom(struct e1000_hw *hw, uint16_t offset,
		uint16_t words,
		uint16_t *data);
/******************************************************************************
 * Raises the EEPROM's clock input.
 *
 * hw - Struct containing variables accessed by shared code
 * eecd - EECD's current value
 *****************************************************************************/
void e1000_raise_ee_clk(struct e1000_hw *hw, uint32_t * eecd)
{
	/* Raise the clock input to the EEPROM (by setting the SK bit), and then
	 * wait 50 microseconds.
	 */
	*eecd = *eecd | E1000_EECD_SK;
	E1000_WRITE_REG(hw, EECD, *eecd);
	E1000_WRITE_FLUSH(hw);
	udelay(50);
}

/******************************************************************************
 * Lowers the EEPROM's clock input.
 *
 * hw - Struct containing variables accessed by shared code
 * eecd - EECD's current value
 *****************************************************************************/
void e1000_lower_ee_clk(struct e1000_hw *hw, uint32_t * eecd)
{
	/* Lower the clock input to the EEPROM (by clearing the SK bit), and then
	 * wait 50 microseconds.
	 */
	*eecd = *eecd & ~E1000_EECD_SK;
	E1000_WRITE_REG(hw, EECD, *eecd);
	E1000_WRITE_FLUSH(hw);
	udelay(50);
}

/******************************************************************************
 * Shift data bits out to the EEPROM.
 *
 * hw - Struct containing variables accessed by shared code
 * data - data to send to the EEPROM
 * count - number of bits to shift out
 *****************************************************************************/
static void
e1000_shift_out_ee_bits(struct e1000_hw *hw, uint16_t data, uint16_t count)
{
	uint32_t eecd;
	uint32_t mask;

	/* We need to shift "count" bits out to the EEPROM. So, value in the
	 * "data" parameter will be shifted out to the EEPROM one bit at a time.
	 * In order to do this, "data" must be broken down into bits.
	 */
	mask = 0x01 << (count - 1);
	eecd = E1000_READ_REG(hw, EECD);
	eecd &= ~(E1000_EECD_DO | E1000_EECD_DI);
	do {
		/* A "1" is shifted out to the EEPROM by setting bit "DI" to a "1",
		 * and then raising and then lowering the clock (the SK bit controls
		 * the clock input to the EEPROM).  A "0" is shifted out to the EEPROM
		 * by setting "DI" to "0" and then raising and then lowering the clock.
		 */
		eecd &= ~E1000_EECD_DI;

		if (data & mask)
			eecd |= E1000_EECD_DI;

		E1000_WRITE_REG(hw, EECD, eecd);
		E1000_WRITE_FLUSH(hw);

		udelay(50);

		e1000_raise_ee_clk(hw, &eecd);
		e1000_lower_ee_clk(hw, &eecd);

		mask = mask >> 1;

	} while (mask);

	/* We leave the "DI" bit set to "0" when we leave this routine. */
	eecd &= ~E1000_EECD_DI;
	E1000_WRITE_REG(hw, EECD, eecd);
}

/******************************************************************************
 * Shift data bits in from the EEPROM
 *
 * hw - Struct containing variables accessed by shared code
 *****************************************************************************/
static uint16_t
e1000_shift_in_ee_bits(struct e1000_hw *hw, uint16_t count)
{
	uint32_t eecd;
	uint32_t i;
	uint16_t data;

	/* In order to read a register from the EEPROM, we need to shift 'count'
	 * bits in from the EEPROM. Bits are "shifted in" by raising the clock
	 * input to the EEPROM (setting the SK bit), and then reading the
	 * value of the "DO" bit.  During this "shifting in" process the
	 * "DI" bit should always be clear.
	 */

	eecd = E1000_READ_REG(hw, EECD);

	eecd &= ~(E1000_EECD_DO | E1000_EECD_DI);
	data = 0;

	for (i = 0; i < count; i++) {
		data = data << 1;
		e1000_raise_ee_clk(hw, &eecd);

		eecd = E1000_READ_REG(hw, EECD);

		eecd &= ~(E1000_EECD_DI);
		if (eecd & E1000_EECD_DO)
			data |= 1;

		e1000_lower_ee_clk(hw, &eecd);
	}

	return data;
}

/******************************************************************************
 * Returns EEPROM to a "standby" state
 *
 * hw - Struct containing variables accessed by shared code
 *****************************************************************************/
void e1000_standby_eeprom(struct e1000_hw *hw)
{
	struct e1000_eeprom_info *eeprom = &hw->eeprom;
	uint32_t eecd;

	eecd = E1000_READ_REG(hw, EECD);

	if (eeprom->type == e1000_eeprom_microwire) {
		eecd &= ~(E1000_EECD_CS | E1000_EECD_SK);
		E1000_WRITE_REG(hw, EECD, eecd);
		E1000_WRITE_FLUSH(hw);
		udelay(eeprom->delay_usec);

		/* Clock high */
		eecd |= E1000_EECD_SK;
		E1000_WRITE_REG(hw, EECD, eecd);
		E1000_WRITE_FLUSH(hw);
		udelay(eeprom->delay_usec);

		/* Select EEPROM */
		eecd |= E1000_EECD_CS;
		E1000_WRITE_REG(hw, EECD, eecd);
		E1000_WRITE_FLUSH(hw);
		udelay(eeprom->delay_usec);

		/* Clock low */
		eecd &= ~E1000_EECD_SK;
		E1000_WRITE_REG(hw, EECD, eecd);
		E1000_WRITE_FLUSH(hw);
		udelay(eeprom->delay_usec);
	} else if (eeprom->type == e1000_eeprom_spi) {
		/* Toggle CS to flush commands */
		eecd |= E1000_EECD_CS;
		E1000_WRITE_REG(hw, EECD, eecd);
		E1000_WRITE_FLUSH(hw);
		udelay(eeprom->delay_usec);
		eecd &= ~E1000_EECD_CS;
		E1000_WRITE_REG(hw, EECD, eecd);
		E1000_WRITE_FLUSH(hw);
		udelay(eeprom->delay_usec);
	}
}

/***************************************************************************
* Description:     Determines if the onboard NVM is FLASH or EEPROM.
*
* hw - Struct containing variables accessed by shared code
****************************************************************************/
static boolean_t e1000_is_onboard_nvm_eeprom(struct e1000_hw *hw)
{
	uint32_t eecd = 0;

	DEBUGFUNC();

	if (hw->mac_type == e1000_ich8lan)
		return FALSE;

	if (hw->mac_type == e1000_82573 || hw->mac_type == e1000_82574) {
		eecd = E1000_READ_REG(hw, EECD);

		/* Isolate bits 15 & 16 */
		eecd = ((eecd >> 15) & 0x03);

		/* If both bits are set, device is Flash type */
		if (eecd == 0x03)
			return FALSE;
	}
	return TRUE;
}

/******************************************************************************
 * Prepares EEPROM for access
 *
 * hw - Struct containing variables accessed by shared code
 *
 * Lowers EEPROM clock. Clears input pin. Sets the chip select pin. This
 * function should be called before issuing a command to the EEPROM.
 *****************************************************************************/
int32_t e1000_acquire_eeprom(struct e1000_hw *hw)
{
	struct e1000_eeprom_info *eeprom = &hw->eeprom;
	uint32_t eecd, i = 0;

	DEBUGFUNC();

	if (e1000_swfw_sync_acquire(hw, E1000_SWFW_EEP_SM))
		return -E1000_ERR_SWFW_SYNC;
	eecd = E1000_READ_REG(hw, EECD);

	if (hw->mac_type != e1000_82573 || hw->mac_type != e1000_82574) {
		/* Request EEPROM Access */
		if (hw->mac_type > e1000_82544) {
			eecd |= E1000_EECD_REQ;
			E1000_WRITE_REG(hw, EECD, eecd);
			eecd = E1000_READ_REG(hw, EECD);
			while ((!(eecd & E1000_EECD_GNT)) &&
				(i < E1000_EEPROM_GRANT_ATTEMPTS)) {
				i++;
				udelay(5);
				eecd = E1000_READ_REG(hw, EECD);
			}
			if (!(eecd & E1000_EECD_GNT)) {
				eecd &= ~E1000_EECD_REQ;
				E1000_WRITE_REG(hw, EECD, eecd);
				DEBUGOUT("Could not acquire EEPROM grant\n");
				return -E1000_ERR_EEPROM;
			}
		}
	}

	/* Setup EEPROM for Read/Write */

	if (eeprom->type == e1000_eeprom_microwire) {
		/* Clear SK and DI */
		eecd &= ~(E1000_EECD_DI | E1000_EECD_SK);
		E1000_WRITE_REG(hw, EECD, eecd);

		/* Set CS */
		eecd |= E1000_EECD_CS;
		E1000_WRITE_REG(hw, EECD, eecd);
	} else if (eeprom->type == e1000_eeprom_spi) {
		/* Clear SK and CS */
		eecd &= ~(E1000_EECD_CS | E1000_EECD_SK);
		E1000_WRITE_REG(hw, EECD, eecd);
		udelay(1);
	}

	return E1000_SUCCESS;
}

/******************************************************************************
 * Sets up eeprom variables in the hw struct.  Must be called after mac_type
 * is configured.  Additionally, if this is ICH8, the flash controller GbE
 * registers must be mapped, or this will crash.
 *
 * hw - Struct containing variables accessed by shared code
 *****************************************************************************/
static int32_t e1000_init_eeprom_params(struct e1000_hw *hw)
{
	struct e1000_eeprom_info *eeprom = &hw->eeprom;
	uint32_t eecd = E1000_READ_REG(hw, EECD);
	int32_t ret_val = E1000_SUCCESS;
	uint16_t eeprom_size;

	DEBUGFUNC();

	switch (hw->mac_type) {
	case e1000_82542_rev2_0:
	case e1000_82542_rev2_1:
	case e1000_82543:
	case e1000_82544:
		eeprom->type = e1000_eeprom_microwire;
		eeprom->word_size = 64;
		eeprom->opcode_bits = 3;
		eeprom->address_bits = 6;
		eeprom->delay_usec = 50;
		eeprom->use_eerd = FALSE;
		eeprom->use_eewr = FALSE;
	break;
	case e1000_82540:
	case e1000_82545:
	case e1000_82545_rev_3:
	case e1000_82546:
	case e1000_82546_rev_3:
		eeprom->type = e1000_eeprom_microwire;
		eeprom->opcode_bits = 3;
		eeprom->delay_usec = 50;
		if (eecd & E1000_EECD_SIZE) {
			eeprom->word_size = 256;
			eeprom->address_bits = 8;
		} else {
			eeprom->word_size = 64;
			eeprom->address_bits = 6;
		}
		eeprom->use_eerd = FALSE;
		eeprom->use_eewr = FALSE;
		break;
	case e1000_82541:
	case e1000_82541_rev_2:
	case e1000_82547:
	case e1000_82547_rev_2:
		if (eecd & E1000_EECD_TYPE) {
			eeprom->type = e1000_eeprom_spi;
			eeprom->opcode_bits = 8;
			eeprom->delay_usec = 1;
			if (eecd & E1000_EECD_ADDR_BITS) {
				eeprom->page_size = 32;
				eeprom->address_bits = 16;
			} else {
				eeprom->page_size = 8;
				eeprom->address_bits = 8;
			}
		} else {
			eeprom->type = e1000_eeprom_microwire;
			eeprom->opcode_bits = 3;
			eeprom->delay_usec = 50;
			if (eecd & E1000_EECD_ADDR_BITS) {
				eeprom->word_size = 256;
				eeprom->address_bits = 8;
			} else {
				eeprom->word_size = 64;
				eeprom->address_bits = 6;
			}
		}
		eeprom->use_eerd = FALSE;
		eeprom->use_eewr = FALSE;
		break;
	case e1000_82571:
	case e1000_82572:
		eeprom->type = e1000_eeprom_spi;
		eeprom->opcode_bits = 8;
		eeprom->delay_usec = 1;
		if (eecd & E1000_EECD_ADDR_BITS) {
			eeprom->page_size = 32;
			eeprom->address_bits = 16;
		} else {
			eeprom->page_size = 8;
			eeprom->address_bits = 8;
		}
		eeprom->use_eerd = FALSE;
		eeprom->use_eewr = FALSE;
		break;
	case e1000_82573:
	case e1000_82574:
		eeprom->type = e1000_eeprom_spi;
		eeprom->opcode_bits = 8;
		eeprom->delay_usec = 1;
		if (eecd & E1000_EECD_ADDR_BITS) {
			eeprom->page_size = 32;
			eeprom->address_bits = 16;
		} else {
			eeprom->page_size = 8;
			eeprom->address_bits = 8;
		}
		eeprom->use_eerd = TRUE;
		eeprom->use_eewr = TRUE;
		if (e1000_is_onboard_nvm_eeprom(hw) == FALSE) {
			eeprom->type = e1000_eeprom_flash;
			eeprom->word_size = 2048;

		/* Ensure that the Autonomous FLASH update bit is cleared due to
		 * Flash update issue on parts which use a FLASH for NVM. */
			eecd &= ~E1000_EECD_AUPDEN;
			E1000_WRITE_REG(hw, EECD, eecd);
		}
		break;
	case e1000_80003es2lan:
		eeprom->type = e1000_eeprom_spi;
		eeprom->opcode_bits = 8;
		eeprom->delay_usec = 1;
		if (eecd & E1000_EECD_ADDR_BITS) {
			eeprom->page_size = 32;
			eeprom->address_bits = 16;
		} else {
			eeprom->page_size = 8;
			eeprom->address_bits = 8;
		}
		eeprom->use_eerd = TRUE;
		eeprom->use_eewr = FALSE;
		break;

	/* ich8lan does not support currently. if needed, please
	 * add corresponding code and functions.
	 */
#if 0
	case e1000_ich8lan:
		{
		int32_t  i = 0;

		eeprom->type = e1000_eeprom_ich8;
		eeprom->use_eerd = FALSE;
		eeprom->use_eewr = FALSE;
		eeprom->word_size = E1000_SHADOW_RAM_WORDS;
		uint32_t flash_size = E1000_READ_ICH_FLASH_REG(hw,
				ICH_FLASH_GFPREG);
		/* Zero the shadow RAM structure. But don't load it from NVM
		 * so as to save time for driver init */
		if (hw->eeprom_shadow_ram != NULL) {
			for (i = 0; i < E1000_SHADOW_RAM_WORDS; i++) {
				hw->eeprom_shadow_ram[i].modified = FALSE;
				hw->eeprom_shadow_ram[i].eeprom_word = 0xFFFF;
			}
		}

		hw->flash_base_addr = (flash_size & ICH_GFPREG_BASE_MASK) *
				ICH_FLASH_SECTOR_SIZE;

		hw->flash_bank_size = ((flash_size >> 16)
				& ICH_GFPREG_BASE_MASK) + 1;
		hw->flash_bank_size -= (flash_size & ICH_GFPREG_BASE_MASK);

		hw->flash_bank_size *= ICH_FLASH_SECTOR_SIZE;

		hw->flash_bank_size /= 2 * sizeof(uint16_t);
		break;
		}
#endif
	default:
		break;
	}

	if (eeprom->type == e1000_eeprom_spi) {
		/* eeprom_size will be an enum [0..8] that maps
		 * to eeprom sizes 128B to
		 * 32KB (incremented by powers of 2).
		 */
		if (hw->mac_type <= e1000_82547_rev_2) {
			/* Set to default value for initial eeprom read. */
			eeprom->word_size = 64;
			ret_val = e1000_read_eeprom(hw, EEPROM_CFG, 1,
					&eeprom_size);
			if (ret_val)
				return ret_val;
			eeprom_size = (eeprom_size & EEPROM_SIZE_MASK)
				>> EEPROM_SIZE_SHIFT;
			/* 256B eeprom size was not supported in earlier
			 * hardware, so we bump eeprom_size up one to
			 * ensure that "1" (which maps to 256B) is never
			 * the result used in the shifting logic below. */
			if (eeprom_size)