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path: root/drivers/edac/synopsys_edac.c
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// SPDX-License-Identifier: GPL-2.0-only
/*
 * Synopsys DDR ECC Driver
 * This driver is based on ppc4xx_edac.c drivers
 *
 * Copyright (C) 2012 - 2014 Xilinx, Inc.
 */

#include <linux/edac.h>
#include <linux/module.h>
#include <linux/platform_device.h>
#include <linux/spinlock.h>
#include <linux/interrupt.h>
#include <linux/of.h>

#include "edac_module.h"

/* Number of cs_rows needed per memory controller */
#define SYNPS_EDAC_NR_CSROWS		1

/* Number of channels per memory controller */
#define SYNPS_EDAC_NR_CHANS		1

/* Granularity of reported error in bytes */
#define SYNPS_EDAC_ERR_GRAIN		1

#define SYNPS_EDAC_MSG_SIZE		256

#define SYNPS_EDAC_MOD_STRING		"synps_edac"
#define SYNPS_EDAC_MOD_VER		"1"

/* Synopsys DDR memory controller registers that are relevant to ECC */
#define CTRL_OFST			0x0
#define T_ZQ_OFST			0xA4

/* ECC control register */
#define ECC_CTRL_OFST			0xC4
/* ECC log register */
#define CE_LOG_OFST			0xC8
/* ECC address register */
#define CE_ADDR_OFST			0xCC
/* ECC data[31:0] register */
#define CE_DATA_31_0_OFST		0xD0

/* Uncorrectable error info registers */
#define UE_LOG_OFST			0xDC
#define UE_ADDR_OFST			0xE0
#define UE_DATA_31_0_OFST		0xE4

#define STAT_OFST			0xF0
#define SCRUB_OFST			0xF4

/* Control register bit field definitions */
#define CTRL_BW_MASK			0xC
#define CTRL_BW_SHIFT			2

#define DDRCTL_WDTH_16			1
#define DDRCTL_WDTH_32			0

/* ZQ register bit field definitions */
#define T_ZQ_DDRMODE_MASK		0x2

/* ECC control register bit field definitions */
#define ECC_CTRL_CLR_CE_ERR		0x2
#define ECC_CTRL_CLR_UE_ERR		0x1

/* ECC correctable/uncorrectable error log register definitions */
#define LOG_VALID			0x1
#define CE_LOG_BITPOS_MASK		0xFE
#define CE_LOG_BITPOS_SHIFT		1

/* ECC correctable/uncorrectable error address register definitions */
#define ADDR_COL_MASK			0xFFF
#define ADDR_ROW_MASK			0xFFFF000
#define ADDR_ROW_SHIFT			12
#define ADDR_BANK_MASK			0x70000000
#define ADDR_BANK_SHIFT			28

/* ECC statistic register definitions */
#define STAT_UECNT_MASK			0xFF
#define STAT_CECNT_MASK			0xFF00
#define STAT_CECNT_SHIFT		8

/* ECC scrub register definitions */
#define SCRUB_MODE_MASK			0x7
#define SCRUB_MODE_SECDED		0x4

/* DDR ECC Quirks */
#define DDR_ECC_INTR_SUPPORT		BIT(0)
#define DDR_ECC_DATA_POISON_SUPPORT	BIT(1)
#define DDR_ECC_INTR_SELF_CLEAR		BIT(2)

/* ZynqMP Enhanced DDR memory controller registers that are relevant to ECC */
/* ECC Configuration Registers */
#define ECC_CFG0_OFST			0x70
#define ECC_CFG1_OFST			0x74

/* ECC Status Register */
#define ECC_STAT_OFST			0x78

/* ECC Clear Register */
#define ECC_CLR_OFST			0x7C

/* ECC Error count Register */
#define ECC_ERRCNT_OFST			0x80

/* ECC Corrected Error Address Register */
#define ECC_CEADDR0_OFST		0x84
#define ECC_CEADDR1_OFST		0x88

/* ECC Syndrome Registers */
#define ECC_CSYND0_OFST			0x8C
#define ECC_CSYND1_OFST			0x90
#define ECC_CSYND2_OFST			0x94

/* ECC Bit Mask0 Address Register */
#define ECC_BITMASK0_OFST		0x98
#define ECC_BITMASK1_OFST		0x9C
#define ECC_BITMASK2_OFST		0xA0

/* ECC UnCorrected Error Address Register */
#define ECC_UEADDR0_OFST		0xA4
#define ECC_UEADDR1_OFST		0xA8

/* ECC Syndrome Registers */
#define ECC_UESYND0_OFST		0xAC
#define ECC_UESYND1_OFST		0xB0
#define ECC_UESYND2_OFST		0xB4

/* ECC Poison Address Reg */
#define ECC_POISON0_OFST		0xB8
#define ECC_POISON1_OFST		0xBC

#define ECC_ADDRMAP0_OFFSET		0x200

/* Control register bitfield definitions */
#define ECC_CTRL_BUSWIDTH_MASK		0x3000
#define ECC_CTRL_BUSWIDTH_SHIFT		12
#define ECC_CTRL_CLR_CE_ERRCNT		BIT(2)
#define ECC_CTRL_CLR_UE_ERRCNT		BIT(3)

/* DDR Control Register width definitions  */
#define DDRCTL_EWDTH_16			2
#define DDRCTL_EWDTH_32			1
#define DDRCTL_EWDTH_64			0

/* ECC status register definitions */
#define ECC_STAT_UECNT_MASK		0xF0000
#define ECC_STAT_UECNT_SHIFT		16
#define ECC_STAT_CECNT_MASK		0xF00
#define ECC_STAT_CECNT_SHIFT		8
#define ECC_STAT_BITNUM_MASK		0x7F

/* ECC error count register definitions */
#define ECC_ERRCNT_UECNT_MASK		0xFFFF0000
#define ECC_ERRCNT_UECNT_SHIFT		16
#define ECC_ERRCNT_CECNT_MASK		0xFFFF

/* DDR QOS Interrupt register definitions */
#define DDR_QOS_IRQ_STAT_OFST		0x20200
#define DDR_QOSUE_MASK			0x4
#define	DDR_QOSCE_MASK			0x2
#define	ECC_CE_UE_INTR_MASK		0x6
#define DDR_QOS_IRQ_EN_OFST		0x20208
#define DDR_QOS_IRQ_DB_OFST		0x2020C

/* DDR QOS Interrupt register definitions */
#define DDR_UE_MASK			BIT(9)
#define DDR_CE_MASK			BIT(8)

/* ECC Corrected Error Register Mask and Shifts*/
#define ECC_CEADDR0_RW_MASK		0x3FFFF
#define ECC_CEADDR0_RNK_MASK		BIT(24)
#define ECC_CEADDR1_BNKGRP_MASK		0x3000000
#define ECC_CEADDR1_BNKNR_MASK		0x70000
#define ECC_CEADDR1_BLKNR_MASK		0xFFF
#define ECC_CEADDR1_BNKGRP_SHIFT	24
#define ECC_CEADDR1_BNKNR_SHIFT		16

/* ECC Poison register shifts */
#define ECC_POISON0_RANK_SHIFT		24
#define ECC_POISON0_RANK_MASK		BIT(24)
#define ECC_POISON0_COLUMN_SHIFT	0
#define ECC_POISON0_COLUMN_MASK		0xFFF
#define ECC_POISON1_BG_SHIFT		28
#define ECC_POISON1_BG_MASK		0x30000000
#define ECC_POISON1_BANKNR_SHIFT	24
#define ECC_POISON1_BANKNR_MASK		0x7000000
#define ECC_POISON1_ROW_SHIFT		0
#define ECC_POISON1_ROW_MASK		0x3FFFF

/* DDR Memory type defines */
#define MEM_TYPE_DDR3			0x1
#define MEM_TYPE_LPDDR3			0x8
#define MEM_TYPE_DDR2			0x4
#define MEM_TYPE_DDR4			0x10
#define MEM_TYPE_LPDDR4			0x20

/* DDRC Software control register */
#define DDRC_SWCTL			0x320

/* DDRC ECC CE & UE poison mask */
#define ECC_CEPOISON_MASK		0x3
#define ECC_UEPOISON_MASK		0x1

/* DDRC Device config masks */
#define DDRC_MSTR_CFG_MASK		0xC0000000
#define DDRC_MSTR_CFG_SHIFT		30
#define DDRC_MSTR_CFG_X4_MASK		0x0
#define DDRC_MSTR_CFG_X8_MASK		0x1
#define DDRC_MSTR_CFG_X16_MASK		0x2
#define DDRC_MSTR_CFG_X32_MASK		0x3

#define DDR_MAX_ROW_SHIFT		18
#define DDR_MAX_COL_SHIFT		14
#define DDR_MAX_BANK_SHIFT		3
#define DDR_MAX_BANKGRP_SHIFT		2

#define ROW_MAX_VAL_MASK		0xF
#define COL_MAX_VAL_MASK		0xF
#define BANK_MAX_VAL_MASK		0x1F
#define BANKGRP_MAX_VAL_MASK		0x1F
#define RANK_MAX_VAL_MASK		0x1F

#define ROW_B0_BASE			6
#define ROW_B1_BASE			7
#define ROW_B2_BASE			8
#define ROW_B3_BASE			9
#define ROW_B4_BASE			10
#define ROW_B5_BASE			11
#define ROW_B6_BASE			12
#define ROW_B7_BASE			13
#define ROW_B8_BASE			14
#define ROW_B9_BASE			15
#define ROW_B10_BASE			16
#define ROW_B11_BASE			17
#define ROW_B12_BASE			18
#define ROW_B13_BASE			19
#define ROW_B14_BASE			20
#define ROW_B15_BASE			21
#define ROW_B16_BASE			22
#define ROW_B17_BASE			23

#define COL_B2_BASE			2
#define COL_B3_BASE			3
#define COL_B4_BASE			4
#define COL_B5_BASE			5
#define COL_B6_BASE			6
#define COL_B7_BASE			7
#define COL_B8_BASE			8
#define COL_B9_BASE			9
#define COL_B10_BASE			10
#define COL_B11_BASE			11
#define COL_B12_BASE			12
#define COL_B13_BASE			13

#define BANK_B0_BASE			2
#define BANK_B1_BASE			3
#define BANK_B2_BASE			4

#define BANKGRP_B0_BASE			2
#define BANKGRP_B1_BASE			3

#define RANK_B0_BASE			6

/**
 * struct ecc_error_info - ECC error log information.
 * @row:	Row number.
 * @col:	Column number.
 * @bank:	Bank number.
 * @bitpos:	Bit position.
 * @data:	Data causing the error.
 * @bankgrpnr:	Bank group number.
 * @blknr:	Block number.
 */
struct ecc_error_info {
	u32 row;
	u32 col;
	u32 bank;
	u32 bitpos;
	u32 data;
	u32 bankgrpnr;
	u32 blknr;
};

/**
 * struct synps_ecc_status - ECC status information to report.
 * @ce_cnt:	Correctable error count.
 * @ue_cnt:	Uncorrectable error count.
 * @ceinfo:	Correctable error log information.
 * @ueinfo:	Uncorrectable error log information.
 */
struct synps_ecc_status {
	u32 ce_cnt;
	u32 ue_cnt;
	struct ecc_error_info ceinfo;
	struct ecc_error_info ueinfo;
};

/**
 * struct synps_edac_priv - DDR memory controller private instance data.
 * @baseaddr:		Base address of the DDR controller.
 * @reglock:		Concurrent CSRs access lock.
 * @message:		Buffer for framing the event specific info.
 * @stat:		ECC status information.
 * @p_data:		Platform data.
 * @ce_cnt:		Correctable Error count.
 * @ue_cnt:		Uncorrectable Error count.
 * @poison_addr:	Data poison address.
 * @row_shift:		Bit shifts for row bit.
 * @col_shift:		Bit shifts for column bit.
 * @bank_shift:		Bit shifts for bank bit.
 * @bankgrp_shift:	Bit shifts for bank group bit.
 * @rank_shift:		Bit shifts for rank bit.
 */
struct synps_edac_priv {
	void __iomem *baseaddr;
	spinlock_t reglock;
	char message[SYNPS_EDAC_MSG_SIZE];
	struct synps_ecc_status stat;
	const struct synps_platform_data *p_data;
	u32 ce_cnt;
	u32 ue_cnt;
#ifdef CONFIG_EDAC_DEBUG
	ulong poison_addr;
	u32 row_shift[18];
	u32 col_shift[14];
	u32 bank_shift[3];
	u32 bankgrp_shift[2];
	u32 rank_shift[1];
#endif
};

/**
 * struct synps_platform_data -  synps platform data structure.
 * @get_error_info:	Get EDAC error info.
 * @get_mtype:		Get mtype.
 * @get_dtype:		Get dtype.
 * @get_ecc_state:	Get ECC state.
 * @quirks:		To differentiate IPs.
 */
struct synps_platform_data {
	int (*get_error_info)(struct synps_edac_priv *priv);
	enum mem_type (*get_mtype)(const void __iomem *base);
	enum dev_type (*get_dtype)(const void __iomem *base);
	bool (*get_ecc_state)(void __iomem *base);
	int quirks;
};

/**
 * zynq_get_error_info - Get the current ECC error info.
 * @priv:	DDR memory controller private instance data.
 *
 * Return: one if there is no error, otherwise zero.
 */
static int zynq_get_error_info(struct synps_edac_priv *priv)
{
	struct synps_ecc_status *p;
	u32 regval, clearval = 0;
	void __iomem *base;

	base = priv->baseaddr;
	p = &priv->stat;

	regval = readl(base + STAT_OFST);
	if (!regval)
		return 1;

	p->ce_cnt = (regval & STAT_CECNT_MASK) >> STAT_CECNT_SHIFT;
	p->ue_cnt = regval & STAT_UECNT_MASK;

	regval = readl(base + CE_LOG_OFST);
	if (!(p->ce_cnt && (regval & LOG_VALID)))
		goto ue_err;

	p->ceinfo.bitpos = (regval & CE_LOG_BITPOS_MASK) >> CE_LOG_BITPOS_SHIFT;
	regval = readl(base + CE_ADDR_OFST);
	p->ceinfo.row = (regval & ADDR_ROW_MASK) >> ADDR_ROW_SHIFT;
	p->ceinfo.col = regval & ADDR_COL_MASK;
	p->ceinfo.bank = (regval & ADDR_BANK_MASK) >> ADDR_BANK_SHIFT;
	p->ceinfo.data = readl(base + CE_DATA_31_0_OFST);
	edac_dbg(3, "CE bit position: %d data: %d\n", p->ceinfo.bitpos,
		 p->ceinfo.data);
	clearval = ECC_CTRL_CLR_CE_ERR;

ue_err:
	regval = readl(base + UE_LOG_OFST);
	if (!(p->ue_cnt && (regval & LOG_VALID)))
		goto out;

	regval = readl(base + UE_ADDR_OFST);
	p->ueinfo.row = (regval & ADDR_ROW_MASK) >> ADDR_ROW_SHIFT;
	p->ueinfo.col = regval & ADDR_COL_MASK;
	p->ueinfo.bank = (regval & ADDR_BANK_MASK) >> ADDR_BANK_SHIFT;
	p->ueinfo.data = readl(base + UE_DATA_31_0_OFST);
	clearval |= ECC_CTRL_CLR_UE_ERR;

out:
	writel(clearval, base + ECC_CTRL_OFST);
	writel(0x0, base + ECC_CTRL_OFST);

	return 0;
}

/**
 * zynqmp_get_error_info - Get the current ECC error info.
 * @priv:	DDR memory controller private instance data.
 *
 * Return: one if there is no error otherwise returns zero.
 */
static int zynqmp_get_error_info(struct synps_edac_priv *priv)
{
	struct synps_ecc_status *p;
	u32 regval, clearval;
	unsigned long flags;
	void __iomem *base;

	base = priv->baseaddr;
	p = &priv->stat;

	regval = readl(base + ECC_ERRCNT_OFST);
	p->ce_cnt = regval & ECC_ERRCNT_CECNT_MASK;
	p->ue_cnt = (regval & ECC_ERRCNT_UECNT_MASK) >> ECC_ERRCNT_UECNT_SHIFT;
	if (!p->ce_cnt)
		goto ue_err;

	regval = readl(base + ECC_STAT_OFST);
	if (!regval)
		return 1;

	p->ceinfo.bitpos = (regval & ECC_STAT_BITNUM_MASK);

	regval = readl(base + ECC_CEADDR0_OFST);
	p->ceinfo.row = (regval & ECC_CEADDR0_RW_MASK);
	regval = readl(base + ECC_CEADDR1_OFST);
	p->ceinfo.bank = (regval & ECC_CEADDR1_BNKNR_MASK) >>
					ECC_CEADDR1_BNKNR_SHIFT;
	p->ceinfo.bankgrpnr = (regval &	ECC_CEADDR1_BNKGRP_MASK) >>
					ECC_CEADDR1_BNKGRP_SHIFT;
	p->ceinfo.blknr = (regval & ECC_CEADDR1_BLKNR_MASK);
	p->ceinfo.data = readl(base + ECC_CSYND0_OFST);
	edac_dbg(2, "ECCCSYN0: 0x%08X ECCCSYN1: 0x%08X ECCCSYN2: 0x%08X\n",
		 readl(base + ECC_CSYND0_OFST), readl(base + ECC_CSYND1_OFST),
		 readl(base + ECC_CSYND2_OFST));
ue_err:
	if (!p->ue_cnt)
		goto out;

	regval = readl(base + ECC_UEADDR0_OFST);
	p->ueinfo.row = (regval & ECC_CEADDR0_RW_MASK);
	regval = readl(base + ECC_UEADDR1_OFST);
	p->ueinfo.bankgrpnr = (regval & ECC_CEADDR1_BNKGRP_MASK) >>
					ECC_CEADDR1_BNKGRP_SHIFT;
	p->ueinfo.bank = (regval & ECC_CEADDR1_BNKNR_MASK) >>
					ECC_CEADDR1_BNKNR_SHIFT;
	p->ueinfo.blknr = (regval & ECC_CEADDR1_BLKNR_MASK);
	p->ueinfo.data = readl(base + ECC_UESYND0_OFST);
out:
	spin_lock_irqsave(&priv->reglock, flags);

	clearval = readl(base + ECC_CLR_OFST) |
		   ECC_CTRL_CLR_CE_ERR | ECC_CTRL_CLR_CE_ERRCNT |
		   ECC_CTRL_CLR_UE_ERR | ECC_CTRL_CLR_UE_ERRCNT;
	writel(clearval, base + ECC_CLR_OFST);

	spin_unlock_irqrestore(&priv->reglock, flags);

	return 0;
}

/**
 * handle_error - Handle Correctable and Uncorrectable errors.
 * @mci:	EDAC memory controller instance.
 * @p:		Synopsys ECC status structure.
 *
 * Handles ECC correctable and uncorrectable errors.
 */
static void handle_error(struct mem_ctl_info *mci, struct synps_ecc_status *p)
{
	struct synps_edac_priv *priv = mci->pvt_info;
	struct ecc_error_info *pinf;

	if (p->ce_cnt) {
		pinf = &p->ceinfo;
		if (priv->p_data->quirks & DDR_ECC_INTR_SUPPORT) {
			snprintf(priv->message, SYNPS_EDAC_MSG_SIZE,
				 "DDR ECC error type:%s Row %d Bank %d BankGroup Number %d Block Number %d Bit Position: %d Data: 0x%08x",
				 "CE", pinf->row, pinf->bank,
				 pinf->bankgrpnr, pinf->blknr,
				 pinf->bitpos, pinf->data);
		} else {
			snprintf(priv->message, SYNPS_EDAC_MSG_SIZE,
				 "DDR ECC error type:%s Row %d Bank %d Col %d Bit Position: %d Data: 0x%08x",
				 "CE", pinf->row, pinf->bank, pinf->col,
				 pinf->bitpos, pinf->data);
		}

		edac_mc_handle_error(HW_EVENT_ERR_CORRECTED, mci,
				     p->ce_cnt, 0, 0, 0, 0, 0, -1,
				     priv->message, "");
	}

	if (p->ue_cnt) {
		pinf = &p->ueinfo;
		if (priv->p_data->quirks & DDR_ECC_INTR_SUPPORT) {
			snprintf(priv->message, SYNPS_EDAC_MSG_SIZE,
				 "DDR ECC error type :%s Row %d Bank %d BankGroup Number %d Block Number %d",
				 "UE", pinf->row, pinf->bank,
				 pinf->bankgrpnr, pinf->blknr);
		} else {
			snprintf(priv->message, SYNPS_EDAC_MSG_SIZE,
				 "DDR ECC error type :%s Row %d Bank %d Col %d ",
				 "UE", pinf->row, pinf->bank, pinf->col);
		}

		edac_mc_handle_error(HW_EVENT_ERR_UNCORRECTED, mci,
				     p->ue_cnt, 0, 0, 0, 0, 0, -1,
				     priv->message, "");
	}

	memset(p, 0, sizeof(*p));
}

static void enable_intr(struct synps_edac_priv *priv)
{
	unsigned long flags;

	/* Enable UE/CE Interrupts */
	if (!(priv->p_data->quirks & DDR_ECC_INTR_SELF_CLEAR)) {
		writel(DDR_QOSUE_MASK | DDR_QOSCE_MASK,
		       priv->baseaddr + DDR_QOS_IRQ_EN_OFST);

		return;
	}

	spin_lock_irqsave(&priv->reglock, flags);

	writel(DDR_UE_MASK | DDR_CE_MASK,
	       priv->baseaddr + ECC_CLR_OFST);

	spin_unlock_irqrestore(&priv->reglock, flags);
}

static void disable_intr(struct synps_edac_priv *priv)
{
	unsigned long flags;

	/* Disable UE/CE Interrupts */
	if (!(priv->p_data->quirks & DDR_ECC_INTR_SELF_CLEAR)) {
		writel(DDR_QOSUE_MASK | DDR_QOSCE_MASK,
		       priv->baseaddr + DDR_QOS_IRQ_DB_OFST);

		return;
	}

	spin_lock_irqsave(&priv->reglock, flags);

	writel(0, priv->baseaddr + ECC_CLR_OFST);

	spin_unlock_irqrestore(&priv->reglock, flags);
}

/**
 * intr_handler - Interrupt Handler for ECC interrupts.
 * @irq:        IRQ number.
 * @dev_id:     Device ID.
 *
 * Return: IRQ_NONE, if interrupt not set or IRQ_HANDLED otherwise.
 */
static irqreturn_t intr_handler(int irq, void *dev_id)
{
	const struct synps_platform_data *p_data;
	struct mem_ctl_info *mci = dev_id;
	struct synps_edac_priv *priv;
	int status, regval;

	priv = mci->pvt_info;
	p_data = priv->p_data;

	/*
	 * v3.0 of the controller has the ce/ue bits cleared automatically,
	 * so this condition does not apply.
	 */
	if (!(priv->p_data->quirks & DDR_ECC_INTR_SELF_CLEAR)) {
		regval = readl(priv->baseaddr + DDR_QOS_IRQ_STAT_OFST);
		regval &= (DDR_QOSCE_MASK | DDR_QOSUE_MASK);
		if (!(regval & ECC_CE_UE_INTR_MASK))
			return IRQ_NONE;
	}

	status = p_data->get_error_info(priv);
	if (status)
		return IRQ_NONE;

	priv->ce_cnt += priv->stat.ce_cnt;
	priv->ue_cnt += priv->stat.ue_cnt;
	handle_error(mci, &priv->stat);

	edac_dbg(3, "Total error count CE %d UE %d\n",
		 priv->ce_cnt, priv->ue_cnt);
	/* v3.0 of the controller does not have this register */
	if (!(priv->p_data->quirks & DDR_ECC_INTR_SELF_CLEAR))
		writel(regval, priv->baseaddr + DDR_QOS_IRQ_STAT_OFST);

	return IRQ_HANDLED;
}

/**
 * check_errors - Check controller for ECC errors.
 * @mci:	EDAC memory controller instance.
 *
 * Check and post ECC errors. Called by the polling thread.
 */
static void check_errors(struct mem_ctl_info *mci)
{
	const struct synps_platform_data *p_data;
	struct synps_edac_priv *priv;
	int status;

	priv = mci->pvt_info;
	p_data = priv->p_data;

	status = p_data->get_error_info(priv);
	if (status)
		return;

	priv->ce_cnt += priv->stat.ce_cnt;
	priv->ue_cnt += priv->stat.ue_cnt;
	handle_error(mci, &priv->stat);

	edac_dbg(3, "Total error count CE %d UE %d\n",
		 priv->ce_cnt, priv->ue_cnt);
}

/**
 * zynq_get_dtype - Return the controller memory width.
 * @base:	DDR memory controller base address.
 *
 * Get the EDAC device type width appropriate for the current controller
 * configuration.
 *
 * Return: a device type width enumeration.
 */
static enum dev_type zynq_get_dtype(const void __iomem *base)
{
	enum dev_type dt;
	u32 width;

	width = readl(base + CTRL_OFST);
	width = (width & CTRL_BW_MASK) >> CTRL_BW_SHIFT;

	switch (width) {
	case DDRCTL_WDTH_16:
		dt = DEV_X2;
		break;
	case DDRCTL_WDTH_32:
		dt = DEV_X4;
		break;
	default:
		dt = DEV_UNKNOWN;
	}

	return dt;
}

/**
 * zynqmp_get_dtype - Return the controller memory width.
 * @base:	DDR memory controller base address.
 *
 * Get the EDAC device type width appropriate for the current controller
 * configuration.
 *
 * Return: a device type width enumeration.
 */
static enum dev_type zynqmp_get_dtype(const void __iomem *base)
{
	enum dev_type dt;
	u32 width;

	width = readl(base + CTRL_OFST);
	width = (width & ECC_CTRL_BUSWIDTH_MASK) >> ECC_CTRL_BUSWIDTH_SHIFT;
	switch (width) {
	case DDRCTL_EWDTH_16:
		dt = DEV_X2;
		break;
	case DDRCTL_EWDTH_32:
		dt = DEV_X4;
		break;
	case DDRCTL_EWDTH_64:
		dt = DEV_X8;
		break;
	default:
		dt = DEV_UNKNOWN;
	}

	return dt;
}

/**
 * zynq_get_ecc_state - Return the controller ECC enable/disable status.
 * @base:	DDR memory controller base address.
 *
 * Get the ECC enable/disable status of the controller.
 *
 * Return: true if enabled, otherwise false.
 */
static bool zynq_get_ecc_state(void __iomem *base)
{
	enum dev_type dt;
	u32 ecctype;

	dt = zynq_get_dtype(base);
	if (dt == DEV_UNKNOWN)
		return false;

	ecctype = readl(base + SCRUB_OFST) & SCRUB_MODE_MASK;
	if ((ecctype == SCRUB_MODE_SECDED) && (dt == DEV_X2))
		return true;

	return false;
}

/**
 * zynqmp_get_ecc_state - Return the controller ECC enable/disable status.
 * @base:	DDR memory controller base address.
 *
 * Get the ECC enable/disable status for the controller.
 *
 * Return: a ECC status boolean i.e true/false - enabled/disabled.
 */
static bool zynqmp_get_ecc_state(void __iomem *base)
{
	enum dev_type dt;
	u32 ecctype;

	dt = zynqmp_get_dtype(base);
	if (dt == DEV_UNKNOWN)
		return false;

	ecctype = readl(base + ECC_CFG0_OFST) & SCRUB_MODE_MASK;
	if ((ecctype == SCRUB_MODE_SECDED) &&
	    ((dt == DEV_X2) || (dt == DEV_X4) || (dt == DEV_X8)))
		return true;

	return false;
}

/**
 * get_memsize - Read the size of the attached memory device.
 *
 * Return: the memory size in bytes.
 */
static u32 get_memsize(void)
{
	struct sysinfo inf;

	si_meminfo(&inf);

	return inf.totalram * inf.mem_unit;
}

/**
 * zynq_get_mtype - Return the controller memory type.
 * @base:	Synopsys ECC status structure.
 *
 * Get the EDAC memory type appropriate for the current controller
 * configuration.
 *
 * Return: a memory type enumeration.
 */
static enum mem_type zynq_get_mtype(const void __iomem *base)
{
	enum mem_type mt;
	u32 memtype;

	memtype = readl(base + T_ZQ_OFST);

	if (memtype & T_ZQ_DDRMODE_MASK)
		mt = MEM_DDR3;
	else
		mt = MEM_DDR2;

	return mt;
}

/**
 * zynqmp_get_mtype - Returns controller memory type.
 * @base:	Synopsys ECC status structure.
 *
 * Get the EDAC memory type appropriate for the current controller
 * configuration.
 *
 * Return: a memory type enumeration.
 */
static enum mem_type zynqmp_get_mtype(const void __iomem *base)
{
	enum mem_type mt;
	u32 memtype;

	memtype = readl(base + CTRL_OFST);

	if ((memtype & MEM_TYPE_DDR3) || (memtype & MEM_TYPE_LPDDR3))
		mt = MEM_DDR3;
	else if (memtype & MEM_TYPE_DDR2)
		mt = MEM_RDDR2;
	else if ((memtype & MEM_TYPE_LPDDR4) || (memtype & MEM_TYPE_DDR4))
		mt = MEM_DDR4;
	else
		mt = MEM_EMPTY;

	return mt;
}

/**
 * init_csrows - Initialize the csrow data.
 * @mci:	EDAC memory controller instance.
 *
 * Initialize the chip select rows associated with the EDAC memory
 * controller instance.
 */
static void init_csrows(struct mem_ctl_info *mci)
{
	struct synps_edac_priv *priv = mci->pvt_info;
	const struct synps_platform_data *p_data;
	struct csrow_info *csi;
	struct dimm_info *dimm;
	u32 size, row;
	int j;

	p_data = priv->p_data;

	for (row = 0; row < mci->nr_csrows; row++) {
		csi = mci->csrows[row];
		size = get_memsize();

		for (j = 0; j < csi->nr_channels; j++) {
			dimm		= csi->channels[j]->dimm;
			dimm->edac_mode	= EDAC_SECDED;
			dimm->mtype	= p_data->get_mtype(priv->baseaddr);
			dimm->nr_pages	= (size >> PAGE_SHIFT) / csi->nr_channels;
			dimm->grain	= SYNPS_EDAC_ERR_GRAIN;
			dimm->dtype	= p_data->get_dtype(priv->baseaddr);
		}
	}
}

/**
 * mc_init - Initialize one driver instance.
 * @mci:	EDAC memory controller instance.
 * @pdev:	platform device.
 *
 * Perform initialization of the EDAC memory controller instance and
 * related driver-private data associated with the memory controller the
 * instance is bound to.
 */
static void mc_init(struct mem_ctl_info *mci, struct platform_device *pdev)
{
	struct synps_edac_priv *priv;

	mci->pdev = &pdev->dev;
	priv = mci->pvt_info;
	platform_set_drvdata(pdev, mci);

	/* Initialize controller capabilities and configuration */
	mci->mtype_cap = MEM_FLAG_DDR3 | MEM_FLAG_DDR2;
	mci->edac_ctl_cap = EDAC_FLAG_NONE | EDAC_FLAG_SECDED;
	mci->scrub_cap = SCRUB_HW_SRC;
	mci->scrub_mode = SCRUB_NONE;

	mci->edac_cap = EDAC_FLAG_SECDED;
	mci->ctl_name = "synps_ddr_controller";
	mci->dev_name = SYNPS_EDAC_MOD_STRING;
	mci->mod_name = SYNPS_EDAC_MOD_VER;

	if (priv->p_data->quirks & DDR_ECC_INTR_SUPPORT) {
		edac_op_state = EDAC_OPSTATE_INT;
	} else {
		edac_op_state = EDAC_OPSTATE_POLL;
		mci->edac_check = check_errors;
	}

	mci->ctl_page_to_phys = NULL;

	init_csrows(mci);
}

static int setup_irq(struct mem_ctl_info *mci,
		     struct platform_device *pdev)
{
	struct synps_edac_priv *priv = mci->pvt_info;
	int ret, irq;

	irq = platform_get_irq(pdev, 0);
	if (irq < 0) {
		edac_printk(KERN_ERR, EDAC_MC,
			    "No IRQ %d in DT\n", irq);
		return irq;
	}

	ret = devm_request_irq(&pdev->dev, irq, intr_handler,
			       0, dev_name(&pdev->dev), mci);
	if (ret < 0) {
		edac_printk(KERN_ERR, EDAC_MC, "Failed to request IRQ\n");
		return ret;
	}

	enable_intr(priv);

	return 0;
}

static const struct synps_platform_data zynq_edac_def = {
	.get_error_info	= zynq_get_error_info,
	.get_mtype	= zynq_get_mtype,
	.get_dtype	= zynq_get_dtype,
	.get_ecc_state	= zynq_get_ecc_state,
	.quirks		= 0,
};

static const struct synps_platform_data zynqmp_edac_def = {
	.get_error_info	= zynqmp_get_error_info,
	.get_mtype	= zynqmp_get_mtype,
	.get_dtype	= zynqmp_get_dtype,
	.get_ecc_state	= zynqmp_get_ecc_state,
	.quirks         = (DDR_ECC_INTR_SUPPORT
#ifdef CONFIG_EDAC_DEBUG
			  | DDR_ECC_DATA_POISON_SUPPORT
#endif
			  ),
};

static const struct synps_platform_data synopsys_edac_def = {
	.get_error_info	= zynqmp_get_error_info,
	.get_mtype	= zynqmp_get_mtype,
	.get_dtype	= zynqmp_get_dtype,
	.get_ecc_state	= zynqmp_get_ecc_state,
	.quirks         = (DDR_ECC_INTR_SUPPORT | DDR_ECC_INTR_SELF_CLEAR
#ifdef CONFIG_EDAC_DEBUG
			  | DDR_ECC_DATA_POISON_SUPPORT
#endif
			  ),
};


static const struct of_device_id synps_edac_match[] = {
	{
		.compatible = "xlnx,zynq-ddrc-a05",
		.data = (void *)&zynq_edac_def
	},
	{
		.compatible = "xlnx,zynqmp-ddrc-2.40a",
		.data = (void *)&zynqmp_edac_def
	},
	{
		.compatible = "snps,ddrc-3.80a",
		.data = (void *)&synopsys_edac_def
	},
	{
		/* end of table */
	}
};

MODULE_DEVICE_TABLE(of, synps_edac_match);

#ifdef CONFIG_EDAC_DEBUG
#define to_mci(k) container_of(k, struct mem_ctl_info, dev)

/**
 * ddr_poison_setup -	Update poison registers.
 * @priv:		DDR memory controller private instance data.
 *
 * Update poison registers as per DDR mapping.
 * Return: none.
 */
static void ddr_poison_setup(struct synps_edac_priv *priv)
{
	int col = 0, row = 0, bank = 0, bankgrp = 0, rank = 0, regval;
	int index;
	ulong hif_addr = 0;

	hif_addr = priv->poison_addr >> 3;

	for (index = 0; index < DDR_MAX_ROW_SHIFT; index++) {
		if (priv->row_shift[index])
			row |= (((hif_addr >> priv->row_shift[index]) &
						BIT(0)) << index);
		else
			break;
	}

	for (index = 0; index < DDR_MAX_COL_SHIFT; index++) {
		if (priv->col_shift[index] || index < 3)
			col |= (((hif_addr >> priv->col_shift[index]) &
						BIT(0)) << index);
		else
			break;
	}

	for (index = 0; index < DDR_MAX_BANK_SHIFT; index++) {
		if (priv->bank_shift[index])
			bank |= (((hif_addr >> priv->bank_shift[index]) &
						BIT(0)) << index);
		else
			break;
	}

	for (index = 0; index < DDR_MAX_BANKGRP_SHIFT; index++) {
		if (priv->bankgrp_shift[index])
			bankgrp |= (((hif_addr >> priv->bankgrp_shift[index])
						& BIT(0)) << index);
		else
			break;
	}

	if (priv->rank_shift[0])
		rank = (hif_addr >> priv->rank_shift[0]) & BIT(0);

	regval = (rank << ECC_POISON0_RANK_SHIFT) & ECC_POISON0_RANK_MASK;
	regval |= (col << ECC_POISON0_COLUMN_SHIFT) & ECC_POISON0_COLUMN_MASK;
	writel(regval, priv->baseaddr + ECC_POISON0_OFST);

	regval = (bankgrp << ECC_POISON1_BG_SHIFT) & ECC_POISON1_BG_MASK;
	regval |= (bank << ECC_POISON1_BANKNR_SHIFT) & ECC_POISON1_BANKNR_MASK;
	regval |= (row << ECC_POISON1_ROW_SHIFT) & ECC_POISON1_ROW_MASK;
	writel(regval, priv->baseaddr + ECC_POISON1_OFST);
}

static ssize_t inject_data_error_show(struct device *dev,
				      struct device_attribute *mattr,
				      char *data)
{
	struct mem_ctl_info *mci = to_mci(dev);
	struct synps_edac_priv *priv = mci->pvt_info;

	return sprintf(data, "Poison0 Addr: 0x%08x\n\rPoison1 Addr: 0x%08x\n\r"
			"Error injection Address: 0x%lx\n\r",
			readl(priv->baseaddr + ECC_POISON0_OFST),
			readl(priv->baseaddr + ECC_POISON1_OFST),
			priv->poison_addr);
}

static ssize_t inject_data_error_store(struct device *dev,
				       struct device_attribute *mattr,
				       const char *data, size_t count)
{
	struct mem_ctl_info *mci = to_mci(dev);
	struct synps_edac_priv *priv = mci->pvt_info;

	if (kstrtoul(data, 0, &priv->poison_addr))
		return -EINVAL;

	ddr_poison_setup(priv);

	return count;
}

static ssize_t inject_data_poison_show(struct device *dev,
				       struct device_attribute *mattr,
				       char *data)
{
	struct mem_ctl_info *mci = to_mci(dev);
	struct synps_edac_priv *priv = mci->pvt_info;

	return sprintf(data, "Data Poisoning: %s\n\r",
			(((readl(priv->baseaddr + ECC_CFG1_OFST)) & 0x3) == 0x3)
			? ("Correctable Error") : ("UnCorrectable Error"));
}

static ssize_t inject_data_poison_store(struct device *dev,
					struct device_attribute *mattr,
					const char *data, size_t count)
{
	struct mem_ctl_info *mci = to_mci(dev);
	struct synps_edac_priv *priv = mci->pvt_info;

	writel(0, priv->baseaddr + DDRC_SWCTL);
	if (strncmp(data, "CE", 2) == 0)
		writel(ECC_CEPOISON_MASK, priv->baseaddr + ECC_CFG1_OFST);
	else
		writel(ECC_UEPOISON_MASK, priv->baseaddr + ECC_CFG1_OFST);
	writel(1, priv->baseaddr + DDRC_SWCTL);

	return count;
}

static DEVICE_ATTR_RW(inject_data_error);
static DEVICE_ATTR_RW(inject_data_poison);

static int edac_create_sysfs_attributes(struct mem_ctl_info *mci)
{
	int rc;

	rc = device_create_file(&mci->dev, &dev_attr_inject_data_error);
	if (rc < 0)
		return rc;
	rc = device_create_file(&mci->dev, &dev_attr_inject_data_poison);
	if (rc < 0)
		return rc;
	return 0;
}

static void edac_remove_sysfs_attributes(struct mem_ctl_info *mci)
{
	device_remove_file(&mci->dev, &dev_attr_inject_data_error);
	device_remove_file(&mci->dev, &dev_attr_inject_data_poison);
}

static void setup_row_address_map(struct synps_edac_priv *priv, u32 *addrmap)
{
	u32 addrmap_row_b2_10;
	int index;

	priv->row_shift[0] = (addrmap[5] & ROW_MAX_VAL_MASK) + ROW_B0_BASE;
	priv->row_shift[1] = ((addrmap[5] >> 8) &
			ROW_MAX_VAL_MASK) + ROW_B1_BASE;

	addrmap_row_b2_10 = (addrmap[5] >> 16) & ROW_MAX_VAL_MASK;
	if (addrmap_row_b2_10 != ROW_MAX_VAL_MASK) {
		for (index = 2; index < 11; index++)
			priv->row_shift[index] = addrmap_row_b2_10 +
				index + ROW_B0_BASE;

	} else {
		priv->row_shift[2] = (addrmap[9] &
				ROW_MAX_VAL_MASK) + ROW_B2_BASE;
		priv->row_shift[3] = ((addrmap[9] >> 8) &
				ROW_MAX_VAL_MASK) + ROW_B3_BASE;
		priv->row_shift[4] = ((addrmap[9] >> 16) &
				ROW_MAX_VAL_MASK) + ROW_B4_BASE;
		priv->row_shift[5] = ((addrmap[9] >> 24) &
				ROW_MAX_VAL_MASK) + ROW_B5_BASE;
		priv->row_shift[6] = (addrmap[10] &
				ROW_MAX_VAL_MASK) + ROW_B6_BASE;
		priv->row_shift[7] = ((addrmap[10] >> 8) &
				ROW_MAX_VAL_MASK) + ROW_B7_BASE;
		priv->row_shift[8] = ((addrmap[10] >> 16) &
				ROW_MAX_VAL_MASK) + ROW_B8_BASE;
		priv->row_shift[9] = ((addrmap[10] >> 24) &
				ROW_MAX_VAL_MASK) + ROW_B9_BASE;
		priv->row_shift[10] = (addrmap[11] &
				ROW_MAX_VAL_MASK) + ROW_B10_BASE;
	}

	priv->row_shift[11] = (((addrmap[5] >> 24) & ROW_MAX_VAL_MASK) ==
				ROW_MAX_VAL_MASK) ? 0 : (((addrmap[5] >> 24) &
				ROW_MAX_VAL_MASK) + ROW_B11_BASE);
	priv->row_shift[12] = ((addrmap[6] & ROW_MAX_VAL_MASK) ==
				ROW_MAX_VAL_MASK) ? 0 : ((addrmap[6] &
				ROW_MAX_VAL_MASK) + ROW_B12_BASE);
	priv->row_shift[13] = (((addrmap[6] >> 8) & ROW_MAX_VAL_MASK) ==
				ROW_MAX_VAL_MASK) ? 0 : (((addrmap[6] >> 8) &
				ROW_MAX_VAL_MASK) + ROW_B13_BASE);
	priv->row_shift[14] = (((addrmap[6] >> 16) & ROW_MAX_VAL_MASK) ==
				ROW_MAX_VAL_MASK) ? 0 : (((addrmap[6] >> 16) &
				ROW_MAX_VAL_MASK) + ROW_B14_BASE);
	priv->row_shift[15] = (((addrmap[6] >> 24) & ROW_MAX_VAL_MASK) ==
				ROW_MAX_VAL_MASK) ? 0 : (((addrmap[6] >> 24) &
				ROW_MAX_VAL_MASK) + ROW_B15_BASE);
	priv->row_shift[16] = ((addrmap[7] & ROW_MAX_VAL_MASK) ==
				ROW_MAX_VAL_MASK) ? 0 : ((addrmap[7] &
				ROW_MAX_VAL_MASK) + ROW_B16_BASE);
	priv->row_shift[17] = (((addrmap[7] >> 8) & ROW_MAX_VAL_MASK) ==
				ROW_MAX_VAL_MASK) ? 0 : (((addrmap[7] >> 8) &
				ROW_MAX_VAL_MASK) + ROW_B17_BASE);
}

static void setup_column_address_map(struct synps_edac_priv *priv, u32 *addrmap)
{
	u32 width, memtype;
	int index;

	memtype = readl(priv->baseaddr + CTRL_OFST);
	width = (memtype & ECC_CTRL_BUSWIDTH_MASK) >> ECC_CTRL_BUSWIDTH_SHIFT;

	priv->col_shift[0] = 0;
	priv->col_shift[1] = 1;
	priv->col_shift[2] = (addrmap[2] & COL_MAX_VAL_MASK) + COL_B2_BASE;
	priv->col_shift[3] = ((addrmap[2] >> 8) &
			COL_MAX_VAL_MASK) + COL_B3_BASE;
	priv->col_shift[4] = (((addrmap[2] >> 16) & COL_MAX_VAL_MASK) ==
			COL_MAX_VAL_MASK) ? 0 : (((addrmap[2] >> 16) &
					COL_MAX_VAL_MASK) + COL_B4_BASE);
	priv->col_shift[5] = (((addrmap[2] >> 24) & COL_MAX_VAL_MASK) ==
			COL_MAX_VAL_MASK) ? 0 : (((addrmap[2] >> 24) &
					COL_MAX_VAL_MASK) + COL_B5_BASE);
	priv->col_shift[6] = ((addrmap[3] & COL_MAX_VAL_MASK) ==
			COL_MAX_VAL_MASK) ? 0 : ((addrmap[3] &
					COL_MAX_VAL_MASK) + COL_B6_BASE);
	priv->col_shift[7] = (((addrmap[3] >> 8) & COL_MAX_VAL_MASK) ==
			COL_MAX_VAL_MASK) ? 0 : (((addrmap[3] >> 8) &
					COL_MAX_VAL_MASK) + COL_B7_BASE);
	priv->col_shift[8] = (((addrmap[3] >> 16) & COL_MAX_VAL_MASK) ==
			COL_MAX_VAL_MASK) ? 0 : (((addrmap[3] >> 16) &
					COL_MAX_VAL_MASK) + COL_B8_BASE);
	priv->col_shift[9] = (((addrmap[3] >> 24) & COL_MAX_VAL_MASK) ==
			COL_MAX_VAL_MASK) ? 0 : (((addrmap[3] >> 24) &
					COL_MAX_VAL_MASK) + COL_B9_BASE);
	if (width == DDRCTL_EWDTH_64) {
		if (memtype & MEM_TYPE_LPDDR3) {
			priv->col_shift[10] = ((addrmap[4] &
				COL_MAX_VAL_MASK) == COL_MAX_VAL_MASK) ? 0 :
				((addrmap[4] & COL_MAX_VAL_MASK) +
				 COL_B10_BASE);
			priv->col_shift[11] = (((addrmap[4] >> 8) &
				COL_MAX_VAL_MASK) == COL_MAX_VAL_MASK) ? 0 :
				(((addrmap[4] >> 8) & COL_MAX_VAL_MASK) +
				 COL_B11_BASE);
		} else {
			priv->col_shift[11] = ((addrmap[4] &
				COL_MAX_VAL_MASK) == COL_MAX_VAL_MASK) ? 0 :
				((addrmap[4] & COL_MAX_VAL_MASK) +
				 COL_B10_BASE);
			priv->col_shift[13] = (((addrmap[4] >> 8) &
				COL_MAX_VAL_MASK) == COL_MAX_VAL_MASK) ? 0 :
				(((addrmap[4] >> 8) & COL_MAX_VAL_MASK) +
				 COL_B11_BASE);
		}
	} else if (width == DDRCTL_EWDTH_32) {
		if (memtype & MEM_TYPE_LPDDR3) {
			priv->col_shift[10] = (((addrmap[3] >> 24) &
				COL_MAX_VAL_MASK) == COL_MAX_VAL_MASK) ? 0 :
				(((addrmap[3] >> 24) & COL_MAX_VAL_MASK) +
				 COL_B9_BASE);
			priv->col_shift[11] = ((addrmap[4] &
				COL_MAX_VAL_MASK) == COL_MAX_VAL_MASK) ? 0 :
				((addrmap[4] & COL_MAX_VAL_MASK) +
				 COL_B10_BASE);
		} else {
			priv->col_shift[11] = (((addrmap[3] >> 24) &
				COL_MAX_VAL_MASK) == COL_MAX_VAL_MASK) ? 0 :
				(((addrmap[3] >> 24) & COL_MAX_VAL_MASK) +
				 COL_B9_BASE);
			priv->col_shift[13] = ((addrmap[4] &
				COL_MAX_VAL_MASK) == COL_MAX_VAL_MASK) ? 0 :
				((addrmap[4] & COL_MAX_VAL_MASK) +
				 COL_B10_BASE);
		}
	} else {
		if (memtype & MEM_TYPE_LPDDR3) {
			priv->col_shift[10] = (((addrmap[3] >> 16) &
				COL_MAX_VAL_MASK) == COL_MAX_VAL_MASK) ? 0 :
				(((addrmap[3] >> 16) & COL_MAX_VAL_MASK) +
				 COL_B8_BASE);
			priv->col_shift[11] = (((addrmap[3] >> 24) &
				COL_MAX_VAL_MASK) == COL_MAX_VAL_MASK) ? 0 :
				(((addrmap[3] >> 24) & COL_MAX_VAL_MASK) +
				 COL_B9_BASE);
			priv->col_shift[13] = ((addrmap[4] &
				COL_MAX_VAL_MASK) == COL_MAX_VAL_MASK) ? 0 :
				((addrmap[4] & COL_MAX_VAL_MASK) +
				 COL_B10_BASE);
		} else {
			priv->col_shift[11] = (((addrmap[3] >> 16) &
				COL_MAX_VAL_MASK) == COL_MAX_VAL_MASK) ? 0 :
				(((addrmap[3] >> 16) & COL_MAX_VAL_MASK) +
				 COL_B8_BASE);
			priv->col_shift[13] = (((addrmap[3] >> 24) &
				COL_MAX_VAL_MASK) == COL_MAX_VAL_MASK) ? 0 :
				(((addrmap[3] >> 24) & COL_MAX_VAL_MASK) +
				 COL_B9_BASE);
		}
	}

	if (width) {
		for (index = 9; index > width; index--) {
			priv->col_shift[index] = priv->col_shift[index - width];
			priv->col_shift[index - width] = 0;
		}
	}

}

static void setup_bank_address_map(struct synps_edac_priv *priv, u32 *addrmap)
{
	priv->bank_shift[0] = (addrmap[1] & BANK_MAX_VAL_MASK) + BANK_B0_BASE;
	priv->bank_shift[1] = ((addrmap[1] >> 8) &
				BANK_MAX_VAL_MASK) + BANK_B1_BASE;
	priv->bank_shift[2] = (((addrmap[1] >> 16) &
				BANK_MAX_VAL_MASK) == BANK_MAX_VAL_MASK) ? 0 :
				(((addrmap[1] >> 16) & BANK_MAX_VAL_MASK) +
				 BANK_B2_BASE);

}

static void setup_bg_address_map(struct synps_edac_priv *priv, u32 *addrmap)
{
	priv->bankgrp_shift[0] = (addrmap[8] &
				BANKGRP_MAX_VAL_MASK) + BANKGRP_B0_BASE;
	priv->bankgrp_shift[1] = (((addrmap[8] >> 8) & BANKGRP_MAX_VAL_MASK) ==
				BANKGRP_MAX_VAL_MASK) ? 0 : (((addrmap[8] >> 8)
				& BANKGRP_MAX_VAL_MASK) + BANKGRP_B1_BASE);

}

static void setup_rank_address_map(struct synps_edac_priv *priv, u32 *addrmap)
{
	priv->rank_shift[0] = ((addrmap[0] & RANK_MAX_VAL_MASK) ==
				RANK_MAX_VAL_MASK) ? 0 : ((addrmap[0] &
				RANK_MAX_VAL_MASK) + RANK_B0_BASE);
}

/**
 * setup_address_map -	Set Address Map by querying ADDRMAP registers.
 * @priv:		DDR memory controller private instance data.
 *
 * Set Address Map by querying ADDRMAP registers.
 *
 * Return: none.
 */
static void setup_address_map(struct synps_edac_priv *priv)
{
	u32 addrmap[12];
	int index;

	for (index = 0; index < 12; index++) {
		u32 addrmap_offset;

		addrmap_offset = ECC_ADDRMAP0_OFFSET + (index * 4);
		addrmap[index] = readl(priv->baseaddr + addrmap_offset);
	}

	setup_row_address_map(priv, addrmap);

	setup_column_address_map(priv, addrmap);

	setup_bank_address_map(priv, addrmap);

	setup_bg_address_map(priv, addrmap);

	setup_rank_address_map(priv, addrmap);
}
#endif /* CONFIG_EDAC_DEBUG */

/**
 * mc_probe - Check controller and bind driver.
 * @pdev:	platform device.
 *
 * Probe a specific controller instance for binding with the driver.
 *
 * Return: 0 if the controller instance was successfully bound to the
 * driver; otherwise, < 0 on error.
 */
static int mc_probe(struct platform_device *pdev)
{
	const struct synps_platform_data *p_data;
	struct edac_mc_layer layers[2];
	struct synps_edac_priv *priv;
	struct mem_ctl_info *mci;
	void __iomem *baseaddr;
	int rc;

	baseaddr = devm_platform_ioremap_resource(pdev, 0);
	if (IS_ERR(baseaddr))
		return PTR_ERR(baseaddr);

	p_data = of_device_get_match_data(&pdev->dev);
	if (!p_data)
		return -ENODEV;

	if (!p_data->get_ecc_state(baseaddr)) {
		edac_printk(KERN_INFO, EDAC_MC, "ECC not enabled\n");
		return -ENXIO;
	}

	layers[0].type = EDAC_MC_LAYER_CHIP_SELECT;
	layers[0].size = SYNPS_EDAC_NR_CSROWS;
	layers[0].is_virt_csrow = true;
	layers[1].type = EDAC_MC_LAYER_CHANNEL;
	layers[1].size = SYNPS_EDAC_NR_CHANS;
	layers[1].is_virt_csrow = false;

	mci = edac_mc_alloc(0, ARRAY_SIZE(layers), layers,
			    sizeof(struct synps_edac_priv));
	if (!mci) {
		edac_printk(KERN_ERR, EDAC_MC,
			    "Failed memory allocation for mc instance\n");
		return -ENOMEM;
	}

	priv = mci->pvt_info;
	priv->baseaddr = baseaddr;
	priv->p_data = p_data;
	spin_lock_init(&priv->reglock);

	mc_init(mci, pdev);

	if (priv->p_data->quirks & DDR_ECC_INTR_SUPPORT) {
		rc = setup_irq(mci, pdev);
		if (rc)
			goto free_edac_mc;
	}

	rc = edac_mc_add_mc(mci);
	if (rc) {
		edac_printk(KERN_ERR, EDAC_MC,
			    "Failed to register with EDAC core\n");
		goto free_edac_mc;
	}

#ifdef CONFIG_EDAC_DEBUG
	if (priv->p_data->quirks & DDR_ECC_DATA_POISON_SUPPORT) {
		rc = edac_create_sysfs_attributes(mci);
		if (rc) {
			edac_printk(KERN_ERR, EDAC_MC,
					"Failed to create sysfs entries\n");
			goto free_edac_mc;
		}
	}

	if (priv->p_data->quirks & DDR_ECC_INTR_SUPPORT)
		setup_address_map(priv);
#endif

	/*
	 * Start capturing the correctable and uncorrectable errors. A write of
	 * 0 starts the counters.
	 */
	if (!(priv->p_data->quirks & DDR_ECC_INTR_SUPPORT))
		writel(0x0, baseaddr + ECC_CTRL_OFST);

	return rc;

free_edac_mc:
	edac_mc_free(mci);

	return rc;
}

/**
 * mc_remove - Unbind driver from controller.
 * @pdev:	Platform device.
 *
 * Return: Unconditionally 0
 */
static void mc_remove(struct platform_device *pdev)
{
	struct mem_ctl_info *mci = platform_get_drvdata(pdev);
	struct synps_edac_priv *priv = mci->pvt_info;

	if (priv->p_data->quirks & DDR_ECC_INTR_SUPPORT)
		disable_intr(priv);

#ifdef CONFIG_EDAC_DEBUG
	if (priv->p_data->quirks & DDR_ECC_DATA_POISON_SUPPORT)
		edac_remove_sysfs_attributes(mci);
#endif

	edac_mc_del_mc(&pdev->dev);
	edac_mc_free(mci);
}

static struct platform_driver synps_edac_mc_driver = {
	.driver = {
		   .name = "synopsys-edac",
		   .of_match_table = synps_edac_match,
		   },
	.probe = mc_probe,
	.remove_new = mc_remove,
};

module_platform_driver(synps_edac_mc_driver);

MODULE_AUTHOR("Xilinx Inc");
MODULE_DESCRIPTION("Synopsys DDR ECC driver");
MODULE_LICENSE("GPL v2");