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path: root/src/soc/broadcom/cygnus/ydc_ddr_bist.c
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/*
* Copyright (C) 2015 Broadcom Corporation
*
* 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 version 2.
*
* This program is distributed "as is" WITHOUT ANY WARRANTY of any
* kind, whether express or implied; without even the implied warranty
* of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
* GNU General Public License for more details.
*/

#include <soc/cygnus_types.h>
#include <console/console.h>

#define SOC_IF_ERROR_RETURN(x)      (x)
#define sal_alloc(x,y)              malloc(x)
#define sal_memset(x,y,z)           memset(x,y,z)
#define sal_free(x)                 free(x)
#define sal_usleep(x)               udelay(x)

/* BEGIN: TEMPORARY */
#ifndef BCM_AND28_SUPPORT
#define BCM_AND28_SUPPORT
#endif
/* END: TEMPORARY */

#ifdef BCM_AND28_SUPPORT
#include <soc/shmoo_and28/ydc_ddr_bist.h>
#include <soc/shmoo_and28/phy_reg_access.h>
#endif

/* BEGIN: HELPER FUNCTIONS */
static uint32
_get_random28(void)
{
    static uint32 m_w = 6483;       /* must not be zero */
    static uint32 m_z = 31245;      /* must not be zero */

    m_z = 36969 * (m_z & 65535) + (m_z >> 16);
    m_w = 18000 * (m_w & 65535) + (m_w >> 16);
    return (m_z << 16) + m_w;       /* 32-bit result */
}
/* END: HELPER FUNCTIONS */

int
soc_ydc_ddr_bist_config_set(int unit, int phy_ndx, ydc_ddr_bist_info_t *bist_info)
{
    uint32 data;

    READ_YDC_DDR_BIST_CONFIGURATIONSr(0, YDC_DDR_BIST_REG_BASE, &data);
    YDC_DDR_BIST_SET_FIELD(data, YDC_DDR_BIST, CONFIGURATIONS, WRITE_WEIGHT, (*bist_info).write_weight);
    YDC_DDR_BIST_SET_FIELD(data, YDC_DDR_BIST, CONFIGURATIONS, READ_WEIGHT, (*bist_info).read_weight);
    YDC_DDR_BIST_SET_FIELD(data, YDC_DDR_BIST, CONFIGURATIONS, PATTERN_BIT_MODE, 0);
    YDC_DDR_BIST_SET_FIELD(data, YDC_DDR_BIST, CONFIGURATIONS, PRBS_MODE, (*bist_info).prbs_mode);
    YDC_DDR_BIST_SET_FIELD(data, YDC_DDR_BIST, CONFIGURATIONS, CONS_ADDR_8_BANKS, 1);
    YDC_DDR_BIST_SET_FIELD(data, YDC_DDR_BIST, CONFIGURATIONS, ADDRESS_SHIFT_MODE, 0);
    YDC_DDR_BIST_SET_FIELD(data, YDC_DDR_BIST, CONFIGURATIONS, DATA_SHIFT_MODE, 0);
    YDC_DDR_BIST_SET_FIELD(data, YDC_DDR_BIST, CONFIGURATIONS, DATA_ADDR_MODE, 0);
    YDC_DDR_BIST_SET_FIELD(data, YDC_DDR_BIST, CONFIGURATIONS, IND_WR_RD_ADDR_MODE, 1);
    WRITE_YDC_DDR_BIST_CONFIGURATIONSr(0, YDC_DDR_BIST_REG_BASE, data);

    if (!((*bist_info).prbs_mode))
    {
        if ((*bist_info).mpr_mode)
        {
            if (YDC_DDR_BIST_PHY_BITWITDH_IS_32)
            {
                WRITE_YDC_DDR_BIST_PATTERN_WORD_0r(0, YDC_DDR_BIST_REG_BASE, 0xFFFFFFFF);
                WRITE_YDC_DDR_BIST_PATTERN_WORD_1r(0, YDC_DDR_BIST_REG_BASE, 0x00000000);
                WRITE_YDC_DDR_BIST_PATTERN_WORD_2r(0, YDC_DDR_BIST_REG_BASE, 0xFFFFFFFF);
                WRITE_YDC_DDR_BIST_PATTERN_WORD_3r(0, YDC_DDR_BIST_REG_BASE, 0x00000000);
                WRITE_YDC_DDR_BIST_PATTERN_WORD_4r(0, YDC_DDR_BIST_REG_BASE, 0xFFFFFFFF);
                WRITE_YDC_DDR_BIST_PATTERN_WORD_5r(0, YDC_DDR_BIST_REG_BASE, 0x00000000);
                WRITE_YDC_DDR_BIST_PATTERN_WORD_6r(0, YDC_DDR_BIST_REG_BASE, 0xFFFFFFFF);
                WRITE_YDC_DDR_BIST_PATTERN_WORD_7r(0, YDC_DDR_BIST_REG_BASE, 0x00000000);
            }
            else
            {
                WRITE_YDC_DDR_BIST_PATTERN_WORD_0r(0, YDC_DDR_BIST_REG_BASE, 0xFFFF0000);
                WRITE_YDC_DDR_BIST_PATTERN_WORD_1r(0, YDC_DDR_BIST_REG_BASE, 0xFFFF0000);
                WRITE_YDC_DDR_BIST_PATTERN_WORD_2r(0, YDC_DDR_BIST_REG_BASE, 0xFFFF0000);
                WRITE_YDC_DDR_BIST_PATTERN_WORD_3r(0, YDC_DDR_BIST_REG_BASE, 0xFFFF0000);
                WRITE_YDC_DDR_BIST_PATTERN_WORD_4r(0, YDC_DDR_BIST_REG_BASE, 0xFFFF0000);
                WRITE_YDC_DDR_BIST_PATTERN_WORD_5r(0, YDC_DDR_BIST_REG_BASE, 0xFFFF0000);
                WRITE_YDC_DDR_BIST_PATTERN_WORD_6r(0, YDC_DDR_BIST_REG_BASE, 0xFFFF0000);
                WRITE_YDC_DDR_BIST_PATTERN_WORD_7r(0, YDC_DDR_BIST_REG_BASE, 0xFFFF0000);
            }
        }
        else
        {
            WRITE_YDC_DDR_BIST_PATTERN_WORD_0r(0, YDC_DDR_BIST_REG_BASE, _get_random28());
            WRITE_YDC_DDR_BIST_PATTERN_WORD_1r(0, YDC_DDR_BIST_REG_BASE, _get_random28());
            WRITE_YDC_DDR_BIST_PATTERN_WORD_2r(0, YDC_DDR_BIST_REG_BASE, _get_random28());
            WRITE_YDC_DDR_BIST_PATTERN_WORD_3r(0, YDC_DDR_BIST_REG_BASE, _get_random28());
            WRITE_YDC_DDR_BIST_PATTERN_WORD_4r(0, YDC_DDR_BIST_REG_BASE, _get_random28());
            WRITE_YDC_DDR_BIST_PATTERN_WORD_5r(0, YDC_DDR_BIST_REG_BASE, _get_random28());
            WRITE_YDC_DDR_BIST_PATTERN_WORD_6r(0, YDC_DDR_BIST_REG_BASE, _get_random28());
            WRITE_YDC_DDR_BIST_PATTERN_WORD_7r(0, YDC_DDR_BIST_REG_BASE, _get_random28());
        }
    }

    READ_YDC_DDR_BIST_NUMBER_OF_ACTIONSr(0, YDC_DDR_BIST_REG_BASE, &data);
    YDC_DDR_BIST_SET_FIELD(data, YDC_DDR_BIST, NUMBER_OF_ACTIONS, BIST_NUM_ACTIONS, (*bist_info).bist_num_actions);
    WRITE_YDC_DDR_BIST_NUMBER_OF_ACTIONSr(0, YDC_DDR_BIST_REG_BASE, data);

    READ_YDC_DDR_BIST_START_ADDRESSr(0, YDC_DDR_BIST_REG_BASE, &data);
    YDC_DDR_BIST_SET_FIELD(data, YDC_DDR_BIST, START_ADDRESS, BIST_START_ADDRESS, (*bist_info).bist_start_address);
    WRITE_YDC_DDR_BIST_START_ADDRESSr(0, YDC_DDR_BIST_REG_BASE, data);

    READ_YDC_DDR_BIST_END_ADDRESSr(0, YDC_DDR_BIST_REG_BASE, &data);
    YDC_DDR_BIST_SET_FIELD(data, YDC_DDR_BIST, END_ADDRESS, BIST_END_ADDRESS, (*bist_info).bist_end_address);
    WRITE_YDC_DDR_BIST_END_ADDRESSr(0, YDC_DDR_BIST_REG_BASE, data);

    return SOC_E_NONE;
}

int
soc_ydc_ddr_bist_run(int unit, int phy_ndx, ydc_ddr_bist_err_cnt_t *error_count)
{
    uint32 data;
    uint32 poll_count;

    READ_YDC_DDR_BIST_CONFIGURATIONSr(0, YDC_DDR_BIST_REG_BASE, &data);
    YDC_DDR_BIST_SET_FIELD(data, YDC_DDR_BIST, CONFIGURATIONS, BIST_EN, 1);
    WRITE_YDC_DDR_BIST_CONFIGURATIONSr(0, YDC_DDR_BIST_REG_BASE, data);

    poll_count = 0;

    while (TRUE)
    {
        READ_YDC_DDR_BIST_STATUSESr(0, YDC_DDR_BIST_REG_BASE, &data);

        if (YDC_DDR_BIST_GET_FIELD(data, YDC_DDR_BIST, STATUSES, BIST_FINISHED))
        {
            READ_YDC_DDR_BIST_CONFIGURATIONSr(0, YDC_DDR_BIST_REG_BASE, &data);
            YDC_DDR_BIST_SET_FIELD(data, YDC_DDR_BIST, CONFIGURATIONS, BIST_EN, 0);
            WRITE_YDC_DDR_BIST_CONFIGURATIONSr(0, YDC_DDR_BIST_REG_BASE, data);
            break;
        }

        if (poll_count > YDC_DDR_BIST_POLL_COUNT_LIMIT)
        {
            READ_YDC_DDR_BIST_CONFIGURATIONSr(0, YDC_DDR_BIST_REG_BASE, &data);
            YDC_DDR_BIST_SET_FIELD(data, YDC_DDR_BIST, CONFIGURATIONS, BIST_EN, 0);
            WRITE_YDC_DDR_BIST_CONFIGURATIONSr(0, YDC_DDR_BIST_REG_BASE, data);

            printk(BIOS_ERR, "ERROR: YDC DDR BIST timeout!!!\n");
            return SOC_E_TIMEOUT;
        }

        poll_count++;
        sal_usleep(YDC_DDR_BIST_POLL_INTERVAL_US);
    }

    READ_YDC_DDR_BIST_ERROR_OCCURREDr(0, YDC_DDR_BIST_REG_BASE, &data);
    (*error_count).bist_err_occur = YDC_DDR_BIST_GET_FIELD(data, YDC_DDR_BIST, ERROR_OCCURRED, ERR_OCCURRED);

    READ_YDC_DDR_BIST_FULL_MASK_ERROR_COUNTERr(0, YDC_DDR_BIST_REG_BASE, &data);
    (*error_count).bist_full_err_cnt = YDC_DDR_BIST_GET_FIELD(data, YDC_DDR_BIST, FULL_MASK_ERROR_COUNTER, FULL_ERR_CNT);

    READ_YDC_DDR_BIST_SINGLE_BIT_MASK_ERROR_COUNTERr(0, YDC_DDR_BIST_REG_BASE, &data);
    (*error_count).bist_single_err_cnt = YDC_DDR_BIST_GET_FIELD(data, YDC_DDR_BIST, SINGLE_BIT_MASK_ERROR_COUNTER, SINGLE_ERR_CNT);

    READ_YDC_DDR_BIST_GLOBAL_ERROR_COUNTERr(0, YDC_DDR_BIST_REG_BASE, &data);
    (*error_count).bist_global_err_cnt = YDC_DDR_BIST_GET_FIELD(data, YDC_DDR_BIST, GLOBAL_ERROR_COUNTER, GLOBAL_ERR_CNT);

    return SOC_E_NONE;
}