rt-thread/bsp/imxrt/Libraries/imxrt1050/drivers/drv_flexspi_nor.c

/*
 * File      : code_run.c
 * This file is part of RT-Thread RTOS
 * COPYRIGHT (C) 2017, RT-Thread Development Team
 *
 *  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
 *  MERsrcANTABILITY 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 Street, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * srcange Logs:
 * Date           Author       Notes
 * 2018-07-05     ZYH    the first version
 */
#include <rtthread.h>
#define PRINTF rt_kprintf
#include "board.h"
#include <rthw.h>
#include "drv_flexspi.h"
#define DBG_ENABLE
#define DBG_SECTION_NAME  "[FLEXSPI]"
#define DBG_LEVEL         DBG_LOG
#define DBG_COLOR
#include <rtdbg.h>

#define FLEXSPI_CLOCK kCLOCK_FlexSpi
#define NOR_CMD_LUT_SEQ_IDX_READ_NORMAL 0
#define NOR_CMD_LUT_SEQ_IDX_READ_FAST 1
#define NOR_CMD_LUT_SEQ_IDX_READ_FAST_QUAD 2
#define NOR_CMD_LUT_SEQ_IDX_READSTATUS 3
#define NOR_CMD_LUT_SEQ_IDX_WRITEENABLE 4
#define NOR_CMD_LUT_SEQ_IDX_ERASESECTOR 5
#define NOR_CMD_LUT_SEQ_IDX_PAGEPROGRAM_SINGLE 6
#define NOR_CMD_LUT_SEQ_IDX_PAGEPROGRAM_QUAD 7
#define NOR_CMD_LUT_SEQ_IDX_READID 8
#define NOR_CMD_LUT_SEQ_IDX_WRITESTATUSREG 9
#define NOR_CMD_LUT_SEQ_IDX_ENTERQPI 10
#define NOR_CMD_LUT_SEQ_IDX_EXITQPI 11
#define NOR_CMD_LUT_SEQ_IDX_READSTATUSREG 12
#define NOR_CMD_LUT_SEQ_IDX_ERASECHIP 13
#define CUSTOM_LUT_LENGTH 60
#define FLASH_BUSY_STATUS_POL 1
#define FLASH_BUSY_STATUS_OFFSET 0

static flexspi_device_config_t deviceconfig =
{
    .flexspiRootClk = 100000000,
    .flashSize = FLASH_SIZE,
    .CSIntervalUnit = kFLEXSPI_CsIntervalUnit1SckCycle,
    .CSInterval = 2,
    .CSHoldTime = 3,
    .CSSetupTime = 3,
    .dataValidTime = 0,
    .columnspace = 0,
    .enableWordAddress = 0,
    .AWRSeqIndex = 0,
    .AWRSeqNumber = 0,
    .ARDSeqIndex = NOR_CMD_LUT_SEQ_IDX_READ_FAST_QUAD,
    .ARDSeqNumber = 1,
    .AHBWriteWaitUnit = kFLEXSPI_AhbWriteWaitUnit2AhbCycle,
    .AHBWriteWaitInterval = 0,
};

static uint32_t customLUT[CUSTOM_LUT_LENGTH] =
{
    /* Normal read mode -SDR */
    [4 * NOR_CMD_LUT_SEQ_IDX_READ_NORMAL] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_SDR, kFLEXSPI_1PAD, 0x03, kFLEXSPI_Command_RADDR_SDR, kFLEXSPI_1PAD, 0x18),
    [4 * NOR_CMD_LUT_SEQ_IDX_READ_NORMAL + 1] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_READ_SDR, kFLEXSPI_1PAD, 0x04, kFLEXSPI_Command_STOP, kFLEXSPI_1PAD, 0),

    /* Fast read mode - SDR */
    [4 * NOR_CMD_LUT_SEQ_IDX_READ_FAST] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_SDR, kFLEXSPI_1PAD, 0x0B, kFLEXSPI_Command_RADDR_SDR, kFLEXSPI_1PAD, 0x18),
    [4 * NOR_CMD_LUT_SEQ_IDX_READ_FAST + 1] = FLEXSPI_LUT_SEQ(
        kFLEXSPI_Command_DUMMY_SDR, kFLEXSPI_1PAD, 0x08, kFLEXSPI_Command_READ_SDR, kFLEXSPI_1PAD, 0x04),

    /* Fast read quad mode - SDR */
    [4 * NOR_CMD_LUT_SEQ_IDX_READ_FAST_QUAD] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_SDR, kFLEXSPI_1PAD, 0x6B, kFLEXSPI_Command_RADDR_SDR, kFLEXSPI_1PAD, 0x18),
    [4 * NOR_CMD_LUT_SEQ_IDX_READ_FAST_QUAD + 1] = FLEXSPI_LUT_SEQ(
        kFLEXSPI_Command_DUMMY_SDR, kFLEXSPI_4PAD, 0x08, kFLEXSPI_Command_READ_SDR, kFLEXSPI_4PAD, 0x04),

    /* Read extend parameters */
    [4 * NOR_CMD_LUT_SEQ_IDX_READSTATUS] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_SDR, kFLEXSPI_1PAD, 0x05, kFLEXSPI_Command_READ_SDR, kFLEXSPI_1PAD, 0x04),

    /* Write Enable */
    [4 * NOR_CMD_LUT_SEQ_IDX_WRITEENABLE] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_SDR, kFLEXSPI_1PAD, 0x06, kFLEXSPI_Command_STOP, kFLEXSPI_1PAD, 0),

    /* Erase Sector  */
    [4 * NOR_CMD_LUT_SEQ_IDX_ERASESECTOR] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_SDR, kFLEXSPI_1PAD, 0x20, kFLEXSPI_Command_RADDR_SDR, kFLEXSPI_1PAD, 0x18),

    /* Page Program - single mode */
    [4 * NOR_CMD_LUT_SEQ_IDX_PAGEPROGRAM_SINGLE] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_SDR, kFLEXSPI_1PAD, 0x02, kFLEXSPI_Command_RADDR_SDR, kFLEXSPI_1PAD, 0x18),
    [4 * NOR_CMD_LUT_SEQ_IDX_PAGEPROGRAM_SINGLE + 1] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_WRITE_SDR, kFLEXSPI_1PAD, 0x04, kFLEXSPI_Command_STOP, kFLEXSPI_1PAD, 0),

    /* Page Program - quad mode */
    [4 * NOR_CMD_LUT_SEQ_IDX_PAGEPROGRAM_QUAD] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_SDR, kFLEXSPI_1PAD, 0x32, kFLEXSPI_Command_RADDR_SDR, kFLEXSPI_1PAD, 0x18),
    [4 * NOR_CMD_LUT_SEQ_IDX_PAGEPROGRAM_QUAD + 1] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_WRITE_SDR, kFLEXSPI_4PAD, 0x04, kFLEXSPI_Command_STOP, kFLEXSPI_1PAD, 0),

    /* Read ID */
    [4 * NOR_CMD_LUT_SEQ_IDX_READID] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_SDR, kFLEXSPI_1PAD, 0xAB, kFLEXSPI_Command_DUMMY_SDR, kFLEXSPI_1PAD, 0x18),
    [4 * NOR_CMD_LUT_SEQ_IDX_READID + 1] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_READ_SDR, kFLEXSPI_1PAD, 0x04, kFLEXSPI_Command_STOP, kFLEXSPI_1PAD, 0),

    /* Enable Quad mode */
    [4 * NOR_CMD_LUT_SEQ_IDX_WRITESTATUSREG] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_SDR, kFLEXSPI_1PAD, 0x01, kFLEXSPI_Command_WRITE_SDR, kFLEXSPI_1PAD, 0x04),

    /* Enter QPI mode */
    [4 * NOR_CMD_LUT_SEQ_IDX_ENTERQPI] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_SDR, kFLEXSPI_1PAD, 0x38, kFLEXSPI_Command_STOP, kFLEXSPI_1PAD, 0),

    /* Exit QPI mode */
    [4 * NOR_CMD_LUT_SEQ_IDX_EXITQPI] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_SDR, kFLEXSPI_4PAD, 0xFF, kFLEXSPI_Command_STOP, kFLEXSPI_1PAD, 0),

    /* Read status register */
    [4 * NOR_CMD_LUT_SEQ_IDX_READSTATUSREG] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_SDR, kFLEXSPI_1PAD, 0x05, kFLEXSPI_Command_READ_SDR, kFLEXSPI_1PAD, 0x04),

    /* Erase Chip */
    [4 * NOR_CMD_LUT_SEQ_IDX_ERASECHIP] =
    FLEXSPI_LUT_SEQ(kFLEXSPI_Command_SDR, kFLEXSPI_1PAD, 0xC7, kFLEXSPI_Command_STOP, kFLEXSPI_1PAD, 0),
};



SECTION("itcm") static status_t flexspi_nor_write_enable(FLEXSPI_Type *base, uint32_t baseAddr)
{
    flexspi_transfer_t flashXfer;
    status_t status;

    /* Write neable */
    flashXfer.deviceAddress = baseAddr;
    flashXfer.port = kFLEXSPI_PortA1;
    flashXfer.cmdType = kFLEXSPI_Command;
    flashXfer.SeqNumber = 1;
    flashXfer.seqIndex = NOR_CMD_LUT_SEQ_IDX_WRITEENABLE;

    status = FLEXSPI_TransferBlocking(base, &flashXfer);

    return status;
}

SECTION("itcm") static status_t flexspi_nor_wait_bus_busy(FLEXSPI_Type *base)
{
    /* Wait status ready. */
    bool isBusy;
    uint32_t readValue;
    status_t status;
    flexspi_transfer_t flashXfer;

    flashXfer.deviceAddress = 0;
    flashXfer.port = kFLEXSPI_PortA1;
    flashXfer.cmdType = kFLEXSPI_Read;
    flashXfer.SeqNumber = 1;
    flashXfer.seqIndex = NOR_CMD_LUT_SEQ_IDX_READSTATUSREG;
    flashXfer.data = &readValue;
    flashXfer.dataSize = 1;

    do
    {
        status = FLEXSPI_TransferBlocking(base, &flashXfer);

        if (status != kStatus_Success)
        {
            return status;
        }
        if (FLASH_BUSY_STATUS_POL)
        {
            if (readValue & (1U << FLASH_BUSY_STATUS_OFFSET))
            {
                isBusy = true;
            }
            else
            {
                isBusy = false;
            }
        }
        else
        {
            if (readValue & (1U << FLASH_BUSY_STATUS_OFFSET))
            {
                isBusy = false;
            }
            else
            {
                isBusy = true;
            }
        }

    }
    while (isBusy);

    return status;
}

SECTION("itcm") static status_t flexspi_nor_enable_quad_mode(FLEXSPI_Type *base)
{
    flexspi_transfer_t flashXfer;
    status_t status;
    uint32_t writeValue = 0x40;

    /* Write neable */
    status = flexspi_nor_write_enable(base, 0);

    if (status != kStatus_Success)
    {
        return status;
    }

    /* Enable quad mode. */
    flashXfer.deviceAddress = 0;
    flashXfer.port = kFLEXSPI_PortA1;
    flashXfer.cmdType = kFLEXSPI_Write;
    flashXfer.SeqNumber = 1;
    flashXfer.seqIndex = NOR_CMD_LUT_SEQ_IDX_WRITESTATUSREG;
    flashXfer.data = &writeValue;
    flashXfer.dataSize = 1;

    status = FLEXSPI_TransferBlocking(base, &flashXfer);
    if (status != kStatus_Success)
    {
        dbg_log(DBG_ERROR, "flexspi tranfer error\n");
        dbg_here
        return status;
    }

    status = flexspi_nor_wait_bus_busy(base);

    return status;
}

SECTION("itcm") status_t flexspi_nor_flash_erase_sector(FLEXSPI_Type *base, uint32_t address)
{
    status_t status;
    flexspi_transfer_t flashXfer;

    /* Write enable */
    flashXfer.deviceAddress = address;
    flashXfer.port = kFLEXSPI_PortA1;
    flashXfer.cmdType = kFLEXSPI_Command;
    flashXfer.SeqNumber = 1;
    flashXfer.seqIndex = NOR_CMD_LUT_SEQ_IDX_WRITEENABLE;

    status = FLEXSPI_TransferBlocking(base, &flashXfer);

    if (status != kStatus_Success)
    {
        dbg_log(DBG_ERROR, "flexspi tranfer error\n");
        dbg_here
        return status;
    }

    flashXfer.deviceAddress = address;
    flashXfer.port = kFLEXSPI_PortA1;
    flashXfer.cmdType = kFLEXSPI_Command;
    flashXfer.SeqNumber = 1;
    flashXfer.seqIndex = NOR_CMD_LUT_SEQ_IDX_ERASESECTOR;
    status = FLEXSPI_TransferBlocking(base, &flashXfer);

    if (status != kStatus_Success)
    {
        dbg_log(DBG_ERROR, "flexspi tranfer error\n");
        dbg_here
        return status;
    }

    status = flexspi_nor_wait_bus_busy(base);
    rt_hw_cpu_dcache_ops(RT_HW_CACHE_INVALIDATE, (void *)(FLEXSPI_AMBA_BASE + address), FLEXSPI_NOR_SECTOR_SIZE);
    rt_hw_cpu_icache_ops(RT_HW_CACHE_INVALIDATE, (void *)(FLEXSPI_AMBA_BASE + address), FLEXSPI_NOR_SECTOR_SIZE);
    return status;
}

SECTION("itcm") status_t flexspi_nor_flash_page_program(FLEXSPI_Type *base, uint32_t address, const uint32_t *src)
{
    status_t status;
    flexspi_transfer_t flashXfer;

    /* Write neable */
    status = flexspi_nor_write_enable(base, address);

    if (status != kStatus_Success)
    {
        return status;
    }

    /* Prepare page program command */
    flashXfer.deviceAddress = address;
    flashXfer.port = kFLEXSPI_PortA1;
    flashXfer.cmdType = kFLEXSPI_Write;
    flashXfer.SeqNumber = 1;
    flashXfer.seqIndex = NOR_CMD_LUT_SEQ_IDX_PAGEPROGRAM_QUAD;
    flashXfer.data = (uint32_t *)src;
    flashXfer.dataSize = FLASH_PAGE_SIZE;
    status = FLEXSPI_TransferBlocking(base, &flashXfer);

    if (status != kStatus_Success)
    {
        return status;
    }

    status = flexspi_nor_wait_bus_busy(base);
    rt_hw_cpu_dcache_ops(RT_HW_CACHE_INVALIDATE, (void *)(FLEXSPI_AMBA_BASE + address), FLEXSPI_NOR_SECTOR_SIZE);
    rt_hw_cpu_icache_ops(RT_HW_CACHE_INVALIDATE, (void *)(FLEXSPI_AMBA_BASE + address), FLEXSPI_NOR_SECTOR_SIZE);
    return status;
}

SECTION("itcm") static status_t flexspi_nor_get_vendor_id(FLEXSPI_Type *base, uint8_t *vendorId)
{
    uint32_t temp;
    flexspi_transfer_t flashXfer;
    flashXfer.deviceAddress = 0;
    flashXfer.port = kFLEXSPI_PortA1;
    flashXfer.cmdType = kFLEXSPI_Read;
    flashXfer.SeqNumber = 1;
    flashXfer.seqIndex = NOR_CMD_LUT_SEQ_IDX_READID;
    flashXfer.data = &temp;
    flashXfer.dataSize = 1;

    status_t status = FLEXSPI_TransferBlocking(base, &flashXfer);

    *vendorId = temp;

    return status;
}

SECTION("itcm") int rt_hw_flexspi_init(void)
{
    flexspi_config_t config;
    status_t status;
    uint8_t vendorID = 0;

    const clock_usb_pll_config_t g_ccmConfigUsbPll = {.loopDivider = 0U};
    rt_uint32_t level;
    level = rt_hw_interrupt_disable();
    CLOCK_InitUsb1Pll(&g_ccmConfigUsbPll);
    CLOCK_InitUsb1Pfd(kCLOCK_Pfd0, 24);   /* Set PLL3 PFD0 clock 360MHZ. */
    CLOCK_SetMux(kCLOCK_FlexspiMux, 0x3); /* Choose PLL3 PFD0 clock as flexspi source clock. */
    CLOCK_SetDiv(kCLOCK_FlexspiDiv, 2);   /* flexspi clock 120M. */

    dbg_log(DBG_INFO, "NorFlash Init\r\n");

    FLEXSPI_GetDefaultConfig(&config);

    config.ahbConfig.enableAHBPrefetch = true;
    FLEXSPI_Init(FLEXSPI, &config);

    FLEXSPI_SetFlashConfig(FLEXSPI, &deviceconfig, kFLEXSPI_PortA1);

    FLEXSPI_UpdateLUT(FLEXSPI, 0, customLUT, CUSTOM_LUT_LENGTH);

    status = flexspi_nor_get_vendor_id(FLEXSPI, &vendorID);
    if (status != kStatus_Success)
    {
        return status;
    }
    dbg_log(DBG_INFO, "Vendor ID: 0x%x\r\n", vendorID);

    status = flexspi_nor_enable_quad_mode(FLEXSPI);
    if (status != kStatus_Success)
    {
        dbg_log(DBG_ERROR, "Entry Quad mode failed\r\n");
        return status;
    }
    dbg_log(DBG_INFO, "NorFlash Init Done\r\n");
    rt_hw_interrupt_enable(level);
    return 0;
}
INIT_PREV_EXPORT(rt_hw_flexspi_init);