SPDX: Convert all of our single license tags to Linux Kernel style

[u-boot] / arch / arm / cpu / armv8 / hisilicon / pinmux.c

// SPDX-License-Identifier: GPL-2.0+
/*
 * Copyright (C) 2015 Linaro.
 * Peter Griffin <peter.griffin@linaro.org>
 */

#include <common.h>
#include <fdtdec.h>
#include <asm/gpio.h>
#include <asm/io.h>
#include <asm/arch/pinmux.h>

struct hi6220_pinmux0_regs *pmx0 =
        (struct hi6220_pinmux0_regs *)HI6220_PINMUX0_BASE;

struct hi6220_pinmux1_regs *pmx1 =
        (struct hi6220_pinmux1_regs *)HI6220_PINMUX1_BASE;

static void hi6220_uart_config(int peripheral)
{
        switch (peripheral) {
        case PERIPH_ID_UART0:
                writel(MUX_M0, &pmx0->iomg[48]); /* UART0_RXD */
                writel(MUX_M0, &pmx0->iomg[49]); /* UART0_TXD */

                writel(DRIVE1_02MA | PULL_UP, &pmx1->iocfg[49]); /* UART0_RXD */
                writel(DRIVE1_02MA | PULL_UP, &pmx1->iocfg[50]); /* UART0_TXD */
                break;

        case PERIPH_ID_UART1:
                writel(MUX_M0, &pmx0->iomg[50]); /* UART1_CTS_N */
                writel(MUX_M0, &pmx0->iomg[51]); /* UART1_RTS_N */
                writel(MUX_M0, &pmx0->iomg[52]); /* UART1_RXD */
                writel(MUX_M0, &pmx0->iomg[53]); /* UART1_TXD */

                writel(DRIVE1_02MA | PULL_UP, &pmx1->iocfg[51]); /*UART1_CTS_N*/
                writel(DRIVE1_02MA | PULL_UP, &pmx1->iocfg[53]); /* UART1_RXD */
                writel(DRIVE1_02MA, &pmx1->iocfg[52]); /* UART1_RTS_N */
                writel(DRIVE1_02MA, &pmx1->iocfg[54]); /* UART1_TXD */
                break;

        case PERIPH_ID_UART2:
                writel(MUX_M0, &pmx0->iomg[54]); /* UART2_CTS_N */
                writel(MUX_M0, &pmx0->iomg[55]); /* UART2_RTS_N */
                writel(MUX_M0, &pmx0->iomg[56]); /* UART2_RXD */
                writel(MUX_M0, &pmx0->iomg[57]); /* UART2_TXD */

                writel(DRIVE1_02MA, &pmx1->iocfg[55]); /* UART2_CTS_N */
                writel(DRIVE1_02MA, &pmx1->iocfg[56]); /* UART2_RTS_N */
                writel(DRIVE1_02MA, &pmx1->iocfg[57]); /* UART2_RXD */
                writel(DRIVE1_02MA, &pmx1->iocfg[58]); /* UART2_TXD */
                break;

        case PERIPH_ID_UART3:
                writel(MUX_M1, &pmx0->iomg[96]); /* UART3_CTS_N */
                writel(MUX_M1, &pmx0->iomg[97]); /* UART3_RTS_N */
                writel(MUX_M1, &pmx0->iomg[98]); /* UART3_RXD */
                writel(MUX_M1, &pmx0->iomg[99]); /* UART3_TXD */

                /* UART3_TXD */
                writel(DRIVE1_02MA | PULL_DOWN, &pmx1->iocfg[100]);
                /* UART3_RTS_N */
                writel(DRIVE1_02MA | PULL_DOWN, &pmx1->iocfg[101]);
                /* UART3_RXD */
                writel(DRIVE1_02MA | PULL_DOWN, &pmx1->iocfg[102]);
                /* UART3_TXD */
                writel(DRIVE1_02MA | PULL_DOWN, &pmx1->iocfg[103]);
                break;

        case PERIPH_ID_UART4:
                writel(MUX_M1, &pmx0->iomg[116]); /* UART4_CTS_N */
                writel(MUX_M1, &pmx0->iomg[117]); /* UART4_RTS_N */
                writel(MUX_M1, &pmx0->iomg[118]); /* UART4_RXD */
                writel(MUX_M1, &pmx0->iomg[119]); /* UART4_TXD */

                /* UART4_CTS_N */
                writel(DRIVE1_02MA | PULL_DOWN, &pmx1->iocfg[120]);
                /* UART4_RTS_N */
                writel(DRIVE1_02MA | PULL_DOWN, &pmx1->iocfg[121]);
                /* UART4_RXD */
                writel(DRIVE1_02MA | PULL_DOWN, &pmx1->iocfg[122]);
                /* UART4_TXD */
                writel(DRIVE1_02MA | PULL_DOWN, &pmx1->iocfg[123]);
                break;
        case PERIPH_ID_UART5:
                writel(MUX_M1, &pmx0->iomg[114]); /* UART5_RXD */
                writel(MUX_M1, &pmx0->iomg[115]); /* UART5_TXD */

                /* UART5_RXD */
                writel(DRIVE1_02MA | PULL_DOWN, &pmx1->iocfg[118]);
                /* UART5_TXD */
                writel(DRIVE1_02MA | PULL_DOWN, &pmx1->iocfg[119]);

                break;

        default:
                debug("%s: invalid peripheral %d", __func__, peripheral);
                return;
        }
}

static int hi6220_mmc_config(int peripheral)
{
        u32 tmp;

        switch (peripheral) {
        case PERIPH_ID_SDMMC0:

                /* eMMC pinmux config */
                writel(MUX_M0, &pmx0->iomg[64]); /* EMMC_CLK */
                writel(MUX_M0, &pmx0->iomg[65]); /* EMMC_CMD */
                writel(MUX_M0, &pmx0->iomg[66]); /* EMMC_DATA0 */
                writel(MUX_M0, &pmx0->iomg[67]); /* EMMC_DATA1 */
                writel(MUX_M0, &pmx0->iomg[68]); /* EMMC_DATA2 */
                writel(MUX_M0, &pmx0->iomg[69]); /* EMMC_DATA3 */
                writel(MUX_M0, &pmx0->iomg[70]); /* EMMC_DATA4 */
                writel(MUX_M0, &pmx0->iomg[71]); /* EMMC_DATA5 */
                writel(MUX_M0, &pmx0->iomg[72]); /* EMMC_DATA6 */
                writel(MUX_M0, &pmx0->iomg[73]); /* EMMC_DATA7 */

                /*eMMC configure up/down/drive */
                writel(DRIVE1_08MA, &pmx1->iocfg[65]); /* EMMC_CLK */

                tmp = DRIVE1_04MA | PULL_UP;
                writel(tmp, &pmx1->iocfg[65]); /* EMMC_CMD */
                writel(tmp, &pmx1->iocfg[66]); /* EMMC_DATA0 */
                writel(tmp, &pmx1->iocfg[67]); /* EMMC_DATA1 */
                writel(tmp, &pmx1->iocfg[68]); /* EMMC_DATA2 */
                writel(tmp, &pmx1->iocfg[69]); /* EMMC_DATA3 */
                writel(tmp, &pmx1->iocfg[70]); /* EMMC_DATA4 */
                writel(tmp, &pmx1->iocfg[71]); /* EMMC_DATA5 */
                writel(tmp, &pmx1->iocfg[72]); /* EMMC_DATA6 */
                writel(tmp, &pmx1->iocfg[73]); /* EMMC_DATA7 */

                writel(DRIVE1_04MA, &pmx1->iocfg[73]); /* EMMC_RST_N */
                break;

        case PERIPH_ID_SDMMC1:

                writel(MUX_M0, &pmx0->iomg[3]); /* SD_CLK */
                writel(MUX_M0, &pmx0->iomg[4]); /* SD_CMD */
                writel(MUX_M0, &pmx0->iomg[5]); /* SD_DATA0 */
                writel(MUX_M0, &pmx0->iomg[6]); /* SD_DATA1 */
                writel(MUX_M0, &pmx0->iomg[7]); /* SD_DATA2 */
                writel(MUX_M0, &pmx0->iomg[8]); /* SD_DATA3 */

                writel(DRIVE1_10MA | BIT(2), &pmx1->iocfg[3]); /*SD_CLK*/
                writel(DRIVE1_08MA | BIT(2), &pmx1->iocfg[4]); /*SD_CMD*/
                writel(DRIVE1_08MA | BIT(2), &pmx1->iocfg[5]); /*SD_DATA0*/
                writel(DRIVE1_08MA | BIT(2), &pmx1->iocfg[6]); /*SD_DATA1*/
                writel(DRIVE1_08MA | BIT(2), &pmx1->iocfg[7]); /*SD_DATA2*/
                writel(DRIVE1_08MA | BIT(2), &pmx1->iocfg[8]); /*SD_DATA3*/
                break;

        default:
                debug("%s: invalid peripheral %d", __func__, peripheral);
                return -1;
        }

        return 0;
}

int hi6220_pinmux_config(int peripheral)
{
        switch (peripheral) {
        case PERIPH_ID_UART0:
        case PERIPH_ID_UART1:
        case PERIPH_ID_UART2:
        case PERIPH_ID_UART3:
                hi6220_uart_config(peripheral);
                break;
        case PERIPH_ID_SDMMC0:
        case PERIPH_ID_SDMMC1:
                return hi6220_mmc_config(peripheral);
        default:
                debug("%s: invalid peripheral %d", __func__, peripheral);
                return -1;
        }

        return 0;
}