mirror of
https://github.com/AsahiLinux/u-boot
synced 2024-12-23 11:33:32 +00:00
1be82afa80
Use proper project name in comments, Kconfig, readmes. Reviewed-by: Neil Armstrong <neil.armstrong@linaro.org> Acked-by: Ilias Apalodimas <ilias.apalodimas@linaro.org> Reviewed-by: Stefan Roese <sr@denx.de> Reviewed-by: Qu Wenruo <wqu@suse.com> Signed-off-by: Michal Simek <michal.simek@amd.com> Link: https://lore.kernel.org/r/0dbdf0432405c1c38ffca55703b6737a48219e79.1684307818.git.michal.simek@amd.com
382 lines
9.8 KiB
C
382 lines
9.8 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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/*
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* Copyright (C) 2018 Kontron Electronics GmbH
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*/
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#include <asm/arch/clock.h>
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#include <asm/arch/crm_regs.h>
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#include <asm/arch/mx6-pins.h>
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#include <asm/arch/sys_proto.h>
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#include <asm/global_data.h>
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#include <asm/gpio.h>
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#include <asm/io.h>
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#include <asm/mach-imx/iomux-v3.h>
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#include <fsl_esdhc_imx.h>
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#include <init.h>
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#include <linux/delay.h>
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#include <linux/sizes.h>
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#include <linux/errno.h>
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#include <mmc.h>
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#include <sl-mx6ul-common.h>
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DECLARE_GLOBAL_DATA_PTR;
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enum {
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BOARD_TYPE_KTN_SL_UL = 1,
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BOARD_TYPE_KTN_SL_ULL,
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BOARD_TYPE_MAX
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};
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#define UART_PAD_CTRL (PAD_CTL_PKE | PAD_CTL_PUE | \
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PAD_CTL_PUS_100K_UP | PAD_CTL_SPEED_MED | \
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PAD_CTL_DSE_40ohm | PAD_CTL_SRE_FAST | PAD_CTL_HYS)
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#define USDHC_PAD_CTRL (PAD_CTL_PKE | PAD_CTL_PUE | \
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PAD_CTL_PUS_22K_UP | PAD_CTL_SPEED_LOW | \
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PAD_CTL_DSE_80ohm | PAD_CTL_SRE_FAST | PAD_CTL_HYS)
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#define USDHC_CD_PAD_CTRL (PAD_CTL_PKE | PAD_CTL_PUE | \
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PAD_CTL_PUS_100K_DOWN | PAD_CTL_SPEED_LOW | \
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PAD_CTL_DSE_80ohm | PAD_CTL_SRE_FAST | PAD_CTL_HYS)
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#define SPI_PAD_CTRL (PAD_CTL_HYS | PAD_CTL_SPEED_MED | \
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PAD_CTL_DSE_40ohm | PAD_CTL_SRE_FAST)
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#include <spl.h>
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#include <asm/arch/mx6-ddr.h>
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static iomux_v3_cfg_t const usdhc1_pads[] = {
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MX6_PAD_SD1_CLK__USDHC1_CLK | MUX_PAD_CTRL(USDHC_PAD_CTRL),
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MX6_PAD_SD1_CMD__USDHC1_CMD | MUX_PAD_CTRL(USDHC_PAD_CTRL),
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MX6_PAD_SD1_DATA0__USDHC1_DATA0 | MUX_PAD_CTRL(USDHC_PAD_CTRL),
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MX6_PAD_SD1_DATA1__USDHC1_DATA1 | MUX_PAD_CTRL(USDHC_PAD_CTRL),
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MX6_PAD_SD1_DATA2__USDHC1_DATA2 | MUX_PAD_CTRL(USDHC_PAD_CTRL),
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MX6_PAD_SD1_DATA3__USDHC1_DATA3 | MUX_PAD_CTRL(USDHC_PAD_CTRL),
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/* CD */
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MX6_PAD_UART1_RTS_B__GPIO1_IO19 | MUX_PAD_CTRL(USDHC_CD_PAD_CTRL),
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};
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#define USDHC1_CD_GPIO IMX_GPIO_NR(1, 19)
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static iomux_v3_cfg_t const usdhc2_pads[] = {
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MX6_PAD_NAND_RE_B__USDHC2_CLK | MUX_PAD_CTRL(USDHC_PAD_CTRL),
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MX6_PAD_NAND_WE_B__USDHC2_CMD | MUX_PAD_CTRL(USDHC_PAD_CTRL),
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MX6_PAD_NAND_DATA00__USDHC2_DATA0 | MUX_PAD_CTRL(USDHC_PAD_CTRL),
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MX6_PAD_NAND_DATA01__USDHC2_DATA1 | MUX_PAD_CTRL(USDHC_PAD_CTRL),
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MX6_PAD_NAND_DATA02__USDHC2_DATA2 | MUX_PAD_CTRL(USDHC_PAD_CTRL),
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MX6_PAD_NAND_DATA03__USDHC2_DATA3 | MUX_PAD_CTRL(USDHC_PAD_CTRL),
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/* RST */
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MX6_PAD_NAND_ALE__GPIO4_IO10 | MUX_PAD_CTRL(NO_PAD_CTRL),
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};
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#define USDHC2_PWR_GPIO IMX_GPIO_NR(4, 10)
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static struct fsl_esdhc_cfg usdhc_cfg[2] = {
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{USDHC1_BASE_ADDR, 0, 4},
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{USDHC2_BASE_ADDR, 0, 4},
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};
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int board_mmc_getcd(struct mmc *mmc)
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{
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struct fsl_esdhc_cfg *cfg = (struct fsl_esdhc_cfg *)mmc->priv;
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int ret = 0;
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switch (cfg->esdhc_base) {
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case USDHC1_BASE_ADDR:
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ret = !gpio_get_value(USDHC1_CD_GPIO);
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break;
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case USDHC2_BASE_ADDR:
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// This SDHC interface does not use a CD pin
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ret = 1;
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break;
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}
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return ret;
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}
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int board_mmc_init(struct bd_info *bis)
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{
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int i, ret;
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/*
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* According to the board_mmc_init() the following map is done:
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* (U-Boot device node) (Physical Port)
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* mmc0 USDHC1
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* mmc1 USDHC2
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*/
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for (i = 0; i < CFG_SYS_FSL_USDHC_NUM; i++) {
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switch (i) {
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case 0:
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imx_iomux_v3_setup_multiple_pads(usdhc1_pads, ARRAY_SIZE(usdhc1_pads));
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gpio_direction_input(USDHC1_CD_GPIO);
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usdhc_cfg[0].sdhc_clk = mxc_get_clock(MXC_ESDHC_CLK);
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break;
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case 1:
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imx_iomux_v3_setup_multiple_pads(usdhc2_pads, ARRAY_SIZE(usdhc2_pads));
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gpio_direction_output(USDHC2_PWR_GPIO, 0);
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udelay(500);
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gpio_direction_output(USDHC2_PWR_GPIO, 1);
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usdhc_cfg[1].sdhc_clk = mxc_get_clock(MXC_ESDHC2_CLK);
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break;
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default:
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printf("Warning: you configured more USDHC controllers (%d) than supported by the board\n",
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i + 1);
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return -EINVAL;
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}
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ret = fsl_esdhc_initialize(bis, &usdhc_cfg[i]);
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if (ret) {
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printf("Warning: failed to initialize mmc dev %d\n", i);
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return ret;
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}
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}
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return 0;
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}
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iomux_v3_cfg_t const ecspi2_pads[] = {
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MX6_PAD_CSI_DATA00__ECSPI2_SCLK | MUX_PAD_CTRL(SPI_PAD_CTRL),
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MX6_PAD_CSI_DATA02__ECSPI2_MOSI | MUX_PAD_CTRL(SPI_PAD_CTRL),
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MX6_PAD_CSI_DATA03__ECSPI2_MISO | MUX_PAD_CTRL(SPI_PAD_CTRL),
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MX6_PAD_CSI_DATA01__GPIO4_IO22 | MUX_PAD_CTRL(NO_PAD_CTRL),
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};
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int board_spi_cs_gpio(unsigned int bus, unsigned int cs)
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{
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return (bus == CONFIG_SF_DEFAULT_BUS && cs == CONFIG_SF_DEFAULT_CS)
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? (IMX_GPIO_NR(4, 22)) : -1;
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}
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static void setup_spi(void)
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{
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gpio_request(IMX_GPIO_NR(4, 22), "spi2_cs0");
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gpio_direction_output(IMX_GPIO_NR(4, 22), 1);
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imx_iomux_v3_setup_multiple_pads(ecspi2_pads, ARRAY_SIZE(ecspi2_pads));
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enable_spi_clk(true, 1);
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}
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static iomux_v3_cfg_t const uart4_pads[] = {
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MX6_PAD_UART4_TX_DATA__UART4_DCE_TX | MUX_PAD_CTRL(UART_PAD_CTRL),
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MX6_PAD_UART4_RX_DATA__UART4_DCE_RX | MUX_PAD_CTRL(UART_PAD_CTRL),
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};
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static void setup_iomux_uart(void)
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{
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imx_iomux_v3_setup_multiple_pads(uart4_pads, ARRAY_SIZE(uart4_pads));
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}
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// DDR 256MB (Hynix H5TQ2G63DFR)
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static struct mx6_ddr3_cfg mem_256M_ddr = {
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.mem_speed = 800,
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.density = 2,
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.width = 16,
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.banks = 8,
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.rowaddr = 14,
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.coladdr = 10,
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.pagesz = 2,
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.trcd = 1350,
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.trcmin = 4950,
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.trasmin = 3600,
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};
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static struct mx6_mmdc_calibration mx6_mmcd_256M_calib = {
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.p0_mpwldectrl0 = 0x00000000,
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.p0_mpdgctrl0 = 0x01340134,
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.p0_mprddlctl = 0x40405052,
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.p0_mpwrdlctl = 0x40404E48,
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};
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// DDR 512MB (Hynix H5TQ4G63DFR)
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static struct mx6_ddr3_cfg mem_512M_ddr = {
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.mem_speed = 800,
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.density = 4,
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.width = 16,
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.banks = 8,
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.rowaddr = 15,
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.coladdr = 10,
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.pagesz = 2,
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.trcd = 1350,
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.trcmin = 4950,
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.trasmin = 3600,
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};
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static struct mx6_mmdc_calibration mx6_mmcd_512M_calib = {
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.p0_mpwldectrl0 = 0x00000000,
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.p0_mpdgctrl0 = 0X01440144,
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.p0_mprddlctl = 0x40405454,
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.p0_mpwrdlctl = 0x40404E4C,
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};
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// Common DDR parameters (256MB and 512MB)
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static struct mx6ul_iomux_grp_regs mx6_grp_ioregs = {
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.grp_addds = 0x00000028,
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.grp_ddrmode_ctl = 0x00020000,
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.grp_b0ds = 0x00000028,
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.grp_ctlds = 0x00000028,
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.grp_b1ds = 0x00000028,
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.grp_ddrpke = 0x00000000,
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.grp_ddrmode = 0x00020000,
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.grp_ddr_type = 0x000c0000,
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};
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static struct mx6ul_iomux_ddr_regs mx6_ddr_ioregs = {
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.dram_dqm0 = 0x00000028,
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.dram_dqm1 = 0x00000028,
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.dram_ras = 0x00000028,
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.dram_cas = 0x00000028,
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.dram_odt0 = 0x00000028,
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.dram_odt1 = 0x00000028,
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.dram_sdba2 = 0x00000000,
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.dram_sdclk_0 = 0x00000028,
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.dram_sdqs0 = 0x00000028,
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.dram_sdqs1 = 0x00000028,
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.dram_reset = 0x00000028,
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};
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struct mx6_ddr_sysinfo ddr_sysinfo = {
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.dsize = 0,
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.cs_density = 20,
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.ncs = 1,
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.cs1_mirror = 0,
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.rtt_wr = 2,
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.rtt_nom = 1, /* RTT_Nom = RZQ/2 */
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.walat = 1, /* Write additional latency */
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.ralat = 5, /* Read additional latency */
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.mif3_mode = 3, /* Command prediction working mode */
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.bi_on = 1, /* Bank interleaving enabled */
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.sde_to_rst = 0x10, /* 14 cycles, 200us (JEDEC default) */
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.rst_to_cke = 0x23, /* 33 cycles, 500us (JEDEC default) */
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.ddr_type = DDR_TYPE_DDR3,
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.refsel = 0, /* Refresh cycles at 64KHz */
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.refr = 1, /* 2 refresh commands per refresh cycle */
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};
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static void ccgr_init(void)
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{
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struct mxc_ccm_reg *ccm = (struct mxc_ccm_reg *)CCM_BASE_ADDR;
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writel(0xFFFFFFFF, &ccm->CCGR0);
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writel(0xFFFFFFFF, &ccm->CCGR1);
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writel(0xFFFFFFFF, &ccm->CCGR2);
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writel(0xFFFFFFFF, &ccm->CCGR3);
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writel(0xFFFFFFFF, &ccm->CCGR4);
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writel(0xFFFFFFFF, &ccm->CCGR5);
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writel(0xFFFFFFFF, &ccm->CCGR6);
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writel(0xFFFFFFFF, &ccm->CCGR7);
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}
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static void spl_dram_init(void)
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{
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unsigned int size;
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// DDR RAM connection is always 16 bit wide. Init IOs.
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mx6ul_dram_iocfg(16, &mx6_ddr_ioregs, &mx6_grp_ioregs);
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// Try to detect the 512MB RAM chip first.
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mx6_dram_cfg(&ddr_sysinfo, &mx6_mmcd_512M_calib, &mem_512M_ddr);
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// Get the available RAM size
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size = get_ram_size((void *)PHYS_SDRAM, SZ_512M);
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gd->ram_size = size;
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if (size == SZ_512M) {
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// 512MB RAM was detected
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return;
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} else if (size == SZ_256M) {
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// 256MB RAM was detected, use correct config and calibration
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mx6_dram_cfg(&ddr_sysinfo, &mx6_mmcd_256M_calib, &mem_256M_ddr);
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} else {
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printf("Invalid DDR RAM size detected: %x\n", size);
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}
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}
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static int do_board_detect(void)
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{
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if (is_mx6ul())
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gd->board_type = BOARD_TYPE_KTN_SL_UL;
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else if (is_mx6ull())
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gd->board_type = BOARD_TYPE_KTN_SL_ULL;
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printf("Kontron SL i.MX6UL%s (N6%s1x) module, %lu MB RAM detected\n",
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is_mx6ull() ? "L" : "", is_mx6ull() ? "4" : "3", gd->ram_size / SZ_1M);
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return 0;
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}
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void board_init_f(ulong dummy)
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{
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ccgr_init();
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/* setup AIPS and disable watchdog */
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arch_cpu_init();
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/* iomux and setup of UART and SPI */
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board_early_init_f();
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/* setup GP timer */
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timer_init();
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/* UART clocks enabled and gd valid - init serial console */
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preloader_console_init();
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/* DDR initialization */
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spl_dram_init();
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/* Clear the BSS. */
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memset(__bss_start, 0, __bss_end - __bss_start);
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/* Detect the board type */
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do_board_detect();
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/* load/boot image from boot device */
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board_init_r(NULL, 0);
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}
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void board_boot_order(u32 *spl_boot_list)
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{
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u32 bootdev = spl_boot_device();
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/*
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* The default boot fuse settings use the SD card (MMC1) as primary
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* boot device, but allow SPI NOR as a fallback boot device. There
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* is no proper way to detect if the fallback was used. Therefore
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* we read the ECSPI2_CONREG register and see if it differs from the
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* reset value 0x0. If that's the case we can assume that the BootROM
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* has successfully probed the SPI NOR.
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*/
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switch (bootdev) {
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case BOOT_DEVICE_MMC1:
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case BOOT_DEVICE_MMC2:
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if (sl_mx6ul_is_spi_nor_boot()) {
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spl_boot_list[0] = BOOT_DEVICE_SPI;
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return;
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}
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break;
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}
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spl_boot_list[0] = bootdev;
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}
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int board_early_init_f(void)
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{
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setup_iomux_uart();
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if (sl_mx6ul_is_spi_nor_boot())
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setup_spi();
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return 0;
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}
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int board_fit_config_name_match(const char *name)
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{
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if (gd->board_type == BOARD_TYPE_KTN_SL_UL && is_mx6ul() &&
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(!strcmp(name, "imx6ul-kontron-n631x-s") || !strcmp(name, "imx6ul-kontron-bl")))
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return 0;
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if (gd->board_type == BOARD_TYPE_KTN_SL_ULL && is_mx6ull() &&
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(!strcmp(name, "imx6ull-kontron-n641x-s") || !strcmp(name, "imx6ull-kontron-bl")))
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return 0;
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return -1;
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}
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