mirror of
https://github.com/AsahiLinux/u-boot
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aa6e94deab
The rest of the unmigrated CONFIG symbols in the CONFIG_SYS_SDRAM namespace do not easily transition to Kconfig. In many cases they likely should come from the device tree instead. Move these out of CONFIG namespace and in to CFG namespace. Signed-off-by: Tom Rini <trini@konsulko.com> Reviewed-by: Simon Glass <sjg@chromium.org>
534 lines
13 KiB
C
534 lines
13 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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/*
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* board.c
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*
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* (C) Copyright 2016
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* Heiko Schocher, DENX Software Engineering, hs@denx.de.
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*
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* Based on:
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* Board functions for TI AM335X based boards
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*
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* Copyright (C) 2011, Texas Instruments, Incorporated - http://www.ti.com/
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*/
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#include <common.h>
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#include <bootstage.h>
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#include <cpu_func.h>
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#include <env.h>
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#include <errno.h>
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#include <init.h>
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#include <irq_func.h>
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#include <net.h>
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#include <spl.h>
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#include <asm/arch/cpu.h>
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#include <asm/arch/hardware.h>
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#include <asm/arch/omap.h>
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#include <asm/arch/ddr_defs.h>
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#include <asm/arch/clock.h>
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#include <asm/arch/gpio.h>
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#include <asm/arch/mmc_host_def.h>
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#include <asm/arch/sys_proto.h>
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#include <asm/arch/mem.h>
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#include <asm/global_data.h>
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#include <asm/io.h>
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#include <asm/emif.h>
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#include <asm/gpio.h>
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#include <i2c.h>
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#include <miiphy.h>
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#include <cpsw.h>
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#include <linux/delay.h>
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#include <power/tps65217.h>
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#include <env_internal.h>
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#include <watchdog.h>
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#include "mmc.h"
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#include "board.h"
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DECLARE_GLOBAL_DATA_PTR;
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static struct shc_eeprom __section(".data") header;
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static int shc_eeprom_valid;
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/*
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* Read header information from EEPROM into global structure.
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*/
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#define EEPROM_ADDR 0x50
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static int read_eeprom(void)
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{
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/* Check if baseboard eeprom is available */
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if (i2c_probe(EEPROM_ADDR)) {
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puts("Could not probe the EEPROM; something fundamentally wrong on the I2C bus.\n");
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return -ENODEV;
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}
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/* read the eeprom using i2c */
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if (i2c_read(EEPROM_ADDR, 0, 2, (uchar *)&header,
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sizeof(header))) {
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puts("Could not read the EEPROM; something fundamentally wrong on the I2C bus.\n");
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return -EIO;
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}
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if (header.magic != HDR_MAGIC) {
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printf("Incorrect magic number (0x%x) in EEPROM\n",
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header.magic);
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return -EIO;
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}
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shc_eeprom_valid = 1;
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return 0;
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}
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static void shc_request_gpio(void)
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{
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gpio_request(LED_PWR_BL_GPIO, "LED PWR BL");
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gpio_request(LED_PWR_RD_GPIO, "LED PWR RD");
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gpio_request(RESET_GPIO, "reset");
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gpio_request(WIFI_REGEN_GPIO, "WIFI REGEN");
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gpio_request(WIFI_RST_GPIO, "WIFI rst");
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gpio_request(ZIGBEE_RST_GPIO, "ZigBee rst");
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gpio_request(BIDCOS_RST_GPIO, "BIDCOS rst");
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gpio_request(ENOC_RST_GPIO, "ENOC rst");
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#if defined CONFIG_B_SAMPLE
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gpio_request(LED_PWR_GN_GPIO, "LED PWR GN");
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gpio_request(LED_CONN_BL_GPIO, "LED CONN BL");
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gpio_request(LED_CONN_RD_GPIO, "LED CONN RD");
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gpio_request(LED_CONN_GN_GPIO, "LED CONN GN");
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#else
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gpio_request(LED_LAN_BL_GPIO, "LED LAN BL");
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gpio_request(LED_LAN_RD_GPIO, "LED LAN RD");
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gpio_request(LED_CLOUD_BL_GPIO, "LED CLOUD BL");
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gpio_request(LED_CLOUD_RD_GPIO, "LED CLOUD RD");
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gpio_request(LED_PWM_GPIO, "LED PWM");
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gpio_request(Z_WAVE_RST_GPIO, "Z WAVE rst");
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#endif
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gpio_request(BACK_BUTTON_GPIO, "Back button");
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gpio_request(FRONT_BUTTON_GPIO, "Front button");
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}
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/*
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* Function which forces all installed modules into running state for ICT
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* testing. Called by SPL.
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*/
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static void __maybe_unused force_modules_running(void)
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{
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/* Wi-Fi power regulator enable - high = enabled */
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gpio_direction_output(WIFI_REGEN_GPIO, 1);
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/*
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* Wait for Wi-Fi power regulator to reach a stable voltage
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* (soft-start time, max. 350 µs)
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*/
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__udelay(350);
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/* Wi-Fi module reset - high = running */
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gpio_direction_output(WIFI_RST_GPIO, 1);
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/* ZigBee reset - high = running */
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gpio_direction_output(ZIGBEE_RST_GPIO, 1);
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/* BidCos reset - high = running */
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gpio_direction_output(BIDCOS_RST_GPIO, 1);
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#if !defined(CONFIG_B_SAMPLE)
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/* Z-Wave reset - high = running */
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gpio_direction_output(Z_WAVE_RST_GPIO, 1);
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#endif
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/* EnOcean reset - low = running */
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gpio_direction_output(ENOC_RST_GPIO, 0);
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}
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/*
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* Function which forces all installed modules into reset - to be released by
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* the OS, called by SPL
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*/
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static void __maybe_unused force_modules_reset(void)
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{
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/* Wi-Fi module reset - low = reset */
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gpio_direction_output(WIFI_RST_GPIO, 0);
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/* Wi-Fi power regulator enable - low = disabled */
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gpio_direction_output(WIFI_REGEN_GPIO, 0);
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/* ZigBee reset - low = reset */
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gpio_direction_output(ZIGBEE_RST_GPIO, 0);
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/* BidCos reset - low = reset */
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/*gpio_direction_output(BIDCOS_RST_GPIO, 0);*/
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#if !defined(CONFIG_B_SAMPLE)
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/* Z-Wave reset - low = reset */
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gpio_direction_output(Z_WAVE_RST_GPIO, 0);
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#endif
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/* EnOcean reset - high = reset*/
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gpio_direction_output(ENOC_RST_GPIO, 1);
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}
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/*
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* Function to set the LEDs in the state "Bootloader booting"
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*/
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static void __maybe_unused leds_set_booting(void)
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{
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#if defined(CONFIG_B_SAMPLE)
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/* Turn all red LEDs on */
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gpio_direction_output(LED_PWR_RD_GPIO, 1);
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gpio_direction_output(LED_CONN_RD_GPIO, 1);
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#else /* All other SHCs starting with B2-Sample */
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/* Set the PWM GPIO */
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gpio_direction_output(LED_PWM_GPIO, 1);
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/* Turn all red LEDs on */
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gpio_direction_output(LED_PWR_RD_GPIO, 1);
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gpio_direction_output(LED_LAN_RD_GPIO, 1);
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gpio_direction_output(LED_CLOUD_RD_GPIO, 1);
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#endif
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}
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/*
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* Function to set the LEDs in the state "Bootloader error"
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*/
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static void __maybe_unused leds_set_failure(int state)
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{
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#if defined(CONFIG_B_SAMPLE)
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/* Turn all blue and green LEDs off */
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gpio_set_value(LED_PWR_BL_GPIO, 0);
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gpio_set_value(LED_PWR_GN_GPIO, 0);
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gpio_set_value(LED_CONN_BL_GPIO, 0);
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gpio_set_value(LED_CONN_GN_GPIO, 0);
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/* Turn all red LEDs to 'state' */
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gpio_set_value(LED_PWR_RD_GPIO, state);
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gpio_set_value(LED_CONN_RD_GPIO, state);
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#else /* All other SHCs starting with B2-Sample */
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/* Set the PWM GPIO */
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gpio_direction_output(LED_PWM_GPIO, 1);
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/* Turn all blue LEDs off */
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gpio_set_value(LED_PWR_BL_GPIO, 0);
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gpio_set_value(LED_LAN_BL_GPIO, 0);
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gpio_set_value(LED_CLOUD_BL_GPIO, 0);
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/* Turn all red LEDs to 'state' */
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gpio_set_value(LED_PWR_RD_GPIO, state);
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gpio_set_value(LED_LAN_RD_GPIO, state);
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gpio_set_value(LED_CLOUD_RD_GPIO, state);
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#endif
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}
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/*
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* Function to set the LEDs in the state "Bootloader finished"
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*/
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static void leds_set_finish(void)
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{
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#if defined(CONFIG_B_SAMPLE)
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/* Turn all LEDs off */
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gpio_set_value(LED_PWR_BL_GPIO, 0);
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gpio_set_value(LED_PWR_RD_GPIO, 0);
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gpio_set_value(LED_PWR_GN_GPIO, 0);
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gpio_set_value(LED_CONN_BL_GPIO, 0);
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gpio_set_value(LED_CONN_RD_GPIO, 0);
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gpio_set_value(LED_CONN_GN_GPIO, 0);
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#else /* All other SHCs starting with B2-Sample */
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/* Turn all LEDs off */
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gpio_set_value(LED_PWR_BL_GPIO, 0);
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gpio_set_value(LED_PWR_RD_GPIO, 0);
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gpio_set_value(LED_LAN_BL_GPIO, 0);
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gpio_set_value(LED_LAN_RD_GPIO, 0);
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gpio_set_value(LED_CLOUD_BL_GPIO, 0);
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gpio_set_value(LED_CLOUD_RD_GPIO, 0);
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/* Turn off the PWM GPIO and mux it to EHRPWM */
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gpio_set_value(LED_PWM_GPIO, 0);
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enable_shc_board_pwm_pin_mux();
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#endif
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}
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static void check_button_status(void)
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{
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ulong value;
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gpio_direction_input(FRONT_BUTTON_GPIO);
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value = gpio_get_value(FRONT_BUTTON_GPIO);
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if (value == 0) {
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printf("front button activated !\n");
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env_set("harakiri", "1");
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}
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}
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#if defined(CONFIG_SPL_BUILD)
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#ifdef CONFIG_SPL_OS_BOOT
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int spl_start_uboot(void)
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{
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return 1;
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}
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#endif
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static void shc_board_early_init(void)
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{
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shc_request_gpio();
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# ifdef CONFIG_SHC_ICT
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/* Force all modules into enabled state for ICT testing */
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force_modules_running();
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# else
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/* Force all modules to enter Reset state until released by the OS */
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force_modules_reset();
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# endif
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leds_set_booting();
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}
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static struct ctrl_dev *cdev = (struct ctrl_dev *)CTRL_DEVICE_BASE;
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#define MPU_SPREADING_PERMILLE 18 /* Spread 1.8 percent */
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#define OSC (V_OSCK/1000000)
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/* Bosch: Predivider must be fixed to 4, so N = 4-1 */
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#define MPUPLL_N (4-1)
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/* Bosch: Fref = 24 MHz / (N+1) = 24 MHz / 4 = 6 MHz */
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#define MPUPLL_FREF (OSC / (MPUPLL_N + 1))
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const struct dpll_params dpll_ddr_shc = {
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400, OSC-1, 1, -1, -1, -1, -1};
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const struct dpll_params *get_dpll_ddr_params(void)
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{
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return &dpll_ddr_shc;
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}
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/*
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* As we enabled downspread SSC with 1.8%, the values needed to be corrected
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* such that the 20% overshoot will not lead to too high frequencies.
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* In all cases, this is achieved by subtracting one from M (6 MHz less).
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* Example: 600 MHz CPU
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* Step size: 24 MHz OSC, N = 4 (fix) --> Fref = 6 MHz
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* 600 MHz - 6 MHz (1x Fref) = 594 MHz
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* SSC: 594 MHz * 1.8% = 10.7 MHz SSC
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* Overshoot: 10.7 MHz * 20 % = 2.2 MHz
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* --> Fmax = 594 MHz + 2.2 MHz = 596.2 MHz, lower than 600 MHz --> OK!
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*/
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const struct dpll_params dpll_mpu_shc_opp100 = {
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99, MPUPLL_N, 1, -1, -1, -1, -1};
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void am33xx_spl_board_init(void)
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{
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int sil_rev;
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int mpu_vdd;
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puts(BOARD_ID_STR);
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/*
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* Set CORE Frequency to OPP100
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* Hint: DCDC3 (CORE) defaults to 1.100V (for OPP100)
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*/
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do_setup_dpll(&dpll_core_regs, &dpll_core_opp100);
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sil_rev = readl(&cdev->deviceid) >> 28;
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if (sil_rev < 2) {
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puts("We do not support Silicon Revisions below 2.0!\n");
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return;
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}
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dpll_mpu_opp100.m = am335x_get_efuse_mpu_max_freq(cdev);
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if (i2c_probe(TPS65217_CHIP_PM))
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return;
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/*
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* Retrieve the CPU max frequency by reading the efuse
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* SHC-Default: 600 MHz
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*/
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switch (dpll_mpu_opp100.m) {
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case MPUPLL_M_1000:
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mpu_vdd = TPS65217_DCDC_VOLT_SEL_1325MV;
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break;
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case MPUPLL_M_800:
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mpu_vdd = TPS65217_DCDC_VOLT_SEL_1275MV;
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break;
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case MPUPLL_M_720:
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mpu_vdd = TPS65217_DCDC_VOLT_SEL_1200MV;
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break;
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case MPUPLL_M_600:
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mpu_vdd = TPS65217_DCDC_VOLT_SEL_1100MV;
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break;
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case MPUPLL_M_300:
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mpu_vdd = TPS65217_DCDC_VOLT_SEL_950MV;
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break;
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default:
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puts("Cannot determine the frequency, failing!\n");
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return;
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}
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if (tps65217_voltage_update(TPS65217_DEFDCDC2, mpu_vdd)) {
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puts("tps65217_voltage_update failure\n");
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return;
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}
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/* Set MPU Frequency to what we detected */
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printf("MPU reference clock runs at %d MHz\n", MPUPLL_FREF);
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printf("Setting MPU clock to %d MHz\n", MPUPLL_FREF *
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dpll_mpu_shc_opp100.m);
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do_setup_dpll(&dpll_mpu_regs, &dpll_mpu_shc_opp100);
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/* Enable Spread Spectrum for this freq to be clean on EMI side */
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set_mpu_spreadspectrum(MPU_SPREADING_PERMILLE);
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/*
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* Using the default voltages for the PMIC (TPS65217D)
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* LS1 = 1.8V (VDD_1V8)
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* LS2 = 3.3V (VDD_3V3A)
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* LDO1 = 1.8V (VIO and VRTC)
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* LDO2 = 3.3V (VDD_3V3AUX)
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*/
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shc_board_early_init();
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}
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void set_uart_mux_conf(void)
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{
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enable_uart0_pin_mux();
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}
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void set_mux_conf_regs(void)
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{
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enable_shc_board_pin_mux();
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}
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const struct ctrl_ioregs ioregs_evmsk = {
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.cm0ioctl = MT41K256M16HA125E_IOCTRL_VALUE,
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.cm1ioctl = MT41K256M16HA125E_IOCTRL_VALUE,
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.cm2ioctl = MT41K256M16HA125E_IOCTRL_VALUE,
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.dt0ioctl = MT41K256M16HA125E_IOCTRL_VALUE,
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.dt1ioctl = MT41K256M16HA125E_IOCTRL_VALUE,
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};
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static const struct ddr_data ddr3_shc_data = {
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.datardsratio0 = MT41K256M16HA125E_RD_DQS,
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.datawdsratio0 = MT41K256M16HA125E_WR_DQS,
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.datafwsratio0 = MT41K256M16HA125E_PHY_FIFO_WE,
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.datawrsratio0 = MT41K256M16HA125E_PHY_WR_DATA,
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};
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static const struct cmd_control ddr3_shc_cmd_ctrl_data = {
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.cmd0csratio = MT41K256M16HA125E_RATIO,
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.cmd0iclkout = MT41K256M16HA125E_INVERT_CLKOUT,
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.cmd1csratio = MT41K256M16HA125E_RATIO,
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.cmd1iclkout = MT41K256M16HA125E_INVERT_CLKOUT,
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.cmd2csratio = MT41K256M16HA125E_RATIO,
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.cmd2iclkout = MT41K256M16HA125E_INVERT_CLKOUT,
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};
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static struct emif_regs ddr3_shc_emif_reg_data = {
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.sdram_config = MT41K256M16HA125E_EMIF_SDCFG,
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.ref_ctrl = MT41K256M16HA125E_EMIF_SDREF,
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.sdram_tim1 = MT41K256M16HA125E_EMIF_TIM1,
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.sdram_tim2 = MT41K256M16HA125E_EMIF_TIM2,
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.sdram_tim3 = MT41K256M16HA125E_EMIF_TIM3,
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.zq_config = MT41K256M16HA125E_ZQ_CFG,
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.emif_ddr_phy_ctlr_1 = MT41K256M16HA125E_EMIF_READ_LATENCY |
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PHY_EN_DYN_PWRDN,
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};
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void sdram_init(void)
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{
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/* Configure the DDR3 RAM */
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config_ddr(400, &ioregs_evmsk, &ddr3_shc_data,
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&ddr3_shc_cmd_ctrl_data, &ddr3_shc_emif_reg_data, 0);
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}
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#endif
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/*
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* Basic board specific setup. Pinmux has been handled already.
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*/
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int board_init(void)
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{
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#if defined(CONFIG_HW_WATCHDOG)
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hw_watchdog_init();
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#endif
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i2c_init(CONFIG_SYS_I2C_SPEED, CONFIG_SYS_I2C_SLAVE);
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if (read_eeprom() < 0)
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puts("EEPROM Content Invalid.\n");
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gd->bd->bi_boot_params = CFG_SYS_SDRAM_BASE + 0x100;
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#if defined(CONFIG_NOR) || defined(CONFIG_MTD_RAW_NAND)
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gpmc_init();
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#endif
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shc_request_gpio();
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return 0;
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}
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#ifdef CONFIG_BOARD_LATE_INIT
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int board_late_init(void)
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{
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check_button_status();
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#ifdef CONFIG_ENV_VARS_UBOOT_RUNTIME_CONFIG
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if (shc_eeprom_valid)
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if (is_valid_ethaddr(header.mac_addr))
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eth_env_set_enetaddr("ethaddr", header.mac_addr);
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#endif
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return 0;
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}
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#endif
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#if defined(CONFIG_USB_ETHER) && \
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(!defined(CONFIG_SPL_BUILD) || defined(CONFIG_SPL_USB_ETHER))
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int board_eth_init(struct bd_info *bis)
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{
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return usb_eth_initialize(bis);
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}
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#endif
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|
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#if CONFIG_IS_ENABLED(BOOTSTAGE)
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static void bosch_check_reset_pin(void)
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{
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if (readl(GPIO1_BASE + OMAP_GPIO_IRQSTATUS_SET_0) & RESET_MASK) {
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printf("Resetting ...\n");
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writel(RESET_MASK, GPIO1_BASE + OMAP_GPIO_IRQSTATUS_SET_0);
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disable_interrupts();
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reset_cpu();
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/*NOTREACHED*/
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}
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|
}
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|
|
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static void hang_bosch(const char *cause, int code)
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|
{
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|
int lv;
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|
|
|
gpio_direction_input(RESET_GPIO);
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|
|
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/* Enable reset pin interrupt on falling edge */
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writel(RESET_MASK, GPIO1_BASE + OMAP_GPIO_IRQSTATUS_SET_0);
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writel(RESET_MASK, GPIO1_BASE + OMAP_GPIO_FALLINGDETECT);
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enable_interrupts();
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|
|
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puts(cause);
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|
for (;;) {
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for (lv = 0; lv < code; lv++) {
|
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bosch_check_reset_pin();
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|
leds_set_failure(1);
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|
__udelay(150 * 1000);
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|
leds_set_failure(0);
|
|
__udelay(150 * 1000);
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|
}
|
|
#if defined(BLINK_CODE)
|
|
__udelay(300 * 1000);
|
|
#endif
|
|
}
|
|
}
|
|
|
|
void show_boot_progress(int val)
|
|
{
|
|
switch (val) {
|
|
case BOOTSTAGE_ID_NEED_RESET:
|
|
hang_bosch("need reset", 4);
|
|
break;
|
|
}
|
|
}
|
|
#endif
|
|
|
|
void arch_preboot_os(void)
|
|
{
|
|
leds_set_finish();
|
|
}
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