mirror of
https://github.com/AsahiLinux/u-boot
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4dfa08af79
AM642 SoC supports booting from GPMC NAND device. Define boot device for it. Signed-off-by: Roger Quadros <rogerq@kernel.org> Link: https://www.mail-archive.com/u-boot@lists.denx.de/msg499180.html Signed-off-by: Dario Binacchi <dario.binacchi@amarulasolutions.com>
381 lines
9.6 KiB
C
381 lines
9.6 KiB
C
// SPDX-License-Identifier: GPL-2.0
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/*
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* AM642: SoC specific initialization
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*
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* Copyright (C) 2020-2021 Texas Instruments Incorporated - https://www.ti.com/
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* Keerthy <j-keerthy@ti.com>
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* Dave Gerlach <d-gerlach@ti.com>
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*/
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#include <fdt_support.h>
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#include <spl.h>
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#include <asm/io.h>
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#include <asm/arch/hardware.h>
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#include "sysfw-loader.h"
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#include "common.h"
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#include <linux/soc/ti/ti_sci_protocol.h>
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#include <dm.h>
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#include <dm/uclass-internal.h>
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#include <dm/pinctrl.h>
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#include <mmc.h>
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#include <dm/root.h>
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#include <command.h>
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#define CTRLMMR_MCU_RST_CTRL 0x04518170
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#define CTRLMMR_MCU_RST_SRC (MCU_CTRL_MMR0_BASE + 0x18178)
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#define COLD_BOOT 0
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#define SW_POR_MCU BIT(24)
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#define SW_POR_MAIN BIT(25)
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static void ctrl_mmr_unlock(void)
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{
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/* Unlock all PADCFG_MMR1 module registers */
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mmr_unlock(PADCFG_MMR1_BASE, 1);
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/* Unlock all MCU_CTRL_MMR0 module registers */
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mmr_unlock(MCU_CTRL_MMR0_BASE, 0);
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mmr_unlock(MCU_CTRL_MMR0_BASE, 1);
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mmr_unlock(MCU_CTRL_MMR0_BASE, 2);
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mmr_unlock(MCU_CTRL_MMR0_BASE, 3);
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mmr_unlock(MCU_CTRL_MMR0_BASE, 4);
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mmr_unlock(MCU_CTRL_MMR0_BASE, 6);
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/* Unlock all CTRL_MMR0 module registers */
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mmr_unlock(CTRL_MMR0_BASE, 0);
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mmr_unlock(CTRL_MMR0_BASE, 1);
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mmr_unlock(CTRL_MMR0_BASE, 2);
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mmr_unlock(CTRL_MMR0_BASE, 3);
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mmr_unlock(CTRL_MMR0_BASE, 5);
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mmr_unlock(CTRL_MMR0_BASE, 6);
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/* Unlock all MCU_PADCFG_MMR1 module registers */
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mmr_unlock(MCU_PADCFG_MMR1_BASE, 1);
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}
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/*
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* This uninitialized global variable would normal end up in the .bss section,
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* but the .bss is cleared between writing and reading this variable, so move
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* it to the .data section.
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*/
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u32 bootindex __section(".data");
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static struct rom_extended_boot_data bootdata __section(".data");
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static void store_boot_info_from_rom(void)
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{
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bootindex = *(u32 *)(CONFIG_SYS_K3_BOOT_PARAM_TABLE_INDEX);
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memcpy(&bootdata, (uintptr_t *)ROM_EXTENDED_BOOT_DATA_INFO,
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sizeof(struct rom_extended_boot_data));
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}
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#if defined(CONFIG_K3_LOAD_SYSFW) && CONFIG_IS_ENABLED(DM_MMC)
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void k3_mmc_stop_clock(void)
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{
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if (spl_boot_device() == BOOT_DEVICE_MMC1) {
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struct mmc *mmc = find_mmc_device(0);
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if (!mmc)
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return;
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mmc->saved_clock = mmc->clock;
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mmc_set_clock(mmc, 0, true);
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}
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}
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void k3_mmc_restart_clock(void)
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{
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if (spl_boot_device() == BOOT_DEVICE_MMC1) {
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struct mmc *mmc = find_mmc_device(0);
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if (!mmc)
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return;
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mmc_set_clock(mmc, mmc->saved_clock, false);
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}
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}
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#else
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void k3_mmc_stop_clock(void) {}
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void k3_mmc_restart_clock(void) {}
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#endif
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#ifdef CONFIG_SPL_OF_LIST
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void do_dt_magic(void)
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{
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int ret, rescan;
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/* Perform board detection */
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do_board_detect();
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/*
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* Board detection has been done.
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* Let us see if another dtb wouldn't be a better match
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* for our board
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*/
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if (IS_ENABLED(CONFIG_CPU_V7R)) {
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ret = fdtdec_resetup(&rescan);
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if (!ret && rescan) {
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dm_uninit();
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dm_init_and_scan(true);
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}
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}
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}
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#endif
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#if CONFIG_IS_ENABLED(USB_STORAGE)
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static int fixup_usb_boot(const void *fdt_blob)
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{
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int ret = 0;
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switch (spl_boot_device()) {
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case BOOT_DEVICE_USB:
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/*
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* If the boot mode is host, fixup the dr_mode to host
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* before cdns3 bind takes place
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*/
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ret = fdt_find_and_setprop((void *)fdt_blob,
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"/bus@f4000/cdns-usb@f900000/usb@f400000",
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"dr_mode", "host", 5, 0);
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if (ret)
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printf("%s: fdt_find_and_setprop() failed:%d\n",
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__func__, ret);
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fallthrough;
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default:
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break;
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}
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return ret;
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}
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int fdtdec_board_setup(const void *fdt_blob)
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{
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/* Can use the pointer from the function parameters */
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return fixup_usb_boot(fdt_blob);
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}
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#endif
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#if defined(CONFIG_ESM_K3)
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static void enable_mcu_esm_reset(void)
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{
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/* Set CTRLMMR_MCU_RST_CTRL:MCU_ESM_ERROR_RST_EN_Z to '0' (low active) */
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u32 stat = readl(CTRLMMR_MCU_RST_CTRL);
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stat &= 0xFFFDFFFF;
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writel(stat, CTRLMMR_MCU_RST_CTRL);
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}
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#endif
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void board_init_f(ulong dummy)
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{
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#if defined(CONFIG_K3_LOAD_SYSFW) || defined(CONFIG_K3_AM64_DDRSS) || defined(CONFIG_ESM_K3)
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struct udevice *dev;
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int ret;
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int rst_src;
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#endif
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#if defined(CONFIG_CPU_V7R)
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setup_k3_mpu_regions();
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#endif
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/*
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* Cannot delay this further as there is a chance that
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* K3_BOOT_PARAM_TABLE_INDEX can be over written by SPL MALLOC section.
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*/
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store_boot_info_from_rom();
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ctrl_mmr_unlock();
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/* Init DM early */
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spl_early_init();
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preloader_console_init();
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#if defined(CONFIG_K3_LOAD_SYSFW)
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/*
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* Process pinctrl for serial3 a.k.a. MAIN UART1 module and continue
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* regardless of the result of pinctrl. Do this without probing the
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* device, but instead by searching the device that would request the
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* given sequence number if probed. The UART will be used by the system
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* firmware (SYSFW) image for various purposes and SYSFW depends on us
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* to initialize its pin settings.
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*/
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ret = uclass_find_device_by_seq(UCLASS_SERIAL, 3, &dev);
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if (!ret)
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pinctrl_select_state(dev, "default");
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/*
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* Load, start up, and configure system controller firmware.
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* This will determine whether or not ROM has already loaded
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* system firmware and if so, will only perform needed config
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* and not attempt to load firmware again.
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*/
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k3_sysfw_loader(is_rom_loaded_sysfw(&bootdata), k3_mmc_stop_clock,
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k3_mmc_restart_clock);
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#endif
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#if defined(CONFIG_CPU_V7R)
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/*
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* Errata ID i2331 CPSW: A device lockup can occur during the second
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* read of any CPSW subsystem register after any MAIN domain power on
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* reset (POR). A MAIN domain POR occurs using the hardware MCU_PORz
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* signal, or via software using CTRLMMR_RST_CTRL.SW_MAIN_POR or
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* CTRLMMR_MCU_RST_CTRL.SW_MAIN_POR. After these resets, the processor
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* and internal bus structures may get into a state which is only
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* recoverable with full device reset using MCU_PORz.
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* Workaround(s): To avoid the lockup, a warm reset should be issued
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* after a MAIN domain POR and before any access to the CPSW registers.
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* The warm reset realigns internal clocks and prevents the lockup from
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* happening.
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*/
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ret = uclass_first_device_err(UCLASS_SYSRESET, &dev);
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if (ret)
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printf("\n%s:uclass device error [%d]\n",__func__,ret);
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rst_src = readl(CTRLMMR_MCU_RST_SRC);
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if (rst_src == COLD_BOOT || rst_src & (SW_POR_MCU | SW_POR_MAIN)) {
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printf("Resetting on cold boot to workaround ErrataID:i2331\n");
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printf("Please resend tiboot3.bin in case of UART/DFU boot\n");
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do_reset(NULL, 0, 0, NULL);
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}
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#endif
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/* Output System Firmware version info */
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k3_sysfw_print_ver();
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do_dt_magic();
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#if defined(CONFIG_ESM_K3)
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/* Probe/configure ESM0 */
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ret = uclass_get_device_by_name(UCLASS_MISC, "esm@420000", &dev);
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if (ret)
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printf("esm main init failed: %d\n", ret);
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/* Probe/configure MCUESM */
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ret = uclass_get_device_by_name(UCLASS_MISC, "esm@4100000", &dev);
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if (ret)
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printf("esm mcu init failed: %d\n", ret);
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enable_mcu_esm_reset();
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#endif
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#if defined(CONFIG_K3_AM64_DDRSS)
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ret = uclass_get_device(UCLASS_RAM, 0, &dev);
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if (ret)
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panic("DRAM init failed: %d\n", ret);
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#endif
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if (IS_ENABLED(CONFIG_SPL_ETH) && IS_ENABLED(CONFIG_TI_AM65_CPSW_NUSS) &&
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spl_boot_device() == BOOT_DEVICE_ETHERNET) {
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struct udevice *cpswdev;
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if (uclass_get_device_by_driver(UCLASS_MISC, DM_DRIVER_GET(am65_cpsw_nuss), &cpswdev))
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printf("Failed to probe am65_cpsw_nuss driver\n");
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}
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}
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u32 spl_mmc_boot_mode(struct mmc *mmc, const u32 boot_device)
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{
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switch (boot_device) {
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case BOOT_DEVICE_MMC1:
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return MMCSD_MODE_EMMCBOOT;
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case BOOT_DEVICE_MMC2:
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return MMCSD_MODE_FS;
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default:
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return MMCSD_MODE_RAW;
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}
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}
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static u32 __get_backup_bootmedia(u32 main_devstat)
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{
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u32 bkup_bootmode =
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(main_devstat & MAIN_DEVSTAT_BACKUP_BOOTMODE_MASK) >>
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MAIN_DEVSTAT_BACKUP_BOOTMODE_SHIFT;
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u32 bkup_bootmode_cfg =
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(main_devstat & MAIN_DEVSTAT_BACKUP_BOOTMODE_CFG_MASK) >>
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MAIN_DEVSTAT_BACKUP_BOOTMODE_CFG_SHIFT;
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switch (bkup_bootmode) {
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case BACKUP_BOOT_DEVICE_UART:
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return BOOT_DEVICE_UART;
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case BACKUP_BOOT_DEVICE_DFU:
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if (bkup_bootmode_cfg & MAIN_DEVSTAT_BACKUP_USB_MODE_MASK)
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return BOOT_DEVICE_USB;
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return BOOT_DEVICE_DFU;
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case BACKUP_BOOT_DEVICE_ETHERNET:
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return BOOT_DEVICE_ETHERNET;
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case BACKUP_BOOT_DEVICE_MMC:
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if (bkup_bootmode_cfg)
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return BOOT_DEVICE_MMC2;
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return BOOT_DEVICE_MMC1;
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case BACKUP_BOOT_DEVICE_SPI:
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return BOOT_DEVICE_SPI;
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case BACKUP_BOOT_DEVICE_I2C:
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return BOOT_DEVICE_I2C;
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};
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return BOOT_DEVICE_RAM;
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}
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static u32 __get_primary_bootmedia(u32 main_devstat)
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{
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u32 bootmode = (main_devstat & MAIN_DEVSTAT_PRIMARY_BOOTMODE_MASK) >>
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MAIN_DEVSTAT_PRIMARY_BOOTMODE_SHIFT;
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u32 bootmode_cfg =
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(main_devstat & MAIN_DEVSTAT_PRIMARY_BOOTMODE_CFG_MASK) >>
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MAIN_DEVSTAT_PRIMARY_BOOTMODE_CFG_SHIFT;
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switch (bootmode) {
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case BOOT_DEVICE_OSPI:
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fallthrough;
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case BOOT_DEVICE_QSPI:
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fallthrough;
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case BOOT_DEVICE_XSPI:
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fallthrough;
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case BOOT_DEVICE_SPI:
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return BOOT_DEVICE_SPI;
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case BOOT_DEVICE_ETHERNET_RGMII:
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fallthrough;
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case BOOT_DEVICE_ETHERNET_RMII:
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return BOOT_DEVICE_ETHERNET;
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case BOOT_DEVICE_EMMC:
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return BOOT_DEVICE_MMC1;
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case BOOT_DEVICE_NAND:
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return BOOT_DEVICE_NAND;
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case BOOT_DEVICE_MMC:
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if ((bootmode_cfg & MAIN_DEVSTAT_PRIMARY_MMC_PORT_MASK) >>
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MAIN_DEVSTAT_PRIMARY_MMC_PORT_SHIFT)
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return BOOT_DEVICE_MMC2;
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return BOOT_DEVICE_MMC1;
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case BOOT_DEVICE_DFU:
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if ((bootmode_cfg & MAIN_DEVSTAT_PRIMARY_USB_MODE_MASK) >>
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MAIN_DEVSTAT_PRIMARY_USB_MODE_SHIFT)
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return BOOT_DEVICE_USB;
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return BOOT_DEVICE_DFU;
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case BOOT_DEVICE_NOBOOT:
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return BOOT_DEVICE_RAM;
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}
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return bootmode;
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}
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u32 spl_boot_device(void)
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{
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u32 devstat = readl(CTRLMMR_MAIN_DEVSTAT);
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if (bootindex == K3_PRIMARY_BOOTMODE)
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return __get_primary_bootmedia(devstat);
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else
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return __get_backup_bootmedia(devstat);
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}
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