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// SPDX-License-Identifier: GPL-2.0+
/*
 * Copyright 2021 NXP
 */

#include <asm/io.h>
#include <asm/arch/clock.h>
#include <asm/arch/imx-regs.h>
#include <asm/arch/sys_proto.h>
#include <asm/armv8/mmu.h>
#include <asm/mach-imx/boot_mode.h>
#include <asm/global_data.h>
#include <efi_loader.h>
#include <event.h>
#include <spl.h>
#include <asm/arch/rdc.h>
#include <asm/arch/s400_api.h>
#include <asm/arch/mu_hal.h>
#include <cpu_func.h>
#include <asm/setup.h>
#include <dm.h>
#include <dm/device-internal.h>
#include <dm/lists.h>
#include <dm/uclass.h>
#include <dm/device.h>
#include <dm/uclass-internal.h>
#include <fuse.h>
#include <thermal.h>
#include <linux/iopoll.h>
#include <env.h>
#include <env_internal.h>

DECLARE_GLOBAL_DATA_PTR;

struct rom_api *g_rom_api = (struct rom_api *)0x1980;

enum boot_device get_boot_device(void)
{
	volatile gd_t *pgd = gd;
	int ret;
	u32 boot;
	u16 boot_type;
	u8 boot_instance;
	enum boot_device boot_dev = SD1_BOOT;

	ret = g_rom_api->query_boot_infor(QUERY_BT_DEV, &boot,
					  ((uintptr_t)&boot) ^ QUERY_BT_DEV);
	set_gd(pgd);

	if (ret != ROM_API_OKAY) {
		puts("ROMAPI: failure at query_boot_info\n");
		return -1;
	}

	boot_type = boot >> 16;
	boot_instance = (boot >> 8) & 0xff;

	switch (boot_type) {
	case BT_DEV_TYPE_SD:
		boot_dev = boot_instance + SD1_BOOT;
		break;
	case BT_DEV_TYPE_MMC:
		boot_dev = boot_instance + MMC1_BOOT;
		break;
	case BT_DEV_TYPE_NAND:
		boot_dev = NAND_BOOT;
		break;
	case BT_DEV_TYPE_FLEXSPINOR:
		boot_dev = QSPI_BOOT;
		break;
	case BT_DEV_TYPE_USB:
		boot_dev = USB_BOOT;
		break;
	default:
		break;
	}

	return boot_dev;
}

bool is_usb_boot(void)
{
	return get_boot_device() == USB_BOOT;
}

#ifdef CONFIG_ENV_IS_IN_MMC
__weak int board_mmc_get_env_dev(int devno)
{
	return devno;
}

int mmc_get_env_dev(void)
{
	volatile gd_t *pgd = gd;
	int ret;
	u32 boot;
	u16 boot_type;
	u8 boot_instance;

	ret = g_rom_api->query_boot_infor(QUERY_BT_DEV, &boot,
					  ((uintptr_t)&boot) ^ QUERY_BT_DEV);
	set_gd(pgd);

	if (ret != ROM_API_OKAY) {
		puts("ROMAPI: failure at query_boot_info\n");
		return CONFIG_SYS_MMC_ENV_DEV;
	}

	boot_type = boot >> 16;
	boot_instance = (boot >> 8) & 0xff;

	/* If not boot from sd/mmc, use default value */
	if (boot_type != BOOT_TYPE_SD && boot_type != BOOT_TYPE_MMC)
		return env_get_ulong("mmcdev", 10, CONFIG_SYS_MMC_ENV_DEV);

	return board_mmc_get_env_dev(boot_instance);
}
#endif

u32 get_cpu_rev(void)
{
	return (MXC_CPU_IMX8ULP << 12) | CHIP_REV_1_0;
}

enum bt_mode get_boot_mode(void)
{
	u32 bt0_cfg = 0;

	bt0_cfg = readl(SIM_SEC_BASE_ADDR + 0x24);
	bt0_cfg &= (BT0CFG_LPBOOT_MASK | BT0CFG_DUALBOOT_MASK);

	if (!(bt0_cfg & BT0CFG_LPBOOT_MASK)) {
		/* No low power boot */
		if (bt0_cfg & BT0CFG_DUALBOOT_MASK)
			return DUAL_BOOT;
		else
			return SINGLE_BOOT;
	}

	return LOW_POWER_BOOT;
}

bool m33_image_booted(void)
{
	u32 gp6;

	/* DGO_GP6 */
	gp6 = readl(SIM_SEC_BASE_ADDR + 0x28);
	if (gp6 & BIT(5))
		return true;

	return false;
}

int m33_image_handshake(ulong timeout_ms)
{
	u32 fsr;
	int ret;
	ulong timeout_us = timeout_ms * 1000;

	/* Notify m33 that it's ready to do init srtm(enable mu receive interrupt and so on) */
	setbits_le32(MU0_B_BASE_ADDR + 0x100, BIT(0)); /* set FCR F0 flag of MU0_MUB */

	/*
	 * Wait m33 to set FCR F0 flag of MU0_MUA
	 * Clear FCR F0 flag of MU0_MUB after m33 has set FCR F0 flag of MU0_MUA
	 */
	ret = readl_poll_sleep_timeout(MU0_B_BASE_ADDR + 0x104, fsr, fsr & BIT(0), 10, timeout_us);
	if (!ret)
		clrbits_le32(MU0_B_BASE_ADDR + 0x100, BIT(0));

	return ret;
}

#define CMC_SRS_TAMPER                    BIT(31)
#define CMC_SRS_SECURITY                  BIT(30)
#define CMC_SRS_TZWDG                     BIT(29)
#define CMC_SRS_JTAG_RST                  BIT(28)
#define CMC_SRS_CORE1                     BIT(16)
#define CMC_SRS_LOCKUP                    BIT(15)
#define CMC_SRS_SW                        BIT(14)
#define CMC_SRS_WDG                       BIT(13)
#define CMC_SRS_PIN_RESET                 BIT(8)
#define CMC_SRS_WARM                      BIT(4)
#define CMC_SRS_HVD                       BIT(3)
#define CMC_SRS_LVD                       BIT(2)
#define CMC_SRS_POR                       BIT(1)
#define CMC_SRS_WUP                       BIT(0)

static char *get_reset_cause(char *ret)
{
	u32 cause1, cause = 0, srs = 0;
	void __iomem *reg_ssrs = (void __iomem *)(CMC1_BASE_ADDR + 0x88);
	void __iomem *reg_srs = (void __iomem *)(CMC1_BASE_ADDR + 0x80);

	if (!ret)
		return "null";

	srs = readl(reg_srs);
	cause1 = readl(reg_ssrs);

	cause = srs & (CMC_SRS_POR | CMC_SRS_WUP | CMC_SRS_WARM);

	switch (cause) {
	case CMC_SRS_POR:
		sprintf(ret, "%s", "POR");
		break;
	case CMC_SRS_WUP:
		sprintf(ret, "%s", "WUP");
		break;
	case CMC_SRS_WARM:
		cause = srs & (CMC_SRS_WDG | CMC_SRS_SW |
			CMC_SRS_JTAG_RST);
		switch (cause) {
		case CMC_SRS_WDG:
			sprintf(ret, "%s", "WARM-WDG");
			break;
		case CMC_SRS_SW:
			sprintf(ret, "%s", "WARM-SW");
			break;
		case CMC_SRS_JTAG_RST:
			sprintf(ret, "%s", "WARM-JTAG");
			break;
		default:
			sprintf(ret, "%s", "WARM-UNKN");
			break;
		}
		break;
	default:
		sprintf(ret, "%s-%X", "UNKN", srs);
		break;
	}

	debug("[%X] SRS[%X] %X - ", cause1, srs, srs ^ cause1);
	return ret;
}

#if defined(CONFIG_DISPLAY_CPUINFO)
const char *get_imx_type(u32 imxtype)
{
	return "8ULP";
}

int print_cpuinfo(void)
{
	u32 cpurev;
	char cause[18];

	cpurev = get_cpu_rev();

	printf("CPU:   i.MX%s rev%d.%d at %d MHz\n",
	       get_imx_type((cpurev & 0xFF000) >> 12),
	       (cpurev & 0x000F0) >> 4, (cpurev & 0x0000F) >> 0,
	       mxc_get_clock(MXC_ARM_CLK) / 1000000);

#if defined(CONFIG_IMX_PMC_TEMPERATURE)
	struct udevice *udev;
	int ret, temp;

	ret = uclass_get_device(UCLASS_THERMAL, 0, &udev);
	if (!ret) {
		ret = thermal_get_temp(udev, &temp);
		if (!ret)
			printf("CPU current temperature: %d\n", temp);
		else
			debug(" - failed to get CPU current temperature\n");
	} else {
		debug(" - failed to get CPU current temperature\n");
	}
#endif

	printf("Reset cause: %s\n", get_reset_cause(cause));

	printf("Boot mode: ");
	switch (get_boot_mode()) {
	case LOW_POWER_BOOT:
		printf("Low power boot\n");
		break;
	case DUAL_BOOT:
		printf("Dual boot\n");
		break;
	case SINGLE_BOOT:
	default:
		printf("Single boot\n");
		break;
	}

	return 0;
}
#endif

#define UNLOCK_WORD0 0xC520 /* 1st unlock word */
#define UNLOCK_WORD1 0xD928 /* 2nd unlock word */
#define REFRESH_WORD0 0xA602 /* 1st refresh word */
#define REFRESH_WORD1 0xB480 /* 2nd refresh word */

static void disable_wdog(void __iomem *wdog_base)
{
	u32 val_cs = readl(wdog_base + 0x00);

	if (!(val_cs & 0x80))
		return;

	dmb();
	__raw_writel(REFRESH_WORD0, (wdog_base + 0x04)); /* Refresh the CNT */
	__raw_writel(REFRESH_WORD1, (wdog_base + 0x04));
	dmb();

	if (!(val_cs & 800)) {
		dmb();
		__raw_writel(UNLOCK_WORD0, (wdog_base + 0x04));
		__raw_writel(UNLOCK_WORD1, (wdog_base + 0x04));
		dmb();

		while (!(readl(wdog_base + 0x00) & 0x800))
			;
	}
	writel(0x0, (wdog_base + 0x0C)); /* Set WIN to 0 */
	writel(0x400, (wdog_base + 0x08)); /* Set timeout to default 0x400 */
	writel(0x120, (wdog_base + 0x00)); /* Disable it and set update */

	while (!(readl(wdog_base + 0x00) & 0x400))
		;
}

void init_wdog(void)
{
	disable_wdog((void __iomem *)WDG3_RBASE);
}

static struct mm_region imx8ulp_arm64_mem_map[] = {
	{
		/* ROM */
		.virt = 0x0,
		.phys = 0x0,
		.size = 0x40000UL,
		.attrs = PTE_BLOCK_MEMTYPE(MT_NORMAL) |
			 PTE_BLOCK_OUTER_SHARE
	},
	{
		/* FLEXSPI0 */
		.virt = 0x04000000,
		.phys = 0x04000000,
		.size = 0x08000000UL,
		.attrs = PTE_BLOCK_MEMTYPE(MT_DEVICE_NGNRNE) |
			 PTE_BLOCK_NON_SHARE |
			 PTE_BLOCK_PXN | PTE_BLOCK_UXN
	},
	{
		/* SSRAM (align with 2M) */
		.virt = 0x1FE00000UL,
		.phys = 0x1FE00000UL,
		.size = 0x400000UL,
		.attrs = PTE_BLOCK_MEMTYPE(MT_NORMAL) |
			 PTE_BLOCK_OUTER_SHARE |
			 PTE_BLOCK_PXN | PTE_BLOCK_UXN
	}, {
		/* SRAM1 (align with 2M) */
		.virt = 0x21000000UL,
		.phys = 0x21000000UL,
		.size = 0x200000UL,
		.attrs = PTE_BLOCK_MEMTYPE(MT_NORMAL) |
			 PTE_BLOCK_OUTER_SHARE |
			 PTE_BLOCK_PXN | PTE_BLOCK_UXN
	}, {
		/* SRAM0 (align with 2M) */
		.virt = 0x22000000UL,
		.phys = 0x22000000UL,
		.size = 0x200000UL,
		.attrs = PTE_BLOCK_MEMTYPE(MT_NORMAL) |
			 PTE_BLOCK_OUTER_SHARE |
			 PTE_BLOCK_PXN | PTE_BLOCK_UXN
	}, {
		/* Peripherals */
		.virt = 0x27000000UL,
		.phys = 0x27000000UL,
		.size = 0x3000000UL,
		.attrs = PTE_BLOCK_MEMTYPE(MT_DEVICE_NGNRNE) |
			 PTE_BLOCK_NON_SHARE |
			 PTE_BLOCK_PXN | PTE_BLOCK_UXN
	}, {
		/* Peripherals */
		.virt = 0x2D000000UL,
		.phys = 0x2D000000UL,
		.size = 0x1600000UL,
		.attrs = PTE_BLOCK_MEMTYPE(MT_DEVICE_NGNRNE) |
			 PTE_BLOCK_NON_SHARE |
			 PTE_BLOCK_PXN | PTE_BLOCK_UXN
	}, {
		/* FLEXSPI1-2 */
		.virt = 0x40000000UL,
		.phys = 0x40000000UL,
		.size = 0x40000000UL,
		.attrs = PTE_BLOCK_MEMTYPE(MT_DEVICE_NGNRNE) |
			 PTE_BLOCK_NON_SHARE |
			 PTE_BLOCK_PXN | PTE_BLOCK_UXN
	}, {
		/* DRAM1 */
		.virt = 0x80000000UL,
		.phys = 0x80000000UL,
		.size = PHYS_SDRAM_SIZE,
		.attrs = PTE_BLOCK_MEMTYPE(MT_NORMAL) |
			 PTE_BLOCK_OUTER_SHARE
	}, {
		/*
		 * empty entrie to split table entry 5
		 * if needed when TEEs are used
		 */
		0,
	}, {
		/* List terminator */
		0,
	}
};

struct mm_region *mem_map = imx8ulp_arm64_mem_map;

static unsigned int imx8ulp_find_dram_entry_in_mem_map(void)
{
	int i;

	for (i = 0; i < ARRAY_SIZE(imx8ulp_arm64_mem_map); i++)
		if (imx8ulp_arm64_mem_map[i].phys == CONFIG_SYS_SDRAM_BASE)
			return i;

	hang();	/* Entry not found, this must never happen. */
}

/* simplify the page table size to enhance boot speed */
#define MAX_PTE_ENTRIES		512
#define MAX_MEM_MAP_REGIONS	16
u64 get_page_table_size(void)
{
	u64 one_pt = MAX_PTE_ENTRIES * sizeof(u64);
	u64 size = 0;

	/*
	 * For each memory region, the max table size:
	 * 2 level 3 tables + 2 level 2 tables + 1 level 1 table
	 */
	size = (2 + 2 + 1) * one_pt * MAX_MEM_MAP_REGIONS + one_pt;

	/*
	 * We need to duplicate our page table once to have an emergency pt to
	 * resort to when splitting page tables later on
	 */
	size *= 2;

	/*
	 * We may need to split page tables later on if dcache settings change,
	 * so reserve up to 4 (random pick) page tables for that.
	 */
	size += one_pt * 4;

	return size;
}

void enable_caches(void)
{
	/* If OPTEE runs, remove OPTEE memory from MMU table to avoid speculative prefetch */
	if (rom_pointer[1]) {
		/*
		 * TEE are loaded, So the ddr bank structures
		 * have been modified update mmu table accordingly
		 */
		int i = 0;
		int entry = imx8ulp_find_dram_entry_in_mem_map();
		u64 attrs = imx8ulp_arm64_mem_map[entry].attrs;

		while (i < CONFIG_NR_DRAM_BANKS &&
		       entry < ARRAY_SIZE(imx8ulp_arm64_mem_map)) {
			if (gd->bd->bi_dram[i].start == 0)
				break;
			imx8ulp_arm64_mem_map[entry].phys = gd->bd->bi_dram[i].start;
			imx8ulp_arm64_mem_map[entry].virt = gd->bd->bi_dram[i].start;
			imx8ulp_arm64_mem_map[entry].size = gd->bd->bi_dram[i].size;
			imx8ulp_arm64_mem_map[entry].attrs = attrs;
			debug("Added memory mapping (%d): %llx %llx\n", entry,
			      imx8ulp_arm64_mem_map[entry].phys, imx8ulp_arm64_mem_map[entry].size);
			i++; entry++;
		}
	}

	icache_enable();
	dcache_enable();
}

__weak int board_phys_sdram_size(phys_size_t *size)
{
	if (!size)
		return -EINVAL;

	*size = PHYS_SDRAM_SIZE;
	return 0;
}

int dram_init(void)
{
	unsigned int entry = imx8ulp_find_dram_entry_in_mem_map();
	phys_size_t sdram_size;
	int ret;

	ret = board_phys_sdram_size(&sdram_size);
	if (ret)
		return ret;

	/* rom_pointer[1] contains the size of TEE occupies */
	if (rom_pointer[1])
		gd->ram_size = sdram_size - rom_pointer[1];
	else
		gd->ram_size = sdram_size;

	/* also update the SDRAM size in the mem_map used externally */
	imx8ulp_arm64_mem_map[entry].size = sdram_size;
	return 0;
}

int dram_init_banksize(void)
{
	int bank = 0;
	int ret;
	phys_size_t sdram_size;

	ret = board_phys_sdram_size(&sdram_size);
	if (ret)
		return ret;

	gd->bd->bi_dram[bank].start = PHYS_SDRAM;
	if (rom_pointer[1]) {
		phys_addr_t optee_start = (phys_addr_t)rom_pointer[0];
		phys_size_t optee_size = (size_t)rom_pointer[1];

		gd->bd->bi_dram[bank].size = optee_start - gd->bd->bi_dram[bank].start;
		if ((optee_start + optee_size) < (PHYS_SDRAM + sdram_size)) {
			if (++bank >= CONFIG_NR_DRAM_BANKS) {
				puts("CONFIG_NR_DRAM_BANKS is not enough\n");
				return -1;
			}

			gd->bd->bi_dram[bank].start = optee_start + optee_size;
			gd->bd->bi_dram[bank].size = PHYS_SDRAM +
				sdram_size - gd->bd->bi_dram[bank].start;
		}
	} else {
		gd->bd->bi_dram[bank].size = sdram_size;
	}

	return 0;
}

phys_size_t get_effective_memsize(void)
{
	/* return the first bank as effective memory */
	if (rom_pointer[1])
		return ((phys_addr_t)rom_pointer[0] - PHYS_SDRAM);

	return gd->ram_size;
}

#ifdef CONFIG_ENV_VARS_UBOOT_RUNTIME_CONFIG
void get_board_serial(struct tag_serialnr *serialnr)
{
	u32 uid[4];
	u32 res;
	int ret;

	ret = ahab_read_common_fuse(1, uid, 4, &res);
	if (ret)
		printf("ahab read fuse failed %d, 0x%x\n", ret, res);
	else
		printf("UID 0x%x,0x%x,0x%x,0x%x\n", uid[0], uid[1], uid[2], uid[3]);

	serialnr->low = uid[0];
	serialnr->high = uid[3];
}
#endif

static void set_core0_reset_vector(u32 entry)
{
	/* Update SIM1 DGO8 for reset vector base */
	writel(entry, SIM1_BASE_ADDR + 0x5c);

	/* set update bit */
	setbits_le32(SIM1_BASE_ADDR + 0x8, 0x1 << 24);

	/* polling the ack */
	while ((readl(SIM1_BASE_ADDR + 0x8) & (0x1 << 26)) == 0)
		;

	/* clear the update */
	clrbits_le32(SIM1_BASE_ADDR + 0x8, (0x1 << 24));

	/* clear the ack by set 1 */
	setbits_le32(SIM1_BASE_ADDR + 0x8, (0x1 << 26));
}

static int trdc_set_access(void)
{
	/*
	 * TRDC mgr + 4 MBC + 2 MRC.
	 * S400 should already configure when release RDC
	 * A35 only map non-secure region for pbridge0 and 1, set sec_access to false
	 */
	trdc_mbc_set_access(2, 7, 0, 49, false);
	trdc_mbc_set_access(2, 7, 0, 50, false);
	trdc_mbc_set_access(2, 7, 0, 51, false);
	trdc_mbc_set_access(2, 7, 0, 52, false);
	trdc_mbc_set_access(2, 7, 0, 53, false);
	trdc_mbc_set_access(2, 7, 0, 54, false);

	/* CGC0: PBridge0 slot 47 */
	trdc_mbc_set_access(2, 7, 0, 47, false);

	/* Iomuxc0: : PBridge1 slot 33 */
	trdc_mbc_set_access(2, 7, 1, 33, false);

	/* flexspi0 */
	trdc_mrc_region_set_access(0, 7, 0x04000000, 0x0c000000, false);

	/* tpm0: PBridge1 slot 21 */
	trdc_mbc_set_access(2, 7, 1, 21, false);
	/* lpi2c0: PBridge1 slot 24 */
	trdc_mbc_set_access(2, 7, 1, 24, false);
	return 0;
}

void lpav_configure(bool lpav_to_m33)
{
	if (!lpav_to_m33)
		setbits_le32(SIM_SEC_BASE_ADDR + 0x44, BIT(7)); /* LPAV to APD */

	/* PXP/GPU 2D/3D/DCNANO/MIPI_DSI/EPDC/HIFI4 to APD */
	setbits_le32(SIM_SEC_BASE_ADDR + 0x4c, 0x7F);

	/* LPAV slave/dma2 ch allocation and request allocation to APD */
	writel(0x1f, SIM_SEC_BASE_ADDR + 0x50);
	writel(0xffffffff, SIM_SEC_BASE_ADDR + 0x54);
	writel(0x003fffff, SIM_SEC_BASE_ADDR + 0x58);
}

void load_lposc_fuse(void)
{
	int ret;
	u32 val = 0, val2 = 0, reg;

	ret = fuse_read(25, 0, &val);
	if (ret)
		return; /* failed */

	ret = fuse_read(25, 1, &val2);
	if (ret)
		return; /* failed */

	/* LPOSCCTRL */
	reg = readl(0x2802f304);
	reg &= ~0xff;
	reg |= (val & 0xff);
	writel(reg, 0x2802f304);
}

void set_lpav_qos(void)
{
	/* Set read QoS of dcnano on LPAV NIC */
	writel(0xf, 0x2e447100);
}

int arch_cpu_init(void)
{
	if (IS_ENABLED(CONFIG_SPL_BUILD)) {
		u32 val = 0;
		int ret;
		bool rdc_en = true; /* Default assume DBD_EN is set */

		/* Enable System Reset Interrupt using WDOG_AD */
		setbits_le32(CMC1_BASE_ADDR + 0x8C, BIT(13));
		/* Clear AD_PERIPH Power switch domain out of reset interrupt flag */
		setbits_le32(CMC1_BASE_ADDR + 0x70, BIT(4));

		if (readl(CMC1_BASE_ADDR + 0x90) & BIT(13)) {
			/* Clear System Reset Interrupt Flag Register of WDOG_AD */
			setbits_le32(CMC1_BASE_ADDR + 0x90, BIT(13));
			/* Reset WDOG to clear reset request */
			pcc_reset_peripheral(3, WDOG3_PCC3_SLOT, true);
			pcc_reset_peripheral(3, WDOG3_PCC3_SLOT, false);
		}

		/* Disable wdog */
		init_wdog();

		/* Read DBD_EN fuse */
		ret = fuse_read(8, 1, &val);
		if (!ret)
			rdc_en = !!(val & 0x4000);

		if (get_boot_mode() == SINGLE_BOOT) {
			if (rdc_en)
				release_rdc(RDC_TRDC);

			trdc_set_access();
			lpav_configure(false);
		} else {
			lpav_configure(true);
		}

		/* Release xrdc, then allow A35 to write SRAM2 */
		if (rdc_en)
			release_rdc(RDC_XRDC);

		xrdc_mrc_region_set_access(2, CONFIG_SPL_TEXT_BASE, 0xE00);

		clock_init_early();
	} else {
		/* reconfigure core0 reset vector to ROM */
		set_core0_reset_vector(0x1000);
	}

	return 0;
}

static int imx8ulp_check_mu(void *ctx, struct event *event)
{
	struct udevice *devp;
	int node, ret;

	node = fdt_node_offset_by_compatible(gd->fdt_blob, -1, "fsl,imx8ulp-mu");

	ret = uclass_get_device_by_of_offset(UCLASS_MISC, node, &devp);
	if (ret) {
		printf("could not get S400 mu %d\n", ret);
		return ret;
	}

	return 0;
}
EVENT_SPY(EVT_DM_POST_INIT, imx8ulp_check_mu);

#if defined(CONFIG_SPL_BUILD)
__weak void __noreturn jump_to_image_no_args(struct spl_image_info *spl_image)
{
	debug("image entry point: 0x%lx\n", spl_image->entry_point);

	set_core0_reset_vector((u32)spl_image->entry_point);

	/* Enable the 512KB cache */
	setbits_le32(SIM1_BASE_ADDR + 0x30, (0x1 << 4));

	/* reset core */
	setbits_le32(SIM1_BASE_ADDR + 0x30, (0x1 << 16));

	while (1)
		;
}
#endif

void imx_get_mac_from_fuse(int dev_id, unsigned char *mac)
{
	u32 val[2] = {};
	int ret;

	ret = fuse_read(5, 3, &val[0]);
	if (ret)
		goto err;

	ret = fuse_read(5, 4, &val[1]);
	if (ret)
		goto err;

	mac[0] = val[0];
	mac[1] = val[0] >> 8;
	mac[2] = val[0] >> 16;
	mac[3] = val[0] >> 24;
	mac[4] = val[1];
	mac[5] = val[1] >> 8;

	debug("%s: MAC%d: %02x.%02x.%02x.%02x.%02x.%02x\n",
	      __func__, dev_id, mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]);
	return;
err:
	memset(mac, 0, 6);
	printf("%s: fuse read err: %d\n", __func__, ret);
}

int (*card_emmc_is_boot_part_en)(void) = (void *)0x67cc;
u32 spl_arch_boot_image_offset(u32 image_offset, u32 rom_bt_dev)
{
	/* Hard code for eMMC image_offset on 8ULP ROM, need fix by ROM, temp workaround */
	if (((rom_bt_dev >> 16) & 0xff) == BT_DEV_TYPE_MMC && card_emmc_is_boot_part_en())
		image_offset = 0;

	return image_offset;
}

enum env_location env_get_location(enum env_operation op, int prio)
{
	enum boot_device dev = get_boot_device();
	enum env_location env_loc = ENVL_UNKNOWN;

	if (prio)
		return env_loc;

	switch (dev) {
#ifdef CONFIG_ENV_IS_IN_SPI_FLASH
	case QSPI_BOOT:
		env_loc = ENVL_SPI_FLASH;
		break;
#endif
#ifdef CONFIG_ENV_IS_IN_MMC
	case SD1_BOOT:
	case SD2_BOOT:
	case SD3_BOOT:
	case MMC1_BOOT:
	case MMC2_BOOT:
	case MMC3_BOOT:
		env_loc =  ENVL_MMC;
		break;
#endif
	default:
#if defined(CONFIG_ENV_IS_NOWHERE)
		env_loc = ENVL_NOWHERE;
#endif
		break;
	}

	return env_loc;
}