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u-boot-brain/arch/arm/cpu/arm926ejs/mxs/spl_boot.c
Marek Vasut 9c2c8a3129 arm: mxs: Adjust the load address of U-Boot and SPL for HAB 
When using HAB, there are additional special requirements on the placement of
U-Boot and the U-Boot SPL in memory. To fullfill these, this patch moves the
U-Boot binary a little further from the begining of the DRAM, so the HAB CST
and IVT can be placed in front of the U-Boot binary. This is necessary, since
both the U-Boot and the IVT must be contained in single CST signature. To
make things worse, the IVT must be concatenated with one more entry at it's
end, that is the length of the entire CST signature, IVT and U-Boot binary
in memory. By placing the blocks in this order -- CST, IVT, U-Boot, we can
easily align them all and then produce the length field as needed.

As for the SPL, on i.MX23/i.MX28, the SPL size is limited to 32 KiB, thus
we place the IVT at 0x8000 offset, CST right past IVT and claim the size
is correct. The HAB library accepts this setup.

Finally, to make sure the vectoring in SPL still works even after moving
the SPL from 0x0 to 0x1000, we add a small function which copies the
vectoring code and tables to 0x0. This is fine, since the vectoring code
is position independent.

Signed-off-by: Marek Vasut <marex@denx.de>
Cc: Stefano Babic <sbabic@denx.de>
2014-03-31 18:28:50 +02:00

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/*
* Freescale i.MX28 Boot setup
*
* Copyright (C) 2011 Marek Vasut <marek.vasut@gmail.com>
* on behalf of DENX Software Engineering GmbH
*
* SPDX-License-Identifier: GPL-2.0+
*/
#include <common.h>
#include <config.h>
#include <asm/io.h>
#include <asm/arch/imx-regs.h>
#include <asm/arch/sys_proto.h>
#include <asm/gpio.h>
#include "mxs_init.h"
/*
* This delay function is intended to be used only in early stage of boot, where
* clock are not set up yet. The timer used here is reset on every boot and
* takes a few seconds to roll. The boot doesn't take that long, so to keep the
* code simple, it doesn't take rolling into consideration.
*/
void early_delay(int delay)
{
struct mxs_digctl_regs *digctl_regs =
(struct mxs_digctl_regs *)MXS_DIGCTL_BASE;
uint32_t st = readl(&digctl_regs->hw_digctl_microseconds);
st += delay;
while (st > readl(&digctl_regs->hw_digctl_microseconds))
;
}
#define MUX_CONFIG_BOOTMODE_PAD (MXS_PAD_3V3 | MXS_PAD_4MA | MXS_PAD_NOPULL)
static const iomux_cfg_t iomux_boot[] = {
#if defined(CONFIG_MX23)
MX23_PAD_LCD_D00__GPIO_1_0 | MUX_CONFIG_BOOTMODE_PAD,
MX23_PAD_LCD_D01__GPIO_1_1 | MUX_CONFIG_BOOTMODE_PAD,
MX23_PAD_LCD_D02__GPIO_1_2 | MUX_CONFIG_BOOTMODE_PAD,
MX23_PAD_LCD_D03__GPIO_1_3 | MUX_CONFIG_BOOTMODE_PAD,
MX23_PAD_LCD_D04__GPIO_1_4 | MUX_CONFIG_BOOTMODE_PAD,
MX23_PAD_LCD_D05__GPIO_1_5 | MUX_CONFIG_BOOTMODE_PAD,
#elif defined(CONFIG_MX28)
MX28_PAD_LCD_D00__GPIO_1_0 | MUX_CONFIG_BOOTMODE_PAD,
MX28_PAD_LCD_D01__GPIO_1_1 | MUX_CONFIG_BOOTMODE_PAD,
MX28_PAD_LCD_D02__GPIO_1_2 | MUX_CONFIG_BOOTMODE_PAD,
MX28_PAD_LCD_D03__GPIO_1_3 | MUX_CONFIG_BOOTMODE_PAD,
MX28_PAD_LCD_D04__GPIO_1_4 | MUX_CONFIG_BOOTMODE_PAD,
MX28_PAD_LCD_D05__GPIO_1_5 | MUX_CONFIG_BOOTMODE_PAD,
#endif
};
static uint8_t mxs_get_bootmode_index(void)
{
uint8_t bootmode = 0;
int i;
uint8_t masked;
/* Setup IOMUX of bootmode pads to GPIO */
mxs_iomux_setup_multiple_pads(iomux_boot, ARRAY_SIZE(iomux_boot));
#if defined(CONFIG_MX23)
/* Setup bootmode pins as GPIO input */
gpio_direction_input(MX23_PAD_LCD_D00__GPIO_1_0);
gpio_direction_input(MX23_PAD_LCD_D01__GPIO_1_1);
gpio_direction_input(MX23_PAD_LCD_D02__GPIO_1_2);
gpio_direction_input(MX23_PAD_LCD_D03__GPIO_1_3);
gpio_direction_input(MX23_PAD_LCD_D05__GPIO_1_5);
/* Read bootmode pads */
bootmode |= (gpio_get_value(MX23_PAD_LCD_D00__GPIO_1_0) ? 1 : 0) << 0;
bootmode |= (gpio_get_value(MX23_PAD_LCD_D01__GPIO_1_1) ? 1 : 0) << 1;
bootmode |= (gpio_get_value(MX23_PAD_LCD_D02__GPIO_1_2) ? 1 : 0) << 2;
bootmode |= (gpio_get_value(MX23_PAD_LCD_D03__GPIO_1_3) ? 1 : 0) << 3;
bootmode |= (gpio_get_value(MX23_PAD_LCD_D05__GPIO_1_5) ? 1 : 0) << 5;
#elif defined(CONFIG_MX28)
/* Setup bootmode pins as GPIO input */
gpio_direction_input(MX28_PAD_LCD_D00__GPIO_1_0);
gpio_direction_input(MX28_PAD_LCD_D01__GPIO_1_1);
gpio_direction_input(MX28_PAD_LCD_D02__GPIO_1_2);
gpio_direction_input(MX28_PAD_LCD_D03__GPIO_1_3);
gpio_direction_input(MX28_PAD_LCD_D04__GPIO_1_4);
gpio_direction_input(MX28_PAD_LCD_D05__GPIO_1_5);
/* Read bootmode pads */
bootmode |= (gpio_get_value(MX28_PAD_LCD_D00__GPIO_1_0) ? 1 : 0) << 0;
bootmode |= (gpio_get_value(MX28_PAD_LCD_D01__GPIO_1_1) ? 1 : 0) << 1;
bootmode |= (gpio_get_value(MX28_PAD_LCD_D02__GPIO_1_2) ? 1 : 0) << 2;
bootmode |= (gpio_get_value(MX28_PAD_LCD_D03__GPIO_1_3) ? 1 : 0) << 3;
bootmode |= (gpio_get_value(MX28_PAD_LCD_D04__GPIO_1_4) ? 1 : 0) << 4;
bootmode |= (gpio_get_value(MX28_PAD_LCD_D05__GPIO_1_5) ? 1 : 0) << 5;
#endif
for (i = 0; i < ARRAY_SIZE(mxs_boot_modes); i++) {
masked = bootmode & mxs_boot_modes[i].boot_mask;
if (masked == mxs_boot_modes[i].boot_pads)
break;
}
return i;
}
static void mxs_spl_fixup_vectors(void)
{
/*
* Copy our vector table to 0x0, since due to HAB, we cannot
* be loaded to 0x0. We want to have working vectoring though,
* thus this fixup. Our vectoring table is PIC, so copying is
* fine.
*/
extern uint32_t _start;
memcpy(0x0, &_start, 0x60);
}
void mxs_common_spl_init(const uint32_t arg, const uint32_t *resptr,
const iomux_cfg_t *iomux_setup,
const unsigned int iomux_size)
{
struct mxs_spl_data *data = (struct mxs_spl_data *)
((CONFIG_SYS_TEXT_BASE - sizeof(struct mxs_spl_data)) & ~0xf);
uint8_t bootmode = mxs_get_bootmode_index();
mxs_spl_fixup_vectors();
mxs_iomux_setup_multiple_pads(iomux_setup, iomux_size);
mxs_power_init();
mxs_mem_init();
data->mem_dram_size = mxs_mem_get_size();
data->boot_mode_idx = bootmode;
mxs_power_wait_pswitch();
}
/* Support aparatus */
inline void board_init_f(unsigned long bootflag)
{
for (;;)
;
}
inline void board_init_r(gd_t *id, ulong dest_addr)
{
for (;;)
;
}
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