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path: root/src/soc/intel/fsp_baytrail/gpio.c
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/*
 * This file is part of the coreboot project.
 *
 * Copyright (C) 2013 Google Inc.
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; version 2 of the License.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 */

#include <arch/io.h>
#include <device/mmio.h>
#include <device/pci.h>
#include <console/console.h>
#include <soc/gpio.h>
#include <soc/pmc.h>
#include <soc/smm.h>

/*
 * GPIO-to-Pad LUTs
 *
 * These tables translate the GPIO number to the pad configuration register
 * for that GPIO in the memory-mapped pad configuration registers.
 * See the tables:
 *   PCU iLB GPIO CFIO_SCORE Address Map
 *   PCU iLB GPIO CFIO_SSUS Address Map
 */
#ifndef __PRE_RAM__
static const u8 gpncore_gpio_to_pad[GPNCORE_COUNT] =
	{ 19, 18, 17, 20, 21, 22, 24, 25,	/* [ 0: 7] */
	  23, 16, 14, 15, 12, 26, 27,  1,	/* [ 8:15] */
	   4,  8, 11,  0,  3,  6, 10, 13,	/* [16:23] */
	   2,  5,  9 };				/* [24:26] */
#endif

static const u8 gpscore_gpio_to_pad[GPSCORE_COUNT] =
	{  85,  89, 93,  96, 99, 102,  98, 101,	/* [ 0:  7] */
	   34,  37, 36,  38, 39,  35,  40,  84,	/* [ 8: 15] */
	   62,  61, 64,  59, 54,  56,  60,  55,	/* [16: 23] */
	   63,  57, 51,  50, 53,  47,  52,  49,	/* [24: 31] */
	   48,  43, 46,  41, 45,  42,  58,  44,	/* [32: 39] */
	   95, 105, 70,  68, 67,  66,  69,  71,	/* [40: 47] */
	   65,  72, 86,  90, 88,  92, 103,  77,	/* [48: 55] */
	   79,  83, 78,  81, 80,  82,  13,  12,	/* [56: 63] */
	   15,  14, 17,  18, 19,  16,   2,   1,	/* [64: 71] */
	    0,   4,  6,   7,  9,   8,  33,  32,	/* [72: 79] */
	   31,  30, 29,  27, 25,  28,  26,  23,	/* [80: 87] */
	   21,  20, 24,  22,  5,   3,  10,  11,	/* [88: 95] */
	  106,  87, 91, 104, 97, 100 };		/* [96:101] */

static const u8 gpssus_gpio_to_pad[GPSSUS_COUNT] =
	{ 29, 33, 30, 31, 32, 34, 36, 35,	/* [ 0: 7] */
	  38, 37, 18,  7, 11, 20, 17,  1,	/* [ 8:15] */
	   8, 10, 19, 12,  0,  2, 23, 39,	/* [16:23] */
	  28, 27, 22, 21, 24, 25, 26, 51,	/* [24:31] */
	  56, 54, 49, 55, 48, 57, 50, 58,	/* [32:39] */
	  52, 53, 59, 40 };			/* [40:43] */


#ifndef __PRE_RAM__

/* GPIO bank descriptions */
static const struct gpio_bank gpncore_bank = {
	.gpio_count = GPNCORE_COUNT,
	.gpio_to_pad = gpncore_gpio_to_pad,
	.legacy_base = GP_LEGACY_BASE_NONE,
	.pad_base = GPNCORE_PAD_BASE,
	.has_wake_en = 0,
	.gpio_f1_range_start = GPNCORE_GPIO_F1_RANGE_START,
	.gpio_f1_range_end = GPNCORE_GPIO_F1_RANGE_END,
};

static const struct gpio_bank gpscore_bank = {
	.gpio_count = GPSCORE_COUNT,
	.gpio_to_pad = gpscore_gpio_to_pad,
	.legacy_base = GPSCORE_LEGACY_BASE,
	.pad_base = GPSCORE_PAD_BASE,
	.has_wake_en = 0,
	.gpio_f1_range_start = GPSCORE_GPIO_F1_RANGE_START,
	.gpio_f1_range_end = GPSCORE_GPIO_F1_RANGE_END,
};

static const struct gpio_bank gpssus_bank = {
	.gpio_count = GPSSUS_COUNT,
	.gpio_to_pad = gpssus_gpio_to_pad,
	.legacy_base = GPSSUS_LEGACY_BASE,
	.pad_base = GPSSUS_PAD_BASE,
	.has_wake_en = 1,
	.gpio_f1_range_start = GPSSUS_GPIO_F1_RANGE_START,
	.gpio_f1_range_end = GPSSUS_GPIO_F1_RANGE_END,
};


static void setup_gpios(const struct soc_gpio_map *gpios,
			const struct gpio_bank *bank)
{
	const struct soc_gpio_map *config;
	int gpio = 0;
	u32 reg, pad_conf0, *regmmio;
	u8 set, bit;

	u32 use_sel[4] = {0};
	u32 io_sel[4] = {0};
	u32 gp_lvl[4] = {0};
	u32 tpe[4] = {0};
	u32 tne[4] = {0};
	u32 wake_en[4] = {0};

	if (!gpios)
		return;

	for (config = gpios; config->pad_conf0 != GPIO_LIST_END;
	     config++, gpio++) {
		if (gpio > bank->gpio_count)
			break;

		set = gpio >> 5;
		bit = gpio % 32;

		if (bank->legacy_base != GP_LEGACY_BASE_NONE) {
			/* Legacy IO configuration */
			use_sel[set] |= config->use_sel << bit;
			io_sel[set]  |= config->io_sel  << bit;
			gp_lvl[set]  |= config->gp_lvl  << bit;
			tpe[set]     |= config->tpe     << bit;
			tne[set]     |= config->tne     << bit;

			/* Some banks do not have wake_en ability */
			if (bank->has_wake_en)
				wake_en[set] |= config->wake_en << bit;
		}

		/* Pad configuration registers */
		regmmio = (u32 *)(bank->pad_base + 16 *
				  bank->gpio_to_pad[gpio]);

		/* Add correct func to GPIO pad config */
		pad_conf0 = config->pad_conf0;
		if (config->is_gpio)
		{
			if (gpio >= bank->gpio_f1_range_start &&
			    gpio <= bank->gpio_f1_range_end)
				pad_conf0 |= PAD_FUNC1;
			else
				pad_conf0 |= PAD_FUNC0;
		}

#ifdef GPIO_DEBUG
		printk(BIOS_DEBUG, "Write Pad: Base(%p) - %x %x %x\n",
		       regmmio, pad_conf0, config->pad_conf1, config->pad_val);
#endif

		write32(regmmio + (PAD_CONF0_REG/sizeof(u32)), pad_conf0);
		write32(regmmio + (PAD_CONF1_REG/sizeof(u32)),
			config->pad_conf1);
		write32(regmmio + (PAD_VAL_REG/sizeof(u32)), config->pad_val);
	}

	if (bank->legacy_base != GP_LEGACY_BASE_NONE)
		for (set = 0; set <= (bank->gpio_count - 1) / 32; ++set) {
			reg = bank->legacy_base + 0x20 * set;

#ifdef GPIO_DEBUG
			printk(BIOS_DEBUG,
			       "Write GPIO: Reg(%x) - %x %x %x %x %x\n",
				reg, use_sel[set], io_sel[set], gp_lvl[set],
				tpe[set], tne[set]);
#endif

			outl(use_sel[set], reg + LEGACY_USE_SEL_REG);
			outl(io_sel[set], reg + LEGACY_IO_SEL_REG);
			outl(gp_lvl[set], reg + LEGACY_GP_LVL_REG);
			outl(tpe[set], reg + LEGACY_TPE_REG);
			outl(tne[set], reg + LEGACY_TNE_REG);

			/* TS registers are WOC  */
			outl(0, reg + LEGACY_TS_REG);

			if (bank->has_wake_en)
				outl(wake_en[set], reg + LEGACY_WAKE_EN_REG);
		}
}

static void setup_gpio_route(const struct soc_gpio_map *sus,
			     const struct soc_gpio_map *core)
{
	uint32_t route_reg = 0;
	int i;

	for (i = 0; i < 8; i++) {
		/* SMI takes precedence and wake_en implies SCI. */
		if (sus[i].smi) {
			route_reg |= ROUTE_SMI << (2 * i);
		} else if (sus[i].sci) {
			route_reg |= ROUTE_SCI << (2 * i);
		}

		if (core[i].smi) {
			route_reg |= ROUTE_SMI << (2 * (i + 8));
		} else if (core[i].sci) {
			route_reg |= ROUTE_SCI << (2 * (i + 8));
		}
	}

#if CONFIG(HAVE_SMI_HANDLER)
	southcluster_smm_save_gpio_route(route_reg);
#endif
}

static void setup_dirqs(const u8 dirq[GPIO_MAX_DIRQS],
			const struct gpio_bank *bank)
{
	u32 *reg = (u32 *)(bank->pad_base + PAD_BASE_DIRQ_OFFSET);
	u32 val;
	int i;

	/* Write all four DIRQ registers */
	for (i=0; i<4; ++i) {
		val = dirq[i * 4 + 3] << 24 | dirq[i * 4 + 2] << 16 |
		      dirq[i * 4 + 1] << 8  | dirq[i * 4];
		write32(reg + i, val);
#ifdef GPIO_DEBUG
		printk(BIOS_DEBUG, "Write DIRQ reg(%x) - %x\n",
		       reg + i, val);
#endif
	}
}

void setup_soc_gpios(struct soc_gpio_config *config)
{
	if (config) {
		setup_gpios(config->ncore, &gpncore_bank);
		setup_gpios(config->score, &gpscore_bank);
		setup_gpios(config->ssus,  &gpssus_bank);
		setup_gpio_route(config->ssus, config->score);

		if (config->core_dirq)
			setup_dirqs(*config->core_dirq, &gpscore_bank);
		if (config->sus_dirq)
			setup_dirqs(*config->sus_dirq, &gpssus_bank);
	}

}

struct soc_gpio_config* __weak mainboard_get_gpios(void)
{
	printk(BIOS_DEBUG, "Default/empty GPIO config\n");
	return NULL;
}
#endif /* #ifndef __PRE_RAM__ */

/** \brief returns the input / output value from an SCORE GPIO
 *
 * @param gpio_num The GPIO number being read
 * @return The current input or output value of the GPIO
 */
uint8_t read_score_gpio(uint8_t gpio_num)
{
	uint8_t retval = 0;
	if (gpio_num < GPSCORE_COUNT)
		retval = score_get_gpio(gpscore_gpio_to_pad[gpio_num]);

	return retval;
}

/** \brief sets an output SCORE GPIO to desired value
 *
 * @param gpio_num The GPIO number being read
 * @param val The value this output must be set to (0 or 1)
 * @return void
 */
void write_score_gpio(uint8_t gpio_num, uint8_t val)
{
	if (gpio_num < GPSCORE_COUNT)
		score_set_gpio(gpscore_gpio_to_pad[gpio_num], val);
}

/** \brief returns the input / output value from an SSUS GPIO
 *
 * @param gpio_num The GPIO number being read
 * @return The current input or output value of the GPIO
 */
uint8_t read_ssus_gpio(uint8_t gpio_num)
{
	uint8_t retval = 0;
	if (gpio_num < GPSSUS_COUNT)
		retval = ssus_get_gpio(gpssus_gpio_to_pad[gpio_num]);

	return retval;
}

/** \brief sets an output SSUS GPIO to desired value
 *
 * @param gpio_num The GPIO number being read
 * @param val The value this output must be set to (0 or 1)
 * @return void
 */
void write_ssus_gpio(uint8_t gpio_num, uint8_t val)
{
	if (gpio_num < GPSSUS_COUNT)
		ssus_set_gpio(gpssus_gpio_to_pad[gpio_num], val);
}

/** \brief Sets up the function, pulls, and Input/Output of a Baytrail
 *         SSUS (S5) or SCORE (S0) GPIO
 *
 * @param ssus_gpio 1 if SSUS GPIO is being configured 0 if SCORE GPIO
 * @param gpio_num The GPIO number being configured
 * @param pconf0 function, pull direction, and pull value
 *        function: PAD_FUNC0 - PAD_FUNC7
 *        pull assign: PAD_PULL_DISABLE / PAD_PULL_UP / PAD_PULL_DOWN
 *        pull_value: PAD_PU_2K / PAD_PU_10K / PAD_PU_20K / PAD_PU_40K
 * @param pad_val input / output state and pad value
 *        io state:  PAD_VAL_INPUT / PAD_VAL_OUTPUT
 *        pad value: PAD_VAL_HIGH / PAD_VAL_LOW
 */
static void configure_ssus_score_gpio(uint8_t ssus_gpio, uint8_t gpio_num,
				      uint32_t pconf0, uint32_t pad_val)
{
	uint32_t reg;
	uint32_t *pad_addr;
	if (ssus_gpio)
		pad_addr = ssus_pconf0(gpssus_gpio_to_pad[gpio_num]);
	else
		pad_addr = score_pconf0(gpscore_gpio_to_pad[gpio_num]);

	if ((ssus_gpio && gpio_num >= GPSSUS_COUNT) ||
			(gpio_num >= GPSCORE_COUNT)){
		printk(BIOS_WARNING,"Warning: Invalid %s GPIO specified (%d)\n",
				ssus_gpio ? "SSUS" : "SCORE", gpio_num);
		return;
	}

	/*
	 * Pad Configuration 0 Register
	 *  2:0 - func_pin_mux
	 *  8:7 - Pull assignment: 00 - Non pull 01 - Pull Up 10 - Pull down
	 *                         11 - reserved
	 * 10:9 - Pull strength: 00 - 2K 01 - 10K 10 - 20K 11 - 40K
	 */
	reg = PAD_CONFIG0_DEFAULT;
	reg |= pconf0 & 0x787;
	write32(pad_addr + (PAD_CONF0_REG/sizeof(u32)), reg);

	/*
	 * Pad Value Register
	 * 0: Pad value
	 * 1: output enable (0 is enabled)
	 * 2: input enable  (0 is enabled)
	 */
	reg = read32(pad_addr + (PAD_VAL_REG/sizeof(u32)));
	reg &= ~0x7;
	reg |= pad_val & 0x7;
	write32(pad_addr + (PAD_VAL_REG/sizeof(u32)), reg);
}

/** \brief Sets up the function, pulls, and Input/Output of a Baytrail S5 GPIO
 *
 */
void configure_ssus_gpio(uint8_t gpio_num, uint32_t pconf0, uint32_t pad_val)
{
	configure_ssus_score_gpio(1, gpio_num, pconf0, pad_val);
}

/** \brief Sets up the function, pulls, and Input/Output of a Baytrail S5 GPIO
 *
 */
void configure_score_gpio(uint8_t gpio_num, uint32_t pconf0, uint32_t pad_val)
{
	configure_ssus_score_gpio(0, gpio_num, pconf0, pad_val);
}