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/*
* This file is part of the coreboot project.
*
* Copyright 2016 Rockchip 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 <boardid.h>
#include <delay.h>
#include <device/device.h>
#include <device/i2c.h>
#include <gpio.h>
#include <soc/bl31_plat_params.h>
#include <soc/clock.h>
#include <soc/display.h>
#include <soc/grf.h>
#include <soc/i2c.h>
#include <soc/usb.h>
#include <vendorcode/google/chromeos/chromeos.h>
#include "board.h"
/*
* Wifi's PDN/RST line is pulled down by its (unpowered) voltage rails, but
* this reset pin is pulled up by default. Let's drive it low as early as we
* can.
*/
static void deassert_wifi_power(void)
{
gpio_output(GPIO(1, B, 3), 0); /* Assert WLAN_MODULE_RST# */
}
static void configure_emmc(void)
{
/* Host controller does not support programmable clock generator.
* If we don't do this setting, when we use phy to control the
* emmc clock(when clock exceed 50MHz), it will get wrong clock.
*
* Refer to TRM V0.3 Part 1 Chapter 15 PAGE 782 for this register.
* Please search "_CON11[7:0]" to locate register description.
*/
write32(&rk3399_grf->emmccore_con[11], RK_CLRSETBITS(0xff, 0));
rkclk_configure_emmc();
}
static void register_apio_suspend(void)
{
static struct bl31_apio_param param_apio = {
.h = {
.type = PARAM_SUSPEND_APIO,
},
.apio = {
.apio1 = 1,
.apio2 = 1,
.apio3 = 1,
.apio4 = 1,
.apio5 = 1,
},
};
register_bl31_param(¶m_apio.h);
}
static void register_gpio_suspend(void)
{
/*
* These three GPIO params are used to shut down the 1.5V, 1.8V and
* 3.3V power rails, which need to be shut down ordered by voltage,
* with highest voltage first.
* Since register_bl31() appends to the front of the list, we need to
* register them backwards, with 1.5V coming first.
*/
static struct bl31_gpio_param param_p15_en = {
.h = {
.type = PARAM_SUSPEND_GPIO,
},
.gpio = {
.polarity = BL31_GPIO_LEVEL_LOW,
},
};
param_p15_en.gpio.index = GET_GPIO_NUM(GPIO_P15V_EN);
register_bl31_param(¶m_p15_en.h);
static struct bl31_gpio_param param_p18_audio_en = {
.h = {
.type = PARAM_SUSPEND_GPIO,
},
.gpio = {
.polarity = BL31_GPIO_LEVEL_LOW,
},
};
param_p18_audio_en.gpio.index = GET_GPIO_NUM(GPIO_P18V_AUDIO_PWREN);
register_bl31_param(¶m_p18_audio_en.h);
static struct bl31_gpio_param param_p30_en = {
.h = {
.type = PARAM_SUSPEND_GPIO,
},
.gpio = {
.polarity = BL31_GPIO_LEVEL_LOW,
},
};
param_p30_en.gpio.index = GET_GPIO_NUM(GPIO_P30V_EN);
register_bl31_param(¶m_p30_en.h);
}
static void register_reset_to_bl31(void)
{
static struct bl31_gpio_param param_reset = {
.h = {
.type = PARAM_RESET,
},
.gpio = {
.polarity = 1,
},
};
/* gru/kevin reset pin: gpio0b3 */
param_reset.gpio.index = GET_GPIO_NUM(GPIO_RESET),
register_bl31_param(¶m_reset.h);
}
static void register_poweroff_to_bl31(void)
{
static struct bl31_gpio_param param_poweroff = {
.h = {
.type = PARAM_POWEROFF,
},
.gpio = {
.polarity = 1,
},
};
/*
* gru/kevin power off pin: gpio1a6,
* reuse with tsadc int pin, so iomux need set back to
* gpio in BL31 and depthcharge before you setting this gpio
*/
param_poweroff.gpio.index = GET_GPIO_NUM(GPIO_POWEROFF),
register_bl31_param(¶m_poweroff.h);
}
static void configure_sdmmc(void)
{
gpio_output(GPIO(4, D, 5), 1); /* SDMMC_PWR_EN */
gpio_output(GPIO(2, A, 2), 1); /* SDMMC_SDIO_PWR_EN */
/* SDMMC_DET_L is different on Kevin board revision 0. */
if (IS_ENABLED(CONFIG_BOARD_GOOGLE_KEVIN) && (board_id() == 0))
gpio_input(GPIO(4, D, 2));
else
gpio_input(GPIO(4, D, 0));
gpio_output(GPIO(2, D, 4), 0); /* Keep the max voltage */
gpio_input(GPIO(4, B, 0)); /* SDMMC0_D0 remove pull-up */
gpio_input(GPIO(4, B, 1)); /* SDMMC0_D1 remove pull-up */
gpio_input(GPIO(4, B, 2)); /* SDMMC0_D2 remove pull-up */
gpio_input(GPIO(4, B, 3)); /* SDMMC0_D3 remove pull-up */
gpio_input(GPIO(4, B, 4)); /* SDMMC0_CLK remove pull-down */
gpio_input(GPIO(4, B, 5)); /* SDMMC0_CMD remove pull-up */
write32(&rk3399_grf->gpio2_p[2][1], RK_CLRSETBITS(0xfff, 0));
/*
* Set all outputs' drive strength to 8 mA. Group 4 bank B driver
* strength requires three bits per pin. Value of 2 written in that
* three bit field means '8 mA', as deduced from the kernel code.
*
* Thus the six pins involved in SDMMC interface require 18 bits to
* configure drive strength, but each 32 bit register provides only 16
* bits for this setting, this covers 5 pins fully and one bit from
* the 6th pin. Two more bits spill over to the next register. This is
* described on page 378 of rk3399 TRM Version 0.3 Part 1.
*/
write32(&rk3399_grf->gpio4b_e01,
RK_CLRSETBITS(0xffff,
(2 << 0) | (2 << 3) |
(2 << 6) | (2 << 9) | (2 << 12)));
write32(&rk3399_grf->gpio4b_e2, RK_CLRSETBITS(3, 1));
/* And now set the multiplexor to enable SDMMC0. */
write32(&rk3399_grf->iomux_sdmmc, IOMUX_SDMMC);
}
static void configure_codec(void)
{
gpio_input(GPIO(3, D, 0)); /* I2S0_SCLK remove pull-up */
gpio_input(GPIO(3, D, 1)); /* I2S0_RX remove pull-up */
gpio_input(GPIO(3, D, 2)); /* I2S0_TX remove pull-up */
gpio_input(GPIO(3, D, 3)); /* I2S0_SDI0 remove pull-up */
gpio_input(GPIO(3, D, 4)); /* I2S0_SDI1 remove pull-up */
/* GPIO3_D5 (I2S0_SDI2SDO2) not connected */
gpio_input(GPIO(3, D, 6)); /* I2S0_SDO1 remove pull-up */
gpio_input(GPIO(3, D, 7)); /* I2S0_SDO0 remove pull-up */
gpio_input(GPIO(4, A, 0)); /* I2S0_MCLK remove pull-up */
write32(&rk3399_grf->iomux_i2s0, IOMUX_I2S0);
write32(&rk3399_grf->iomux_i2sclk, IOMUX_I2SCLK);
/* AUDIO IO domain 1.8V voltage selection */
write32(&rk3399_grf->io_vsel, RK_SETBITS(1 << 1));
/* CPU1_P1.8V_AUDIO_PWREN for P1.8_AUDIO */
gpio_output(GPIO(0, A, 2), 1);
/* set CPU1_SPK_PA_EN output */
gpio_output(GPIO(1, A, 2), 0);
rkclk_configure_i2s(12288000);
}
static void configure_display(void)
{
/* set pinmux for edp HPD*/
gpio_input_pulldown(GPIO(4, C, 7));
write32(&rk3399_grf->iomux_edp_hotplug, IOMUX_EDP_HOTPLUG);
gpio_output(GPIO(4, D, 3), 1); /* CPU3_EDP_VDDEN for P3.3V_DISP */
}
static void setup_usb(void)
{
/* A few magic PHY tuning values that improve eye diagram amplitude
* and make it extra sure we get reliable communication in firmware. */
/* Set max ODT compensation voltage and current tuning reference. */
write32(&rk3399_grf->usbphy0_ctrl[3], 0x0fff02e3);
write32(&rk3399_grf->usbphy1_ctrl[3], 0x0fff02e3);
/* Set max pre-emphasis level, only on Kevin PHY0 and PHY1,
* and disable the pre-emphasize in eop state to avoid
* mis-trigger the disconnect detection. */
if (IS_ENABLED(CONFIG_BOARD_GOOGLE_KEVIN)) {
write32(&rk3399_grf->usbphy0_ctrl[12], 0xffff00a7);
write32(&rk3399_grf->usbphy1_ctrl[12], 0xffff00a7);
write32(&rk3399_grf->usbphy0_ctrl[0], 0x00010000);
write32(&rk3399_grf->usbphy1_ctrl[0], 0x00010000);
write32(&rk3399_grf->usbphy0_ctrl[13], 0x00010000);
write32(&rk3399_grf->usbphy1_ctrl[13], 0x00010000);
}
setup_usb_otg0();
setup_usb_otg1();
}
static void mainboard_init(device_t dev)
{
deassert_wifi_power();
configure_sdmmc();
configure_emmc();
configure_codec();
configure_display();
setup_usb();
register_reset_to_bl31();
register_poweroff_to_bl31();
register_gpio_suspend();
register_apio_suspend();
}
static void enable_backlight_booster(void)
{
const struct {
uint8_t reg;
uint8_t value;
} i2c_writes[] = {
{1, 0x84},
{1, 0x85},
{0, 0x26}
};
int i;
const int booster_i2c_port = 0;
uint8_t i2c_buf[2];
struct i2c_seg i2c_command = { .read = 0, .chip = 0x2c,
.buf = i2c_buf, .len = sizeof(i2c_buf)
};
/*
* This function is called on Gru right after BL_EN is asserted. It
* takes time for the switcher chip to come online, let's wait a bit
* to let the voltage settle, so that the chip can be accessed.
*/
udelay(1000);
gpio_input(GPIO(1, B, 7)); /* I2C0_SDA remove pull_up */
gpio_input(GPIO(1, C, 0)); /* I2C0_SCL remove pull_up */
i2c_init(0, 100*KHz);
write32(&rk3399_pmugrf->iomux_i2c0_sda, IOMUX_I2C0_SDA);
write32(&rk3399_pmugrf->iomux_i2c0_scl, IOMUX_I2C0_SCL);
for (i = 0; i < ARRAY_SIZE(i2c_writes); i++) {
i2c_buf[0] = i2c_writes[i].reg;
i2c_buf[1] = i2c_writes[i].value;
i2c_transfer(booster_i2c_port, &i2c_command, 1);
}
}
void mainboard_power_on_backlight(void)
{
gpio_output(GPIO(1, C, 1), 1); /* BL_EN */
if (IS_ENABLED(CONFIG_BOARD_GOOGLE_GRU) && board_id() == 0)
enable_backlight_booster();
}
static void mainboard_enable(device_t dev)
{
dev->ops->init = &mainboard_init;
}
struct chip_operations mainboard_ops = {
.name = CONFIG_MAINBOARD_PART_NUMBER,
.enable_dev = mainboard_enable,
};
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