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review.coreboot.org / coreboot / bfb11bec3b3fec638adf864a9b9b2cff6671fed8 / . / src / superio / smsc / sch5545 / sch5545_early_init.c
blob: d77ed0d750c29f3537eb954faf6be9a80424833e [file] [log] [blame]
/* SPDX-License-Identifier: GPL-2.0-only */
#include <arch/io.h>
#include <device/pnp.h>
#include <stdint.h>
#include <device/pnp_ops.h>
#include "sch5545.h"
static void pnp_enter_conf_state(pnp_devfn_t dev)
{
unsigned int port = dev >> 8;
outb(0x55, port);
}
static void pnp_exit_conf_state(pnp_devfn_t dev)
{
unsigned int port = dev >> 8;
outb(0xaa, port);
}
/*
* Set the BAR / iobase for a specific device.
* pnp_devfn_t dev must be in conf state.
* LDN LPC IF must be active.
*/
static void set_iobase(pnp_devfn_t dev, uint16_t device_addr, uint16_t bar_addr)
{
uint16_t bar;
/*
* Set the BAR. We have to flip the BAR due to different register layout:
* - LPC addr LSB on device_addr + 2
* - LPC addr MSB on device_addr + 3
*/
bar = ((bar_addr >> 8) & 0xff) | ((bar_addr & 0xff) << 8);
pnp_set_iobase(dev, device_addr + 2, bar);
}
/*
* Set the IRQ for the specific device.
* pnp_devfn_t dev must be in conf state.
* LDN LPC IF must be active.
*/
static void set_irq(pnp_devfn_t dev, uint8_t irq_device, unsigned int irq)
{
if (irq > 15)
return;
pnp_write_config(dev, SCH5545_IRQ_BASE + irq, irq_device);
}
/*
* sch5545 has 2 LEDs which are accessed via color (1 bit), 2 bits for a
* pattern blink and 1 bit for "code fetch" which means the cpu/mainboard is
* working (always set).
*/
void sch5545_set_led(unsigned int runtime_reg_base, unsigned int color, uint16_t blink)
{
uint8_t val = blink & SCH5545_LED_BLINK_MASK;
val |= SCH5545_LED_CODE_FETCH;
if (color)
val |= SCH5545_LED_COLOR_GREEN;
outb(val, runtime_reg_base + SCH5545_RR_LED);
}
void sch5545_early_init(unsigned int port)
{
pnp_devfn_t dev;
/* Enable SERIRQ */
dev = PNP_DEV(port, SCH5545_LDN_GCONF);
pnp_enter_conf_state(dev);
pnp_set_logical_device(dev);
pnp_write_config(dev, 0x24, pnp_read_config(dev, 0x24) | 0x04);
/* Enable LPC interface */
dev = PNP_DEV(port, SCH5545_LDN_LPC);
pnp_set_logical_device(dev);
pnp_set_enable(dev, 1);
/* Set LPC BAR mask */
pnp_write_config(dev, SCH5545_BAR_LPC_IF, 0x01);
/* BAR valid, Frame/LDN = 0xc */
pnp_write_config(dev, SCH5545_BAR_LPC_IF + 1, SCH5545_LDN_LPC | 0x80);
set_iobase(dev, SCH5545_BAR_LPC_IF, port);
/* Enable Runtime Registers */
/* The Runtime Registers BAR is 0x40 long */
pnp_write_config(dev, SCH5545_BAR_RUNTIME_REG, 0x3f);
/* BAR valid, Frame/LDN = 0xa */
pnp_write_config(dev, SCH5545_BAR_RUNTIME_REG + 1, SCH5545_LDN_RR | 0x80);
/* Map Runtime Registers */
set_iobase(dev, SCH5545_BAR_RUNTIME_REG, SCH5545_RUNTIME_REG_BASE);
dev = PNP_DEV(port, SCH5545_LDN_RR);
pnp_set_logical_device(dev);
pnp_set_enable(dev, 1);
/* Set LED color and indicate BIOS has reached code fetch phase */
sch5545_set_led(SCH5545_RUNTIME_REG_BASE, SCH5545_LED_COLOR_GREEN,
SCH5545_LED_BLINK_ON);
/*
* Clear global PME status and disable PME generation to avoid
* unexpected wakeups or hangs. OS will re-enable it via ACPI.
*/
outb(0, SCH5545_RUNTIME_REG_BASE + SCH5545_RR_PME_EN);
outb(1, SCH5545_RUNTIME_REG_BASE + SCH5545_RR_PME_STS);
/* Configure EMI */
dev = PNP_DEV(port, SCH5545_LDN_LPC);
pnp_set_logical_device(dev);
/* EMI BAR has 11 registers, but vendor sets the mask to 0xf */
pnp_write_config(dev, SCH5545_BAR_EM_IF, 0x0f);
/* BAR valid, Frame/LDN = 0x00 */
pnp_write_config(dev, SCH5545_BAR_EM_IF + 1, SCH5545_LDN_EMI | 0x80);
set_iobase(dev, SCH5545_BAR_EM_IF, SCH5545_EMI_BASE);
pnp_exit_conf_state(dev);
}
void sch5545_enable_uart(unsigned int port, unsigned int uart_no)
{
pnp_devfn_t dev;
if (uart_no > 1)
return;
/* Configure serial port */
dev = PNP_DEV(port, SCH5545_LDN_LPC);
pnp_enter_conf_state(dev);
pnp_set_logical_device(dev);
/* Set UART BAR mask to 0x07 (8 registers) */
pnp_write_config(dev, SCH5545_BAR_UART1 + (4 * uart_no), 0x07);
/* Set BAR valid, Frame/LDN = UART1/2 LDN 0x07/0x08 */
pnp_write_config(dev, SCH5545_BAR_UART1 + (4 * uart_no) + 1,
(SCH5545_LDN_UART1 + uart_no) | 0x80);
set_iobase(dev, SCH5545_BAR_UART1 + (4 * uart_no), (uart_no == 1) ? 0x2f8 : 0x3f8);
/* IRQ 3 for UART2, IRQ4 for UART1 */
set_irq(dev, SCH5545_LDN_UART1 + uart_no, 4 - uart_no);
dev = PNP_DEV(port, SCH5545_LDN_UART1 + uart_no);
pnp_set_logical_device(dev);
pnp_set_enable(dev, 1);
pnp_write_config(dev, SCH5545_UART_CONFIG_SELECT, SCH5545_UART_POWER_VCC);
pnp_exit_conf_state(dev);
}
int sch5545_get_gpio(uint8_t sio_port, uint8_t gpio)
{
pnp_devfn_t dev;
uint16_t runtime_reg_base;
uint8_t gpio_bank, gpio_num;
gpio_bank = gpio / 10;
gpio_num = gpio % 10;
/*
* GPIOs are divided into banks of 8 GPIOs (kind of). Each group starts at decimal
* base, i.e. 8 GPIOs from GPIO000, 8 GPIOs from GPIO010, etc., up to GPIO071 and
* GPIO072 which are an exception (only two GPIOs in the bank 7).
*/
if (gpio_num > 7)
return -1;
else if (gpio_bank == 7 && gpio_num > 1)
return -1;
else if (gpio_bank > 7)
return -1;
dev = PNP_DEV(sio_port, SCH5545_LDN_LPC);
pnp_enter_conf_state(dev);
pnp_set_logical_device(dev);
runtime_reg_base = pnp_read_config(dev, SCH5545_BAR_RUNTIME_REG + 2);
runtime_reg_base |= pnp_read_config(dev, SCH5545_BAR_RUNTIME_REG + 3) << 8;
pnp_exit_conf_state(dev);
if (runtime_reg_base == 0)
return -1;
outb(gpio_bank * 8 + gpio_num, runtime_reg_base + SCH5545_RR_GPIO_SEL);
return inb(runtime_reg_base + SCH5545_RR_GPIO_READ) & 1;
}