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/* SPDX-License-Identifier: GPL-2.0-only */
#include <console/console.h>
#include <device/mmio.h>
#include <bootstate.h>
#include <cpu/amd/msr.h>
#include <cpu/x86/smm.h>
#include <cpu/x86/msr.h>
#include <device/device.h>
#include <device/pci.h>
#include <device/pci_ops.h>
#include <cbmem.h>
#include <acpi/acpi_gnvs.h>
#include <amdblocks/amd_pci_util.h>
#include <amdblocks/reset.h>
#include <amdblocks/acpimmio.h>
#include <amdblocks/espi.h>
#include <amdblocks/lpc.h>
#include <amdblocks/acpi.h>
#include <amdblocks/spi.h>
#include <soc/cpu.h>
#include <soc/i2c.h>
#include <soc/southbridge.h>
#include <soc/smi.h>
#include <soc/uart.h>
#include <soc/amd_pci_int_defs.h>
#include <delay.h>
#include <soc/pci_devs.h>
#include <soc/nvs.h>
#include <types.h>
#include "chip.h"
/*
* Table of APIC register index and associated IRQ name. Using IDX_XXX_NAME
* provides a visible association with the index, therefore helping
* maintainability of table. If a new index/name is defined in
* amd_pci_int_defs.h, just add the pair at the end of this table.
* Order is not important.
*/
const static struct irq_idx_name irq_association[] = {
{ PIRQ_A, "INTA#" },
{ PIRQ_B, "INTB#" },
{ PIRQ_C, "INTC#" },
{ PIRQ_D, "INTD#" },
{ PIRQ_E, "INTE#" },
{ PIRQ_F, "INTF#/GENINT2" },
{ PIRQ_G, "INTG#" },
{ PIRQ_H, "INTH#" },
{ PIRQ_MISC, "Misc" },
{ PIRQ_MISC0, "Misc0" },
{ PIRQ_MISC1, "Misc1" },
{ PIRQ_MISC2, "Misc2" },
{ PIRQ_SIRQA, "Ser IRQ INTA" },
{ PIRQ_SIRQB, "Ser IRQ INTB" },
{ PIRQ_SIRQC, "Ser IRQ INTC" },
{ PIRQ_SIRQD, "Ser IRQ INTD" },
{ PIRQ_SCI, "SCI" },
{ PIRQ_SMBUS, "SMBUS" },
{ PIRQ_ASF, "ASF" },
{ PIRQ_PMON, "PerMon" },
{ PIRQ_SD, "SD" },
{ PIRQ_SDIO, "SDIO" },
{ PIRQ_CIR, "CIR" },
{ PIRQ_GPIOA, "GPIOa" },
{ PIRQ_GPIOB, "GPIOb" },
{ PIRQ_GPIOC, "GPIOc" },
{ PIRQ_SATA, "SATA" },
{ PIRQ_EMMC, "eMMC" },
{ PIRQ_GPP0, "GPP0" },
{ PIRQ_GPP1, "GPP1" },
{ PIRQ_GPP2, "GPP2" },
{ PIRQ_GPP3, "GPP3" },
{ PIRQ_GPIO, "GPIO" },
{ PIRQ_I2C0, "I2C0" },
{ PIRQ_I2C1, "I2C1" },
{ PIRQ_I2C2, "I2C2" },
{ PIRQ_I2C3, "I2C3" },
{ PIRQ_UART0, "UART0" },
{ PIRQ_UART1, "UART1" },
{ PIRQ_I2C4, "I2C4" },
{ PIRQ_I2C5, "I2C5" },
{ PIRQ_UART2, "UART2" },
{ PIRQ_UART3, "UART3" },
};
const struct irq_idx_name *sb_get_apic_reg_association(size_t *size)
{
*size = ARRAY_SIZE(irq_association);
return irq_association;
}
static void sb_enable_cf9_io(void)
{
uint32_t reg = pm_read32(PM_DECODE_EN);
pm_write32(PM_DECODE_EN, reg | CF9_IO_EN);
}
static void sb_enable_legacy_io(void)
{
uint32_t reg = pm_read32(PM_DECODE_EN);
pm_write32(PM_DECODE_EN, reg | LEGACY_IO_EN);
}
void sb_clk_output_48Mhz(void)
{
u32 ctrl;
ctrl = misc_read32(MISC_CLK_CNTL1);
ctrl |= BP_X48M0_OUTPUT_EN;
misc_write32(MISC_CLK_CNTL1, ctrl);
}
static void fch_smbus_init(void)
{
/* 400 kHz smbus speed. */
const uint8_t smbus_speed = (66000000 / (400000 * 4));
pm_write8(SMB_ASF_IO_BASE, SMB_BASE_ADDR >> 8);
smbus_write8(SMBTIMING, smbus_speed);
/* Clear all SMBUS status bits */
smbus_write8(SMBHSTSTAT, SMBHST_STAT_CLEAR);
smbus_write8(SMBSLVSTAT, SMBSLV_STAT_CLEAR);
asf_write8(SMBHSTSTAT, SMBHST_STAT_CLEAR);
asf_write8(SMBSLVSTAT, SMBSLV_STAT_CLEAR);
}
static void lpc_configure_decodes(void)
{
if (CONFIG(POST_IO) && (CONFIG_POST_IO_PORT == 0x80))
lpc_enable_port80();
}
/* Before console init */
void fch_pre_init(void)
{
lpc_early_init();
if (!CONFIG(SOC_AMD_COMMON_BLOCK_USE_ESPI))
lpc_configure_decodes();
fch_spi_early_init();
enable_acpimmio_decode_pm04();
fch_smbus_init();
sb_enable_cf9_io();
sb_enable_legacy_io();
enable_aoac_devices();
sb_reset_i2c_slaves();
/*
* On reset Range_0 defaults to enabled. We want to start with a clean
* slate to not have things unexpectedly enabled.
*/
clear_uart_legacy_config();
if (CONFIG(PICASSO_CONSOLE_UART))
set_uart_config(CONFIG_UART_FOR_CONSOLE);
}
static void print_num_status_bits(int num_bits, uint32_t status,
const char *const bit_names[])
{
int i;
if (!status)
return;
for (i = num_bits - 1; i >= 0; i--) {
if (status & (1 << i)) {
if (bit_names[i])
printk(BIOS_DEBUG, "%s ", bit_names[i]);
else
printk(BIOS_DEBUG, "BIT%d ", i);
}
}
}
static void sb_print_pmxc0_status(void)
{
/* PMxC0 S5/Reset Status shows the source of previous reset. */
uint32_t pmxc0_status = pm_read32(PM_RST_STATUS);
static const char *const pmxc0_status_bits[32] = {
[0] = "ThermalTrip",
[1] = "FourSecondPwrBtn",
[2] = "Shutdown",
[3] = "ThermalTripFromTemp",
[4] = "RemotePowerDownFromASF",
[5] = "ShutDownFan0",
[16] = "UserRst",
[17] = "SoftPciRst",
[18] = "DoInit",
[19] = "DoReset",
[20] = "DoFullReset",
[21] = "SleepReset",
[22] = "KbReset",
[23] = "LtReset",
[24] = "FailBootRst",
[25] = "WatchdogIssueReset",
[26] = "RemoteResetFromASF",
[27] = "SyncFlood",
[28] = "HangReset",
[29] = "EcWatchdogRst",
};
printk(BIOS_DEBUG, "PMxC0 STATUS: 0x%x ", pmxc0_status);
print_num_status_bits(ARRAY_SIZE(pmxc0_status_bits), pmxc0_status,
pmxc0_status_bits);
printk(BIOS_DEBUG, "\n");
}
/* After console init */
void fch_early_init(void)
{
sb_print_pmxc0_status();
i2c_soc_early_init();
if (CONFIG(DISABLE_SPI_FLASH_ROM_SHARING))
lpc_disable_spi_rom_sharing();
if (CONFIG(SOC_AMD_COMMON_BLOCK_USE_ESPI)) {
espi_setup();
espi_configure_decodes();
}
}
void sb_enable(struct device *dev)
{
printk(BIOS_DEBUG, "%s\n", __func__);
}
static void sb_init_acpi_ports(void)
{
u32 reg;
msr_t cst_addr;
/* We use some of these ports in SMM regardless of whether or not
* ACPI tables are generated. Enable these ports indiscriminately.
*/
pm_write16(PM_EVT_BLK, ACPI_PM_EVT_BLK);
pm_write16(PM1_CNT_BLK, ACPI_PM1_CNT_BLK);
pm_write16(PM_TMR_BLK, ACPI_PM_TMR_BLK);
pm_write16(PM_GPE0_BLK, ACPI_GPE0_BLK);
/* CpuControl is in \_SB.CP00, 6 bytes */
cst_addr.hi = 0;
cst_addr.lo = ACPI_CPU_CONTROL;
wrmsr(MSR_CSTATE_ADDRESS, cst_addr);
if (CONFIG(HAVE_SMI_HANDLER)) {
/* APMC - SMI Command Port */
pm_write16(PM_ACPI_SMI_CMD, APM_CNT);
configure_smi(SMITYPE_SMI_CMD_PORT, SMI_MODE_SMI);
/* SMI on SlpTyp requires sending SMI before completion
* response of the I/O write. The BKDG also specifies
* clearing ForceStpClkRetry for SMI trapping.
*/
reg = pm_read32(PM_PCI_CTRL);
reg |= FORCE_SLPSTATE_RETRY;
pm_write32(PM_PCI_CTRL, reg);
/* Disable SlpTyp feature */
reg = pm_read8(PM_RST_CTRL1);
reg &= ~SLPTYPE_CONTROL_EN;
pm_write8(PM_RST_CTRL1, reg);
configure_smi(SMITYPE_SLP_TYP, SMI_MODE_SMI);
} else {
pm_write16(PM_ACPI_SMI_CMD, 0);
}
/* Decode ACPI registers and enable standard features */
pm_write8(PM_ACPI_CONF, PM_ACPI_DECODE_STD |
PM_ACPI_GLOBAL_EN |
PM_ACPI_RTC_EN_EN |
PM_ACPI_TIMER_EN_EN);
}
static int get_index_bit(uint32_t value, uint16_t limit)
{
uint16_t i;
uint32_t t;
if (limit >= TOTAL_BITS(uint32_t))
return -1;
/* get a mask of valid bits. Ex limit = 3, set bits 0-2 */
t = (1 << limit) - 1;
if ((value & t) == 0)
return -1;
t = 1;
for (i = 0; i < limit; i++) {
if (value & t)
break;
t <<= 1;
}
return i;
}
static void set_nvs_sws(void *unused)
{
struct soc_power_reg *sws;
struct global_nvs *gnvs;
int index;
sws = cbmem_find(CBMEM_ID_POWER_STATE);
if (sws == NULL)
return;
gnvs = acpi_get_gnvs();
if (gnvs == NULL)
return;
index = get_index_bit(sws->pm1_sts & sws->pm1_en, PM1_LIMIT);
if (index < 0)
gnvs->pm1i = ~0ULL;
else
gnvs->pm1i = index;
index = get_index_bit(sws->gpe0_sts & sws->gpe0_en, GPE0_LIMIT);
if (index < 0)
gnvs->gpei = ~0ULL;
else
gnvs->gpei = index;
}
BOOT_STATE_INIT_ENTRY(BS_OS_RESUME, BS_ON_ENTRY, set_nvs_sws, NULL);
/*
* A-Link to AHB bridge, part of the AMBA fabric. These are internal clocks
* and unneeded for Raven/Picasso so gate them to save power.
*/
static void al2ahb_clock_gate(void)
{
uint8_t al2ahb_val;
uintptr_t al2ahb_base = ALINK_AHB_ADDRESS;
al2ahb_val = read8((void *)(al2ahb_base + AL2AHB_CONTROL_CLK_OFFSET));
al2ahb_val |= AL2AHB_CLK_GATE_EN;
write8((void *)(al2ahb_base + AL2AHB_CONTROL_CLK_OFFSET), al2ahb_val);
al2ahb_val = read8((void *)(al2ahb_base + AL2AHB_CONTROL_HCLK_OFFSET));
al2ahb_val |= AL2AHB_HCLK_GATE_EN;
write8((void *)(al2ahb_base + AL2AHB_CONTROL_HCLK_OFFSET), al2ahb_val);
}
void southbridge_init(void *chip_info)
{
i2c_soc_init();
sb_init_acpi_ports();
acpi_clear_pm1_status();
al2ahb_clock_gate();
}
static void set_sb_final_nvs(void)
{
struct global_nvs *gnvs = acpi_get_gnvs();
if (gnvs == NULL)
return;
gnvs->aoac.ic2e = is_aoac_device_enabled(FCH_AOAC_DEV_I2C2);
gnvs->aoac.ic3e = is_aoac_device_enabled(FCH_AOAC_DEV_I2C3);
gnvs->aoac.ic4e = is_aoac_device_enabled(FCH_AOAC_DEV_I2C4);
gnvs->aoac.ut0e = is_aoac_device_enabled(FCH_AOAC_DEV_UART0);
gnvs->aoac.ut1e = is_aoac_device_enabled(FCH_AOAC_DEV_UART1);
gnvs->aoac.ut2e = is_aoac_device_enabled(FCH_AOAC_DEV_UART2);
gnvs->aoac.ut3e = is_aoac_device_enabled(FCH_AOAC_DEV_UART3);
gnvs->aoac.espi = 1;
}
void southbridge_final(void *chip_info)
{
uint8_t restored_power = PM_S5_AT_POWER_RECOVERY;
if (CONFIG(MAINBOARD_POWER_RESTORE))
restored_power = PM_RESTORE_S0_IF_PREV_S0;
pm_write8(PM_RTC_SHADOW, restored_power);
set_sb_final_nvs();
}
/*
* Update the PCI devices with a valid IRQ number
* that is set in the mainboard PCI_IRQ structures.
*/
static void set_pci_irqs(void *unused)
{
/* Write PCI_INTR regs 0xC00/0xC01 */
write_pci_int_table();
/* Write IRQs for all devicetree enabled devices */
write_pci_cfg_irqs();
}
/*
* Hook this function into the PCI state machine
* on entry into BS_DEV_ENABLE.
*/
BOOT_STATE_INIT_ENTRY(BS_DEV_ENABLE, BS_ON_ENTRY, set_pci_irqs, NULL);
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