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|
/*
* This file is part of the coreboot project.
*
* Copyright (C) 2010-2017 Advanced Micro Devices, 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 <console/console.h>
#include <arch/io.h>
#include <arch/acpi.h>
#include <bootstate.h>
#include <cpu/x86/smm.h>
#include <device/device.h>
#include <device/pci.h>
#include <device/pci_ids.h>
#include <device/pci_ops.h>
#include <cbmem.h>
#include <amdblocks/amd_pci_util.h>
#include <soc/southbridge.h>
#include <soc/smi.h>
#include <soc/amd_pci_int_defs.h>
#include <fchec.h>
#include <delay.h>
#include <soc/pci_devs.h>
#include <agesa_headers.h>
static int is_sata_config(void)
{
return !((CONFIG_STONEYRIDGE_SATA_MODE == SataNativeIde)
|| (CONFIG_STONEYRIDGE_SATA_MODE == SataLegacyIde));
}
void SetFchResetParams(FCH_RESET_INTERFACE *params)
{
params->Xhci0Enable = IS_ENABLED(CONFIG_STONEYRIDGE_XHCI_ENABLE);
params->SataEnable = is_sata_config();
params->IdeEnable = !params->SataEnable;
}
void SetFchEnvParams(FCH_INTERFACE *params)
{
params->AzaliaController = AzEnable;
params->SataClass = CONFIG_STONEYRIDGE_SATA_MODE;
params->SataEnable = is_sata_config();
params->IdeEnable = !params->SataEnable;
params->SataIdeMode = (CONFIG_STONEYRIDGE_SATA_MODE == SataLegacyIde);
}
void SetFchMidParams(FCH_INTERFACE *params)
{
SetFchEnvParams(params);
}
/*
* Table of APIC register index and associated IRQ name. Using IDX_XXX_NAME
* provides a visible association with the index, therefor 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#" },
{ 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_HDA, "HDA" },
{ PIRQ_FC, "FC" },
{ PIRQ_PMON, "PerMon" },
{ PIRQ_SD, "SD" },
{ PIRQ_SDIO, "SDIOt" },
{ PIRQ_IMC0, "IMC INT0" },
{ PIRQ_IMC1, "IMC INT1" },
{ PIRQ_IMC2, "IMC INT2" },
{ PIRQ_IMC3, "IMC INT3" },
{ PIRQ_IMC4, "IMC INT4" },
{ PIRQ_IMC5, "IMC INT5" },
{ PIRQ_EHCI, "EHCI" },
{ PIRQ_XHCI, "XHCI" },
{ PIRQ_SATA, "SATA" },
{ PIRQ_GPIO, "GPIO" },
{ PIRQ_I2C0, "I2C0" },
{ PIRQ_I2C1, "I2C1" },
{ PIRQ_I2C2, "I2C2" },
{ PIRQ_I2C3, "I2C3" },
{ PIRQ_UART0, "UART0" },
{ PIRQ_UART1, "UART1" },
};
/*
* Structure to simplify code obtaining the total of used wide IO
* registers and the size assigned to each.
*/
static struct wide_io_ioport_and_bits {
uint32_t enable;
uint16_t port;
uint8_t alt;
} wio_io_en[TOTAL_WIDEIO_PORTS] = {
{
LPC_WIDEIO0_ENABLE,
LPC_WIDEIO_GENERIC_PORT,
LPC_ALT_WIDEIO0_ENABLE
},
{
LPC_WIDEIO1_ENABLE,
LPC_WIDEIO1_GENERIC_PORT,
LPC_ALT_WIDEIO1_ENABLE
},
{
LPC_WIDEIO2_ENABLE,
LPC_WIDEIO2_GENERIC_PORT,
LPC_ALT_WIDEIO2_ENABLE
}
};
const struct irq_idx_name *sb_get_apic_reg_association(size_t *size)
{
*size = ARRAY_SIZE(irq_association);
return irq_association;
}
/**
* @brief Find the size of a particular wide IO
*
* @param index = index of desired wide IO
*
* @return size of desired wide IO
*/
uint16_t sb_wideio_size(int index)
{
uint32_t enable_register;
uint16_t size = 0;
uint8_t alternate_register;
if (index >= TOTAL_WIDEIO_PORTS)
return size;
enable_register = pci_read_config32(SOC_LPC_DEV,
LPC_IO_OR_MEM_DECODE_ENABLE);
alternate_register = pci_read_config8(SOC_LPC_DEV,
LPC_ALT_WIDEIO_RANGE_ENABLE);
if (enable_register & wio_io_en[index].enable)
size = (alternate_register & wio_io_en[index].alt) ?
16 : 512;
return size;
}
/**
* @brief Identify if any LPC wide IO is covering the IO range
*
* @param start = start of IO range
* @param size = size of IO range
*
* @return Index of wide IO covering the range or error
*/
int sb_find_wideio_range(uint16_t start, uint16_t size)
{
uint32_t enable_register;
int i, index = WIDEIO_RANGE_ERROR;
uint16_t end, current_size, start_wideio, end_wideio;
end = start + size;
enable_register = pci_read_config32(SOC_LPC_DEV,
LPC_IO_OR_MEM_DECODE_ENABLE);
for (i = 0; i < TOTAL_WIDEIO_PORTS; i++) {
current_size = sb_wideio_size(i);
if (current_size == 0)
continue;
start_wideio = pci_read_config16(SOC_LPC_DEV,
wio_io_en[i].port);
end_wideio = start_wideio + current_size;
if ((start >= start_wideio) && (end <= end_wideio)) {
index = i;
break;
}
}
return index;
}
/**
* @brief Program a LPC wide IO to support an IO range
*
* @param start = start of range to be routed through wide IO
* @param size = size of range to be routed through wide IO
*
* @return Index of wide IO register used or error
*/
int sb_set_wideio_range(uint16_t start, uint16_t size)
{
int i, index = WIDEIO_RANGE_ERROR;
uint32_t enable_register;
uint8_t alternate_register;
enable_register = pci_read_config32(SOC_LPC_DEV,
LPC_IO_OR_MEM_DECODE_ENABLE);
alternate_register = pci_read_config8(SOC_LPC_DEV,
LPC_ALT_WIDEIO_RANGE_ENABLE);
for (i = 0; i < TOTAL_WIDEIO_PORTS; i++) {
if (enable_register & wio_io_en[i].enable)
continue;
index = i;
pci_write_config16(SOC_LPC_DEV, wio_io_en[i].port, start);
enable_register |= wio_io_en[i].enable;
pci_write_config32(SOC_LPC_DEV, LPC_IO_OR_MEM_DECODE_ENABLE,
enable_register);
if (size <= 16)
alternate_register |= wio_io_en[i].alt;
else
alternate_register &= ~wio_io_en[i].alt;
pci_write_config8(SOC_LPC_DEV,
LPC_ALT_WIDEIO_RANGE_ENABLE,
alternate_register);
break;
}
return index;
}
void configure_stoneyridge_uart(void)
{
u8 byte, byte2;
if (CONFIG_UART_FOR_CONSOLE < 0 || CONFIG_UART_FOR_CONSOLE > 1)
return;
/* Power on the UART and AMBA devices */
byte = read8((void *)ACPI_MMIO_BASE + AOAC_BASE + FCH_AOAC_REG56
+ CONFIG_UART_FOR_CONSOLE * 2);
byte |= AOAC_PWR_ON_DEV;
write8((void *)ACPI_MMIO_BASE + AOAC_BASE + FCH_AOAC_REG56
+ CONFIG_UART_FOR_CONSOLE * 2, byte);
byte = read8((void *)ACPI_MMIO_BASE + AOAC_BASE + FCH_AOAC_REG62);
byte |= AOAC_PWR_ON_DEV;
write8((void *)ACPI_MMIO_BASE + AOAC_BASE + FCH_AOAC_REG62, byte);
/* Set the GPIO mux to UART */
write8((void *)FCH_IOMUXx89_UART0_RTS_L_EGPIO137, 0);
write8((void *)FCH_IOMUXx8A_UART0_TXD_EGPIO138, 0);
write8((void *)FCH_IOMUXx8E_UART1_RTS_L_EGPIO142, 0);
write8((void *)FCH_IOMUXx8F_UART1_TXD_EGPIO143, 0);
/* Wait for the UART and AMBA devices to indicate power and clock OK */
do {
udelay(100);
byte = read8((void *)ACPI_MMIO_BASE + AOAC_BASE + FCH_AOAC_REG57
+ CONFIG_UART_FOR_CONSOLE * 2);
byte &= (A0AC_PWR_RST_STATE | AOAC_RST_CLK_OK_STATE);
byte2 = read8((void *)ACPI_MMIO_BASE + AOAC_BASE
+ FCH_AOAC_REG63);
byte2 &= (A0AC_PWR_RST_STATE | AOAC_RST_CLK_OK_STATE);
} while (!((byte == (A0AC_PWR_RST_STATE | AOAC_RST_CLK_OK_STATE)) &&
(byte2 == (A0AC_PWR_RST_STATE | AOAC_RST_CLK_OK_STATE))));
}
void sb_pci_port80(void)
{
u8 byte;
byte = pci_read_config8(SOC_LPC_DEV, LPC_IO_OR_MEM_DEC_EN_HIGH);
byte &= ~DECODE_IO_PORT_ENABLE4_H; /* disable lpc port 80 */
pci_write_config8(SOC_LPC_DEV, LPC_IO_OR_MEM_DEC_EN_HIGH, byte);
}
void sb_lpc_port80(void)
{
u8 byte;
/* Enable LPC controller */
outb(PM_LPC_GATING, PM_INDEX);
byte = inb(PM_DATA);
byte |= PM_LPC_ENABLE;
outb(PM_LPC_GATING, PM_INDEX);
outb(byte, PM_DATA);
/* Enable port 80 LPC decode in pci function 3 configuration space. */
byte = pci_read_config8(SOC_LPC_DEV, LPC_IO_OR_MEM_DEC_EN_HIGH);
byte |= DECODE_IO_PORT_ENABLE4_H; /* enable port 80 */
pci_write_config8(SOC_LPC_DEV, LPC_IO_OR_MEM_DEC_EN_HIGH, byte);
}
void sb_lpc_decode(void)
{
u32 tmp = 0;
/* Enable I/O decode to LPC bus */
tmp = DECODE_ENABLE_PARALLEL_PORT0 | DECODE_ENABLE_PARALLEL_PORT2
| DECODE_ENABLE_PARALLEL_PORT4 | DECODE_ENABLE_SERIAL_PORT0
| DECODE_ENABLE_SERIAL_PORT1 | DECODE_ENABLE_SERIAL_PORT2
| DECODE_ENABLE_SERIAL_PORT3 | DECODE_ENABLE_SERIAL_PORT4
| DECODE_ENABLE_SERIAL_PORT5 | DECODE_ENABLE_SERIAL_PORT6
| DECODE_ENABLE_SERIAL_PORT7 | DECODE_ENABLE_AUDIO_PORT0
| DECODE_ENABLE_AUDIO_PORT1 | DECODE_ENABLE_AUDIO_PORT2
| DECODE_ENABLE_AUDIO_PORT3 | DECODE_ENABLE_MSS_PORT2
| DECODE_ENABLE_MSS_PORT3 | DECODE_ENABLE_FDC_PORT0
| DECODE_ENABLE_FDC_PORT1 | DECODE_ENABLE_GAME_PORT
| DECODE_ENABLE_KBC_PORT | DECODE_ENABLE_ACPIUC_PORT
| DECODE_ENABLE_ADLIB_PORT;
pci_write_config32(SOC_LPC_DEV, LPC_IO_PORT_DECODE_ENABLE, tmp);
}
void sb_clk_output_48Mhz(void)
{
u32 ctrl;
/*
* Enable the X14M_25M_48M_OSC pin and leaving it at it's default so
* 48Mhz will be on ball AP13 (FT3b package)
*/
ctrl = read32((void *)(ACPI_MMIO_BASE + MISC_BASE + FCH_MISC_REG40));
/* clear the OSCOUT1_ClkOutputEnb to enable the 48 Mhz clock */
ctrl &= ~FCH_MISC_REG40_OSCOUT1_EN;
write32((void *)(ACPI_MMIO_BASE + MISC_BASE + FCH_MISC_REG40), ctrl);
}
static uintptr_t sb_spibase(void)
{
u32 base, enables;
/* Make sure the base address is predictable */
base = pci_read_config32(SOC_LPC_DEV, SPIROM_BASE_ADDRESS_REGISTER);
enables = base & 0xf;
base &= ~0x3f;
if (!base) {
base = SPI_BASE_ADDRESS;
pci_write_config32(SOC_LPC_DEV, SPIROM_BASE_ADDRESS_REGISTER,
base | enables | SPI_ROM_ENABLE);
/* PCI_COMMAND_MEMORY is read-only and enabled. */
}
return (uintptr_t)base;
}
void sb_set_spi100(u16 norm, u16 fast, u16 alt, u16 tpm)
{
uintptr_t base = sb_spibase();
write16((void *)base + SPI100_SPEED_CONFIG,
(norm << SPI_NORM_SPEED_NEW_SH) |
(fast << SPI_FAST_SPEED_NEW_SH) |
(alt << SPI_ALT_SPEED_NEW_SH) |
(tpm << SPI_TPM_SPEED_NEW_SH));
write16((void *)base + SPI100_ENABLE, SPI_USE_SPI100);
}
void sb_disable_4dw_burst(void)
{
uintptr_t base = sb_spibase();
write16((void *)base + SPI100_HOST_PREF_CONFIG,
read16((void *)base + SPI100_HOST_PREF_CONFIG)
& ~SPI_RD4DW_EN_HOST);
}
void sb_set_readspeed(u16 norm, u16 fast)
{
uintptr_t base = sb_spibase();
write16((void *)base + SPI_CNTRL1, (read16((void *)base + SPI_CNTRL1)
& ~SPI_CNTRL1_SPEED_MASK)
| (norm << SPI_NORM_SPEED_SH)
| (fast << SPI_FAST_SPEED_SH));
}
void sb_read_mode(u32 mode)
{
uintptr_t base = sb_spibase();
write32((void *)base + SPI_CNTRL0,
(read32((void *)base + SPI_CNTRL0)
& ~SPI_READ_MODE_MASK) | mode);
}
void sb_tpm_decode_spi(void)
{
u32 spibase = pci_read_config32(SOC_LPC_DEV,
SPIROM_BASE_ADDRESS_REGISTER);
pci_write_config32(SOC_LPC_DEV, SPIROM_BASE_ADDRESS_REGISTER, spibase
| ROUTE_TPM_2_SPI);
}
/*
* Enable 4MB (LPC) ROM access at 0xFFC00000 - 0xFFFFFFFF.
*
* Hardware should enable LPC ROM by pin straps. This function does not
* handle the theoretically possible PCI ROM, FWH, or SPI ROM configurations.
*
* The southbridge power-on default is to map 512K ROM space.
*
*/
void sb_enable_rom(void)
{
u8 reg8;
/*
* Decode variable LPC ROM address ranges 1 and 2.
* Bits 3-4 are not defined in any publicly available datasheet
*/
reg8 = pci_read_config8(SOC_LPC_DEV, LPC_IO_OR_MEM_DECODE_ENABLE);
reg8 |= (1 << 3) | (1 << 4);
pci_write_config8(SOC_LPC_DEV, LPC_IO_OR_MEM_DECODE_ENABLE, reg8);
/*
* LPC ROM address range 1:
* Enable LPC ROM range mirroring start at 0x000e(0000).
*/
pci_write_config16(SOC_LPC_DEV, ROM_ADDRESS_RANGE1_START, 0x000e);
/* Enable LPC ROM range mirroring end at 0x000f(ffff). */
pci_write_config16(SOC_LPC_DEV, ROM_ADDRESS_RANGE1_END, 0x000f);
/*
* LPC ROM address range 2:
*
* Enable LPC ROM range start at:
* 0xfff8(0000): 512KB
* 0xfff0(0000): 1MB
* 0xffe0(0000): 2MB
* 0xffc0(0000): 4MB
*/
pci_write_config16(SOC_LPC_DEV, ROM_ADDRESS_RANGE2_START, 0x10000
- (CONFIG_COREBOOT_ROMSIZE_KB >> 6));
/* Enable LPC ROM range end at 0xffff(ffff). */
pci_write_config16(SOC_LPC_DEV, ROM_ADDRESS_RANGE2_END, 0xffff);
}
void bootblock_fch_early_init(void)
{
sb_enable_rom();
sb_lpc_port80();
sb_lpc_decode();
}
int s3_save_nvram_early(u32 dword, int size, int nvram_pos)
{
int i;
printk(BIOS_DEBUG, "Writing %x of size %d to nvram pos: %d\n",
dword, size, nvram_pos);
for (i = 0; i < size; i++) {
outb(nvram_pos, BIOSRAM_INDEX);
outb((dword >> (8 * i)) & 0xff, BIOSRAM_DATA);
nvram_pos++;
}
return nvram_pos;
}
int s3_load_nvram_early(int size, u32 *old_dword, int nvram_pos)
{
u32 data = *old_dword;
int i;
for (i = 0; i < size; i++) {
outb(nvram_pos, BIOSRAM_INDEX);
data &= ~(0xff << (i * 8));
data |= inb(BIOSRAM_DATA) << (i * 8);
nvram_pos++;
}
*old_dword = data;
printk(BIOS_DEBUG, "Loading %x of size %d to nvram pos:%d\n",
*old_dword, size, nvram_pos-size);
return nvram_pos;
}
int acpi_get_sleep_type(void)
{
return acpi_sleep_from_pm1(inw(pm_acpi_pm_cnt_blk()));
}
void sb_enable(device_t dev)
{
printk(BIOS_DEBUG, "%s\n", __func__);
}
static void sb_init_acpi_ports(void)
{
u32 reg;
/* 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 \_PR.CP00, 6 bytes */
pm_write16(PM_CPU_CTRL, ACPI_CPU_CONTROL);
if (IS_ENABLED(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;
reg &= ~FORCE_STPCLK_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);
}
void southbridge_init(void *chip_info)
{
sb_init_acpi_ports();
}
void southbridge_final(void *chip_info)
{
if (IS_ENABLED(CONFIG_STONEYRIDGE_IMC_FWM)) {
agesawrapper_fchecfancontrolservice();
if (!IS_ENABLED(CONFIG_ACPI_ENABLE_THERMAL_ZONE))
enable_imc_thermal_zone();
}
}
/*
* 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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