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path: root/src/soc/amd/stoneyridge/southbridge.c
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/* SPDX-License-Identifier: GPL-2.0-only */

#include <amdblocks/spi.h>
#include <console/console.h>
#include <device/mmio.h>
#include <bootstate.h>
#include <cpu/x86/smm.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/agesawrapper.h>
#include <amdblocks/aoac.h>
#include <amdblocks/reset.h>
#include <amdblocks/acpimmio.h>
#include <amdblocks/lpc.h>
#include <amdblocks/acpi.h>
#include <amdblocks/pmlib.h>
#include <amdblocks/smbus.h>
#include <amdblocks/smi.h>
#include <soc/southbridge.h>
#include <soc/smi.h>
#include <soc/amd_pci_int_defs.h>
#include <delay.h>
#include <soc/pci_devs.h>
#include <agesa_headers.h>
#include <soc/acpi.h>
#include <soc/aoac_defs.h>
#include <soc/lpc.h>
#include <soc/nvs.h>
#include <types.h>

/*
 * Table of devices that need their AOAC registers enabled and waited
 * upon (usually about .55 milliseconds). Instead of individual delays
 * waiting for each device to become available, a single delay will be
 * executed.
 */
static const unsigned int aoac_devs[] = {
	FCH_AOAC_DEV_UART0 + CONFIG_UART_FOR_CONSOLE * 2,
	FCH_AOAC_DEV_AMBA,
	FCH_AOAC_DEV_I2C0,
	FCH_AOAC_DEV_I2C1,
	FCH_AOAC_DEV_I2C2,
	FCH_AOAC_DEV_I2C3,
};

static int is_sata_config(void)
{
	return !((SataNativeIde == CONFIG_STONEYRIDGE_SATA_MODE)
			|| (SataLegacyIde == CONFIG_STONEYRIDGE_SATA_MODE));
}

static inline int sb_sata_enable(void)
{
	/* True if IDE or AHCI. */
	return (SataNativeIde == CONFIG_STONEYRIDGE_SATA_MODE) ||
		(SataAhci == CONFIG_STONEYRIDGE_SATA_MODE);
}

static inline int sb_ide_enable(void)
{
	/* True if IDE or LEGACY IDE. */
	return (SataNativeIde == CONFIG_STONEYRIDGE_SATA_MODE) ||
		(SataLegacyIde == CONFIG_STONEYRIDGE_SATA_MODE);
}

void SetFchResetParams(FCH_RESET_INTERFACE *params)
{
	const struct device *dev = pcidev_path_on_root(SATA_DEVFN);
	params->Xhci0Enable = CONFIG(STONEYRIDGE_XHCI_ENABLE);
	if (dev && dev->enabled) {
		params->SataEnable = sb_sata_enable();
		params->IdeEnable = sb_ide_enable();
	} else {
		params->SataEnable = FALSE;
		params->IdeEnable = FALSE;
	}
}

void SetFchEnvParams(FCH_INTERFACE *params)
{
	const struct device *dev = pcidev_path_on_root(SATA_DEVFN);
	params->AzaliaController = AzEnable;
	params->SataClass = CONFIG_STONEYRIDGE_SATA_MODE;
	if (dev && dev->enabled) {
		params->SataEnable = is_sata_config();
		params->IdeEnable = !params->SataEnable;
		params->SataIdeMode = (CONFIG_STONEYRIDGE_SATA_MODE ==
					SataLegacyIde);
	} else {
		params->SataEnable = FALSE;
		params->IdeEnable = FALSE;
		params->SataIdeMode = FALSE;
	}
}

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, 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.
 */
static const 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_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" },
};

const struct irq_idx_name *sb_get_apic_reg_association(size_t *size)
{
	*size = ARRAY_SIZE(irq_association);
	return irq_association;
}

void enable_aoac_devices(void)
{
	bool status;
	int i;

	for (i = 0; i < ARRAY_SIZE(aoac_devs); i++)
		power_on_aoac_device(aoac_devs[i]);

	/* Wait for AOAC devices to indicate power and clock OK */
	do {
		udelay(100);
		status = true;
		for (i = 0; i < ARRAY_SIZE(aoac_devs); i++)
			status &= is_aoac_device_enabled(aoac_devs[i]);
	} while (!status);
}

static void sb_enable_lpc(void)
{
	u8 byte;

	/* Enable LPC controller */
	byte = pm_io_read8(PM_LPC_GATING);
	byte |= PM_LPC_ENABLE;
	pm_io_write8(PM_LPC_GATING, byte);
}

static 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;

	/* Decode SIOs at 2E/2F and 4E/4F */
	if (CONFIG(STONEYRIDGE_LEGACY_FREE))
		tmp |= DECODE_ALTERNATE_SIO_ENABLE | DECODE_SIO_ENABLE;

	lpc_enable_decode(tmp);
}

void fch_clk_output_48Mhz(u32 osc)
{
	u32 ctrl;

	/*
	 * Clear the disable for OSCOUT1 (signal typically named XnnM_25M_48M)
	 * or OSCOUT2 (USBCLK/25M_48M_OSC).  The frequency defaults to 48MHz.
	 */
	ctrl = misc_read32(MISC_CLK_CNTL1);

	switch (osc) {
	case 1:
		ctrl &= ~OSCOUT1_CLK_OUTPUT_ENB;
		break;
	case 2:
		ctrl &= ~OSCOUT2_CLK_OUTPUT_ENB;
		break;
	default:
		return; /* do nothing if invalid */
	}
	misc_write32(MISC_CLK_CNTL1, ctrl);
}

static void setup_spread_spectrum(int *reboot)
{
	uint16_t rstcfg = pm_read16(PWR_RESET_CFG);

	rstcfg &= ~TOGGLE_ALL_PWR_GOOD;
	pm_write16(PWR_RESET_CFG, rstcfg);

	uint32_t cntl1 = misc_read32(MISC_CLK_CNTL1);

	if (cntl1 & CG1PLL_FBDIV_TEST) {
		printk(BIOS_DEBUG, "Spread spectrum is ready\n");
		misc_write32(MISC_CGPLL_CONFIG1,
			     misc_read32(MISC_CGPLL_CONFIG1) |
				     CG1PLL_SPREAD_SPECTRUM_ENABLE);

		return;
	}

	printk(BIOS_DEBUG, "Setting up spread spectrum\n");

	uint32_t cfg6 = misc_read32(MISC_CGPLL_CONFIG6);
	cfg6 &= ~CG1PLL_LF_MODE_MASK;
	cfg6 |= (0x0f8 << CG1PLL_LF_MODE_SHIFT) & CG1PLL_LF_MODE_MASK;
	misc_write32(MISC_CGPLL_CONFIG6, cfg6);

	uint32_t cfg3 = misc_read32(MISC_CGPLL_CONFIG3);
	cfg3 &= ~CG1PLL_REFDIV_MASK;
	cfg3 |= (0x003 << CG1PLL_REFDIV_SHIFT) & CG1PLL_REFDIV_MASK;
	cfg3 &= ~CG1PLL_FBDIV_MASK;
	cfg3 |= (0x04b << CG1PLL_FBDIV_SHIFT) & CG1PLL_FBDIV_MASK;
	misc_write32(MISC_CGPLL_CONFIG3, cfg3);

	uint32_t cfg5 = misc_read32(MISC_CGPLL_CONFIG5);
	cfg5 &= ~SS_AMOUNT_NFRAC_SLIP_MASK;
	cfg5 |= (0x2 << SS_AMOUNT_NFRAC_SLIP_SHIFT) & SS_AMOUNT_NFRAC_SLIP_MASK;
	misc_write32(MISC_CGPLL_CONFIG5, cfg5);

	uint32_t cfg4 = misc_read32(MISC_CGPLL_CONFIG4);
	cfg4 &= ~SS_AMOUNT_DSFRAC_MASK;
	cfg4 |= (0xd000 << SS_AMOUNT_DSFRAC_SHIFT) & SS_AMOUNT_DSFRAC_MASK;
	cfg4 &= ~SS_STEP_SIZE_DSFRAC_MASK;
	cfg4 |= (0x02d5 << SS_STEP_SIZE_DSFRAC_SHIFT)
						& SS_STEP_SIZE_DSFRAC_MASK;
	misc_write32(MISC_CGPLL_CONFIG4, cfg4);

	rstcfg |= TOGGLE_ALL_PWR_GOOD;
	pm_write16(PWR_RESET_CFG, rstcfg);

	cntl1 |= CG1PLL_FBDIV_TEST;
	misc_write32(MISC_CLK_CNTL1, cntl1);

	*reboot = 1;
}

static void setup_misc(int *reboot)
{
	/* Undocumented register */
	uint32_t reg = misc_read32(0x50);
	if (!(reg & BIT(16))) {
		reg |= BIT(16);

		misc_write32(0x50, reg);
		*reboot = 1;
	}
}

/* Before console init */
void bootblock_fch_early_init(void)
{
	int reboot = 0;

	/* Enable_acpimmio_decode_pm04 to enable the ACPIMMIO decode which is needed to access
	   the GPIO registers. */
	enable_acpimmio_decode_pm04();
	lpc_enable_rom();
	sb_enable_lpc();
	lpc_enable_port80();
	sb_lpc_decode();
	/* Make sure the base address is predictable */
	lpc_set_spibase(SPI_BASE_ADDRESS);
	fch_spi_early_init();
	fch_smbus_init();
	fch_enable_cf9_io();
	setup_spread_spectrum(&reboot);
	setup_misc(&reboot);

	if (reboot)
		warm_reset();

	fch_enable_legacy_io();
	enable_aoac_devices();

	/* disable the keyboard reset function before mainboard GPIO setup */
	if (CONFIG(DISABLE_KEYBOARD_RESET_PIN))
		fch_disable_kb_rst();
}

/* After console init */
void bootblock_fch_init(void)
{
	pm_set_power_failure_state();
	fch_print_pmxc0_status();
	show_spi_speeds_and_modes();
}

static void fch_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 \_SB.CP00, 6 bytes */
	pm_write16(PM_CPU_CTRL, ACPI_CPU_CONTROL);

	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;
		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 fch_init(void *chip_info)
{
	fch_init_acpi_ports();
}

static void set_sb_aoac(struct aoac_devs *aoac)
{
	const struct device *sd, *sata;

	aoac->ic0e = is_aoac_device_enabled(FCH_AOAC_DEV_I2C0);
	aoac->ic1e = is_aoac_device_enabled(FCH_AOAC_DEV_I2C1);
	aoac->ic2e = is_aoac_device_enabled(FCH_AOAC_DEV_I2C2);
	aoac->ic3e = is_aoac_device_enabled(FCH_AOAC_DEV_I2C3);
	aoac->ut0e = is_aoac_device_enabled(FCH_AOAC_DEV_UART0);
	aoac->ut1e = is_aoac_device_enabled(FCH_AOAC_DEV_UART1);
	aoac->ehce = is_aoac_device_enabled(FCH_AOAC_DEV_USB2);
	aoac->xhce = is_aoac_device_enabled(FCH_AOAC_DEV_USB3);

	/* Rely on these being in sync with devicetree */
	sd = pcidev_path_on_root(SD_DEVFN);
	aoac->sd_e = sd && sd->enabled ? 1 : 0;
	sata = pcidev_path_on_root(SATA_DEVFN);
	aoac->st_e = sata && sata->enabled ? 1 : 0;
	aoac->espi = 1;
}

static void set_sb_gnvs(struct global_nvs *gnvs)
{
	uintptr_t amdfw_rom;
	uintptr_t xhci_fw;
	uintptr_t fwaddr;
	size_t fwsize;

	amdfw_rom = 0x20000 - (0x80000 << CONFIG_AMD_FWM_POSITION_INDEX);
	xhci_fw = read32((void *)(amdfw_rom + XHCI_FW_SIG_OFFSET));

	fwaddr = 2 + read16((void *)(xhci_fw + XHCI_FW_ADDR_OFFSET
			+ XHCI_FW_BOOTRAM_SIZE));
	fwsize = read16((void *)(xhci_fw + XHCI_FW_SIZE_OFFSET
			+ XHCI_FW_BOOTRAM_SIZE));
	gnvs->fw00 = 0;
	gnvs->fw01 = ((32 * KiB) << 16) + 0;
	gnvs->fw02 = fwaddr + XHCI_FW_BOOTRAM_SIZE;
	gnvs->fw03 = fwsize << 16;

	gnvs->eh10 = pci_read_config32(SOC_EHCI1_DEV, PCI_BASE_ADDRESS_0)
			& ~PCI_BASE_ADDRESS_MEM_ATTR_MASK;
}

void fch_final(void *chip_info)
{
	struct global_nvs *gnvs = acpi_get_gnvs();
	if (gnvs) {
		set_sb_aoac(&gnvs->aoac);
		set_sb_gnvs(gnvs);
	}
}

/*
 * 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);