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/* SPDX-License-Identifier: GPL-2.0-only */
/*
* Helper functions for dealing with power management registers
* and the differences between PCH variants.
*/
#define __SIMPLE_DEVICE__
#include <acpi/acpi_pm.h>
#include <console/console.h>
#include <device/device.h>
#include <device/mmio.h>
#include <device/pci.h>
#include <device/pci_def.h>
#include <intelblocks/pmclib.h>
#include <intelblocks/rtc.h>
#include <intelblocks/tco.h>
#include <security/vboot/vbnv.h>
#include <soc/espi.h>
#include <soc/gpe.h>
#include <soc/gpio.h>
#include <soc/iomap.h>
#include <soc/pci_devs.h>
#include <soc/pm.h>
#include <soc/smbus.h>
#include <soc/soc_chip.h>
/*
* SMI
*/
const char *const *soc_smi_sts_array(size_t *a)
{
static const char *const smi_sts_bits[] = {
[BIOS_STS_BIT] = "BIOS",
[LEGACY_USB_STS_BIT] = "LEGACY_USB",
[SMI_ON_SLP_EN_STS_BIT] = "SLP_SMI",
[APM_STS_BIT] = "APM",
[SWSMI_TMR_STS_BIT] = "SWSMI_TMR",
[PM1_STS_BIT] = "PM1",
[GPE0_STS_BIT] = "GPE0",
[GPIO_STS_BIT] = "GPI",
[MCSMI_STS_BIT] = "MCSMI",
[DEVMON_STS_BIT] = "DEVMON",
[TCO_STS_BIT] = "TCO",
[PERIODIC_STS_BIT] = "PERIODIC",
[SERIRQ_SMI_STS_BIT] = "SERIRQ_SMI",
[SMBUS_SMI_STS_BIT] = "SMBUS_SMI",
[PCI_EXP_SMI_STS_BIT] = "PCI_EXP_SMI",
[MONITOR_STS_BIT] = "MONITOR",
[SPI_SMI_STS_BIT] = "SPI",
[GPIO_UNLOCK_SMI_STS_BIT] = "GPIO_UNLOCK",
[ESPI_SMI_STS_BIT] = "ESPI_SMI",
};
*a = ARRAY_SIZE(smi_sts_bits);
return smi_sts_bits;
}
/*
* TCO
*/
const char *const *soc_tco_sts_array(size_t *a)
{
static const char *const tco_sts_bits[] = {
[0] = "NMI2SMI",
[1] = "SW_TCO",
[2] = "TCO_INT",
[3] = "TIMEOUT",
[7] = "NEWCENTURY",
[8] = "BIOSWR",
[9] = "DMISCI",
[10] = "DMISMI",
[12] = "DMISERR",
[13] = "SLVSEL",
[16] = "INTRD_DET",
[17] = "SECOND_TO",
[18] = "BOOT",
[20] = "SMLINK_SLV"
};
*a = ARRAY_SIZE(tco_sts_bits);
return tco_sts_bits;
}
/*
* GPE0
*/
const char *const *soc_std_gpe_sts_array(size_t *a)
{
static const char *const gpe_sts_bits[] = {
[1] = "HOTPLUG",
[2] = "SWGPE",
[6] = "TCO_SCI",
[7] = "SMB_WAK",
[9] = "PCI_EXP",
[10] = "BATLOW",
[11] = "PME",
[12] = "ME",
[13] = "PME_B0",
[14] = "eSPI",
[15] = "GPIO Tier-2",
[16] = "LAN_WAKE",
[18] = "WADT"
};
*a = ARRAY_SIZE(gpe_sts_bits);
return gpe_sts_bits;
}
void pmc_set_disb(void)
{
/* Set the DISB after DRAM init */
uint8_t disb_val;
/* Only care about bits [23:16] of register GEN_PMCON_A */
uint8_t *addr = (uint8_t *)(pmc_mmio_regs() + GEN_PMCON_A + 2);
disb_val = read8(addr);
disb_val |= (DISB >> 16);
/* Don't clear bits that are write-1-to-clear */
disb_val &= ~((MS4V | SUS_PWR_FLR) >> 16);
write8(addr, disb_val);
}
void pmc_clear_pmcon_sts(void)
{
uint32_t reg_val;
uint8_t *addr;
addr = pmc_mmio_regs();
reg_val = read32(addr + GEN_PMCON_A);
/* Clear SUS_PWR_FLR, GBL_RST_STS, HOST_RST_STS, PWR_FLR bits
* while retaining MS4V write-1-to-clear bit */
reg_val &= ~(MS4V);
write32((addr + GEN_PMCON_A), reg_val);
}
/*
* PMC controller gets hidden from PCI bus
* during FSP-Silicon init call. Hence PWRMBASE
* can't be accessible using PCI configuration space
* read/write.
*/
uint8_t *pmc_mmio_regs(void)
{
return (void *)(uintptr_t)PCH_PWRM_BASE_ADDRESS;
}
uintptr_t soc_read_pmc_base(void)
{
return (uintptr_t)pmc_mmio_regs();
}
uint32_t *soc_pmc_etr_addr(void)
{
return (uint32_t *)(soc_read_pmc_base() + ETR);
}
void soc_get_gpi_gpe_configs(uint8_t *dw0, uint8_t *dw1, uint8_t *dw2)
{
DEVTREE_CONST struct soc_intel_elkhartlake_config *config;
config = config_of_soc();
/* Assign to out variable */
*dw0 = config->pmc_gpe0_dw0;
*dw1 = config->pmc_gpe0_dw1;
*dw2 = config->pmc_gpe0_dw2;
}
static int rtc_failed(uint32_t gen_pmcon_b)
{
return !!(gen_pmcon_b & RTC_BATTERY_DEAD);
}
int soc_get_rtc_failed(void)
{
const struct chipset_power_state *ps;
if (acpi_pm_state_for_rtc(&ps) < 0)
return 1;
return rtc_failed(ps->gen_pmcon_b);
}
int vbnv_cmos_failed(void)
{
return rtc_failed(read32(pmc_mmio_regs() + GEN_PMCON_B));
}
static inline int deep_s3_enabled(void)
{
uint32_t deep_s3_pol;
deep_s3_pol = read32(pmc_mmio_regs() + S3_PWRGATE_POL);
return !!(deep_s3_pol & (S3DC_GATE_SUS | S3AC_GATE_SUS));
}
/* Return 0, 3, or 5 to indicate the previous sleep state. */
int soc_prev_sleep_state(const struct chipset_power_state *ps, int prev_sleep_state)
{
/*
* Check for any power failure to determine if this a wake from
* S5 because the PCH does not set the WAK_STS bit when waking
* from a true G3 state.
*/
if (ps->gen_pmcon_a & (PWR_FLR | SUS_PWR_FLR))
prev_sleep_state = ACPI_S5;
/*
* If waking from S3 determine if deep S3 is enabled. If not,
* need to check both deep sleep well and normal suspend well.
* Otherwise just check deep sleep well.
*/
if (prev_sleep_state == ACPI_S3) {
/* PWR_FLR represents deep sleep power well loss. */
uint32_t mask = PWR_FLR;
/* If deep s3 isn't enabled check the suspend well too. */
if (!deep_s3_enabled())
mask |= SUS_PWR_FLR;
if (ps->gen_pmcon_a & mask)
prev_sleep_state = ACPI_S5;
}
return prev_sleep_state;
}
void soc_fill_power_state(struct chipset_power_state *ps)
{
uint8_t *pmc;
ps->tco1_sts = tco_read_reg(TCO1_STS);
ps->tco2_sts = tco_read_reg(TCO2_STS);
printk(BIOS_DEBUG, "TCO_STS: %04x %04x\n", ps->tco1_sts, ps->tco2_sts);
pmc = pmc_mmio_regs();
ps->gen_pmcon_a = read32(pmc + GEN_PMCON_A);
ps->gen_pmcon_b = read32(pmc + GEN_PMCON_B);
ps->gblrst_cause[0] = read32(pmc + GBLRST_CAUSE0);
ps->gblrst_cause[1] = read32(pmc + GBLRST_CAUSE1);
printk(BIOS_DEBUG, "GEN_PMCON: %08x %08x\n",
ps->gen_pmcon_a, ps->gen_pmcon_b);
printk(BIOS_DEBUG, "GBLRST_CAUSE: %08x %08x\n",
ps->gblrst_cause[0], ps->gblrst_cause[1]);
}
/* STM Support */
uint16_t get_pmbase(void)
{
return (uint16_t) ACPI_BASE_ADDRESS;
}
/*
* Set which power state system will be after reapplying
* the power (from G3 State)
*/
void pmc_soc_set_afterg3_en(const bool on)
{
uint8_t reg8;
uint8_t *const pmcbase = pmc_mmio_regs();
reg8 = read8(pmcbase + GEN_PMCON_A);
if (on)
reg8 &= ~SLEEP_AFTER_POWER_FAIL;
else
reg8 |= SLEEP_AFTER_POWER_FAIL;
write8(pmcbase + GEN_PMCON_A, reg8);
}
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