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|
/*
* This file is part of the coreboot project.
*
* Copyright (C) 2009 coresystems GmbH
* Copyright (C) 2014 Google Inc.
* Copyright (C) 2015 Intel Corporation.
*
* 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 <arch/acpi.h>
#include <arch/acpigen.h>
#include <arch/cpu.h>
#include <arch/io.h>
#include <arch/ioapic.h>
#include <arch/smp/mpspec.h>
#include <cbmem.h>
#include <chip.h>
#include <compiler.h>
#include <console/console.h>
#include <cpu/cpu.h>
#include <cpu/x86/smm.h>
#include <cpu/x86/msr.h>
#include <cpu/x86/tsc.h>
#include <cpu/intel/common/common.h>
#include <cpu/intel/turbo.h>
#include <ec/google/chromeec/ec.h>
#include <intelblocks/cpulib.h>
#include <intelblocks/lpc_lib.h>
#include <intelblocks/p2sb.h>
#include <intelblocks/sgx.h>
#include <intelblocks/uart.h>
#include <intelblocks/systemagent.h>
#include <soc/intel/common/acpi.h>
#include <soc/acpi.h>
#include <soc/cpu.h>
#include <soc/iomap.h>
#include <soc/msr.h>
#include <soc/p2sb.h>
#include <soc/pci_devs.h>
#include <soc/pm.h>
#include <soc/ramstage.h>
#include <soc/systemagent.h>
#include <string.h>
#include <types.h>
#include <vendorcode/google/chromeos/gnvs.h>
#include <wrdd.h>
#include <device/pci_ops.h>
/*
* List of suported C-states in this processor.
*/
enum {
C_STATE_C0, /* 0 */
C_STATE_C1, /* 1 */
C_STATE_C1E, /* 2 */
C_STATE_C3, /* 3 */
C_STATE_C6_SHORT_LAT, /* 4 */
C_STATE_C6_LONG_LAT, /* 5 */
C_STATE_C7_SHORT_LAT, /* 6 */
C_STATE_C7_LONG_LAT, /* 7 */
C_STATE_C7S_SHORT_LAT, /* 8 */
C_STATE_C7S_LONG_LAT, /* 9 */
C_STATE_C8, /* 10 */
C_STATE_C9, /* 11 */
C_STATE_C10, /* 12 */
NUM_C_STATES
};
#define MWAIT_RES(state, sub_state) \
{ \
.addrl = (((state) << 4) | (sub_state)), \
.space_id = ACPI_ADDRESS_SPACE_FIXED, \
.bit_width = ACPI_FFIXEDHW_VENDOR_INTEL, \
.bit_offset = ACPI_FFIXEDHW_CLASS_MWAIT, \
.access_size = ACPI_FFIXEDHW_FLAG_HW_COORD, \
}
static acpi_cstate_t cstate_map[NUM_C_STATES] = {
[C_STATE_C0] = { },
[C_STATE_C1] = {
.latency = 0,
.power = C1_POWER,
.resource = MWAIT_RES(0, 0),
},
[C_STATE_C1E] = {
.latency = 0,
.power = C1_POWER,
.resource = MWAIT_RES(0, 1),
},
[C_STATE_C3] = {
.latency = C_STATE_LATENCY_FROM_LAT_REG(0),
.power = C3_POWER,
.resource = MWAIT_RES(1, 0),
},
[C_STATE_C6_SHORT_LAT] = {
.latency = C_STATE_LATENCY_FROM_LAT_REG(1),
.power = C6_POWER,
.resource = MWAIT_RES(2, 0),
},
[C_STATE_C6_LONG_LAT] = {
.latency = C_STATE_LATENCY_FROM_LAT_REG(2),
.power = C6_POWER,
.resource = MWAIT_RES(2, 1),
},
[C_STATE_C7_SHORT_LAT] = {
.latency = C_STATE_LATENCY_FROM_LAT_REG(1),
.power = C7_POWER,
.resource = MWAIT_RES(3, 0),
},
[C_STATE_C7_LONG_LAT] = {
.latency = C_STATE_LATENCY_FROM_LAT_REG(2),
.power = C7_POWER,
.resource = MWAIT_RES(3, 1),
},
[C_STATE_C7S_SHORT_LAT] = {
.latency = C_STATE_LATENCY_FROM_LAT_REG(1),
.power = C7_POWER,
.resource = MWAIT_RES(3, 2),
},
[C_STATE_C7S_LONG_LAT] = {
.latency = C_STATE_LATENCY_FROM_LAT_REG(2),
.power = C7_POWER,
.resource = MWAIT_RES(3, 3),
},
[C_STATE_C8] = {
.latency = C_STATE_LATENCY_FROM_LAT_REG(3),
.power = C8_POWER,
.resource = MWAIT_RES(4, 0),
},
[C_STATE_C9] = {
.latency = C_STATE_LATENCY_FROM_LAT_REG(4),
.power = C9_POWER,
.resource = MWAIT_RES(5, 0),
},
[C_STATE_C10] = {
.latency = C_STATE_LATENCY_FROM_LAT_REG(5),
.power = C10_POWER,
.resource = MWAIT_RES(6, 0),
},
};
static int cstate_set_s0ix[] = {
C_STATE_C1E,
C_STATE_C7S_LONG_LAT,
C_STATE_C10
};
static int cstate_set_non_s0ix[] = {
C_STATE_C1E,
C_STATE_C3,
C_STATE_C7S_LONG_LAT,
};
static int get_cores_per_package(void)
{
struct cpuinfo_x86 c;
struct cpuid_result result;
int cores = 1;
get_fms(&c, cpuid_eax(1));
if (c.x86 != 6)
return 1;
result = cpuid_ext(0xb, 1);
cores = result.ebx & 0xff;
return cores;
}
static void acpi_create_gnvs(global_nvs_t *gnvs)
{
const struct device *dev = dev_find_slot(0, PCH_DEVFN_LPC);
const struct soc_intel_skylake_config *config = dev->chip_info;
/* Set unknown wake source */
gnvs->pm1i = -1;
/* CPU core count */
gnvs->pcnt = dev_count_cpu();
#if IS_ENABLED(CONFIG_CONSOLE_CBMEM)
/* Update the mem console pointer. */
gnvs->cbmc = (u32)cbmem_find(CBMEM_ID_CONSOLE);
#endif
#if IS_ENABLED(CONFIG_CHROMEOS)
/* Initialize Verified Boot data */
chromeos_init_chromeos_acpi(&(gnvs->chromeos));
#if IS_ENABLED(CONFIG_EC_GOOGLE_CHROMEEC)
gnvs->chromeos.vbt2 = google_ec_running_ro() ?
ACTIVE_ECFW_RO : ACTIVE_ECFW_RW;
#endif
gnvs->chromeos.vbt2 = ACTIVE_ECFW_RO;
#endif
/* Enable DPTF based on mainboard configuration */
gnvs->dpte = config->dptf_enable;
/* Fill in the Wifi Region id */
gnvs->cid1 = wifi_regulatory_domain();
/* Set USB2/USB3 wake enable bitmaps. */
gnvs->u2we = config->usb2_wake_enable_bitmap;
gnvs->u3we = config->usb3_wake_enable_bitmap;
if (IS_ENABLED(CONFIG_SOC_INTEL_COMMON_BLOCK_SGX))
sgx_fill_gnvs(gnvs);
}
unsigned long acpi_fill_mcfg(unsigned long current)
{
current += acpi_create_mcfg_mmconfig((acpi_mcfg_mmconfig_t *)current,
CONFIG_MMCONF_BASE_ADDRESS, 0, 0,
(CONFIG_SA_PCIEX_LENGTH >> 20) - 1);
return current;
}
unsigned long acpi_fill_madt(unsigned long current)
{
/* Local APICs */
current = acpi_create_madt_lapics(current);
/* IOAPIC */
current += acpi_create_madt_ioapic((acpi_madt_ioapic_t *) current,
2, IO_APIC_ADDR, 0);
return acpi_madt_irq_overrides(current);
}
void acpi_fill_fadt(acpi_fadt_t *fadt)
{
const struct device *dev = SA_DEV_ROOT;
const config_t *config = dev ? dev->chip_info : NULL;
const uint16_t pmbase = ACPI_BASE_ADDRESS;
/* Use ACPI 3.0 revision */
fadt->header.revision = get_acpi_table_revision(FADT);
fadt->sci_int = acpi_sci_irq();
fadt->smi_cmd = APM_CNT;
fadt->acpi_enable = APM_CNT_ACPI_ENABLE;
fadt->acpi_disable = APM_CNT_ACPI_DISABLE;
fadt->s4bios_req = 0x0;
fadt->pstate_cnt = 0;
fadt->pm1a_evt_blk = pmbase + PM1_STS;
fadt->pm1b_evt_blk = 0x0;
fadt->pm1a_cnt_blk = pmbase + PM1_CNT;
fadt->pm1b_cnt_blk = 0x0;
fadt->pm2_cnt_blk = pmbase + PM2_CNT;
fadt->pm_tmr_blk = pmbase + PM1_TMR;
fadt->gpe0_blk = pmbase + GPE0_STS(0);
fadt->gpe1_blk = 0;
fadt->pm1_evt_len = 4;
fadt->pm1_cnt_len = 2;
fadt->pm2_cnt_len = 1;
fadt->pm_tmr_len = 4;
/* There are 4 GPE0 STS/EN pairs each 32 bits wide. */
fadt->gpe0_blk_len = 2 * GPE0_REG_MAX * sizeof(uint32_t);
fadt->gpe1_blk_len = 0;
fadt->gpe1_base = 0;
fadt->cst_cnt = 0;
fadt->p_lvl2_lat = 1;
fadt->p_lvl3_lat = 87;
fadt->flush_size = 1024;
fadt->flush_stride = 16;
fadt->duty_offset = 1;
fadt->duty_width = 0;
fadt->day_alrm = 0xd;
fadt->mon_alrm = 0x00;
fadt->century = 0x00;
fadt->iapc_boot_arch = 0;
if (!IS_ENABLED(CONFIG_NO_FADT_8042))
fadt->iapc_boot_arch |= ACPI_FADT_8042;
fadt->flags = ACPI_FADT_WBINVD | ACPI_FADT_C1_SUPPORTED |
ACPI_FADT_C2_MP_SUPPORTED | ACPI_FADT_SLEEP_BUTTON |
ACPI_FADT_RESET_REGISTER | ACPI_FADT_SEALED_CASE |
ACPI_FADT_S4_RTC_WAKE | ACPI_FADT_PLATFORM_CLOCK;
if (config && config->s0ix_enable)
fadt->flags |= ACPI_FADT_LOW_PWR_IDLE_S0;
fadt->reset_reg.space_id = 1;
fadt->reset_reg.bit_width = 8;
fadt->reset_reg.bit_offset = 0;
fadt->reset_reg.resv = 0;
fadt->reset_reg.addrl = 0xcf9;
fadt->reset_reg.addrh = 0;
fadt->reset_value = 6;
fadt->x_pm1a_evt_blk.space_id = 1;
fadt->x_pm1a_evt_blk.bit_width = fadt->pm1_evt_len * 8;
fadt->x_pm1a_evt_blk.bit_offset = 0;
fadt->x_pm1a_evt_blk.resv = 0;
fadt->x_pm1a_evt_blk.addrl = pmbase + PM1_STS;
fadt->x_pm1a_evt_blk.addrh = 0x0;
fadt->x_pm1b_evt_blk.space_id = 1;
fadt->x_pm1b_evt_blk.bit_width = 0;
fadt->x_pm1b_evt_blk.bit_offset = 0;
fadt->x_pm1b_evt_blk.resv = 0;
fadt->x_pm1b_evt_blk.addrl = 0x0;
fadt->x_pm1b_evt_blk.addrh = 0x0;
fadt->x_pm1a_cnt_blk.space_id = 1;
fadt->x_pm1a_cnt_blk.bit_width = fadt->pm1_cnt_len * 8;
fadt->x_pm1a_cnt_blk.bit_offset = 0;
fadt->x_pm1a_cnt_blk.resv = 0;
fadt->x_pm1a_cnt_blk.addrl = pmbase + PM1_CNT;
fadt->x_pm1a_cnt_blk.addrh = 0x0;
fadt->x_pm1b_cnt_blk.space_id = 1;
fadt->x_pm1b_cnt_blk.bit_width = 0;
fadt->x_pm1b_cnt_blk.bit_offset = 0;
fadt->x_pm1b_cnt_blk.resv = 0;
fadt->x_pm1b_cnt_blk.addrl = 0x0;
fadt->x_pm1b_cnt_blk.addrh = 0x0;
fadt->x_pm2_cnt_blk.space_id = 1;
fadt->x_pm2_cnt_blk.bit_width = fadt->pm2_cnt_len * 8;
fadt->x_pm2_cnt_blk.bit_offset = 0;
fadt->x_pm2_cnt_blk.resv = 0;
fadt->x_pm2_cnt_blk.addrl = pmbase + PM2_CNT;
fadt->x_pm2_cnt_blk.addrh = 0x0;
fadt->x_pm_tmr_blk.space_id = 1;
fadt->x_pm_tmr_blk.bit_width = fadt->pm_tmr_len * 8;
fadt->x_pm_tmr_blk.bit_offset = 0;
fadt->x_pm_tmr_blk.resv = 0;
fadt->x_pm_tmr_blk.addrl = pmbase + PM1_TMR;
fadt->x_pm_tmr_blk.addrh = 0x0;
fadt->x_gpe0_blk.space_id = 0;
fadt->x_gpe0_blk.bit_width = 0;
fadt->x_gpe0_blk.bit_offset = 0;
fadt->x_gpe0_blk.resv = 0;
fadt->x_gpe0_blk.addrl = 0;
fadt->x_gpe0_blk.addrh = 0;
fadt->x_gpe1_blk.space_id = 1;
fadt->x_gpe1_blk.bit_width = 0;
fadt->x_gpe1_blk.bit_offset = 0;
fadt->x_gpe1_blk.resv = 0;
fadt->x_gpe1_blk.addrl = 0x0;
fadt->x_gpe1_blk.addrh = 0x0;
}
static void generate_c_state_entries(int s0ix_enable, int max_cstate)
{
acpi_cstate_t map[max_cstate];
int *set;
int i;
if (s0ix_enable)
set = cstate_set_s0ix;
else
set = cstate_set_non_s0ix;
for (i = 0; i < max_cstate; i++) {
memcpy(&map[i], &cstate_map[set[i]], sizeof(acpi_cstate_t));
map[i].ctype = i + 1;
}
/* Generate C-state tables */
acpigen_write_CST_package(map, ARRAY_SIZE(map));
}
static int calculate_power(int tdp, int p1_ratio, int ratio)
{
u32 m;
u32 power;
/*
* M = ((1.1 - ((p1_ratio - ratio) * 0.00625)) / 1.1) ^ 2
*
* Power = (ratio / p1_ratio) * m * tdp
*/
m = (110000 - ((p1_ratio - ratio) * 625)) / 11;
m = (m * m) / 1000;
power = ((ratio * 100000 / p1_ratio) / 100);
power *= (m / 100) * (tdp / 1000);
power /= 1000;
return (int)power;
}
static void generate_p_state_entries(int core, int cores_per_package)
{
int ratio_min, ratio_max, ratio_turbo, ratio_step;
int coord_type, power_max, power_unit, num_entries;
int ratio, power, clock, clock_max;
msr_t msr;
/* Determine P-state coordination type from MISC_PWR_MGMT[0] */
msr = rdmsr(MSR_MISC_PWR_MGMT);
if (msr.lo & MISC_PWR_MGMT_EIST_HW_DIS)
coord_type = SW_ANY;
else
coord_type = HW_ALL;
/* Get bus ratio limits and calculate clock speeds */
msr = rdmsr(MSR_PLATFORM_INFO);
ratio_min = (msr.hi >> (40-32)) & 0xff; /* Max Efficiency Ratio */
/* Determine if this CPU has configurable TDP */
if (cpu_config_tdp_levels()) {
/* Set max ratio to nominal TDP ratio */
msr = rdmsr(MSR_CONFIG_TDP_NOMINAL);
ratio_max = msr.lo & 0xff;
} else {
/* Max Non-Turbo Ratio */
ratio_max = (msr.lo >> 8) & 0xff;
}
clock_max = ratio_max * CONFIG_CPU_BCLK_MHZ;
/* Calculate CPU TDP in mW */
msr = rdmsr(MSR_PKG_POWER_SKU_UNIT);
power_unit = 2 << ((msr.lo & 0xf) - 1);
msr = rdmsr(MSR_PKG_POWER_SKU);
power_max = ((msr.lo & 0x7fff) / power_unit) * 1000;
/* Write _PCT indicating use of FFixedHW */
acpigen_write_empty_PCT();
/* Write _PPC with no limit on supported P-state */
acpigen_write_PPC_NVS();
/* Write PSD indicating configured coordination type */
acpigen_write_PSD_package(core, 1, coord_type);
/* Add P-state entries in _PSS table */
acpigen_write_name("_PSS");
/* Determine ratio points */
ratio_step = PSS_RATIO_STEP;
num_entries = ((ratio_max - ratio_min) / ratio_step) + 1;
if (num_entries > PSS_MAX_ENTRIES) {
ratio_step += 1;
num_entries = ((ratio_max - ratio_min) / ratio_step) + 1;
}
/* P[T] is Turbo state if enabled */
if (get_turbo_state() == TURBO_ENABLED) {
/* _PSS package count including Turbo */
acpigen_write_package(num_entries + 2);
msr = rdmsr(MSR_TURBO_RATIO_LIMIT);
ratio_turbo = msr.lo & 0xff;
/* Add entry for Turbo ratio */
acpigen_write_PSS_package(
clock_max + 1, /* MHz */
power_max, /* mW */
PSS_LATENCY_TRANSITION, /* lat1 */
PSS_LATENCY_BUSMASTER, /* lat2 */
ratio_turbo << 8, /* control */
ratio_turbo << 8); /* status */
} else {
/* _PSS package count without Turbo */
acpigen_write_package(num_entries + 1);
}
/* First regular entry is max non-turbo ratio */
acpigen_write_PSS_package(
clock_max, /* MHz */
power_max, /* mW */
PSS_LATENCY_TRANSITION, /* lat1 */
PSS_LATENCY_BUSMASTER, /* lat2 */
ratio_max << 8, /* control */
ratio_max << 8); /* status */
/* Generate the remaining entries */
for (ratio = ratio_min + ((num_entries - 1) * ratio_step);
ratio >= ratio_min; ratio -= ratio_step) {
/* Calculate power at this ratio */
power = calculate_power(power_max, ratio_max, ratio);
clock = ratio * CONFIG_CPU_BCLK_MHZ;
acpigen_write_PSS_package(
clock, /* MHz */
power, /* mW */
PSS_LATENCY_TRANSITION, /* lat1 */
PSS_LATENCY_BUSMASTER, /* lat2 */
ratio << 8, /* control */
ratio << 8); /* status */
}
/* Fix package length */
acpigen_pop_len();
}
void generate_cpu_entries(struct device *device)
{
int core_id, cpu_id, pcontrol_blk = ACPI_BASE_ADDRESS, plen = 6;
int totalcores = dev_count_cpu();
int cores_per_package = get_cores_per_package();
int numcpus = totalcores/cores_per_package;
struct device *dev = SA_DEV_ROOT;
config_t *config = dev->chip_info;
int is_s0ix_enable = config->s0ix_enable;
int max_c_state;
if (is_s0ix_enable)
max_c_state = ARRAY_SIZE(cstate_set_s0ix);
else
max_c_state = ARRAY_SIZE(cstate_set_non_s0ix);
printk(BIOS_DEBUG, "Found %d CPU(s) with %d core(s) each.\n",
numcpus, cores_per_package);
if (config->eist_enable && config->speed_shift_enable) {
struct cppc_config cppc_config;
cpu_init_cppc_config(&cppc_config, 2 /* version 2 */);
acpigen_write_CPPC_package(&cppc_config);
}
for (cpu_id = 0; cpu_id < numcpus; cpu_id++) {
for (core_id = 0; core_id < cores_per_package; core_id++) {
if (core_id > 0) {
pcontrol_blk = 0;
plen = 0;
}
/* Generate processor \_PR.CPUx */
acpigen_write_processor(
cpu_id*cores_per_package+core_id,
pcontrol_blk, plen);
/* Generate C-state tables */
generate_c_state_entries(is_s0ix_enable,
max_c_state);
if (config->eist_enable) {
/* Generate P-state tables */
generate_p_state_entries(core_id,
cores_per_package);
if (config->speed_shift_enable)
acpigen_write_CPPC_method();
}
acpigen_pop_len();
}
}
}
static unsigned long acpi_fill_dmar(unsigned long current)
{
struct device *const igfx_dev = dev_find_slot(0, SA_DEVFN_IGD);
const u32 gfx_vtbar = MCHBAR32(GFXVTBAR) & ~0xfff;
const bool gfxvten = MCHBAR32(GFXVTBAR) & 1;
/* iGFX has to be enabled, GFXVTBAR set and in 32-bit space. */
if (igfx_dev && igfx_dev->enabled && gfxvten &&
gfx_vtbar && !MCHBAR32(GFXVTBAR + 4)) {
unsigned long tmp = current;
current += acpi_create_dmar_drhd(current, 0, 0, gfx_vtbar);
current += acpi_create_dmar_ds_pci(current, 0, 2, 0);
acpi_dmar_drhd_fixup(tmp, current);
/* Add RMRR entry */
tmp = current;
current += acpi_create_dmar_rmrr(current, 0,
sa_get_gsm_base(), sa_get_tolud_base() - 1);
current += acpi_create_dmar_ds_pci(current, 0, 2, 0);
acpi_dmar_rmrr_fixup(tmp, current);
}
struct device *const p2sb_dev = dev_find_slot(0, PCH_DEVFN_P2SB);
const u32 vtvc0bar = MCHBAR32(VTVC0BAR) & ~0xfff;
const bool vtvc0en = MCHBAR32(VTVC0BAR) & 1;
/* General VTBAR has to be set and in 32-bit space. */
if (p2sb_dev && vtvc0bar && vtvc0en && !MCHBAR32(VTVC0BAR + 4)) {
const unsigned long tmp = current;
/* P2SB may already be hidden. There's no clear rule, when. */
const u8 p2sb_hidden =
pci_read_config8(p2sb_dev, PCH_P2SB_E0 + 1);
pci_write_config8(p2sb_dev, PCH_P2SB_E0 + 1, 0);
const u16 ibdf = pci_read_config16(p2sb_dev, PCH_P2SB_IBDF);
const u16 hbdf = pci_read_config16(p2sb_dev, PCH_P2SB_HBDF);
pci_write_config8(p2sb_dev, PCH_P2SB_E0 + 1, p2sb_hidden);
current += acpi_create_dmar_drhd(current,
DRHD_INCLUDE_PCI_ALL, 0, vtvc0bar);
current += acpi_create_dmar_ds_ioapic(current,
2, ibdf >> 8, PCI_SLOT(ibdf), PCI_FUNC(ibdf));
current += acpi_create_dmar_ds_msi_hpet(current,
0, hbdf >> 8, PCI_SLOT(hbdf), PCI_FUNC(hbdf));
acpi_dmar_drhd_fixup(tmp, current);
}
return current;
}
unsigned long northbridge_write_acpi_tables(struct device *const dev,
unsigned long current,
struct acpi_rsdp *const rsdp)
{
const struct soc_intel_skylake_config *const config = dev->chip_info;
acpi_dmar_t *const dmar = (acpi_dmar_t *)current;
/* Create DMAR table only if we have VT-d capability. */
if ((config && config->ignore_vtd) || !soc_is_vtd_capable())
return current;
printk(BIOS_DEBUG, "ACPI: * DMAR\n");
acpi_create_dmar(dmar, DMAR_INTR_REMAP, acpi_fill_dmar);
current += dmar->header.length;
current = acpi_align_current(current);
acpi_add_table(rsdp, dmar);
return current;
}
unsigned long acpi_madt_irq_overrides(unsigned long current)
{
int sci = acpi_sci_irq();
acpi_madt_irqoverride_t *irqovr;
uint16_t flags = MP_IRQ_TRIGGER_LEVEL;
/* INT_SRC_OVR */
irqovr = (void *)current;
current += acpi_create_madt_irqoverride(irqovr, 0, 0, 2, 0);
if (sci >= 20)
flags |= MP_IRQ_POLARITY_LOW;
else
flags |= MP_IRQ_POLARITY_HIGH;
/* SCI */
irqovr = (void *)current;
current += acpi_create_madt_irqoverride(irqovr, 0, sci, sci, flags);
return current;
}
unsigned long southbridge_write_acpi_tables(struct device *device,
unsigned long current,
struct acpi_rsdp *rsdp)
{
current = acpi_write_dbg2_pci_uart(rsdp, current,
uart_get_device(),
ACPI_ACCESS_SIZE_DWORD_ACCESS);
current = acpi_write_hpet(device, current, rsdp);
return acpi_align_current(current);
}
void southbridge_inject_dsdt(struct device *device)
{
global_nvs_t *gnvs;
gnvs = cbmem_find(CBMEM_ID_ACPI_GNVS);
if (!gnvs) {
gnvs = cbmem_add(CBMEM_ID_ACPI_GNVS, sizeof(*gnvs));
if (gnvs)
memset(gnvs, 0, sizeof(*gnvs));
}
if (gnvs) {
acpi_create_gnvs(gnvs);
acpi_mainboard_gnvs(gnvs);
/* And tell SMI about it */
smm_setup_structures(gnvs, NULL, NULL);
/* Add it to DSDT. */
acpigen_write_scope("\\");
acpigen_write_name_dword("NVSA", (u32) gnvs);
acpigen_pop_len();
}
}
/* Save wake source information for calculating ACPI _SWS values */
int soc_fill_acpi_wake(uint32_t *pm1, uint32_t **gpe0)
{
const struct device *dev = dev_find_slot(0, PCH_DEVFN_LPC);
const struct soc_intel_skylake_config *config = dev->chip_info;
struct chipset_power_state *ps;
static uint32_t gpe0_sts[GPE0_REG_MAX];
uint32_t pm1_en;
uint32_t gpe0_std;
int i;
const int last_index = GPE0_REG_MAX - 1;
ps = cbmem_find(CBMEM_ID_POWER_STATE);
if (ps == NULL)
return -1;
pm1_en = ps->pm1_en;
gpe0_std = ps->gpe0_en[3];
/*
* Chipset state in the suspend well (but not RTC) is lost in Deep S3
* so enable Deep S3 wake events that are configured by the mainboard
*/
if (ps->prev_sleep_state == ACPI_S3 &&
(config->deep_s3_enable_ac || config->deep_s3_enable_dc)) {
pm1_en |= PWRBTN_STS; /* Always enabled as wake source */
if (config->deep_sx_config & DSX_EN_LAN_WAKE_PIN)
gpe0_std |= LAN_WAK_EN;
if (config->deep_sx_config & DSX_EN_WAKE_PIN)
pm1_en |= PCIEXPWAK_STS;
}
*pm1 = ps->pm1_sts & pm1_en;
/* Mask off GPE0 status bits that are not enabled */
*gpe0 = &gpe0_sts[0];
for (i = 0; i < last_index; i++)
gpe0_sts[i] = ps->gpe0_sts[i] & ps->gpe0_en[i];
gpe0_sts[last_index] = ps->gpe0_sts[last_index] & gpe0_std;
return GPE0_REG_MAX;
}
__weak void acpi_mainboard_gnvs(global_nvs_t *gnvs)
{
}
const char *soc_acpi_name(const struct device *dev)
{
if (dev->path.type == DEVICE_PATH_DOMAIN)
return "PCI0";
if (dev->path.type == DEVICE_PATH_USB) {
switch (dev->path.usb.port_type) {
case 0:
/* Root Hub */
return "RHUB";
case 2:
/* USB2 ports */
switch (dev->path.usb.port_id) {
case 0: return "HS01";
case 1: return "HS02";
case 2: return "HS03";
case 3: return "HS04";
case 4: return "HS05";
case 5: return "HS06";
case 6: return "HS07";
case 7: return "HS08";
case 8: return "HS09";
case 9: return "HS10";
}
break;
case 3:
/* USB3 ports */
switch (dev->path.usb.port_id) {
case 0: return "SS01";
case 1: return "SS02";
case 2: return "SS03";
case 3: return "SS04";
case 4: return "SS05";
case 5: return "SS06";
}
break;
}
return NULL;
}
if (dev->path.type != DEVICE_PATH_PCI)
return NULL;
switch (dev->path.pci.devfn) {
case SA_DEVFN_ROOT: return "MCHC";
case SA_DEVFN_IGD: return "GFX0";
case PCH_DEVFN_ISH: return "ISHB";
case PCH_DEVFN_XHCI: return "XHCI";
case PCH_DEVFN_USBOTG: return "XDCI";
case PCH_DEVFN_THERMAL: return "THRM";
case PCH_DEVFN_CIO: return "ICIO";
case PCH_DEVFN_I2C0: return "I2C0";
case PCH_DEVFN_I2C1: return "I2C1";
case PCH_DEVFN_I2C2: return "I2C2";
case PCH_DEVFN_I2C3: return "I2C3";
case PCH_DEVFN_CSE: return "CSE1";
case PCH_DEVFN_CSE_2: return "CSE2";
case PCH_DEVFN_CSE_IDER: return "CSED";
case PCH_DEVFN_CSE_KT: return "CSKT";
case PCH_DEVFN_CSE_3: return "CSE3";
case PCH_DEVFN_SATA: return "SATA";
case PCH_DEVFN_UART2: return "UAR2";
case PCH_DEVFN_I2C4: return "I2C4";
case PCH_DEVFN_I2C5: return "I2C5";
case PCH_DEVFN_PCIE1: return "RP01";
case PCH_DEVFN_PCIE2: return "RP02";
case PCH_DEVFN_PCIE3: return "RP03";
case PCH_DEVFN_PCIE4: return "RP04";
case PCH_DEVFN_PCIE5: return "RP05";
case PCH_DEVFN_PCIE6: return "RP06";
case PCH_DEVFN_PCIE7: return "RP07";
case PCH_DEVFN_PCIE8: return "RP08";
case PCH_DEVFN_PCIE9: return "RP09";
case PCH_DEVFN_PCIE10: return "RP10";
case PCH_DEVFN_PCIE11: return "RP11";
case PCH_DEVFN_PCIE12: return "RP12";
case PCH_DEVFN_UART0: return "UAR0";
case PCH_DEVFN_UART1: return "UAR1";
case PCH_DEVFN_GSPI0: return "SPI0";
case PCH_DEVFN_GSPI1: return "SPI1";
case PCH_DEVFN_EMMC: return "EMMC";
case PCH_DEVFN_SDIO: return "SDIO";
case PCH_DEVFN_SDCARD: return "SDXC";
case PCH_DEVFN_LPC: return "LPCB";
case PCH_DEVFN_P2SB: return "P2SB";
case PCH_DEVFN_PMC: return "PMC_";
case PCH_DEVFN_HDA: return "HDAS";
case PCH_DEVFN_SMBUS: return "SBUS";
case PCH_DEVFN_SPI: return "FSPI";
case PCH_DEVFN_GBE: return "IGBE";
case PCH_DEVFN_TRACEHUB:return "THUB";
}
return NULL;
}
static int acpigen_soc_gpio_op(const char *op, unsigned int gpio_num)
{
/* op (gpio_num) */
acpigen_emit_namestring(op);
acpigen_write_integer(gpio_num);
return 0;
}
static int acpigen_soc_get_gpio_state(const char *op, unsigned int gpio_num)
{
/* Store (op (gpio_num), Local0) */
acpigen_write_store();
acpigen_soc_gpio_op(op, gpio_num);
acpigen_emit_byte(LOCAL0_OP);
return 0;
}
int acpigen_soc_read_rx_gpio(unsigned int gpio_num)
{
return acpigen_soc_get_gpio_state("\\_SB.PCI0.GRXS", gpio_num);
}
int acpigen_soc_get_tx_gpio(unsigned int gpio_num)
{
return acpigen_soc_get_gpio_state("\\_SB.PCI0.GTXS", gpio_num);
}
int acpigen_soc_set_tx_gpio(unsigned int gpio_num)
{
return acpigen_soc_gpio_op("\\_SB.PCI0.STXS", gpio_num);
}
int acpigen_soc_clear_tx_gpio(unsigned int gpio_num)
{
return acpigen_soc_gpio_op("\\_SB.PCI0.CTXS", gpio_num);
}
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