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|
/* SPDX-License-Identifier: GPL-2.0-only */
#include <assert.h>
#include <bootmode.h>
#include <bootsplash.h>
#include <cbfs.h>
#include <console/console.h>
#include <cpu/intel/cpu_ids.h>
#include <cpu/intel/microcode.h>
#include <device/device.h>
#include <device/pci.h>
#include <fsp/api.h>
#include <fsp/fsp_debug_event.h>
#include <fsp/fsp_gop_blt.h>
#include <fsp/ppi/mp_service_ppi.h>
#include <fsp/util.h>
#include <option.h>
#include <intelblocks/cse.h>
#include <intelblocks/irq.h>
#include <intelblocks/lpss.h>
#include <intelblocks/mp_init.h>
#include <intelblocks/systemagent.h>
#include <intelblocks/xdci.h>
#include <intelpch/lockdown.h>
#include <security/vboot/vboot_common.h>
#include <soc/cpu.h>
#include <soc/gpio_soc_defs.h>
#include <soc/intel/common/vbt.h>
#include <soc/pci_devs.h>
#include <soc/pcie.h>
#include <soc/ramstage.h>
#include <soc/soc_chip.h>
#include <soc/soc_info.h>
#include <stdlib.h>
#include <string.h>
#include <types.h>
/* THC assignment definition */
#define THC_NONE 0
#define THC_0 1
#define THC_1 2
/* SATA DEVSLP idle timeout default values */
#define DEF_DMVAL 15
#define DEF_DITOVAL 625
#define MAX_ONBOARD_PCIE_DEVICES 256
static const struct slot_irq_constraints irq_constraints[] = {
{
.slot = PCI_DEV_SLOT_PCIE_3,
.fns = {
FIXED_INT_PIRQ(PCI_DEVFN_PCIE12, PCI_INT_A, PIRQ_A),
},
},
{
.slot = PCI_DEV_SLOT_IGD,
.fns = {
/* INTERRUPT_PIN is RO/0x01 */
FIXED_INT_ANY_PIRQ(PCI_DEV_SLOT_IGD, PCI_INT_A),
},
},
{
.slot = PCI_DEV_SLOT_DPTF,
.fns = {
ANY_PIRQ(PCI_DEVFN_DPTF),
},
},
{
.slot = PCI_DEV_SLOT_IPU,
.fns = {
/* INTERRUPT_PIN is RO/0x01, and INTERRUPT_LINE is RW,
but S0ix fails when not set to 16 (b/193434192) */
FIXED_INT_PIRQ(PCI_DEVFN_IPU, PCI_INT_A, PIRQ_A),
},
},
{
.slot = PCI_DEV_SLOT_PCIE_2,
.fns = {
FIXED_INT_PIRQ(PCI_DEVFN_PCIE9, PCI_INT_A, PIRQ_A),
FIXED_INT_PIRQ(PCI_DEVFN_PCIE10, PCI_INT_B, PIRQ_B),
FIXED_INT_PIRQ(PCI_DEVFN_PCIE11, PCI_INT_C, PIRQ_C),
},
},
{
.slot = PCI_DEV_SLOT_TBT,
.fns = {
ANY_PIRQ(PCI_DEVFN_TBT0),
ANY_PIRQ(PCI_DEVFN_TBT1),
ANY_PIRQ(PCI_DEVFN_TBT2),
ANY_PIRQ(PCI_DEVFN_TBT3),
},
},
{
.slot = PCI_DEV_SLOT_GNA,
.fns = {
/* INTERRUPT_PIN is RO/0x01 */
FIXED_INT_ANY_PIRQ(PCI_DEVFN_GNA, PCI_INT_A),
},
},
{
.slot = PCI_DEV_SLOT_VPU,
.fns = {
/* INTERRUPT_PIN is RO/0x01 */
FIXED_INT_ANY_PIRQ(PCI_DEVFN_VPU, PCI_INT_A),
},
},
{
.slot = PCI_DEV_SLOT_TCSS,
.fns = {
ANY_PIRQ(PCI_DEVFN_TCSS_XHCI),
ANY_PIRQ(PCI_DEVFN_TCSS_XDCI),
},
},
{
.slot = PCI_DEV_SLOT_THC,
.fns = {
ANY_PIRQ(PCI_DEVFN_THC0),
ANY_PIRQ(PCI_DEVFN_THC1),
},
},
{
.slot = PCI_DEV_SLOT_ISH,
.fns = {
DIRECT_IRQ(PCI_DEVFN_ISH),
DIRECT_IRQ(PCI_DEVFN_GSPI2),
ANY_PIRQ(PCI_DEVFN_UFS),
},
},
{
.slot = PCI_DEV_SLOT_XHCI,
.fns = {
ANY_PIRQ(PCI_DEVFN_XHCI),
DIRECT_IRQ(PCI_DEVFN_USBOTG),
ANY_PIRQ(PCI_DEVFN_CNVI_WIFI),
},
},
{
.slot = PCI_DEV_SLOT_SIO0,
.fns = {
DIRECT_IRQ(PCI_DEVFN_I2C0),
DIRECT_IRQ(PCI_DEVFN_I2C1),
DIRECT_IRQ(PCI_DEVFN_I2C2),
DIRECT_IRQ(PCI_DEVFN_I2C3),
},
},
{
.slot = PCI_DEV_SLOT_CSE,
.fns = {
ANY_PIRQ(PCI_DEVFN_CSE),
ANY_PIRQ(PCI_DEVFN_CSE_2),
ANY_PIRQ(PCI_DEVFN_CSE_IDER),
ANY_PIRQ(PCI_DEVFN_CSE_KT),
ANY_PIRQ(PCI_DEVFN_CSE_3),
ANY_PIRQ(PCI_DEVFN_CSE_4),
},
},
{
.slot = PCI_DEV_SLOT_SATA,
.fns = {
ANY_PIRQ(PCI_DEVFN_SATA),
},
},
{
.slot = PCI_DEV_SLOT_SIO1,
.fns = {
DIRECT_IRQ(PCI_DEVFN_I2C4),
DIRECT_IRQ(PCI_DEVFN_I2C5),
DIRECT_IRQ(PCI_DEVFN_UART2),
},
},
{
.slot = PCI_DEV_SLOT_PCIE_1,
.fns = {
FIXED_INT_PIRQ(PCI_DEVFN_PCIE1, PCI_INT_A, PIRQ_A),
FIXED_INT_PIRQ(PCI_DEVFN_PCIE2, PCI_INT_B, PIRQ_B),
FIXED_INT_PIRQ(PCI_DEVFN_PCIE3, PCI_INT_C, PIRQ_C),
FIXED_INT_PIRQ(PCI_DEVFN_PCIE4, PCI_INT_D, PIRQ_D),
FIXED_INT_PIRQ(PCI_DEVFN_PCIE5, PCI_INT_A, PIRQ_A),
FIXED_INT_PIRQ(PCI_DEVFN_PCIE6, PCI_INT_B, PIRQ_B),
FIXED_INT_PIRQ(PCI_DEVFN_PCIE7, PCI_INT_C, PIRQ_C),
FIXED_INT_PIRQ(PCI_DEVFN_PCIE8, PCI_INT_D, PIRQ_D),
},
},
{
.slot = PCI_DEV_SLOT_SIO2,
.fns = {
/* UART0 shares an interrupt line with TSN0, so must use
a PIRQ */
FIXED_INT_ANY_PIRQ(PCI_DEVFN_UART0, PCI_INT_A),
/* UART1 shares an interrupt line with TSN1, so must use
a PIRQ */
FIXED_INT_ANY_PIRQ(PCI_DEVFN_UART1, PCI_INT_B),
DIRECT_IRQ(PCI_DEVFN_GSPI0),
DIRECT_IRQ(PCI_DEVFN_GSPI1),
},
},
{
.slot = PCI_DEV_SLOT_ESPI,
.fns = {
ANY_PIRQ(PCI_DEVFN_HDA),
ANY_PIRQ(PCI_DEVFN_SMBUS),
ANY_PIRQ(PCI_DEVFN_GBE),
/* INTERRUPT_PIN is RO/0x01 */
FIXED_INT_ANY_PIRQ(PCI_DEVFN_NPK, PCI_INT_A),
},
},
};
bool is_pch_slot(unsigned int devfn)
{
if (PCI_SLOT(devfn) >= MIN_PCH_SLOT)
return true;
const struct pcie_rp_group *group;
for (group = get_pcie_rp_table(); group->count; ++group) {
if (PCI_SLOT(devfn) == group->slot)
return true;
}
return false;
}
static const SI_PCH_DEVICE_INTERRUPT_CONFIG *pci_irq_to_fsp(size_t *out_count)
{
const struct pci_irq_entry *entry = get_cached_pci_irqs();
SI_PCH_DEVICE_INTERRUPT_CONFIG *config;
size_t pch_total = 0;
size_t cfg_count = 0;
if (!entry)
return NULL;
/* Count PCH devices */
while (entry) {
if (is_pch_slot(entry->devfn))
++pch_total;
entry = entry->next;
}
/* Convert PCH device entries to FSP format */
config = calloc(pch_total, sizeof(*config));
entry = get_cached_pci_irqs();
while (entry) {
if (!is_pch_slot(entry->devfn)) {
entry = entry->next;
continue;
}
config[cfg_count].Device = PCI_SLOT(entry->devfn);
config[cfg_count].Function = PCI_FUNC(entry->devfn);
config[cfg_count].IntX = (SI_PCH_INT_PIN)entry->pin;
config[cfg_count].Irq = entry->irq;
++cfg_count;
entry = entry->next;
}
*out_count = cfg_count;
return config;
}
/*
* ME End of Post configuration
* 0 - Disable EOP.
* 1 - Send in PEI (Applicable for FSP in API mode)
* 2 - Send in DXE (Not applicable for FSP in API mode)
*/
enum fsp_end_of_post {
EOP_DISABLE = 0,
EOP_PEI = 1,
EOP_DXE = 2,
};
static const pci_devfn_t i2c_dev[] = {
PCI_DEVFN_I2C0,
PCI_DEVFN_I2C1,
PCI_DEVFN_I2C2,
PCI_DEVFN_I2C3,
PCI_DEVFN_I2C4,
PCI_DEVFN_I2C5,
};
static const pci_devfn_t gspi_dev[] = {
PCI_DEVFN_GSPI0,
PCI_DEVFN_GSPI1,
PCI_DEVFN_GSPI2,
};
static const pci_devfn_t uart_dev[] = {
PCI_DEVFN_UART0,
PCI_DEVFN_UART1,
PCI_DEVFN_UART2
};
/*
* Chip config parameter PcieRpL1Substates uses (UPD value + 1)
* because UPD value of 0 for PcieRpL1Substates means disabled for FSP.
* In order to ensure that mainboard setting does not disable L1 substates
* incorrectly, chip config parameter values are offset by 1 with 0 meaning
* use FSP UPD default. get_l1_substate_control() ensures that the right UPD
* value is set in fsp_params.
* 0: Use FSP UPD default
* 1: Disable L1 substates
* 2: Use L1.1
* 3: Use L1.2 (FSP UPD default)
*/
static int get_l1_substate_control(enum L1_substates_control ctl)
{
if (CONFIG(SOC_INTEL_COMPLIANCE_TEST_MODE))
ctl = L1_SS_DISABLED;
else if ((ctl > L1_SS_L1_2) || (ctl == L1_SS_FSP_DEFAULT))
ctl = L1_SS_L1_2;
return ctl - 1;
}
/*
* Chip config parameter pcie_rp_aspm uses (UPD value + 1) because
* a UPD value of 0 for pcie_rp_aspm means disabled. In order to ensure
* that the mainboard setting does not disable ASPM incorrectly, chip
* config parameter values are offset by 1 with 0 meaning use FSP UPD default.
* get_aspm_control() ensures that the right UPD value is set in fsp_params.
* 0: Use FSP UPD default
* 1: Disable ASPM
* 2: L0s only
* 3: L1 only
* 4: L0s and L1
* 5: Auto configuration
*/
static unsigned int get_aspm_control(enum ASPM_control ctl)
{
if ((ctl > ASPM_AUTO) || (ctl == ASPM_DEFAULT))
ctl = ASPM_AUTO;
return ctl - 1;
}
__weak void mainboard_update_soc_chip_config(struct soc_intel_meteorlake_config *config)
{
/* Override settings per board. */
}
static void fill_fsps_lpss_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
int max_port, i;
max_port = get_max_i2c_port();
for (i = 0; i < max_port; i++) {
s_cfg->SerialIoI2cMode[i] = is_devfn_enabled(i2c_dev[i]) ?
config->serial_io_i2c_mode[i] : 0;
}
max_port = get_max_gspi_port();
for (i = 0; i < max_port; i++) {
s_cfg->SerialIoSpiCsMode[i] = config->serial_io_gspi_cs_mode[i];
s_cfg->SerialIoSpiCsState[i] = config->serial_io_gspi_cs_state[i];
s_cfg->SerialIoSpiMode[i] = is_devfn_enabled(gspi_dev[i]) ?
config->serial_io_gspi_mode[i] : 0;
}
max_port = get_max_uart_port();
for (i = 0; i < max_port; i++) {
s_cfg->SerialIoUartMode[i] = is_devfn_enabled(uart_dev[i]) ?
config->serial_io_uart_mode[i] : 0;
}
}
static void fill_fsps_microcode_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
const struct microcode *microcode_file;
size_t microcode_len;
/* Locate microcode and pass to FSP-S for 2nd microcode loading */
microcode_file = intel_microcode_find();
if (microcode_file != NULL) {
microcode_len = get_microcode_size(microcode_file);
if (microcode_len != 0) {
/* Update CPU Microcode patch base address/size */
s_cfg->MicrocodeRegionBase = (uint32_t)(uintptr_t)microcode_file;
s_cfg->MicrocodeRegionSize = (uint32_t)microcode_len;
}
}
}
static void fill_fsps_cpu_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
/*
* FIXME: FSP assumes ownership of the APs (Application Processors)
* upon passing `NULL` pointer to the CpuMpPpi FSP-S UPD.
* Hence, pass a valid pointer to the CpuMpPpi UPD unconditionally.
* This would avoid APs from getting hijacked by FSP while coreboot
* decides to set SkipMpInit UPD.
*/
s_cfg->CpuMpPpi = (uintptr_t)mp_fill_ppi_services_data();
/*
* Fill `2nd microcode loading FSP UPD` if FSP is running CPU feature
* programming.
*/
if (CONFIG(USE_FSP_FEATURE_PROGRAM_ON_APS))
fill_fsps_microcode_params(s_cfg, config);
}
static void fill_fsps_igd_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
/* Load VBT before devicetree-specific config. */
s_cfg->GraphicsConfigPtr = (uintptr_t)vbt_get();
/* Check if IGD is present and fill Graphics init param accordingly */
s_cfg->PeiGraphicsPeimInit = CONFIG(RUN_FSP_GOP) && is_devfn_enabled(PCI_DEVFN_IGD);
s_cfg->LidStatus = CONFIG(VBOOT_LID_SWITCH) ? get_lid_switch() : CONFIG(RUN_FSP_GOP);
s_cfg->PavpEnable = CONFIG(PAVP);
}
static void fill_fsps_tcss_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
const struct device *tcss_port_arr[] = {
DEV_PTR(tcss_usb3_port0),
DEV_PTR(tcss_usb3_port1),
DEV_PTR(tcss_usb3_port2),
DEV_PTR(tcss_usb3_port3),
};
s_cfg->TcssAuxOri = config->tcss_aux_ori;
/* Explicitly clear this field to avoid using defaults */
memset(s_cfg->IomTypeCPortPadCfg, 0, sizeof(s_cfg->IomTypeCPortPadCfg));
/* D3Hot and D3Cold for TCSS */
s_cfg->D3HotEnable = !config->tcss_d3_hot_disable;
s_cfg->D3ColdEnable = CONFIG(D3COLD_SUPPORT);
s_cfg->UsbTcPortEn = 0;
for (int i = 0; i < MAX_TYPE_C_PORTS; i++) {
if (is_dev_enabled(tcss_port_arr[i]))
s_cfg->UsbTcPortEn |= BIT(i);
}
}
static void fill_fsps_chipset_lockdown_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
/* Chipset Lockdown */
const bool lockdown_by_fsp = get_lockdown_config() == CHIPSET_LOCKDOWN_FSP;
s_cfg->PchLockDownGlobalSmi = lockdown_by_fsp;
s_cfg->PchLockDownBiosInterface = lockdown_by_fsp;
s_cfg->PchUnlockGpioPads = !lockdown_by_fsp;
s_cfg->RtcMemoryLock = lockdown_by_fsp;
s_cfg->SkipPamLock = !lockdown_by_fsp;
/* coreboot will send EOP before loading payload */
s_cfg->EndOfPostMessage = EOP_DISABLE;
}
static void fill_fsps_xhci_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
int i, max_port;
max_port = get_max_usb20_port();
for (i = 0; i < max_port; i++) {
s_cfg->PortUsb20Enable[i] = config->usb2_ports[i].enable;
s_cfg->Usb2PhyPetxiset[i] = config->usb2_ports[i].pre_emp_bias;
s_cfg->Usb2PhyTxiset[i] = config->usb2_ports[i].tx_bias;
s_cfg->Usb2PhyPredeemp[i] = config->usb2_ports[i].tx_emp_enable;
s_cfg->Usb2PhyPehalfbit[i] = config->usb2_ports[i].pre_emp_bit;
if (config->usb2_ports[i].enable)
s_cfg->Usb2OverCurrentPin[i] = config->usb2_ports[i].ocpin;
else
s_cfg->Usb2OverCurrentPin[i] = OC_SKIP;
}
max_port = get_max_usb30_port();
for (i = 0; i < max_port; i++) {
s_cfg->PortUsb30Enable[i] = config->usb3_ports[i].enable;
if (config->usb3_ports[i].enable)
s_cfg->Usb3OverCurrentPin[i] = config->usb3_ports[i].ocpin;
else
s_cfg->Usb3OverCurrentPin[i] = OC_SKIP;
if (config->usb3_ports[i].tx_de_emp) {
s_cfg->Usb3HsioTxDeEmphEnable[i] = 1;
s_cfg->Usb3HsioTxDeEmph[i] = config->usb3_ports[i].tx_de_emp;
}
if (config->usb3_ports[i].tx_downscale_amp) {
s_cfg->Usb3HsioTxDownscaleAmpEnable[i] = 1;
s_cfg->Usb3HsioTxDownscaleAmp[i] =
config->usb3_ports[i].tx_downscale_amp;
}
}
max_port = get_max_tcss_port();
for (i = 0; i < max_port; i++) {
if (config->tcss_ports[i].enable)
s_cfg->CpuUsb3OverCurrentPin[i] = config->tcss_ports[i].ocpin;
}
}
static void fill_fsps_xdci_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
s_cfg->XdciEnable = xdci_can_enable(PCI_DEVFN_USBOTG);
}
static void fill_fsps_uart_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
ASSERT(ARRAY_SIZE(s_cfg->SerialIoUartAutoFlow) > CONFIG_UART_FOR_CONSOLE);
s_cfg->SerialIoUartAutoFlow[CONFIG_UART_FOR_CONSOLE] = 0;
}
static void fill_fsps_sata_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
/* SATA */
s_cfg->SataEnable = is_devfn_enabled(PCI_DEVFN_SATA);
if (s_cfg->SataEnable) {
s_cfg->SataMode = config->sata_mode;
s_cfg->SataSalpSupport = config->sata_salp_support;
memcpy(s_cfg->SataPortsEnable, config->sata_ports_enable,
sizeof(s_cfg->SataPortsEnable));
memcpy(s_cfg->SataPortsDevSlp, config->sata_ports_dev_slp,
sizeof(s_cfg->SataPortsDevSlp));
}
/*
* Power Optimizer for SATA.
* SataPwrOptimizeDisable is default to 0.
* Boards not needing the optimizers explicitly disables them by setting
* these disable variables to 1 in devicetree overrides.
*/
s_cfg->SataPwrOptEnable = !(config->sata_pwr_optimize_disable);
/*
* Enable DEVSLP Idle Timeout settings DmVal and DitoVal.
* SataPortsDmVal is the DITO multiplier. Default is 15.
* SataPortsDitoVal is the DEVSLP Idle Timeout (DITO), Default is 625ms.
* The default values can be changed from devicetree.
*/
for (size_t i = 0; i < ARRAY_SIZE(config->sata_ports_enable_dito_config); i++) {
if (config->sata_ports_enable_dito_config[i]) {
s_cfg->SataPortsDmVal[i] = config->sata_ports_dm_val[i];
s_cfg->SataPortsDitoVal[i] = config->sata_ports_dito_val[i];
}
}
}
static void fill_fsps_thermal_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
/* Enable TCPU for processor thermal control */
s_cfg->Device4Enable = is_devfn_enabled(PCI_DEVFN_DPTF);
/* Set TccActivationOffset */
s_cfg->TccActivationOffset = config->tcc_offset;
}
static void fill_fsps_lan_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
/* LAN */
s_cfg->PchLanEnable = is_devfn_enabled(PCI_DEVFN_GBE);
}
static void fill_fsps_cnvi_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
/* CNVi */
s_cfg->CnviMode = is_devfn_enabled(PCI_DEVFN_CNVI_WIFI);
s_cfg->CnviWifiCore = config->cnvi_wifi_core;
s_cfg->CnviBtCore = config->cnvi_bt_core;
s_cfg->CnviBtAudioOffload = config->cnvi_bt_audio_offload;
if (!s_cfg->CnviMode && s_cfg->CnviWifiCore) {
printk(BIOS_ERR, "CNVi WiFi is enabled without CNVi being enabled\n");
s_cfg->CnviWifiCore = 0;
}
if (!s_cfg->CnviBtCore && s_cfg->CnviBtAudioOffload) {
printk(BIOS_ERR, "BT offload is enabled without CNVi BT being enabled\n");
s_cfg->CnviBtAudioOffload = 0;
}
if (!s_cfg->CnviMode && s_cfg->CnviBtCore) {
printk(BIOS_ERR, "CNVi BT is enabled without CNVi being enabled\n");
s_cfg->CnviBtCore = 0;
s_cfg->CnviBtAudioOffload = 0;
}
}
static void fill_fsps_vmd_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
/* VMD */
s_cfg->VmdEnable = is_devfn_enabled(PCI_DEVFN_VMD);
}
static void fill_fsps_tbt_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
for (int i = 0; i < ARRAY_SIZE(s_cfg->ITbtPcieRootPortEn); i++)
s_cfg->ITbtPcieRootPortEn[i] = is_devfn_enabled(PCI_DEVFN_TBT(i));
}
static void fill_fsps_8254_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
/* Legacy 8254 timer support */
bool use_8254 = get_uint_option("legacy_8254_timer", CONFIG(USE_LEGACY_8254_TIMER));
s_cfg->Enable8254ClockGating = !use_8254;
s_cfg->Enable8254ClockGatingOnS3 = !use_8254;
}
static void fill_fsps_pm_timer_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
/*
* Legacy PM ACPI Timer (and TCO Timer)
* This *must* be 1 in any case to keep FSP from
* 1) enabling PM ACPI Timer emulation in uCode.
* 2) disabling the PM ACPI Timer.
* We handle both by ourself!
*/
s_cfg->EnableTcoTimer = 1;
}
static void fill_fsps_pcie_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
int max_port = get_max_pcie_port();
uint32_t enable_mask = pcie_rp_enable_mask(get_pcie_rp_table());
for (int i = 0; i < max_port; i++) {
if (!(enable_mask & BIT(i)))
continue;
const struct pcie_rp_config *rp_cfg = &config->pcie_rp[i];
s_cfg->PcieRpL1Substates[i] =
get_l1_substate_control(rp_cfg->PcieRpL1Substates);
s_cfg->PcieRpLtrEnable[i] = !!(rp_cfg->flags & PCIE_RP_LTR);
s_cfg->PcieRpAdvancedErrorReporting[i] = !!(rp_cfg->flags & PCIE_RP_AER);
s_cfg->PcieRpHotPlug[i] = !!(rp_cfg->flags & PCIE_RP_HOTPLUG)
|| CONFIG(SOC_INTEL_COMPLIANCE_TEST_MODE);
s_cfg->PcieRpClkReqDetect[i] = !!(rp_cfg->flags & PCIE_RP_CLK_REQ_DETECT);
if (rp_cfg->pcie_rp_aspm)
s_cfg->PcieRpAspm[i] = get_aspm_control(rp_cfg->pcie_rp_aspm);
}
s_cfg->PcieComplianceTestMode = CONFIG(SOC_INTEL_COMPLIANCE_TEST_MODE);
}
static void fill_fsps_misc_power_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
/* Skip setting D0I3 bit for all HECI devices */
s_cfg->DisableD0I3SettingForHeci = 1;
s_cfg->Hwp = 1;
s_cfg->Cx = 1;
s_cfg->PsOnEnable = 1;
s_cfg->PkgCStateLimit = LIMIT_AUTO;
/* Enable the energy efficient turbo mode */
s_cfg->EnergyEfficientTurbo = 1;
s_cfg->PmcLpmS0ixSubStateEnableMask = get_supported_lpm_mask();
/* Un-Demotion from Demoted C1 need to be disable when
* C1 auto demotion is disabled */
s_cfg->C1StateUnDemotion = !config->disable_c1_state_auto_demotion;
s_cfg->C1StateAutoDemotion = !config->disable_c1_state_auto_demotion;
s_cfg->PkgCStateDemotion = !config->disable_package_c_state_demotion;
s_cfg->PkgCStateUnDemotion = !config->disable_package_c_state_demotion;
s_cfg->PmcV1p05PhyExtFetControlEn = 1;
/* Enable PCH to CPU energy report feature. */
s_cfg->PchPmDisableEnergyReport = !config->pch_pm_energy_report_enable;
}
static void fill_fsps_ufs_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
s_cfg->UfsEnable[0] = is_devfn_enabled(PCI_DEVFN_UFS);
}
static void fill_fsps_ai_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
s_cfg->GnaEnable = is_devfn_enabled(PCI_DEVFN_GNA);
s_cfg->VpuEnable = is_devfn_enabled(PCI_DEVFN_VPU);
}
static void fill_fsps_irq_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
if (!assign_pci_irqs(irq_constraints, ARRAY_SIZE(irq_constraints)))
die("ERROR: Unable to assign PCI IRQs, and no _PRT table available\n");
size_t pch_count = 0;
const SI_PCH_DEVICE_INTERRUPT_CONFIG *upd_irqs = pci_irq_to_fsp(&pch_count);
s_cfg->DevIntConfigPtr = (UINT32)((uintptr_t)upd_irqs);
s_cfg->NumOfDevIntConfig = pch_count;
printk(BIOS_INFO, "IRQ: Using dynamically assigned PCI IO-APIC IRQs\n");
}
static void arch_silicon_init_params(FSPS_ARCH_UPD *s_arch_cfg)
{
/*
* EnableMultiPhaseSiliconInit for running MultiPhaseSiInit
*/
s_arch_cfg->EnableMultiPhaseSiliconInit = 1;
/* Assign FspEventHandler arch Upd to use coreboot debug event handler */
if (CONFIG(FSP_USES_CB_DEBUG_EVENT_HANDLER) && CONFIG(CONSOLE_SERIAL) &&
CONFIG(FSP_ENABLE_SERIAL_DEBUG))
s_arch_cfg->FspEventHandler = (FSP_EVENT_HANDLER)
fsp_debug_event_handler;
}
static void evaluate_ssid(const struct device *dev, uint16_t *svid, uint16_t *ssid)
{
if (!(dev && svid && ssid))
return;
*svid = CONFIG_SUBSYSTEM_VENDOR_ID ? : (dev->subsystem_vendor ? : 0x8086);
*ssid = CONFIG_SUBSYSTEM_DEVICE_ID ? : (dev->subsystem_device ? : 0xfffe);
}
/*
* Programming SSID before FSP-S is important because SSID registers of a few PCIE
* devices (e.g. IPU, Crashlog, XHCI, TCSS_XHCI etc.) are locked after FSP-S hence
* provide a custom SSID (same as DID by default) value via UPD.
*/
static void fill_fsps_pci_ssid_params(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config)
{
struct svid_ssid_init_entry {
union {
struct {
uint64_t reg:12;
uint64_t function:3;
uint64_t device:5;
uint64_t bus:8;
uint64_t ignore1:4;
uint64_t segment:16;
uint64_t ignore2:16;
};
uint64_t data;
};
struct {
uint16_t svid;
uint16_t ssid;
};
uint32_t ignore3;
};
static struct svid_ssid_init_entry ssid_table[MAX_ONBOARD_PCIE_DEVICES];
const struct device *dev;
int i = 0;
for (dev = all_devices; dev; dev = dev->next) {
if (!(is_dev_enabled(dev) && dev->path.type == DEVICE_PATH_PCI &&
dev->bus->secondary == 0))
continue;
if (dev->path.pci.devfn == PCI_DEVFN_ROOT) {
evaluate_ssid(dev, &s_cfg->SiCustomizedSvid, &s_cfg->SiCustomizedSsid);
} else {
ssid_table[i].reg = PCI_SUBSYSTEM_VENDOR_ID;
ssid_table[i].device = PCI_SLOT(dev->path.pci.devfn);
ssid_table[i].function = PCI_FUNC(dev->path.pci.devfn);
evaluate_ssid(dev, &ssid_table[i].svid, &ssid_table[i].ssid);
i++;
}
}
s_cfg->SiSsidTablePtr = (uintptr_t)ssid_table;
s_cfg->SiNumberOfSsidTableEntry = i;
/* Ensure FSP will program the registers */
s_cfg->SiSkipSsidProgramming = 0;
}
static void soc_silicon_init_params(FSP_S_CONFIG *s_cfg,
struct soc_intel_meteorlake_config *config)
{
/* Override settings per board if required. */
mainboard_update_soc_chip_config(config);
void (*fill_fsps_params[])(FSP_S_CONFIG *s_cfg,
const struct soc_intel_meteorlake_config *config) = {
fill_fsps_lpss_params,
fill_fsps_cpu_params,
fill_fsps_igd_params,
fill_fsps_tcss_params,
fill_fsps_chipset_lockdown_params,
fill_fsps_xhci_params,
fill_fsps_xdci_params,
fill_fsps_uart_params,
fill_fsps_sata_params,
fill_fsps_thermal_params,
fill_fsps_lan_params,
fill_fsps_cnvi_params,
fill_fsps_vmd_params,
fill_fsps_tbt_params,
fill_fsps_8254_params,
fill_fsps_pm_timer_params,
fill_fsps_pcie_params,
fill_fsps_misc_power_params,
fill_fsps_ufs_params,
fill_fsps_ai_params,
fill_fsps_irq_params,
fill_fsps_pci_ssid_params,
};
for (size_t i = 0; i < ARRAY_SIZE(fill_fsps_params); i++)
fill_fsps_params[i](s_cfg, config);
}
/* UPD parameters to be initialized before SiliconInit */
void platform_fsp_silicon_init_params_cb(FSPS_UPD *supd)
{
struct soc_intel_meteorlake_config *config;
FSP_S_CONFIG *s_cfg = &supd->FspsConfig;
FSPS_ARCH_UPD *s_arch_cfg = &supd->FspsArchUpd;
config = config_of_soc();
arch_silicon_init_params(s_arch_cfg);
soc_silicon_init_params(s_cfg, config);
mainboard_silicon_init_params(s_cfg);
}
/*
* Callbacks for SoC/Mainboard specific overrides for FspMultiPhaseSiInit
* This platform supports below MultiPhaseSIInit Phase(s):
* Phase | FSP return point | Purpose
* ------- + ------------------------------------------------ + -------------------------------
* 1 | After TCSS initialization completed | for TCSS specific init
* 2 | Before BIOS Reset CPL is set by FSP-S | for CPU specific init
*/
void platform_fsp_multi_phase_init_cb(uint32_t phase_index)
{
switch (phase_index) {
case 1:
/* TCSS specific initialization here */
printk(BIOS_DEBUG, "FSP MultiPhaseSiInit %s/%s called\n",
__FILE__, __func__);
if (CONFIG(SOC_INTEL_COMMON_BLOCK_TCSS)) {
const config_t *config = config_of_soc();
tcss_configure(config->typec_aux_bias_pads);
}
break;
case 2:
/* CPU specific initialization here */
printk(BIOS_DEBUG, "FSP MultiPhaseSiInit %s/%s called\n",
__FILE__, __func__);
before_post_cpus_init();
/* Enable BIOS Reset CPL */
enable_bios_reset_cpl();
break;
default:
break;
}
}
/* Mainboard GPIO Configuration */
__weak void mainboard_silicon_init_params(FSP_S_CONFIG *s_cfg)
{
printk(BIOS_DEBUG, "WEAK: %s/%s called\n", __FILE__, __func__);
}
/* Handle FSP logo params */
void soc_load_logo(FSPS_UPD *supd)
{
fsp_convert_bmp_to_gop_blt(&supd->FspsConfig.LogoPtr,
&supd->FspsConfig.LogoSize,
&supd->FspsConfig.BltBufferAddress,
&supd->FspsConfig.BltBufferSize,
&supd->FspsConfig.LogoPixelHeight,
&supd->FspsConfig.LogoPixelWidth);
}
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