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review.coreboot.org / coreboot / b9b6f4d0132b0ae77a52261efbf0c2f5b6011d0d / . / src / soc / intel / elkhartlake / fsp_params.c
blob: 611d12b49351a819a508005197438941cbf70499 [file] [log] [blame]
/* SPDX-License-Identifier: GPL-2.0-only */
#include <assert.h>
#include <console/console.h>
#include <device/device.h>
#include <fsp/api.h>
#include <fsp/ppi/mp_service_ppi.h>
#include <fsp/util.h>
#include <intelblocks/lpss.h>
#include <intelblocks/mp_init.h>
#include <intelblocks/xdci.h>
#include <intelpch/lockdown.h>
#include <soc/intel/common/vbt.h>
#include <soc/pci_devs.h>
#include <soc/ramstage.h>
#include <soc/soc_chip.h>
#include <string.h>
/* SATA DEVSLP idle timeout default values */
#define DEF_DMVAL 15
#define DEF_DITOVAL_MS 625
/* Native function controls pads termination */
#define GPIO_TERM_NATIVE 0x1F
/*
* 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 ((ctl > L1_SS_L1_2) || (ctl == L1_SS_FSP_DEFAULT))
ctl = L1_SS_L1_2;
return ctl - 1;
}
static void parse_devicetree(FSP_S_CONFIG *params)
{
const struct soc_intel_elkhartlake_config *config = config_of_soc();
/* LPSS controllers configuration */
/* I2C */
_Static_assert(ARRAY_SIZE(params->SerialIoI2cMode) >=
ARRAY_SIZE(config->SerialIoI2cMode), "copy buffer overflow!");
memcpy(params->SerialIoI2cMode, config->SerialIoI2cMode,
sizeof(config->SerialIoI2cMode));
_Static_assert(ARRAY_SIZE(params->PchSerialIoI2cPadsTermination) >=
ARRAY_SIZE(config->SerialIoI2cPadsTermination),
"copy buffer overflow!");
memcpy(params->PchSerialIoI2cPadsTermination, config->SerialIoI2cPadsTermination,
sizeof(config->SerialIoI2cPadsTermination));
params->PchSerialIoI2cSclPinMux[4] = 0x1B44AC09; //GPIO native mode for GPP_H9
params->PchSerialIoI2cSdaPinMux[4] = 0x1B44CC08; //GPIO native mode for GPP_H8
/* GSPI */
_Static_assert(ARRAY_SIZE(params->SerialIoSpiMode) >=
ARRAY_SIZE(config->SerialIoGSpiMode), "copy buffer overflow!");
memcpy(params->SerialIoSpiMode, config->SerialIoGSpiMode,
sizeof(config->SerialIoGSpiMode));
_Static_assert(ARRAY_SIZE(params->SerialIoSpiCsEnable) >=
ARRAY_SIZE(config->SerialIoGSpiCsEnable), "copy buffer overflow!");
memcpy(params->SerialIoSpiCsEnable, config->SerialIoGSpiCsEnable,
sizeof(config->SerialIoGSpiCsEnable));
_Static_assert(ARRAY_SIZE(params->SerialIoSpiCsMode) >=
ARRAY_SIZE(config->SerialIoGSpiCsMode), "copy buffer overflow!");
memcpy(params->SerialIoSpiCsMode, config->SerialIoGSpiCsMode,
sizeof(config->SerialIoGSpiCsMode));
_Static_assert(ARRAY_SIZE(params->SerialIoSpiCsState) >=
ARRAY_SIZE(config->SerialIoGSpiCsState), "copy buffer overflow!");
memcpy(params->SerialIoSpiCsState, config->SerialIoGSpiCsState,
sizeof(config->SerialIoGSpiCsState));
params->SerialIoSpiCsPolarity[2] = 0;
/* UART */
_Static_assert(ARRAY_SIZE(params->SerialIoUartMode) >=
ARRAY_SIZE(config->SerialIoUartMode), "copy buffer overflow!");
memcpy(params->SerialIoUartMode, config->SerialIoUartMode,
sizeof(config->SerialIoUartMode));
_Static_assert(ARRAY_SIZE(params->SerialIoUartDmaEnable) >=
ARRAY_SIZE(config->SerialIoUartDmaEnable), "copy buffer overflow!");
memcpy(params->SerialIoUartDmaEnable, config->SerialIoUartDmaEnable,
sizeof(config->SerialIoUartDmaEnable));
params->SerialIoUartCtsPinMuxPolicy[0] = 0x2B01320F; //GPIO native mode for GPP_T15
params->SerialIoUartRtsPinMuxPolicy[0] = 0x2B01220E; //GPIO native mode for GPP_T14
params->SerialIoUartRxPinMuxPolicy[0] = 0x2B01020C; //GPIO native mode for GPP_T12
params->SerialIoUartTxPinMuxPolicy[0] = 0x2B01120D; //GPIO native mode for GPP_T13
/* Provide correct UART number for FSP debug logs */
params->SerialIoDebugUartNumber = CONFIG_UART_FOR_CONSOLE;
}
/* UPD parameters to be initialized before SiliconInit */
void platform_fsp_silicon_init_params_cb(FSPS_UPD *supd)
{
unsigned int i;
struct device *dev;
FSP_S_CONFIG *params = &supd->FspsConfig;
struct soc_intel_elkhartlake_config *config = config_of_soc();
/* Parse device tree and fill in FSP UPDs */
parse_devicetree(params);
/* Load VBT before devicetree-specific config. */
params->GraphicsConfigPtr = (uintptr_t)vbt_get();
/* Check if IGD is present and fill Graphics init param accordingly */
dev = pcidev_path_on_root(SA_DEVFN_IGD);
params->PeiGraphicsPeimInit = CONFIG(RUN_FSP_GOP) && is_dev_enabled(dev);
/* Display config */
params->DdiPortAHpd = config->DdiPortAHpd;
params->DdiPortADdc = config->DdiPortADdc;
params->DdiPortCHpd = config->DdiPortCHpd;
params->DdiPortCDdc = config->DdiPortCDdc;
/* Use coreboot MP PPI services if Kconfig is enabled */
if (CONFIG(USE_INTEL_FSP_TO_CALL_COREBOOT_PUBLISH_MP_PPI))
params->CpuMpPpi = (uintptr_t) mp_fill_ppi_services_data();
/* Chipset Lockdown */
if (get_lockdown_config() == CHIPSET_LOCKDOWN_COREBOOT) {
params->PchLockDownGlobalSmi = 0;
params->PchLockDownBiosLock = 0;
params->PchLockDownBiosInterface = 0;
params->PchWriteProtectionEnable[0] = 0;
params->PchUnlockGpioPads = 1;
params->RtcMemoryLock = 0;
} else {
params->PchLockDownGlobalSmi = 1;
params->PchLockDownBiosLock = 1;
params->PchLockDownBiosInterface = 1;
params->PchWriteProtectionEnable[0] = 1;
params->PchUnlockGpioPads = 0;
params->RtcMemoryLock = 1;
}
/* Disable PAVP */
params->PavpEnable = 0;
/* Legacy 8254 timer support */
params->Enable8254ClockGating = !CONFIG(USE_LEGACY_8254_TIMER);
params->Enable8254ClockGatingOnS3 = 1;
/* PCH Master Gating Control */
params->PchPostMasterClockGating = 1;
params->PchPostMasterPowerGating = 1;
/* HECI */
params->Heci3Enabled = config->Heci3Enable;
/* USB configuration */
for (i = 0; i < ARRAY_SIZE(config->usb2_ports); i++) {
params->PortUsb20Enable[i] = config->usb2_ports[i].enable;
params->Usb2PhyPetxiset[i] = config->usb2_ports[i].pre_emp_bias;
params->Usb2PhyTxiset[i] = config->usb2_ports[i].tx_bias;
params->Usb2PhyPredeemp[i] = config->usb2_ports[i].tx_emp_enable;
params->Usb2PhyPehalfbit[i] = config->usb2_ports[i].pre_emp_bit;
params->Usb2OverCurrentPin[i] = config->usb2_ports[i].enable ?
config->usb2_ports[i].ocpin : 0xff;
}
for (i = 0; i < ARRAY_SIZE(config->usb3_ports); i++) {
params->PortUsb30Enable[i] = config->usb3_ports[i].enable;
params->Usb3OverCurrentPin[i] = config->usb3_ports[i].enable ?
config->usb3_ports[i].ocpin : 0xff;
if (config->usb3_ports[i].tx_de_emp) {
params->Usb3HsioTxDeEmphEnable[i] = 1;
params->Usb3HsioTxDeEmph[i] = config->usb3_ports[i].tx_de_emp;
}
if (config->usb3_ports[i].tx_downscale_amp) {
params->Usb3HsioTxDownscaleAmpEnable[i] = 1;
params->Usb3HsioTxDownscaleAmp[i] =
config->usb3_ports[i].tx_downscale_amp;
}
}
params->UsbClockGatingEnable = 1;
params->UsbPowerGatingEnable = 1;
/* Enable xDCI controller if enabled in devicetree and allowed */
dev = pcidev_path_on_root(PCH_DEVFN_USBOTG);
if (dev) {
if (!xdci_can_enable())
dev->enabled = 0;
params->XdciEnable = dev->enabled;
} else {
params->XdciEnable = 0;
}
/* PCIe root ports config */
for (i = 0; i < CONFIG_MAX_ROOT_PORTS; i++) {
params->PcieRpClkReqDetect[i] =
!config->PcieRpClkReqDetectDisable[i];
params->PcieRpL1Substates[i] =
get_l1_substate_control(config->PcieRpL1Substates[i]);
params->PcieRpLtrEnable[i] = !config->PcieRpLtrDisable[i];
params->PcieRpAdvancedErrorReporting[i] =
!config->PcieRpAdvancedErrorReportingDisable[i];
params->PcieRpHotPlug[i] = config->PcieRpHotPlug[i];
params->PciePtm[i] = config->PciePtm[i];
params->PcieRpLtrMaxNoSnoopLatency[i] = 0x1003;
params->PcieRpLtrMaxSnoopLatency[i] = 0x1003;
/* Virtual Channel 1 to Traffic Class mapping */
params->PcieRpVc1TcMap[i] = 0x60;
}
/* SATA config */
dev = pcidev_path_on_root(PCH_DEVFN_SATA);
params->SataEnable = is_dev_enabled(dev);
if (params->SataEnable) {
params->SataMode = config->SataMode;
params->SataSalpSupport = config->SataSalpSupport;
params->SataPwrOptEnable = !(config->SataPwrOptimizeDisable);
for (i = 0; i < CONFIG_MAX_SATA_PORTS; i++) {
params->SataPortsEnable[i] = config->SataPortsEnable[i];
params->SataPortsDevSlp[i] = config->SataPortsDevSlp[i];
if (config->SataPortsEnableDitoConfig[i]) {
params->SataPortsDmVal[i] =
config->SataPortsDmVal[i] ? : DEF_DMVAL;
params->SataPortsDitoVal[i] =
config->SataPortsDitoVal[i] ? : DEF_DITOVAL_MS;
}
}
}
/* SDCard config */
dev = pcidev_path_on_root(PCH_DEVFN_SDCARD);
params->ScsSdCardEnabled = is_dev_enabled(dev);
if (params->ScsSdCardEnabled) {
params->SdCardPowerEnableActiveHigh = config->SdCardPowerEnableActiveHigh;
params->SdCardGpioCmdPadTermination = GPIO_TERM_NATIVE;
params->SdCardGpioDataPadTermination[0] = GPIO_TERM_NATIVE;
params->SdCardGpioDataPadTermination[1] = GPIO_TERM_NATIVE;
params->SdCardGpioDataPadTermination[2] = GPIO_TERM_NATIVE;
params->SdCardGpioDataPadTermination[3] = GPIO_TERM_NATIVE;
}
/* eMMC config */
dev = pcidev_path_on_root(PCH_DEVFN_EMMC);
params->ScsEmmcEnabled = is_dev_enabled(dev);
if (params->ScsEmmcEnabled) {
params->ScsEmmcHs400Enabled = config->ScsEmmcHs400Enabled;
params->ScsEmmcDdr50Enabled = config->ScsEmmcDdr50Enabled;
}
/* Override/Fill FSP Silicon Param for mainboard */
mainboard_silicon_init_params(params);
}
/* Mainboard GPIO Configuration */
__weak void mainboard_silicon_init_params(FSP_S_CONFIG *params)
{
printk(BIOS_DEBUG, "WEAK: %s/%s called\n", __FILE__, __func__);
}