Atmosphere/libraries/libvapours/source/sdmmc/impl/sdmmc_sdmmc_controller.board.nintendo_nx.hpp

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/*
* Copyright (c) Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope 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.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include <vapours.hpp>
#include "sdmmc_sd_host_standard_controller.hpp"
#include "sdmmc_clock_reset_controller.hpp"
namespace ams::sdmmc::impl {
bool IsSocMariko();
constexpr inline size_t SdmmcRegistersSize = 0x200;
constexpr inline dd::PhysicalAddress ApbMiscRegistersPhysicalAddress = UINT64_C(0x70000000);
constexpr inline size_t ApbMiscRegistersSize = 16_KB;
class SdmmcController : public SdHostStandardController {
private:
struct SdmmcRegisters {
/* Standard registers. */
volatile SdHostStandardRegisters sd_host_standard_registers;
/* Vendor specific registers */
volatile uint32_t vendor_clock_cntrl;
volatile uint32_t vendor_sys_sw_cntrl;
volatile uint32_t vendor_err_intr_status;
volatile uint32_t vendor_cap_overrides;
volatile uint32_t vendor_boot_cntrl;
volatile uint32_t vendor_boot_ack_timeout;
volatile uint32_t vendor_boot_dat_timeout;
volatile uint32_t vendor_debounce_count;
volatile uint32_t vendor_misc_cntrl;
volatile uint32_t max_current_override;
volatile uint32_t max_current_override_hi;
volatile uint32_t _0x12c[0x20];
volatile uint32_t vendor_io_trim_cntrl;
/* Start of sdmmc2/sdmmc4 only */
volatile uint32_t vendor_dllcal_cfg;
volatile uint32_t vendor_dll_ctrl0;
volatile uint32_t vendor_dll_ctrl1;
volatile uint32_t vendor_dllcal_cfg_sta;
/* End of sdmmc2/sdmmc4 only */
volatile uint32_t vendor_tuning_cntrl0;
volatile uint32_t vendor_tuning_cntrl1;
volatile uint32_t vendor_tuning_status0;
volatile uint32_t vendor_tuning_status1;
volatile uint32_t vendor_clk_gate_hysteresis_count;
volatile uint32_t vendor_preset_val0;
volatile uint32_t vendor_preset_val1;
volatile uint32_t vendor_preset_val2;
volatile uint32_t sdmemcomppadctrl;
volatile uint32_t auto_cal_config;
volatile uint32_t auto_cal_interval;
volatile uint32_t auto_cal_status;
volatile uint32_t io_spare;
volatile uint32_t sdmmca_mccif_fifoctrl;
volatile uint32_t timeout_wcoal_sdmmca;
volatile uint32_t _0x1fc;
};
static_assert(sizeof(SdmmcRegisters) == SdmmcRegistersSize);
private:
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SdmmcRegisters *m_sdmmc_registers;
bool m_is_shutdown;
bool m_is_awake;
SpeedMode m_current_speed_mode;
BusPower m_bus_power_before_sleep;
BusWidth m_bus_width_before_sleep;
SpeedMode m_speed_mode_before_sleep;
u8 m_tap_value_before_sleep;
bool m_is_powersaving_enable_before_sleep;
u8 m_tap_value_for_hs_400;
bool m_is_valid_tap_value_for_hs_400;
Result m_drive_strength_calibration_status;
private:
void ReleaseReset(SpeedMode speed_mode);
void AssertReset();
Result StartupCore(BusPower bus_power);
Result SetClockTrimmer(SpeedMode speed_mode, u8 tap_value);
u8 GetCurrentTapValue();
Result CalibrateDll();
Result SetSpeedModeWithTapValue(SpeedMode speed_mode, u8 tap_value);
Result IssueTuningCommand(u32 command_index);
protected:
void SetDriveCodeOffsets(BusPower bus_power);
void CalibrateDriveStrength(BusPower bus_power);
virtual void SetPad() = 0;
virtual ClockResetController::Module GetClockResetModule() const = 0;
#if defined(AMS_SDMMC_USE_OS_EVENTS)
virtual int GetInterruptNumber() const = 0;
virtual os::InterruptEventType *GetInterruptEvent() const = 0;
#endif
virtual bool IsNeedPeriodicDriveStrengthCalibration() = 0;
virtual void ClearPadParked() = 0;
virtual Result PowerOn(BusPower bus_power) = 0;
virtual void PowerOff() = 0;
virtual Result LowerBusPower() = 0;
virtual void SetSchmittTrigger(BusPower bus_power) = 0;
virtual u8 GetOutboundTapValue() const = 0;
virtual u8 GetDefaultInboundTapValue() const = 0;
virtual u8 GetVrefSelValue() const = 0;
virtual void SetSlewCodes() = 0;
virtual void GetAutoCalOffsets(u8 *out_auto_cal_pd_offset, u8 *out_auto_cal_pu_offset, BusPower bus_power) const = 0;
virtual void SetDriveStrengthToDefaultValues(BusPower bus_power) = 0;
public:
explicit SdmmcController(dd::PhysicalAddress registers_phys_addr) : SdHostStandardController(registers_phys_addr, SdmmcRegistersSize) {
/* Set sdmmc registers. */
static_assert(AMS_OFFSETOF(SdmmcRegisters, sd_host_standard_registers) == 0);
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m_sdmmc_registers = reinterpret_cast<SdmmcRegisters *>(m_registers);
m_is_shutdown = true;
m_is_awake = true;
m_is_valid_tap_value_for_hs_400 = false;
m_drive_strength_calibration_status = sdmmc::ResultDriveStrengthCalibrationNotCompleted();
m_tap_value_for_hs_400 = 0;
m_current_speed_mode = SpeedMode_MmcIdentification;
m_bus_power_before_sleep = BusPower_Off;
m_bus_width_before_sleep = BusWidth_1Bit;
m_speed_mode_before_sleep = SpeedMode_MmcIdentification;
m_tap_value_before_sleep = 0;
m_is_powersaving_enable_before_sleep = false;
}
virtual void Initialize() override {
/* Set pad. */
this->SetPad();
/* Initialize our clock/reset module. */
ClockResetController::Initialize(this->GetClockResetModule());
/* If necessary, initialize our interrupt event. */
#if defined(AMS_SDMMC_USE_OS_EVENTS)
{
os::InterruptEventType *interrupt_event = this->GetInterruptEvent();
os::InitializeInterruptEvent(interrupt_event, this->GetInterruptNumber(), os::EventClearMode_ManualClear);
SdHostStandardController::PreSetInterruptEvent(interrupt_event);
}
#endif
/* Perform base initialization. */
SdHostStandardController::Initialize();
}
virtual void Finalize() override {
/* Perform base finalization. */
SdHostStandardController::Finalize();
/* If necessary, finalize our interrupt event. */
#if defined(AMS_SDMMC_USE_OS_EVENTS)
{
os::FinalizeInterruptEvent(this->GetInterruptEvent());
}
#endif
/* Finalize our clock/reset module. */
ClockResetController::Finalize(this->GetClockResetModule());
}
virtual Result Startup(BusPower bus_power, BusWidth bus_width, SpeedMode speed_mode, bool power_saving_enable) override;
virtual void Shutdown() override;
virtual void PutToSleep() override;
virtual Result Awaken() override;
virtual Result SwitchToSdr12() override;
virtual Result SetSpeedMode(SpeedMode speed_mode) override;
virtual SpeedMode GetSpeedMode() const override {
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return m_current_speed_mode;
}
virtual void SetPowerSaving(bool en) override;
virtual void EnableDeviceClock() override;
virtual Result IssueCommand(const Command *command, TransferData *xfer_data, u32 *out_num_transferred_blocks) override;
virtual Result IssueStopTransmissionCommand(u32 *out_response) override;
virtual bool IsSupportedTuning() const override {
return true;
}
virtual Result Tuning(SpeedMode speed_mode, u32 command_index) override;
virtual void SaveTuningStatusForHs400() override;
virtual Result GetInternalStatus() const override {
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return m_drive_strength_calibration_status;
}
};
constexpr inline dd::PhysicalAddress Sdmmc1RegistersPhysicalAddress = UINT64_C(0x700B0000);
class Sdmmc1Controller : public SdmmcController {
private:
#if defined(AMS_SDMMC_USE_OS_EVENTS)
static constinit inline os::InterruptEventType s_interrupt_event{};
#endif
/* NOTE: This is a fascimile of pcv's Sdmmc1PowerController. */
class PowerController {
NON_COPYABLE(PowerController);
NON_MOVEABLE(PowerController);
private:
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BusPower m_current_bus_power;
private:
Result ControlVddioSdmmc1(BusPower bus_power);
void SetSdmmcIoMode(bool is_3_3V);
void ControlRailSdmmc1Io(bool is_power_on);
public:
PowerController();
~PowerController();
Result PowerOn(BusPower bus_power);
Result PowerOff();
Result LowerBusPower();
};
private:
#if defined(AMS_SDMMC_USE_PCV_CLOCK_RESET_CONTROL)
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/* TODO: pinmux::PinmuxSession m_pinmux_session; */
#endif
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BusPower m_current_bus_power;
#if defined(AMS_SDMMC_USE_PCV_CLOCK_RESET_CONTROL)
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bool m_is_pcv_control;
#endif
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util::TypedStorage<PowerController> m_power_controller_storage;
PowerController *m_power_controller;
private:
Result PowerOnForRegisterControl(BusPower bus_power);
void PowerOffForRegisterControl();
Result LowerBusPowerForRegisterControl();
void SetSchmittTriggerForRegisterControl(BusPower bus_power);
#if defined(AMS_SDMMC_USE_PCV_CLOCK_RESET_CONTROL)
Result PowerOnForPcvControl(BusPower bus_power);
void PowerOffForPcvControl();
Result LowerBusPowerForPcvControl();
void SetSchmittTriggerForPcvControl(BusPower bus_power);
#endif
protected:
virtual void SetPad() override {
/* Nothing is needed here. */
}
virtual ClockResetController::Module GetClockResetModule() const override {
return ClockResetController::Module_Sdmmc1;
}
#if defined(AMS_SDMMC_USE_OS_EVENTS)
virtual int GetInterruptNumber() const override {
return 46;
}
virtual os::InterruptEventType *GetInterruptEvent() const override {
return std::addressof(s_interrupt_event);
}
#endif
virtual bool IsNeedPeriodicDriveStrengthCalibration() override {
return !IsSocMariko();
}
virtual void ClearPadParked() override {
/* Nothing is needed here. */
}
virtual Result PowerOn(BusPower bus_power) override;
virtual void PowerOff() override;
virtual Result LowerBusPower() override;
virtual void SetSchmittTrigger(BusPower bus_power) override;
virtual u8 GetOutboundTapValue() const override {
if (IsSocMariko()) {
return 0xE;
} else {
return 0x2;
}
}
virtual u8 GetDefaultInboundTapValue() const override {
if (IsSocMariko()) {
return 0xB;
} else {
return 0x4;
}
}
virtual u8 GetVrefSelValue() const override {
if (IsSocMariko()) {
return 0x0;
} else {
return 0x7;
}
}
virtual void SetSlewCodes() override {
if (IsSocMariko()) {
/* Do nothing. */
} else {
/* Ensure that we can control registers. */
SdHostStandardController::EnsureControl();
/* Get the apb registers address. */
const uintptr_t apb_address = dd::QueryIoMapping(ApbMiscRegistersPhysicalAddress, ApbMiscRegistersSize);
/* Write the slew values to APB_MISC_GP_SDMMC1_PAD_CFGPADCTRL. */
reg::ReadWrite(apb_address + APB_MISC_GP_SDMMC1_PAD_CFGPADCTRL, APB_MISC_REG_BITS_VALUE(GP_SDMMC1_PAD_CFGPADCTRL_CFG2TMC_SDMMC1_CLK_CFG_CAL_DRVDN_SLWR, 0x1),
APB_MISC_REG_BITS_VALUE(GP_SDMMC1_PAD_CFGPADCTRL_CFG2TMC_SDMMC1_CLK_CFG_CAL_DRVDN_SLWF, 0x1));
/* Read to be sure our config takes. */
reg::Read(apb_address + APB_MISC_GP_SDMMC1_PAD_CFGPADCTRL);
}
}
virtual void GetAutoCalOffsets(u8 *out_auto_cal_pd_offset, u8 *out_auto_cal_pu_offset, BusPower bus_power) const override {
/* Ensure that we can write the offsets. */
AMS_ABORT_UNLESS(out_auto_cal_pd_offset != nullptr);
AMS_ABORT_UNLESS(out_auto_cal_pu_offset != nullptr);
/* Set the offsets. */
if (IsSocMariko()) {
switch (bus_power) {
case BusPower_1_8V:
*out_auto_cal_pd_offset = 6;
*out_auto_cal_pu_offset = 6;
break;
case BusPower_3_3V:
*out_auto_cal_pd_offset = 0;
*out_auto_cal_pu_offset = 0;
break;
case BusPower_Off:
AMS_UNREACHABLE_DEFAULT_CASE();
}
} else {
switch (bus_power) {
case BusPower_1_8V:
*out_auto_cal_pd_offset = 0x7B;
*out_auto_cal_pu_offset = 0x7B;
break;
case BusPower_3_3V:
*out_auto_cal_pd_offset = 0x7D;
*out_auto_cal_pu_offset = 0;
break;
case BusPower_Off:
AMS_UNREACHABLE_DEFAULT_CASE();
}
}
}
virtual void SetDriveStrengthToDefaultValues(BusPower bus_power) override {
/* Ensure that we can control registers. */
SdHostStandardController::EnsureControl();
/* Get the apb registers address. */
const uintptr_t apb_address = dd::QueryIoMapping(ApbMiscRegistersPhysicalAddress, ApbMiscRegistersSize);
/* Determine the drive code values. */
u8 drvdn, drvup;
if (IsSocMariko()) {
drvdn = 0x8;
drvup = 0x8;
} else {
switch (bus_power) {
case BusPower_1_8V:
drvdn = 0xF;
drvup = 0xB;
break;
case BusPower_3_3V:
drvdn = 0xC;
drvup = 0xC;
break;
case BusPower_Off:
AMS_UNREACHABLE_DEFAULT_CASE();
}
}
/* Write the drv up/down values to APB_MISC_GP_SDMMC1_PAD_CFGPADCTRL. */
reg::ReadWrite(apb_address + APB_MISC_GP_SDMMC1_PAD_CFGPADCTRL, APB_MISC_REG_BITS_VALUE(GP_SDMMC1_PAD_CFGPADCTRL_CFG2TMC_SDMMC1_PAD_CAL_DRVDN, drvdn),
APB_MISC_REG_BITS_VALUE(GP_SDMMC1_PAD_CFGPADCTRL_CFG2TMC_SDMMC1_PAD_CAL_DRVUP, drvup));
/* Read to be sure our config takes. */
reg::Read(apb_address + APB_MISC_GP_SDMMC1_PAD_CFGPADCTRL);
}
public:
Sdmmc1Controller() : SdmmcController(Sdmmc1RegistersPhysicalAddress) {
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m_current_bus_power = BusPower_Off;
#if defined(AMS_SDMMC_USE_PCV_CLOCK_RESET_CONTROL)
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m_is_pcv_control = false;
#endif
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m_power_controller = nullptr;
}
virtual void Initialize() override;
virtual void Finalize() override;
void InitializeForRegisterControl();
void FinalizeForRegisterControl();
#if defined(AMS_SDMMC_USE_PCV_CLOCK_RESET_CONTROL)
void InitializeForPcvControl();
void FinalizeForPcvControl();
#endif
virtual bool IsSupportedBusPower(BusPower bus_power) const override {
switch (bus_power) {
case BusPower_Off: return true;
case BusPower_1_8V: return true;
case BusPower_3_3V: return true;
AMS_UNREACHABLE_DEFAULT_CASE();
}
}
virtual bool IsSupportedBusWidth(BusWidth bus_width) const override {
switch (bus_width) {
case BusWidth_1Bit: return true;
case BusWidth_4Bit: return true;
case BusWidth_8Bit: return false;
AMS_UNREACHABLE_DEFAULT_CASE();
}
}
};
class Sdmmc2And4Controller : public SdmmcController {
protected:
virtual bool IsNeedPeriodicDriveStrengthCalibration() override {
return false;
}
virtual Result PowerOn(BusPower bus_power) override {
/* Power for SDMMC2/4 is assumed on, so we don't need to do anything. */
AMS_UNUSED(bus_power);
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R_SUCCEED();
}
virtual void PowerOff() override {
/* Power for SDMMC2/4 is assumed on, so we don't need to do anything. */
}
virtual Result LowerBusPower() override {
AMS_ABORT("Sdmmc2And4Controller cannot lower bus power\n");
}
virtual void SetSchmittTrigger(BusPower bus_power) override {
/* Do nothing. */
AMS_UNUSED(bus_power);
}
virtual u8 GetOutboundTapValue() const override {
if (IsSocMariko()) {
return 0xD;
} else {
return 0x8;
}
}
virtual u8 GetDefaultInboundTapValue() const override {
if (IsSocMariko()) {
return 0xB;
} else {
return 0x0;
}
}
virtual u8 GetVrefSelValue() const override {
return 0x7;
}
virtual void SetSlewCodes() override {
/* Do nothing. */
}
virtual void GetAutoCalOffsets(u8 *out_auto_cal_pd_offset, u8 *out_auto_cal_pu_offset, BusPower bus_power) const override {
/* Ensure that we can write the offsets. */
AMS_ABORT_UNLESS(out_auto_cal_pd_offset != nullptr);
AMS_ABORT_UNLESS(out_auto_cal_pu_offset != nullptr);
/* Sdmmc2And4Controller only supports 1.8v. */
AMS_ABORT_UNLESS(bus_power == BusPower_1_8V);
/* Set the offsets. */
*out_auto_cal_pd_offset = 5;
*out_auto_cal_pu_offset = 5;
}
public:
explicit Sdmmc2And4Controller(dd::PhysicalAddress registers_phys_addr) : SdmmcController(registers_phys_addr) {
/* ... */
}
virtual bool IsSupportedBusPower(BusPower bus_power) const override {
switch (bus_power) {
case BusPower_Off: return true;
case BusPower_1_8V: return true;
case BusPower_3_3V: return false;
AMS_UNREACHABLE_DEFAULT_CASE();
}
}
virtual bool IsSupportedBusWidth(BusWidth bus_width) const override {
switch (bus_width) {
case BusWidth_1Bit: return true;
case BusWidth_4Bit: return true;
case BusWidth_8Bit: return true;
AMS_UNREACHABLE_DEFAULT_CASE();
}
}
};
constexpr inline dd::PhysicalAddress Sdmmc2RegistersPhysicalAddress = UINT64_C(0x700B0200);
class Sdmmc2Controller : public Sdmmc2And4Controller {
private:
#if defined(AMS_SDMMC_USE_OS_EVENTS)
static constinit inline os::InterruptEventType s_interrupt_event{};
#endif
protected:
virtual void SetPad() override {
/* Nothing is needed here. */
}
virtual ClockResetController::Module GetClockResetModule() const override {
return ClockResetController::Module_Sdmmc2;
}
#if defined(AMS_SDMMC_USE_OS_EVENTS)
virtual int GetInterruptNumber() const override {
return 47;
}
virtual os::InterruptEventType *GetInterruptEvent() const override {
return std::addressof(s_interrupt_event);
}
#endif
virtual void ClearPadParked() override {
if (IsSocMariko()) {
/* Nothing is needed here. */
} else {
/* Get the apb registers address. */
const uintptr_t apb_address = dd::QueryIoMapping(ApbMiscRegistersPhysicalAddress, ApbMiscRegistersSize);
/* Clear all MISC2PMC_EMMC2_*_PARK bits. */
reg::ReadWrite(apb_address + APB_MISC_GP_EMMC2_PAD_CFGPADCTRL, APB_MISC_REG_BITS_VALUE(GP_EMMC2_PAD_CFGPADCTRL_MISC2PMC_EMMC2_ALL_PARK, 0));
/* Read to be sure our config takes. */
reg::Read(apb_address + APB_MISC_GP_EMMC2_PAD_CFGPADCTRL);
}
}
virtual void SetDriveStrengthToDefaultValues(BusPower bus_power) override {
/* SDMMC2 only supports 1.8v. */
AMS_ABORT_UNLESS(bus_power == BusPower_1_8V);
/* Ensure that we can control registers. */
SdHostStandardController::EnsureControl();
/* Get the apb registers address. */
const uintptr_t apb_address = dd::QueryIoMapping(ApbMiscRegistersPhysicalAddress, ApbMiscRegistersSize);
if (IsSocMariko()) {
/* Write the drv up/down values to APB_MISC_GP_SDMMC2_PAD_CFGPADCTRL. */
reg::ReadWrite(apb_address + APB_MISC_GP_SDMMC2_PAD_CFGPADCTRL, APB_MISC_REG_BITS_VALUE(GP_SDMMC2_PAD_CFGPADCTRL_CFG2TMC_SDMMC2_PAD_CAL_DRVDN, 0xA),
APB_MISC_REG_BITS_VALUE(GP_SDMMC2_PAD_CFGPADCTRL_CFG2TMC_SDMMC2_PAD_CAL_DRVUP, 0xA));
/* Read to be sure our config takes. */
reg::Read(apb_address + APB_MISC_GP_SDMMC2_PAD_CFGPADCTRL);
} else {
/* Write the drv up/down values to APB_MISC_GP_EMMC4_PAD_CFGPADCTRL. */
reg::ReadWrite(apb_address + APB_MISC_GP_EMMC2_PAD_CFGPADCTRL, APB_MISC_REG_BITS_VALUE(GP_EMMC2_PAD_CFGPADCTRL_CFG2TMC_EMMC2_PAD_DRVDN_COMP, 0x10),
APB_MISC_REG_BITS_VALUE(GP_EMMC2_PAD_CFGPADCTRL_CFG2TMC_EMMC2_PAD_DRVUP_COMP, 0x10));
/* Read to be sure our config takes. */
reg::Read(apb_address + APB_MISC_GP_EMMC2_PAD_CFGPADCTRL);
}
}
public:
Sdmmc2Controller() : Sdmmc2And4Controller(Sdmmc2RegistersPhysicalAddress) {
/* ... */
}
};
constexpr inline dd::PhysicalAddress Sdmmc4RegistersPhysicalAddress = UINT64_C(0x700B0600);
class Sdmmc4Controller : public Sdmmc2And4Controller {
private:
#if defined(AMS_SDMMC_USE_OS_EVENTS)
static constinit inline os::InterruptEventType s_interrupt_event{};
#endif
protected:
virtual void SetPad() override {
if (IsSocMariko()) {
/* Get the apb registers address. */
const uintptr_t apb_address = dd::QueryIoMapping(ApbMiscRegistersPhysicalAddress, ApbMiscRegistersSize);
/* Enable Schmitt Trigger in emmc4 iobrick. */
reg::ReadWrite(apb_address + APB_MISC_GP_EMMC4_PAD_CFGPADCTRL, APB_MISC_REG_BITS_ENUM(GP_EMMC4_PAD_CFGPADCTRL_CFG2TMC_EMMC4_PAD_E_SCH, ENABLE));
/* Clear CMD_PULLU, CLK_PULLD, DQS_PULLD. */
reg::ReadWrite(apb_address + APB_MISC_GP_EMMC4_PAD_PUPD_CFGPADCTRL, APB_MISC_REG_BITS_VALUE(GP_EMMC4_PAD_PUPD_CFGPADCTRL_CFG2TMC_EMMC4_PAD_CMD_PUPD_PULLU, 0),
APB_MISC_REG_BITS_VALUE(GP_EMMC4_PAD_PUPD_CFGPADCTRL_CFG2TMC_EMMC4_PAD_CLK_PUPD_PULLD, 0),
APB_MISC_REG_BITS_VALUE(GP_EMMC4_PAD_PUPD_CFGPADCTRL_CFG2TMC_EMMC4_PAD_DQS_PUPD_PULLD, 0));
/* Read again to be sure our config takes. */
reg::Read(apb_address + APB_MISC_GP_EMMC4_PAD_PUPD_CFGPADCTRL);
} else {
/* On Erista, we can just leave the reset value intact. */
}
}
virtual ClockResetController::Module GetClockResetModule() const override {
return ClockResetController::Module_Sdmmc4;
}
#if defined(AMS_SDMMC_USE_OS_EVENTS)
virtual int GetInterruptNumber() const override {
return 63;
}
virtual os::InterruptEventType *GetInterruptEvent() const override {
return std::addressof(s_interrupt_event);
}
#endif
virtual void ClearPadParked() override {
/* Get the apb registers address. */
const uintptr_t apb_address = dd::QueryIoMapping(ApbMiscRegistersPhysicalAddress, ApbMiscRegistersSize);
/* Clear all MISC2PMC_EMMC4_*_PARK bits. */
reg::ReadWrite(apb_address + APB_MISC_GP_EMMC4_PAD_CFGPADCTRL, APB_MISC_REG_BITS_VALUE(GP_EMMC4_PAD_CFGPADCTRL_MISC2PMC_EMMC4_ALL_PARK, 0));
/* Read to be sure our config takes. */
reg::Read(apb_address + APB_MISC_GP_EMMC4_PAD_CFGPADCTRL);
}
virtual void SetDriveStrengthToDefaultValues(BusPower bus_power) override {
/* SDMMC4 only supports 1.8v. */
AMS_ABORT_UNLESS(bus_power == BusPower_1_8V);
/* Ensure that we can control registers. */
SdHostStandardController::EnsureControl();
/* Get the apb registers address. */
const uintptr_t apb_address = dd::QueryIoMapping(ApbMiscRegistersPhysicalAddress, ApbMiscRegistersSize);
/* Determine the drv up/down values. */
u8 drvdn, drvup;
if (IsSocMariko()) {
drvdn = 0xA;
drvup = 0xA;
} else {
drvdn = 0x10;
drvup = 0x10;
}
/* Write the drv up/down values to APB_MISC_GP_EMMC4_PAD_CFGPADCTRL. */
reg::ReadWrite(apb_address + APB_MISC_GP_EMMC4_PAD_CFGPADCTRL, APB_MISC_REG_BITS_VALUE(GP_EMMC4_PAD_CFGPADCTRL_CFG2TMC_EMMC4_PAD_DRVDN_COMP, drvdn),
APB_MISC_REG_BITS_VALUE(GP_EMMC4_PAD_CFGPADCTRL_CFG2TMC_EMMC4_PAD_DRVUP_COMP, drvup));
/* Read to be sure our config takes. */
reg::Read(apb_address + APB_MISC_GP_EMMC4_PAD_CFGPADCTRL);
}
public:
Sdmmc4Controller() : Sdmmc2And4Controller(Sdmmc4RegistersPhysicalAddress) {
/* ... */
}
};
}