mirror of
https://github.com/Atmosphere-NX/Atmosphere.git
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145 lines
6 KiB
C++
145 lines
6 KiB
C++
/*
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* Copyright (c) 2018-2020 Atmosphère-NX
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms and conditions of the GNU General Public License,
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* version 2, as published by the Free Software Foundation.
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*
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* This program is distributed in the hope it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <exosphere.hpp>
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#include "fuse_registers.hpp"
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namespace ams::fuse {
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namespace {
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struct OdmWord4 {
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using HardwareState1 = util::BitPack32::Field<0, 2, int>;
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using HardwareType1 = util::BitPack32::Field<HardwareState1::Next, 1, int>;
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using DramId = util::BitPack32::Field<HardwareType1::Next, 5, int>;
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using HardwareType2 = util::BitPack32::Field<DramId::Next, 1, int>;
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using HardwareState2 = util::BitPack32::Field<HardwareType2::Next, 1, int>;
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using QuestState = util::BitPack32::Field<HardwareState2::Next, 1, int>;
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using FormatVersion = util::BitPack32::Field<QuestState::Next, 1, int>;
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using Reserved = util::BitPack32::Field<FormatVersion::Next, 4, int>;
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using HardwareType3 = util::BitPack32::Field<Reserved::Next, 4, int>;
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};
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constexpr ALWAYS_INLINE int GetHardwareStateValue(const util::BitPack32 odm_word4) {
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constexpr auto HardwareState1Shift = 0;
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constexpr auto HardwareState2Shift = OdmWord4::HardwareState1::Count + HardwareState1Shift;
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return (odm_word4.Get<OdmWord4::HardwareState1>() << HardwareState1Shift) |
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(odm_word4.Get<OdmWord4::HardwareState2>() << HardwareState2Shift);
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}
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constexpr ALWAYS_INLINE int GetHardwareTypeValue(const util::BitPack32 odm_word4) {
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constexpr auto HardwareType1Shift = 0;
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constexpr auto HardwareType2Shift = OdmWord4::HardwareType1::Count + HardwareType1Shift;
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constexpr auto HardwareType3Shift = OdmWord4::HardwareType2::Count + HardwareType2Shift;
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return (odm_word4.Get<OdmWord4::HardwareType1>() << HardwareType1Shift) |
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(odm_word4.Get<OdmWord4::HardwareType2>() << HardwareType2Shift) |
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(odm_word4.Get<OdmWord4::HardwareType3>() << HardwareType3Shift);
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}
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constinit uintptr_t g_register_address = secmon::MemoryRegionPhysicalDeviceFuses.GetAddress();
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ALWAYS_INLINE volatile FuseRegisterRegion *GetRegisterRegion() {
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return reinterpret_cast<volatile FuseRegisterRegion *>(g_register_address);
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}
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ALWAYS_INLINE volatile FuseRegisters &GetRegisters() {
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return GetRegisterRegion()->fuse;
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}
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ALWAYS_INLINE volatile FuseChipRegisters &GetChipRegisters() {
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return GetRegisterRegion()->chip;
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}
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}
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void SetRegisterAddress(uintptr_t address) {
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g_register_address = address;
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}
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void SetWriteSecureOnly() {
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reg::Write(GetRegisters().FUSE_PRIVATEKEYDISABLE, FUSE_REG_BITS_ENUM(PRIVATEKEYDISABLE_TZ_STICKY_BIT_VAL, KEY_INVISIBLE));
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}
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void Lockout() {
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reg::Write(GetRegisters().FUSE_DISABLEREGPROGRAM, FUSE_REG_BITS_ENUM(DISABLEREGPROGRAM_DISABLEREGPROGRAM_VAL, ENABLE));
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}
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u32 GetOdmWord(int index) {
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return GetChipRegisters().FUSE_RESERVED_ODM[index];
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}
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HardwareType GetHardwareType() {
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/* Read the odm word. */
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const util::BitPack32 odm_word4 = { GetOdmWord(4) };
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/* Get the value. */
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const auto value = GetHardwareTypeValue(odm_word4);
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switch (value) {
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case 0x01: return HardwareType_Icosa;
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case 0x02: return (true /* TODO: GetSocType() == SocType_Mariko */) ? HardwareType_Calcio : HardwareType_Copper;
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case 0x04: return HardwareType_Iowa;
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case 0x08: return HardwareType_Hoag;
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case 0x10: return HardwareType_Five;
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default: return HardwareType_Undefined;
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}
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}
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HardwareState GetHardwareState() {
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/* Read the odm word. */
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const util::BitPack32 odm_word4 = { GetOdmWord(4) };
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/* Get the value. */
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const auto value = GetHardwareStateValue(odm_word4);
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switch (value) {
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case 3: return HardwareState_Development;
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case 4: return HardwareState_Production;
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default: return HardwareState_Undefined;
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}
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}
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pmic::Regulator GetRegulator() {
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/* TODO: How should mariko be handled? This reads from ODM word 28 in fuses (not presesnt in erista...). */
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return pmic::Regulator_Erista_Max77621;
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}
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void GetEcid(br::BootEcid *out) {
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/* Get the registers. */
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const volatile auto &chip = GetChipRegisters();
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/* Read the ecid components. */
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const u32 vendor = reg::Read(chip.FUSE_OPT_VENDOR_CODE);
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const u32 fab = reg::Read(chip.FUSE_OPT_FAB_CODE);
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const u32 lot0 = reg::Read(chip.FUSE_OPT_LOT_CODE_0);
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const u32 lot1 = reg::Read(chip.FUSE_OPT_LOT_CODE_1);
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const u32 wafer = reg::Read(chip.FUSE_OPT_WAFER_ID);
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const u32 x_coord = reg::Read(chip.FUSE_OPT_X_COORDINATE);
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const u32 y_coord = reg::Read(chip.FUSE_OPT_Y_COORDINATE);
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const u32 reserved = reg::Read(chip.FUSE_OPT_OPS_RESERVED);
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/* Clear the output. */
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util::ClearMemory(out, sizeof(*out));
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/* Copy the component bits. */
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out->ecid[0] = static_cast<u32>((lot1 << 30) | (wafer << 24) | (x_coord << 15) | (y_coord << 6) | (reserved));
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out->ecid[1] = static_cast<u32>((lot0 << 26) | (lot1 >> 2));
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out->ecid[2] = static_cast<u32>((fab << 26) | (lot0 >> 6));
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out->ecid[3] = static_cast<u32>(vendor);
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}
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}
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