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Atmosphere/libraries/libexosphere/source/tsec/tsec_api.cpp

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C++

/*
* 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/>.
*/
#include <exosphere.hpp>
#include "tsec_registers.hpp"
#include "../kfuse/kfuse_registers.hpp"
namespace ams::tsec {
namespace {
constexpr inline const uintptr_t KFUSE = 0x7000FC00;
constexpr inline const uintptr_t TSEC = 0x54500000;
enum TsecResult : u32 {
TsecResult_Success = 0xB0B0B0B0,
TsecResult_Failure = 0xD0D0D0D0,
};
enum TsecMemory {
TsecMemory_Imem,
TsecMemory_Dmem,
};
bool WaitForKfuseReady() {
constexpr auto KfuseTimeout = 10 * 1000; /* 10 ms. */
const u32 end_time = util::GetMicroSeconds() + KfuseTimeout;
/* Wait for STATE_DONE. */
while (!reg::HasValue(KFUSE + KFUSE_STATE, KFUSE_REG_BITS_ENUM(STATE_DONE, DONE))) {
if (util::GetMicroSeconds() >= end_time) {
return false;
}
}
/* Check for STATE_CRCPASS. */
return reg::HasValue(KFUSE + KFUSE_STATE, KFUSE_REG_BITS_ENUM(STATE_CRCPASS, PASS));
}
void WaitForDmaIdle() {
constexpr auto DmaTimeout = 10 * 1000 * 1000; /* 10 Seconds. */
u32 cur_time = util::GetMicroSeconds();
const u32 end_time = cur_time + DmaTimeout;
while (cur_time <= end_time) {
if (reg::HasValue(TSEC + TSEC_FALCON_DMATRFCMD, TSEC_REG_BITS_ENUM(FALCON_DMATRFCMD_BUSY, IDLE))) {
return;
}
cur_time = util::GetMicroSeconds();
}
AMS_ABORT("tsec dma timeout");
}
void WaitForTsecIdle() {
constexpr auto TsecTimeout = 2 * 1000 * 1000; /* 2 Seconds. */
u32 cur_time = util::GetMicroSeconds();
const u32 end_time = cur_time + TsecTimeout;
while (cur_time <= end_time) {
if (reg::HasValue(TSEC + TSEC_FALCON_CPUCTL, TSEC_REG_BITS_ENUM(FALCON_CPUCTL_HALTED, TRUE))) {
return;
}
cur_time = util::GetMicroSeconds();
}
AMS_ABORT("tsec timeout");
}
void DoDma256(TsecMemory memory, u32 dst_offset, u32 src_offset) {
reg::Write(TSEC + TSEC_FALCON_DMATRFMOFFS, TSEC_REG_BITS_VALUE(FALCON_DMATRFMOFFS_OFFSET, dst_offset));
reg::Write(TSEC + TSEC_FALCON_DMATRFFBOFFS, src_offset);
if (memory == TsecMemory_Imem) {
reg::Write(TSEC + TSEC_FALCON_DMATRFCMD, TSEC_REG_BITS_ENUM(FALCON_DMATRFCMD_TO, IMEM),
TSEC_REG_BITS_ENUM(FALCON_DMATRFCMD_SIZE, 4B));
} else {
reg::Write(TSEC + TSEC_FALCON_DMATRFCMD, TSEC_REG_BITS_ENUM(FALCON_DMATRFCMD_TO, DMEM),
TSEC_REG_BITS_ENUM(FALCON_DMATRFCMD_SIZE, 256B));
}
WaitForDmaIdle();
}
}
bool RunTsecFirmware(const void *fw, size_t fw_size) {
/* Enable relevant clocks. */
clkrst::EnableHost1xClock();
clkrst::EnableTsecClock();
clkrst::EnableSorSafeClock();
clkrst::EnableSor0Clock();
clkrst::EnableSor1Clock();
clkrst::EnableKfuseClock();
/* Disable clocks once we're done. */
ON_SCOPE_EXIT {
clkrst::DisableHost1xClock();
clkrst::DisableTsecClock();
clkrst::DisableSorSafeClock();
clkrst::DisableSor0Clock();
clkrst::DisableSor1Clock();
clkrst::DisableKfuseClock();
};
/* Wait for kfuse to be ready. */
if (!WaitForKfuseReady()) {
return false;
}
/* Configure falcon. */
reg::Write(TSEC + TSEC_FALCON_DMACTL, 0);
reg::Write(TSEC + TSEC_FALCON_IRQMSET, 0xFFF2);
reg::Write(TSEC + TSEC_FALCON_IRQDEST, 0xFFF0);
reg::Write(TSEC + TSEC_FALCON_ITFEN, 0x3);
/* Wait for TSEC dma to be idle. */
WaitForDmaIdle();
/* Set the base address for transfers. */
reg::Write(TSEC + TSEC_FALCON_DMATRFBASE, reinterpret_cast<uintptr_t>(fw) >> 8);
/* Transfer all data to TSEC imem. */
for (size_t i = 0; i < fw_size; i += 0x100) {
DoDma256(TsecMemory_Imem, i, i);
}
/* Write the magic value to host1x syncpoint 160. */
reg::Write(0x50003300, 0x34C2E1DA);
/* Execute the firmware. */
reg::Write(TSEC + TSEC_FALCON_MAILBOX0, 0);
reg::Write(TSEC + TSEC_FALCON_MAILBOX1, 0);
reg::Write(TSEC + TSEC_FALCON_BOOTVEC, 0);
reg::Write(TSEC + TSEC_FALCON_CPUCTL, TSEC_REG_BITS_ENUM(FALCON_CPUCTL_STARTCPU, TRUE));
/* Wait for TSEC dma to be idle. */
WaitForDmaIdle();
/* Wait for TSEC to complete. */
WaitForTsecIdle();
/* Clear magic value from host1x syncpoint 160. */
reg::Write(0x50003300, 0);
/* Return whether the tsec firmware succeeded. */
return reg::Read(TSEC + TSEC_FALCON_MAILBOX1) == TsecResult_Success;
}
void Lock() {
/* Set the tsec host1x syncpoint (160) to be secure. */
/* TODO: constexpr value. */
reg::ReadWrite(0x500038F8, REG_BITS_VALUE(0, 1, 0));
/* Clear the tsec host1x syncpoint. */
reg::Write(0x50003300, 0);
}
}