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Atmosphere/exosphere/mariko_fatal/source/fatal_sdmmc.cpp
2020-11-18 15:08:44 -08:00

108 lines
3.9 KiB
C++

/*
* Copyright (c) 2018-2020 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 "fatal_device_page_table.hpp"
namespace ams::secmon::fatal {
namespace {
constexpr inline auto Port = sdmmc::Port_SdCard0;
ALWAYS_INLINE u8 *GetSdCardWorkBuffer() {
return MemoryRegionVirtualDramSdmmcMappedData.GetPointer<u8>() + MemoryRegionVirtualDramSdmmcMappedData.GetSize() - mmu::PageSize;
}
ALWAYS_INLINE u8 *GetSdCardDmaBuffer() {
return MemoryRegionVirtualDramSdmmcMappedData.GetPointer<u8>();
}
constexpr inline size_t SdCardDmaBufferSize = MemoryRegionVirtualDramSdmmcMappedData.GetSize() - mmu::PageSize;
constexpr inline size_t SdCardDmaBufferSectors = SdCardDmaBufferSize / sdmmc::SectorSize;
static_assert(util::IsAligned(SdCardDmaBufferSize, sdmmc::SectorSize));
}
Result InitializeSdCard() {
/* Map main memory for the sdmmc device. */
InitializeDevicePageTableForSdmmc1();
/* Initialize sdmmc library. */
sdmmc::Initialize(Port);
sdmmc::SetSdCardWorkBuffer(Port, GetSdCardWorkBuffer(), sdmmc::SdCardWorkBufferSize);
//sdmmc::Deactivate(Port);
R_TRY(sdmmc::Activate(Port));
return ResultSuccess();
}
Result CheckSdCardConnection(sdmmc::SpeedMode *out_sm, sdmmc::BusWidth *out_bw) {
return sdmmc::CheckSdCardConnection(out_sm, out_bw, Port);
}
Result ReadSdCard(void *dst, size_t size, size_t sector_index, size_t sector_count) {
/* Validate that our buffer is valid. */
AMS_ASSERT(size >= sector_count * sdmmc::SectorSize);
/* Repeatedly read sectors. */
u8 *dst_u8 = static_cast<u8 *>(dst);
void * const dma_buffer = GetSdCardDmaBuffer();
while (sector_count > 0) {
/* Read sectors into the DMA buffer. */
const size_t cur_sectors = std::min(sector_count, SdCardDmaBufferSectors);
const size_t cur_size = cur_sectors * sdmmc::SectorSize;
R_TRY(sdmmc::Read(dma_buffer, cur_size, Port, sector_index, cur_sectors));
/* Copy data from the DMA buffer to the output. */
std::memcpy(dst_u8, dma_buffer, cur_size);
/* Advance. */
dst_u8 += cur_size;
sector_index += cur_sectors;
sector_count -= cur_sectors;
}
return ResultSuccess();
}
Result WriteSdCard(size_t sector_index, size_t sector_count, const void *src, size_t size) {
/* Validate that our buffer is valid. */
AMS_ASSERT(size >= sector_count * sdmmc::SectorSize);
/* Repeatedly read sectors. */
const u8 *src_u8 = static_cast<const u8 *>(src);
void * const dma_buffer = GetSdCardDmaBuffer();
while (sector_count > 0) {
/* Copy sectors into the DMA buffer. */
const size_t cur_sectors = std::min(sector_count, SdCardDmaBufferSectors);
const size_t cur_size = cur_sectors * sdmmc::SectorSize;
std::memcpy(dma_buffer, src_u8, cur_size);
/* Write sectors to the sd card. */
R_TRY(sdmmc::Write(Port, sector_index, cur_sectors, dma_buffer, cur_size));
/* Advance. */
src_u8 += cur_size;
sector_index += cur_sectors;
sector_count -= cur_sectors;
}
return ResultSuccess();
}
}