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Gericom
2025-10-11 14:00:43 +02:00
commit 25e7d47f18
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36
.github/workflows/nightly.yml vendored Normal file
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name: Build Wrfuxxed
on:
push:
branches: ["develop"]
paths-ignore:
- 'README.md'
pull_request:
branches: ["develop"]
paths-ignore:
- 'README.md'
workflow_dispatch:
jobs:
wrfuxxed:
runs-on: ubuntu-latest
container: skylyrac/blocksds:slim-v1.13.1
name: Build Wrfuxxed
env:
DOTNET_CLI_TELEMETRY_OPTOUT: 1
DOTNET_SKIP_FIRST_TIME_EXPERIENCE: 1
DOTNET_SYSTEM_GLOBALIZATION_INVARIANT: 1
steps:
- name: Checkout repo
uses: actions/checkout@v4
with:
submodules: true
- name: Run build script
run: |
make
- name: Publish build to GH Actions
uses: actions/upload-artifact@v4
with:
path: |
uartBufv060.bin
name: Wrfuxxed

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build
*.bin

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Copyright (c) 2025 LNH team
This software is provided 'as-is', without any express or implied
warranty. In no event will the authors be held liable for any damages
arising from the use of this software.
Permission is granted to anyone to use this software for any purpose,
including commercial applications, and to alter it and redistribute it
freely, subject to the following restrictions:
1. The origin of this software must not be misrepresented; you must not
claim that you wrote the original software. If you use this software
in a product, an acknowledgment in the product documentation would be
appreciated but is not required.
2. Altered source versions must be plainly marked as such, and must not be
misrepresented as being the original software.
3. This notice may not be removed or altered from any source distribution.

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# SPDX-License-Identifier: CC0-1.0
#
# SPDX-FileContributor: Antonio Niño Díaz, 2023
export BLOCKSDS ?= /opt/blocksds/core
export BLOCKSDSEXT ?= /opt/blocksds/external
export WONDERFUL_TOOLCHAIN ?= /opt/wonderful
ARM_NONE_EABI_PATH ?= $(WONDERFUL_TOOLCHAIN)/toolchain/gcc-arm-none-eabi/bin/
# Source code paths
# -----------------
SOURCEDIRS := source
INCLUDEDIRS :=
BINDIRS :=
# Defines passed to all files
# ---------------------------
DEFINES := -DARM9 -DLIBTWL_ARM9
# Libraries
# ---------
LIBS :=
LIBDIRS := $(BLOCKSDS)/libs/libnds
# Build artifacts
# ---------------
NAME := uartBufv060
BUILDDIR := build/$(NAME)
BIN := $(NAME).bin
ELF := build/$(NAME).elf
DUMP := build/$(NAME).dump
MAP := build/$(NAME).map
# Tools
# -----
PREFIX := $(ARM_NONE_EABI_PATH)arm-none-eabi-
CC := $(PREFIX)gcc
CXX := $(PREFIX)g++
LD := $(PREFIX)gcc
OBJCOPY := $(PREFIX)objcopy
OBJDUMP := $(PREFIX)objdump
MKDIR := mkdir
RM := rm -rf
# Verbose flag
# ------------
ifeq ($(VERBOSE),1)
V :=
else
V := @
endif
# Source files
# ------------
ifneq ($(BINDIRS),)
SOURCES_BIN := $(shell find -L $(BINDIRS) -name "*.bin")
INCLUDEDIRS += $(addprefix $(BUILDDIR)/,$(BINDIRS))
endif
SOURCES_S := $(shell find -L $(SOURCEDIRS) -name "*.s")
SOURCES_C := $(shell find -L $(SOURCEDIRS) -name "*.c")
SOURCES_CPP := $(shell find -L $(SOURCEDIRS) -name "*.cpp")
# Compiler and linker flags
# -------------------------
ARCH := -mthumb -mthumb-interwork -mcpu=arm946e-s+nofp
WARNFLAGS := -Wall
ifeq ($(SOURCES_CPP),)
LIBS += -lc
else
LIBS += -lstdc++ -lc
endif
INCLUDEFLAGS := $(foreach path,$(INCLUDEDIRS),-I$(path)) \
$(foreach path,$(LIBDIRS),-I$(path)/include)
LIBDIRSFLAGS := $(foreach path,$(LIBDIRS),-L$(path)/lib)
ASFLAGS += -x assembler-with-cpp $(DEFINES) $(INCLUDEFLAGS) \
$(ARCH) -ffunction-sections -ffreestanding
CFLAGS += -std=gnu17 $(WARNFLAGS) $(DEFINES) $(INCLUDEFLAGS) \
$(ARCH) -Os -ffunction-sections -ffreestanding
CXXFLAGS += -std=gnu++17 $(WARNFLAGS) $(DEFINES) $(INCLUDEFLAGS) \
$(ARCH) -Os -ffunction-sections -ffreestanding \
-fno-exceptions -fno-rtti
LDFLAGS := $(ARCH) $(LIBDIRSFLAGS) -Wl,-Map,$(MAP),--gc-sections,--use-blx $(DEFINES) \
-Wl,--start-group $(LIBS) -Wl,--end-group -nostartfiles -T stub.ld
# Intermediate build files
# ------------------------
OBJS_ASSETS := $(addsuffix .o,$(addprefix $(BUILDDIR)/,$(SOURCES_BIN)))
HEADERS_ASSETS := $(patsubst %.bin,%_bin.h,$(addprefix $(BUILDDIR)/,$(SOURCES_BIN)))
OBJS_SOURCES := $(addsuffix .o,$(addprefix $(BUILDDIR)/,$(SOURCES_S))) \
$(addsuffix .o,$(addprefix $(BUILDDIR)/,$(SOURCES_C))) \
$(addsuffix .o,$(addprefix $(BUILDDIR)/,$(SOURCES_CPP)))
OBJS := $(OBJS_ASSETS) $(OBJS_SOURCES)
DEPS := $(OBJS:.o=.d)
# Targets
# -------
.PHONY: all clean dump
all: $(BIN)
$(BIN): $(ELF)
@echo " OBJCOPY.9 $@"
$(V)$(OBJCOPY) -O binary $< $@
$(ELF): $(OBJS)
@echo " LD.9 $@"
$(V)$(LD) -o $@ $(OBJS) $(LDFLAGS)
$(DUMP): $(ELF)
@echo " OBJDUMP.9 $@"
$(V)$(OBJDUMP) -h -C -S $< > $@
dump: $(DUMP)
clean:
@echo " CLEAN.9"
$(V)$(RM) $(BIN) $(ELF) $(DUMP) $(MAP) $(BUILDDIR)
# Rules
# -----
$(BUILDDIR)/%.s.o : %.s
@echo " AS.9 $<"
@$(MKDIR) -p $(@D)
$(V)$(CC) $(ASFLAGS) -MMD -MP -c -o $@ $<
$(BUILDDIR)/%.c.o : %.c
@echo " CC.9 $<"
@$(MKDIR) -p $(@D)
$(V)$(CC) $(CFLAGS) -MMD -MP -c -o $@ $<
$(BUILDDIR)/%.arm.c.o : %.arm.c
@echo " CC.9 $<"
@$(MKDIR) -p $(@D)
$(V)$(CC) $(CFLAGS) -MMD -MP -marm -mlong-calls -c -o $@ $<
$(BUILDDIR)/%.cpp.o : %.cpp
@echo " CXX.9 $<"
@$(MKDIR) -p $(@D)
$(V)$(CXX) $(CXXFLAGS) -MMD -MP -c -o $@ $<
$(BUILDDIR)/%.arm.cpp.o : %.arm.cpp
@echo " CXX.9 $<"
@$(MKDIR) -p $(@D)
$(V)$(CXX) $(CXXFLAGS) -MMD -MP -marm -mlong-calls -c -o $@ $<
$(BUILDDIR)/%.bin.o $(BUILDDIR)/%_bin.h : %.bin
@echo " BIN2C.9 $<"
@$(MKDIR) -p $(@D)
$(V)$(BLOCKSDS)/tools/bin2c/bin2c $< $(@D)
$(V)$(CC) $(CFLAGS) -MMD -MP -c -o $(BUILDDIR)/$*.bin.o $(BUILDDIR)/$*_bin.c
# All assets must be built before the source code
# -----------------------------------------------
$(SOURCES_S) $(SOURCES_C) $(SOURCES_CPP): $(HEADERS_ASSETS)
# Include dependency files if they exist
# --------------------------------------
-include $(DEPS)

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# WRFUxxed
This repository contains the code for the **WRFUxxed** exploit for "WRFU Tester". It is compatible with version 0.60 (SHA-1: `2d65fb7a0c62a4f08954b98c95f42b804fccfd26`).
For a detailed writeup of the exploit, see [wrfuxxed.md](wrfuxxed.md).
## Setup & Configuration
We recommend using WSL (Windows Subsystem for Linux), or MSYS2 to compile this repository.
The steps provided will assume you already have one of those environments set up.
1. Install [BlocksDS](https://blocksds.skylyrac.net/docs/setup/options/)
## Building
1. Run `make`
## Usage
Patch `uartBufv060.bin` with the DSpico DLDI. The `uartBufv060.bin` file can then be included in the DSpico firmware.
The exploit payload initializes the DSpico and then uses Pico Loader to boot `/_picoboot.nds` on the DSpico SD card. Make sure the Pico Loader files are in the `/_pico` folder.
## Errors
- Blue screen: Failed to mount the DSpico SD card.
- Red screen: Failed to open `/_pico/picoLoader9.bin` or `/_pico/picoLoader7.bin`.
## License
This project is licensed under the Zlib license. For details, see `LICENSE.txt`.
## Contributors
- [@Gericom](https://github.com/Gericom)
- [@XLuma](https://github.com/XLuma)
- [@lifehackerhansol](https://github.com/lifehackerhansol)

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#pragma once
/// @brief The Pico Loader API version supported by this header file.
#define PICO_LOADER_API_VERSION 1
/// @brief Enum to specify the drive to boot from.
typedef enum
{
/// @brief Flashcard through DLDI.
PLOAD_BOOT_DRIVE_DLDI = 0,
/// @brief DSi SD card.
PLOAD_BOOT_DRIVE_DSI_SD = 1,
/// @brief AGB semihosting on the IS-NITRO-EMULATOR.
PLOAD_BOOT_DRIVE_AGB_SEMIHOSTING = 2,
/// @brief Flag to indicate that a multiboot rom needs to be loaded that is already in memory.
PLOAD_BOOT_DRIVE_MULTIBOOT_FLAG = 1u << 15
} PicoLoaderBootDrive;
/// @brief Struct containing the load params.
typedef struct
{
/// @brief The path of the rom to load.
char romPath[256];
/// @brief The path to the save file to use.
char savePath[256];
/// @brief The actual length of the argv arguments buffer.
u32 argumentsLength;
/// @brief Argv arguments buffer.
char arguments[256];
} pload_params_t;
/// @brief Struct representing the header of picoLoader7.bin.
typedef struct
{
/// @brief Pointer to the Pico Loader arm7 entry point (read-only).
void* const entryPoint;
/// @brief Sets the DLDI driver to use.
void* dldiDriver;
/// @brief Sets the boot drive. See \see PicoLoaderBootDrive.
u16 bootDrive;
/// @brief The supported Pico Loader API version (read-only).
const u16 apiVersion;
/// @brief The load params, see \see pload_params_t.
pload_params_t loadParams;
} pload_header7_t;

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#pragma once
#define REG_MCCNT0 (*(vu16*)0x040001A0)
#define REG_MCD0 (*(vu16*)0x040001A2)
#define REG_MCCNT1 (*(vu32*)0x040001A4)
#define REG_MCCMD0 (*(vu32*)0x040001A8)
#define REG_MCCMD1 (*(vu32*)0x040001AC)
#define REG_MCSCR0 (*(vu32*)0x040001B0)
#define REG_MCSCR1 (*(vu32*)0x040001B4)
#define REG_MCSCR2 (*(vu32*)0x040001B8)
#define REG_MCD1 (*(vu32*)0x04100010)
// REG_MCCNT0
#define MCCNT0_SPI_RATE_4_19_MHZ 0
#define MCCNT0_SPI_RATE_2_09_MHZ 1
#define MCCNT0_SPI_RATE_1_05_MHZ 2
#define MCCNT0_SPI_RATE_524_KHZ 3
#define MCCNT0_SPI_HOLD_CS (1 << 6)
#define MCCNT0_SPI_BUSY (1 << 7)
#define MCCNT0_MODE_MASK (1 << 13)
#define MCCNT0_MODE_ROM (0 << 13)
#define MCCNT0_MODE_SPI (1 << 13)
#define MCCNT0_ROM_XFER_IRQ (1 << 14)
#define MCCNT0_ENABLE (1 << 15)
// REG_MCCNT1
#define MCCNT1_LATENCY1_SHIFT 0
#define MCCNT1_LATENCY1_MASK 0x1FFF
#define MCCNT1_LATENCY1(x) (x)
#define MCCNT1_READ_DATA_DESCRAMBLE (1 << 13)
#define MCCNT1_CLOCK_SCRAMBLER (1 << 14)
#define MCCNT1_APPLY_SCRAMBLE_SEED (1 << 15)
#define MCCNT1_LATENCY2_SHIFT 16
#define MCCNT1_LATENCY2_MASK 0x3F0000
#define MCCNT1_LATENCY2(x) (((x) << MCCNT1_LATENCY2_SHIFT) & MCCNT1_LATENCY2_MASK)
#define MCCNT1_CMD_SCRAMBLE (1 << 22)
#define MCCNT1_DATA_READY (1 << 23)
#define MCCNT1_LEN_0 (0 << 24)
#define MCCNT1_LEN_512 (1 << 24)
#define MCCNT1_LEN_1024 (2 << 24)
#define MCCNT1_LEN_2048 (3 << 24)
#define MCCNT1_LEN_4096 (4 << 24)
#define MCCNT1_LEN_8192 (5 << 24)
#define MCCNT1_LEN_16384 (6 << 24)
#define MCCNT1_LEN_4 (7 << 24)
#define MCCNT1_CLK_6_7_MHZ (0 << 27)
#define MCCNT1_CLK_4_2_MHZ (1 << 27)
#define MCCNT1_LATENCY_CLK (1 << 28)
#define MCCNT1_RESET_ON (0 << 29)
#define MCCNT1_RESET_OFF (1 << 29)
#define MCCNT1_DIR_READ (0 << 30)
#define MCCNT1_DIR_WRITE (1 << 30)
#define MCCNT1_ENABLE (1 << 31)
#ifdef __cplusplus
extern "C"
{
#endif
static inline void card_romSetCmd(u64 cmd)
{
*(vu64*)&REG_MCCMD0 = __builtin_bswap64(cmd);
}
static inline bool card_romIsDataReady(void)
{
return REG_MCCNT1 & MCCNT1_DATA_READY;
}
static inline void card_romWaitDataReady(void)
{
while(!card_romIsDataReady());
}
static inline u32 card_romGetData(void)
{
return REG_MCD1;
}
static inline void card_romSetData(u32 data)
{
REG_MCD1 = data;
}
static inline bool card_romIsBusy(void)
{
return REG_MCCNT1 & MCCNT1_ENABLE;
}
static inline void card_romWaitBusy(void)
{
while(card_romIsBusy());
}
static inline void card_romStartXfer(u32 settings, bool irq)
{
REG_MCCNT0 = (REG_MCCNT0 & ~MCCNT0_MODE_MASK) | MCCNT0_MODE_ROM | (irq ? MCCNT0_ROM_XFER_IRQ : 0) | MCCNT0_ENABLE;
REG_MCCNT1 = MCCNT1_ENABLE | settings;
}
void card_romCpuRead(u32* dst, u32 len);
void card_romCpuReadUnaligned(u8* dst, u32 words);
void card_romCpuWrite(const u32* src, u32 words);
void card_romCpuWriteUnaligned(const u8* src, u32 words);
#ifdef __cplusplus
}
#endif

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#include <nds.h>
#undef REG_MBK1
#undef REG_MBK2
#undef REG_MBK3
#undef REG_MBK4
#undef REG_MBK5
#undef REG_MBK6
#undef REG_MBK7
#undef REG_MBK8
#undef REG_MBK9
#include "memTwlWram.h"
#include "memNtrWram.h"
#include "memVram.h"
#include "card.h"
#include "../include/picoLoader7.h"
#include "fat/dldi.h"
#include "fat/ff.h"
#define PICO_LOADER_9_PATH "/_pico/picoLoader9.bin"
#define PICO_LOADER_7_PATH "/_pico/picoLoader7.bin"
typedef void (*pico_loader_9_func_t)(void);
FATFS gFatFs;
FIL gFile;
static void loadFile(const char* path, void* destination)
{
if (f_open(&gFile, path, FA_OPEN_EXISTING | FA_READ) != FR_OK)
{
// Red screen: could not find pico loader file
*(vu16*)0x05000000 = 15;
while (1);
}
u32 size = f_size(&gFile);
UINT bytesRead;
f_read(&gFile, destination, size, &bytesRead);
f_close(&gFile);
}
static void clearArm9IoRegisters(void)
{
*(vu16*)0x05000000 = 0;
*(vu16*)0x05000400 = 0;
*(vu32*)0x04000000 = 0x10000;
*(vu32*)0x04001000 = 0x10000;
*(vu16*)0x0400006C = 0;
*(vu16*)0x0400106C = 0;
for (int i = 0; i < 4; i++)
{
// clear dma
DMA_CR(i) = 0;
// clear ndma
for (int reg = 0; reg < 0x1C; reg += 4)
{
*((vu32*)(0x04004104 + ((i * 0x1C) + reg))) = 0;
}
}
REG_POWERCNT = 0x820f;
WRAM_CR = 0x03;
REG_EXMEMCNT = 0xE880;
REG_IE = 0;
REG_IF = ~0;
}
static bool trySendIpcMessage(u32 channel, u32 data)
{
if (REG_IPC_FIFO_CR & (IPC_FIFO_SEND_FULL | IPC_FIFO_ERROR))
{
return false;
}
REG_IPC_FIFO_TX = (channel & 0x1F) | (data << 6);
return true;
}
static void bootstrapArm7(void)
{
// unlock twl wram
while (!trySendIpcMessage(18, (13 << 20) | (0 << 18) | 0xF));
while (!trySendIpcMessage(18, (13 << 20) | (1 << 18) | 0xFF));
while (!trySendIpcMessage(18, (13 << 20) | (2 << 18) | 0xFF));
while (!mem_isTwlWramUnlocked());
mem_setTwlWramAMapping(MEM_TWL_WRAM_A_SLOT_ALL, 0x037C0000, 256 * 1024);
mem_setTwlWramBMapping(MEM_TWL_WRAM_BC_SLOT_ALL, 0x03780000, 256 * 1024);
mem_setTwlWramCMapping(MEM_TWL_WRAM_BC_SLOT_ALL, 0x03740000, 256 * 1024);
for (int i = 7; i >= 0; i--)
{
mem_setTwlWramCBlockMapping(MEM_TWL_WRAM_C_ARM9, i, i);
for (vu32* wram = (vu32*)(0x03740000 + i * 32 * 1024); wram < (vu32*)(0x03740000 + (i + 1) * 32 * 1024); )
{
*wram++ = 0xE3A0F406;
}
mem_setTwlWramCBlockMapping(MEM_TWL_WRAM_C_ARM7, i, i);
}
}
int main(void)
{
clearArm9IoRegisters();
REG_EXMEMCNT &= ~0x800; // cartridge to ARM9
card_romSetCmd(0xFC00000000000000ull);
card_romStartXfer(MCCNT1_DIR_READ | MCCNT1_RESET_OFF | MCCNT1_CLK_6_7_MHZ | MCCNT1_LEN_0 | MCCNT1_CMD_SCRAMBLE |
MCCNT1_LATENCY2(0) | MCCNT1_CLOCK_SCRAMBLER | MCCNT1_LATENCY1(24), false);
card_romWaitBusy();
REG_MCCNT1 = 0;
REG_MCSCR0 = 0;
REG_MCSCR1 = 0;
REG_MCSCR2 = 0;
REG_MCCNT1 = MCCNT1_RESET_OFF | MCCNT1_APPLY_SCRAMBLE_SEED | MCCNT1_CLOCK_SCRAMBLER | MCCNT1_READ_DATA_DESCRAMBLE;
if (f_mount(&gFatFs, "fat:", 1) != FR_OK)
{
// Blue screen: mount failed
*(vu16*)0x05000000 = 15 << 10;
while (1);
}
mem_setVramAMapping(MEM_VRAM_AB_LCDC);
mem_setVramCMapping(MEM_VRAM_C_LCDC);
mem_setVramDMapping(MEM_VRAM_D_LCDC);
loadFile(PICO_LOADER_9_PATH, (void*)0x06800000);
loadFile(PICO_LOADER_7_PATH, (void*)0x06840000);
((pload_header7_t*)0x06840000)->bootDrive = PLOAD_BOOT_DRIVE_DLDI;
((pload_header7_t*)0x06840000)->dldiDriver = gDldiStub;
vu32* romPath = (vu32*)((pload_header7_t*)0x06840000)->loadParams.romPath;
// fat:/_picoboot.nds
romPath[0] = 0x3A746166; // :taf
romPath[1] = 0x69705F2F; // ip_/
romPath[2] = 0x6F626F63; // oboc
romPath[3] = 0x6E2E746F; // n.to
romPath[4] = 0x7364; //sd
mem_setVramCMapping(MEM_VRAM_C_ARM7_00000);
mem_setVramDMapping(MEM_VRAM_D_ARM7_20000);
REG_EXMEMCNT |= 0x800; // cartridge to ARM7
bootstrapArm7();
((pico_loader_9_func_t)0x06800000)();
}

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/*-----------------------------------------------------------------------*/
/* Low level disk I/O module skeleton for FatFs (C)ChaN, 2016 */
/*-----------------------------------------------------------------------*/
/* If a working storage control module is available, it should be */
/* attached to the FatFs via a glue function rather than modifying it. */
/* This is an example of glue functions to attach various exsisting */
/* storage control modules to the FatFs module with a defined API. */
/*-----------------------------------------------------------------------*/
#include <nds.h>
#include <nds/disc_io.h>
#include <string.h>
#include "dldi.h"
#include "ff.h" /* Obtains integer types */
#include "diskio.h" /* Declarations of disk functions */
/* Definitions of physical drive number for each drive */
#define DEV_FAT 0 //dldi
/*-----------------------------------------------------------------------*/
/* Get Drive Status */
/*-----------------------------------------------------------------------*/
DSTATUS disk_status (
BYTE pdrv /* Physical drive nmuber to identify the drive */
)
{
return 0;
}
// static void gbaIrq(u32 mask)
// {
// rtos_signalEvent(&sSemihostingCommandDoneEvent);
// }
/*-----------------------------------------------------------------------*/
/* Inidialize a Drive */
/*-----------------------------------------------------------------------*/
DSTATUS disk_initialize (
BYTE pdrv /* Physical drive nmuber to identify the drive */
)
{
if (pdrv == DEV_FAT)
{
gDldiInterface.startup();
return 0;
}
return STA_NOINIT;
}
/*-----------------------------------------------------------------------*/
/* Read Sector(s) */
/*-----------------------------------------------------------------------*/
DRESULT disk_read (
BYTE pdrv, /* Physical drive nmuber to identify the drive */
BYTE *buff, /* Data buffer to store read data */
DWORD sector, /* Start sector in LBA */
UINT count /* Number of sectors to read */
)
{
if (pdrv == DEV_FAT)
{
gDldiInterface.readSectors(sector, count, buff);
return RES_OK;
}
return RES_PARERR;
}
/*-----------------------------------------------------------------------*/
/* Miscellaneous Functions */
/*-----------------------------------------------------------------------*/
DRESULT disk_ioctl (
BYTE pdrv, /* Physical drive nmuber (0..) */
BYTE cmd, /* Control code */
void *buff /* Buffer to send/receive control data */
)
{
return RES_OK;
}

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/*-----------------------------------------------------------------------/
/ Low level disk interface modlue include file (C)ChaN, 2014 /
/-----------------------------------------------------------------------*/
#ifndef _DISKIO_DEFINED
#define _DISKIO_DEFINED
#ifdef __cplusplus
extern "C" {
#endif
/* Status of Disk Functions */
typedef BYTE DSTATUS;
/* Results of Disk Functions */
typedef enum {
RES_OK = 0, /* 0: Successful */
RES_ERROR, /* 1: R/W Error */
RES_WRPRT, /* 2: Write Protected */
RES_NOTRDY, /* 3: Not Ready */
RES_PARERR /* 4: Invalid Parameter */
} DRESULT;
/*---------------------------------------*/
/* Prototypes for disk control functions */
DSTATUS disk_initialize (BYTE pdrv);
DSTATUS disk_status (BYTE pdrv);
DRESULT disk_read (BYTE pdrv, BYTE* buff, DWORD sector, UINT count);
DRESULT disk_write (BYTE pdrv, const BYTE* buff, DWORD sector, UINT count);
DRESULT disk_ioctl (BYTE pdrv, BYTE cmd, void* buff);
/* Disk Status Bits (DSTATUS) */
#define STA_NOINIT 0x01 /* Drive not initialized */
#define STA_NODISK 0x02 /* No medium in the drive */
#define STA_PROTECT 0x04 /* Write protected */
/* Command code for disk_ioctrl fucntion */
/* Generic command (Used by FatFs) */
#define CTRL_SYNC 0 /* Complete pending write process (needed at FF_FS_READONLY == 0) */
#define GET_SECTOR_COUNT 1 /* Get media size (needed at FF_USE_MKFS == 1) */
#define GET_SECTOR_SIZE 2 /* Get sector size (needed at FF_MAX_SS != FF_MIN_SS) */
#define GET_BLOCK_SIZE 3 /* Get erase block size (needed at FF_USE_MKFS == 1) */
#define CTRL_TRIM 4 /* Inform device that the data on the block of sectors is no longer used (needed at FF_USE_TRIM == 1) */
/* Generic command (Not used by FatFs) */
#define CTRL_POWER 5 /* Get/Set power status */
#define CTRL_LOCK 6 /* Lock/Unlock media removal */
#define CTRL_EJECT 7 /* Eject media */
#define CTRL_FORMAT 8 /* Create physical format on the media */
/* MMC/SDC specific ioctl command */
#define MMC_GET_TYPE 10 /* Get card type */
#define MMC_GET_CSD 11 /* Get CSD */
#define MMC_GET_CID 12 /* Get CID */
#define MMC_GET_OCR 13 /* Get OCR */
#define MMC_GET_SDSTAT 14 /* Get SD status */
#define ISDIO_READ 55 /* Read data form SD iSDIO register */
#define ISDIO_WRITE 56 /* Write data to SD iSDIO register */
#define ISDIO_MRITE 57 /* Masked write data to SD iSDIO register */
/* ATA/CF specific ioctl command */
#define ATA_GET_REV 20 /* Get F/W revision */
#define ATA_GET_MODEL 21 /* Get model name */
#define ATA_GET_SN 22 /* Get serial number */
#ifdef __cplusplus
}
#endif
#endif

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#pragma once
#include <nds/disc_io.h>
extern u8 gDldiStub[];
extern DISC_INTERFACE gDldiInterface;

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/*---------------------------------------------------------------------------------
Copyright (C) 2006 - 2016
Michael Chisholm (Chishm)
Dave Murphy (WinterMute)
This software is provided 'as-is', without any express or implied
warranty. In no event will the authors be held liable for any
damages arising from the use of this software.
Permission is granted to anyone to use this software for any
purpose, including commercial applications, and to alter it and
redistribute it freely, subject to the following restrictions:
1. The origin of this software must not be misrepresented; you
must not claim that you wrote the original software. If you use
this software in a product, an acknowledgment in the product
documentation would be appreciated but is not required.
2. Altered source versions must be plainly marked as such, and
must not be misrepresented as being the original software.
3. This notice may not be removed or altered from any source
distribution.
---------------------------------------------------------------------------------*/
.align 4
.arm
.global gDldiStub
@---------------------------------------------------------------------------------
.equ DLDI_ALLOCATED_SPACE, 2048
gDldiStub:
dldi_start:
@---------------------------------------------------------------------------------
@ Driver patch file standard header -- 16 bytes
.word 0xBF8DA5ED @ Magic number to identify this region
.asciz " Chishm" @ Identifying Magic string (8 bytes with null terminator)
.byte 0x01 @ Version number
.byte 0x0b @2KiB @ Log [base-2] of the size of this driver in bytes.
.byte 0x00 @ Sections to fix
.byte 0x0b @2KiB @ Log [base-2] of the allocated space in bytes.
@---------------------------------------------------------------------------------
@ Text identifier - can be anything up to 47 chars + terminating null -- 16 bytes
.align 4
.asciz "Default (No interface)"
@---------------------------------------------------------------------------------
@ Offsets to important sections within the data -- 32 bytes
.align 6
.word dldi_start
.word dldi_end
.word 0x00000000 @ Interworking glue start -- Needs address fixing
.word 0x00000000 @ Interworking glue end
.word 0x00000000 @ GOT start -- Needs address fixing
.word 0x00000000 @ GOT end
.word 0x00000000 @ bss start -- Needs setting to zero
.word 0x00000000 @ bss end
@---------------------------------------------------------------------------------
@ DISC_INTERFACE data -- 32 bytes
.global gDldiInterface
gDldiInterface:
.ascii "DLDI" @ ioType
.word 0x00000000 @ Features
.word _DLDI_startup @
.word _DLDI_isInserted @
.word _DLDI_readSectors @ Function pointers to standard device driver functions
.word _DLDI_writeSectors @
.word _DLDI_clearStatus @
.word _DLDI_shutdown @
@---------------------------------------------------------------------------------
_DLDI_startup:
_DLDI_isInserted:
_DLDI_readSectors:
_DLDI_writeSectors:
_DLDI_clearStatus:
_DLDI_shutdown:
mov r0, #0x00 @ Return false for every function
bx lr
@---------------------------------------------------------------------------------
.align
.pool
dldi_data_end:
@ Pad to end of allocated space
.space DLDI_ALLOCATED_SPACE - (dldi_data_end - dldi_start)
dldi_end:
.end
@---------------------------------------------------------------------------------

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/*----------------------------------------------------------------------------/
/ FatFs - Generic FAT Filesystem module R0.13c /
/-----------------------------------------------------------------------------/
/
/ Copyright (C) 2018, ChaN, all right reserved.
/
/ FatFs module is an open source software. Redistribution and use of FatFs in
/ source and binary forms, with or without modification, are permitted provided
/ that the following condition is met:
/ 1. Redistributions of source code must retain the above copyright notice,
/ this condition and the following disclaimer.
/
/ This software is provided by the copyright holder and contributors "AS IS"
/ and any warranties related to this software are DISCLAIMED.
/ The copyright owner or contributors be NOT LIABLE for any damages caused
/ by use of this software.
/
/----------------------------------------------------------------------------*/
#ifndef FF_DEFINED
#define FF_DEFINED 86604 /* Revision ID */
#ifdef __cplusplus
extern "C" {
#endif
#include "ffconf.h" /* FatFs configuration options */
#if FF_DEFINED != FFCONF_DEF
#error Wrong configuration file (ffconf.h).
#endif
/* Integer types used for FatFs API */
#if defined(_WIN32) /* Main development platform */
#define FF_INTDEF 2
#include <windows.h>
typedef unsigned __int64 QWORD;
#elif (defined(__STDC_VERSION__) && __STDC_VERSION__ >= 199901L) || defined(__cplusplus) /* C99 or later */
#define FF_INTDEF 2
#include <stdint.h>
typedef unsigned int UINT; /* int must be 16-bit or 32-bit */
typedef unsigned char BYTE; /* char must be 8-bit */
typedef uint16_t WORD; /* 16-bit unsigned integer */
typedef uint16_t WCHAR; /* 16-bit unsigned integer */
typedef uint32_t DWORD; /* 32-bit unsigned integer */
typedef uint64_t QWORD; /* 64-bit unsigned integer */
#else /* Earlier than C99 */
#define FF_INTDEF 1
typedef unsigned int UINT; /* int must be 16-bit or 32-bit */
typedef unsigned char BYTE; /* char must be 8-bit */
typedef unsigned short WORD; /* 16-bit unsigned integer */
typedef unsigned short WCHAR; /* 16-bit unsigned integer */
typedef unsigned long DWORD; /* 32-bit unsigned integer */
#endif
#include "math.h"
/* Definitions of volume management */
#if FF_MULTI_PARTITION /* Multiple partition configuration */
typedef struct {
BYTE pd; /* Physical drive number */
BYTE pt; /* Partition: 0:Auto detect, 1-4:Forced partition) */
} PARTITION;
extern PARTITION VolToPart[]; /* Volume - Partition resolution table */
#endif
#if FF_STR_VOLUME_ID
#ifndef FF_VOLUME_STRS
extern const char* VolumeStr[FF_VOLUMES]; /* User defied volume ID */
#endif
#endif
/* Type of path name strings on FatFs API */
#ifndef _INC_TCHAR
#define _INC_TCHAR
#if FF_USE_LFN && FF_LFN_UNICODE == 1 /* Unicode in UTF-16 encoding */
typedef WCHAR TCHAR;
#define _T(x) L ## x
#define _TEXT(x) L ## x
#elif FF_USE_LFN && FF_LFN_UNICODE == 2 /* Unicode in UTF-8 encoding */
typedef char TCHAR;
#define _T(x) u8 ## x
#define _TEXT(x) u8 ## x
#elif FF_USE_LFN && FF_LFN_UNICODE == 3 /* Unicode in UTF-32 encoding */
typedef DWORD TCHAR;
#define _T(x) U ## x
#define _TEXT(x) U ## x
#elif FF_USE_LFN && (FF_LFN_UNICODE < 0 || FF_LFN_UNICODE > 3)
#error Wrong FF_LFN_UNICODE setting
#else /* ANSI/OEM code in SBCS/DBCS */
typedef char TCHAR;
#define _T(x) x
#define _TEXT(x) x
#endif
#endif
/* Type of file size variables */
#if FF_FS_EXFAT
#if FF_INTDEF != 2
#error exFAT feature wants C99 or later
#endif
typedef QWORD FSIZE_t;
#else
typedef DWORD FSIZE_t;
#endif
/* Filesystem object structure (FATFS) */
typedef struct {
BYTE fs_type; /* Filesystem type (0:not mounted) */
BYTE pdrv; /* Associated physical drive */
BYTE n_fats; /* Number of FATs (1 or 2) */
BYTE wflag; /* win[] flag (b0:dirty) */
BYTE fsi_flag; /* FSINFO flags (b7:disabled, b0:dirty) */
WORD id; /* Volume mount ID */
WORD n_rootdir; /* Number of root directory entries (FAT12/16) */
WORD csize; /* Cluster size [sectors] */
#if FF_MAX_SS != FF_MIN_SS
WORD ssize; /* Sector size (512, 1024, 2048 or 4096) */
#endif
#if FF_USE_LFN
WCHAR* lfnbuf; /* LFN working buffer */
#endif
#if FF_FS_EXFAT
BYTE* dirbuf; /* Directory entry block scratchpad buffer for exFAT */
#endif
#if FF_FS_REENTRANT
FF_SYNC_t sobj; /* Identifier of sync object */
#endif
#if !FF_FS_READONLY
DWORD last_clst; /* Last allocated cluster */
DWORD free_clst; /* Number of free clusters */
#endif
#if FF_FS_RPATH
DWORD cdir; /* Current directory start cluster (0:root) */
#if FF_FS_EXFAT
DWORD cdc_scl; /* Containing directory start cluster (invalid when cdir is 0) */
DWORD cdc_size; /* b31-b8:Size of containing directory, b7-b0: Chain status */
DWORD cdc_ofs; /* Offset in the containing directory (invalid when cdir is 0) */
#endif
#endif
DWORD n_fatent; /* Number of FAT entries (number of clusters + 2) */
DWORD fsize; /* Size of an FAT [sectors] */
DWORD volbase; /* Volume base sector */
DWORD fatbase; /* FAT base sector */
DWORD dirbase; /* Root directory base sector/cluster */
DWORD database; /* Data base sector */
#if FF_FS_EXFAT
DWORD bitbase; /* Allocation bitmap base sector */
#endif
DWORD winsect; /* Current sector appearing in the win[] */
BYTE win[FF_MAX_SS] __attribute__((aligned(32))); /* Disk access window for Directory, FAT (and file data at tiny cfg) */
} FATFS __attribute__((aligned(32)));
/* Object ID and allocation information (FFOBJID) */
typedef struct {
FATFS* fs; /* Pointer to the hosting volume of this object */
WORD id; /* Hosting volume mount ID */
BYTE attr; /* Object attribute */
BYTE stat; /* Object chain status (b1-0: =0:not contiguous, =2:contiguous, =3:fragmented in this session, b2:sub-directory stretched) */
DWORD sclust; /* Object data start cluster (0:no cluster or root directory) */
FSIZE_t objsize; /* Object size (valid when sclust != 0) */
#if FF_FS_EXFAT
DWORD n_cont; /* Size of first fragment - 1 (valid when stat == 3) */
DWORD n_frag; /* Size of last fragment needs to be written to FAT (valid when not zero) */
DWORD c_scl; /* Containing directory start cluster (valid when sclust != 0) */
DWORD c_size; /* b31-b8:Size of containing directory, b7-b0: Chain status (valid when c_scl != 0) */
DWORD c_ofs; /* Offset in the containing directory (valid when file object and sclust != 0) */
#endif
#if FF_FS_LOCK
UINT lockid; /* File lock ID origin from 1 (index of file semaphore table Files[]) */
#endif
} FFOBJID;
/* File object structure (FIL) */
typedef struct {
FFOBJID obj; /* Object identifier (must be the 1st member to detect invalid object pointer) */
BYTE flag; /* File status flags */
BYTE err; /* Abort flag (error code) */
FSIZE_t fptr; /* File read/write pointer (Zeroed on file open) */
DWORD clust; /* Current cluster of fpter (invalid when fptr is 0) */
DWORD sect; /* Sector number appearing in buf[] (0:invalid) */
#if !FF_FS_READONLY
DWORD dir_sect; /* Sector number containing the directory entry (not used at exFAT) */
BYTE* dir_ptr; /* Pointer to the directory entry in the win[] (not used at exFAT) */
#endif
#if FF_USE_FASTSEEK
DWORD* cltbl; /* Pointer to the cluster link map table (nulled on open, set by application) */
#endif
#if !FF_FS_TINY
BYTE buf[FF_MAX_SS] __attribute__((aligned(32))); /* File private data read/write window */
#endif
} FIL __attribute__((aligned(32)));
/* Directory object structure (DIR) */
typedef struct {
FFOBJID obj; /* Object identifier */
DWORD dptr; /* Current read/write offset */
DWORD clust; /* Current cluster */
DWORD sect; /* Current sector (0:Read operation has terminated) */
BYTE* dir; /* Pointer to the directory item in the win[] */
BYTE fn[12]; /* SFN (in/out) {body[8],ext[3],status[1]} */
#if FF_USE_LFN
DWORD blk_ofs; /* Offset of current entry block being processed (0xFFFFFFFF:Invalid) */
#endif
#if FF_USE_FIND
const TCHAR* pat; /* Pointer to the name matching pattern */
#endif
} DIR;
/* File information structure (FILINFO) */
typedef struct {
FSIZE_t fsize; /* File size */
WORD fdate; /* Modified date */
WORD ftime; /* Modified time */
BYTE fattrib; /* File attribute */
DWORD fdirsect;
DWORD fdiroffs;
DWORD fclust;
#if FF_USE_LFN
TCHAR altname[FF_SFN_BUF + 1];/* Altenative file name */
TCHAR fname[FF_LFN_BUF + 1]; /* Primary file name */
#else
TCHAR fname[12 + 1]; /* File name */
#endif
} FILINFO;
/* File function return code (FRESULT) */
typedef enum {
FR_OK = 0, /* (0) Succeeded */
FR_DISK_ERR, /* (1) A hard error occurred in the low level disk I/O layer */
FR_INT_ERR, /* (2) Assertion failed */
FR_NOT_READY, /* (3) The physical drive cannot work */
FR_NO_FILE, /* (4) Could not find the file */
FR_NO_PATH, /* (5) Could not find the path */
FR_INVALID_NAME, /* (6) The path name format is invalid */
FR_DENIED, /* (7) Access denied due to prohibited access or directory full */
FR_EXIST, /* (8) Access denied due to prohibited access */
FR_INVALID_OBJECT, /* (9) The file/directory object is invalid */
FR_WRITE_PROTECTED, /* (10) The physical drive is write protected */
FR_INVALID_DRIVE, /* (11) The logical drive number is invalid */
FR_NOT_ENABLED, /* (12) The volume has no work area */
FR_NO_FILESYSTEM, /* (13) There is no valid FAT volume */
FR_MKFS_ABORTED, /* (14) The f_mkfs() aborted due to any problem */
FR_TIMEOUT, /* (15) Could not get a grant to access the volume within defined period */
FR_LOCKED, /* (16) The operation is rejected according to the file sharing policy */
FR_NOT_ENOUGH_CORE, /* (17) LFN working buffer could not be allocated */
FR_TOO_MANY_OPEN_FILES, /* (18) Number of open files > FF_FS_LOCK */
FR_INVALID_PARAMETER /* (19) Given parameter is invalid */
} FRESULT;
/*--------------------------------------------------------------*/
/* FatFs module application interface */
DWORD f_clst2sect(FATFS* fs, DWORD clst);
DWORD f_getFat(FIL* fp, DWORD clst);
FRESULT f_open (FIL* fp, const TCHAR* path, BYTE mode); /* Open or create a file */
FRESULT f_close (FIL* fp); /* Close an open file object */
FRESULT f_read (FIL* fp, void* buff, UINT btr, UINT* br); /* Read data from the file */
FRESULT f_write (FIL* fp, const void* buff, UINT btw, UINT* bw); /* Write data to the file */
FRESULT f_lseek (FIL* fp, FSIZE_t ofs); /* Move file pointer of the file object */
FRESULT f_truncate (FIL* fp); /* Truncate the file */
FRESULT f_sync (FIL* fp); /* Flush cached data of the writing file */
FRESULT f_opendir (DIR* dp, const TCHAR* path); /* Open a directory */
FRESULT f_closedir (DIR* dp); /* Close an open directory */
FRESULT f_readdir (DIR* dp, FILINFO* fno); /* Read a directory item */
FRESULT f_findfirst (DIR* dp, FILINFO* fno, const TCHAR* path, const TCHAR* pattern); /* Find first file */
FRESULT f_findnext (DIR* dp, FILINFO* fno); /* Find next file */
FRESULT f_mkdir (const TCHAR* path); /* Create a sub directory */
FRESULT f_unlink (const TCHAR* path); /* Delete an existing file or directory */
FRESULT f_rename (const TCHAR* path_old, const TCHAR* path_new); /* Rename/Move a file or directory */
FRESULT f_stat (const TCHAR* path, FILINFO* fno); /* Get file status */
FRESULT f_chmod (const TCHAR* path, BYTE attr, BYTE mask); /* Change attribute of a file/dir */
FRESULT f_utime (const TCHAR* path, const FILINFO* fno); /* Change timestamp of a file/dir */
FRESULT f_chdir (const TCHAR* path); /* Change current directory */
FRESULT f_chdrive (const TCHAR* path); /* Change current drive */
FRESULT f_getcwd (TCHAR* buff, UINT len); /* Get current directory */
FRESULT f_getfree (const TCHAR* path, DWORD* nclst, FATFS** fatfs); /* Get number of free clusters on the drive */
FRESULT f_getlabel (const TCHAR* path, TCHAR* label, DWORD* vsn); /* Get volume label */
FRESULT f_setlabel (const TCHAR* label); /* Set volume label */
FRESULT f_forward (FIL* fp, UINT(*func)(const BYTE*,UINT), UINT btf, UINT* bf); /* Forward data to the stream */
FRESULT f_expand (FIL* fp, FSIZE_t szf, BYTE opt); /* Allocate a contiguous block to the file */
FRESULT f_mount (FATFS* fs, const TCHAR* path, BYTE opt); /* Mount/Unmount a logical drive */
FRESULT f_mkfs (const TCHAR* path, BYTE opt, DWORD au, void* work, UINT len); /* Create a FAT volume */
FRESULT f_fdisk (BYTE pdrv, const DWORD* szt, void* work); /* Divide a physical drive into some partitions */
FRESULT f_setcp (WORD cp); /* Set current code page */
int f_putc (TCHAR c, FIL* fp); /* Put a character to the file */
int f_puts (const TCHAR* str, FIL* cp); /* Put a string to the file */
int f_printf (FIL* fp, const TCHAR* str, ...); /* Put a formatted string to the file */
TCHAR* f_gets (TCHAR* buff, int len, FIL* fp); /* Get a string from the file */
#define f_eof(fp) ((int)((fp)->fptr == (fp)->obj.objsize))
#define f_error(fp) ((fp)->err)
#define f_tell(fp) ((fp)->fptr)
#define f_size(fp) ((fp)->obj.objsize)
#define f_rewind(fp) f_lseek((fp), 0)
#define f_rewinddir(dp) f_readdir((dp), 0)
#define f_rmdir(path) f_unlink(path)
#define f_unmount(path) f_mount(0, path, 0)
#ifndef EOF
#define EOF (-1)
#endif
/*--------------------------------------------------------------*/
/* Additional user defined functions */
/* RTC function */
#if !FF_FS_READONLY && !FF_FS_NORTC
DWORD get_fattime (void);
#endif
/* LFN support functions */
#if FF_USE_LFN >= 1 /* Code conversion (defined in unicode.c) */
WCHAR ff_oem2uni (WCHAR oem, WORD cp); /* OEM code to Unicode conversion */
WCHAR ff_uni2oem (DWORD uni, WORD cp); /* Unicode to OEM code conversion */
DWORD ff_wtoupper (DWORD uni); /* Unicode upper-case conversion */
#endif
#if FF_USE_LFN == 3 /* Dynamic memory allocation */
void* ff_memalloc (UINT msize); /* Allocate memory block */
void ff_memfree (void* mblock); /* Free memory block */
#endif
/* Sync functions */
#if FF_FS_REENTRANT
int ff_cre_syncobj (BYTE vol, FF_SYNC_t* sobj); /* Create a sync object */
int ff_req_grant (FF_SYNC_t sobj); /* Lock sync object */
void ff_rel_grant (FF_SYNC_t sobj); /* Unlock sync object */
int ff_del_syncobj (FF_SYNC_t sobj); /* Delete a sync object */
#endif
/*--------------------------------------------------------------*/
/* Flags and offset address */
/* File access mode and open method flags (3rd argument of f_open) */
#define FA_READ 0x01
#define FA_WRITE 0x02
#define FA_OPEN_EXISTING 0x00
#define FA_CREATE_NEW 0x04
#define FA_CREATE_ALWAYS 0x08
#define FA_OPEN_ALWAYS 0x10
#define FA_OPEN_APPEND 0x30
/* Fast seek controls (2nd argument of f_lseek) */
#define CREATE_LINKMAP ((FSIZE_t)0 - 1)
/* Format options (2nd argument of f_mkfs) */
#define FM_FAT 0x01
#define FM_FAT32 0x02
#define FM_EXFAT 0x04
#define FM_ANY 0x07
#define FM_SFD 0x08
/* Filesystem type (FATFS.fs_type) */
#define FS_FAT12 1
#define FS_FAT16 2
#define FS_FAT32 3
#define FS_EXFAT 4
/* File attribute bits for directory entry (FILINFO.fattrib) */
#define AM_RDO 0x01 /* Read only */
#define AM_HID 0x02 /* Hidden */
#define AM_SYS 0x04 /* System */
#define AM_DIR 0x10 /* Directory */
#define AM_ARC 0x20 /* Archive */
#ifdef __cplusplus
}
#endif
#endif /* FF_DEFINED */

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/*---------------------------------------------------------------------------/
/ FatFs Functional Configurations
/---------------------------------------------------------------------------*/
#define FFCONF_DEF 86604 /* Revision ID */
/*---------------------------------------------------------------------------/
/ Function Configurations
/---------------------------------------------------------------------------*/
#define FF_FS_READONLY 1
/* This option switches read-only configuration. (0:Read/Write or 1:Read-only)
/ Read-only configuration removes writing API functions, f_write(), f_sync(),
/ f_unlink(), f_mkdir(), f_chmod(), f_rename(), f_truncate(), f_getfree()
/ and optional writing functions as well. */
#define FF_FS_MINIMIZE 3
/* This option defines minimization level to remove some basic API functions.
/
/ 0: Basic functions are fully enabled.
/ 1: f_stat(), f_getfree(), f_unlink(), f_mkdir(), f_truncate() and f_rename()
/ are removed.
/ 2: f_opendir(), f_readdir() and f_closedir() are removed in addition to 1.
/ 3: f_lseek() function is removed in addition to 2. */
#define FF_USE_STRFUNC 0
/* This option switches string functions, f_gets(), f_putc(), f_puts() and f_printf().
/
/ 0: Disable string functions.
/ 1: Enable without LF-CRLF conversion.
/ 2: Enable with LF-CRLF conversion. */
#define FF_USE_FIND 0
/* This option switches filtered directory read functions, f_findfirst() and
/ f_findnext(). (0:Disable, 1:Enable 2:Enable with matching altname[] too) */
#define FF_USE_MKFS 0
/* This option switches f_mkfs() function. (0:Disable or 1:Enable) */
#define FF_USE_FASTSEEK 0
/* This option switches fast seek function. (0:Disable or 1:Enable) */
#define FF_USE_EXPAND 0
/* This option switches f_expand function. (0:Disable or 1:Enable) */
#define FF_USE_CHMOD 0
/* This option switches attribute manipulation functions, f_chmod() and f_utime().
/ (0:Disable or 1:Enable) Also FF_FS_READONLY needs to be 0 to enable this option. */
#define FF_USE_LABEL 0
/* This option switches volume label functions, f_getlabel() and f_setlabel().
/ (0:Disable or 1:Enable) */
#define FF_USE_FORWARD 0
/* This option switches f_forward() function. (0:Disable or 1:Enable) */
/*---------------------------------------------------------------------------/
/ Locale and Namespace Configurations
/---------------------------------------------------------------------------*/
#define FF_CODE_PAGE 437 //932
/* This option specifies the OEM code page to be used on the target system.
/ Incorrect code page setting can cause a file open failure.
/
/ 437 - U.S.
/ 720 - Arabic
/ 737 - Greek
/ 771 - KBL
/ 775 - Baltic
/ 850 - Latin 1
/ 852 - Latin 2
/ 855 - Cyrillic
/ 857 - Turkish
/ 860 - Portuguese
/ 861 - Icelandic
/ 862 - Hebrew
/ 863 - Canadian French
/ 864 - Arabic
/ 865 - Nordic
/ 866 - Russian
/ 869 - Greek 2
/ 932 - Japanese (DBCS)
/ 936 - Simplified Chinese (DBCS)
/ 949 - Korean (DBCS)
/ 950 - Traditional Chinese (DBCS)
/ 0 - Include all code pages above and configured by f_setcp()
*/
#define FF_USE_LFN 1
#define FF_MAX_LFN 255
/* The FF_USE_LFN switches the support for LFN (long file name).
/
/ 0: Disable LFN. FF_MAX_LFN has no effect.
/ 1: Enable LFN with static working buffer on the BSS. Always NOT thread-safe.
/ 2: Enable LFN with dynamic working buffer on the STACK.
/ 3: Enable LFN with dynamic working buffer on the HEAP.
/
/ To enable the LFN, ffunicode.c needs to be added to the project. The LFN function
/ requiers certain internal working buffer occupies (FF_MAX_LFN + 1) * 2 bytes and
/ additional (FF_MAX_LFN + 44) / 15 * 32 bytes when exFAT is enabled.
/ The FF_MAX_LFN defines size of the working buffer in UTF-16 code unit and it can
/ be in range of 12 to 255. It is recommended to be set 255 to fully support LFN
/ specification.
/ When use stack for the working buffer, take care on stack overflow. When use heap
/ memory for the working buffer, memory management functions, ff_memalloc() and
/ ff_memfree() in ffsystem.c, need to be added to the project. */
#define FF_LFN_UNICODE 2
/* This option switches the character encoding on the API when LFN is enabled.
/
/ 0: ANSI/OEM in current CP (TCHAR = char)
/ 1: Unicode in UTF-16 (TCHAR = WCHAR)
/ 2: Unicode in UTF-8 (TCHAR = char)
/ 3: Unicode in UTF-32 (TCHAR = DWORD)
/
/ Also behavior of string I/O functions will be affected by this option.
/ When LFN is not enabled, this option has no effect. */
#define FF_LFN_BUF 255
#define FF_SFN_BUF 12
/* This set of options defines size of file name members in the FILINFO structure
/ which is used to read out directory items. These values should be suffcient for
/ the file names to read. The maximum possible length of the read file name depends
/ on character encoding. When LFN is not enabled, these options have no effect. */
#define FF_STRF_ENCODE 3
/* When FF_LFN_UNICODE >= 1 with LFN enabled, string I/O functions, f_gets(),
/ f_putc(), f_puts and f_printf() convert the character encoding in it.
/ This option selects assumption of character encoding ON THE FILE to be
/ read/written via those functions.
/
/ 0: ANSI/OEM in current CP
/ 1: Unicode in UTF-16LE
/ 2: Unicode in UTF-16BE
/ 3: Unicode in UTF-8
*/
#define FF_FS_RPATH 0
/* This option configures support for relative path.
/
/ 0: Disable relative path and remove related functions.
/ 1: Enable relative path. f_chdir() and f_chdrive() are available.
/ 2: f_getcwd() function is available in addition to 1.
*/
/*---------------------------------------------------------------------------/
/ Drive/Volume Configurations
/---------------------------------------------------------------------------*/
#define FF_VOLUMES 1
/* Number of volumes (logical drives) to be used. (1-10) */
#define FF_STR_VOLUME_ID 1
#define FF_VOLUME_STRS "fat"
/* FF_STR_VOLUME_ID switches support for volume ID in arbitrary strings.
/ When FF_STR_VOLUME_ID is set to 1 or 2, arbitrary strings can be used as drive
/ number in the path name. FF_VOLUME_STRS defines the volume ID strings for each
/ logical drives. Number of items must not be less than FF_VOLUMES. Valid
/ characters for the volume ID strings are A-Z, a-z and 0-9, however, they are
/ compared in case-insensitive. If FF_STR_VOLUME_ID >= 1 and FF_VOLUME_STRS is
/ not defined, a user defined volume string table needs to be defined as:
/
/ const char* VolumeStr[FF_VOLUMES] = {"ram","flash","sd","usb",...
*/
#define FF_MULTI_PARTITION 0
/* This option switches support for multiple volumes on the physical drive.
/ By default (0), each logical drive number is bound to the same physical drive
/ number and only an FAT volume found on the physical drive will be mounted.
/ When this function is enabled (1), each logical drive number can be bound to
/ arbitrary physical drive and partition listed in the VolToPart[]. Also f_fdisk()
/ funciton will be available. */
#define FF_MIN_SS 512
#define FF_MAX_SS 512
/* This set of options configures the range of sector size to be supported. (512,
/ 1024, 2048 or 4096) Always set both 512 for most systems, generic memory card and
/ harddisk. But a larger value may be required for on-board flash memory and some
/ type of optical media. When FF_MAX_SS is larger than FF_MIN_SS, FatFs is configured
/ for variable sector size mode and disk_ioctl() function needs to implement
/ GET_SECTOR_SIZE command. */
#define FF_USE_TRIM 0
/* This option switches support for ATA-TRIM. (0:Disable or 1:Enable)
/ To enable Trim function, also CTRL_TRIM command should be implemented to the
/ disk_ioctl() function. */
#define FF_FS_NOFSINFO 0
/* If you need to know correct free space on the FAT32 volume, set bit 0 of this
/ option, and f_getfree() function at first time after volume mount will force
/ a full FAT scan. Bit 1 controls the use of last allocated cluster number.
/
/ bit0=0: Use free cluster count in the FSINFO if available.
/ bit0=1: Do not trust free cluster count in the FSINFO.
/ bit1=0: Use last allocated cluster number in the FSINFO if available.
/ bit1=1: Do not trust last allocated cluster number in the FSINFO.
*/
/*---------------------------------------------------------------------------/
/ System Configurations
/---------------------------------------------------------------------------*/
#define FF_FS_TINY 0
/* This option switches tiny buffer configuration. (0:Normal or 1:Tiny)
/ At the tiny configuration, size of file object (FIL) is shrinked FF_MAX_SS bytes.
/ Instead of private sector buffer eliminated from the file object, common sector
/ buffer in the filesystem object (FATFS) is used for the file data transfer. */
#define FF_FS_EXFAT 0
/* This option switches support for exFAT filesystem. (0:Disable or 1:Enable)
/ To enable exFAT, also LFN needs to be enabled. (FF_USE_LFN >= 1)
/ Note that enabling exFAT discards ANSI C (C89) compatibility. */
#define FF_FS_NORTC 1
#define FF_NORTC_MON 1
#define FF_NORTC_MDAY 1
#define FF_NORTC_YEAR 2018
/* The option FF_FS_NORTC switches timestamp functiton. If the system does not have
/ any RTC function or valid timestamp is not needed, set FF_FS_NORTC = 1 to disable
/ the timestamp function. Every object modified by FatFs will have a fixed timestamp
/ defined by FF_NORTC_MON, FF_NORTC_MDAY and FF_NORTC_YEAR in local time.
/ To enable timestamp function (FF_FS_NORTC = 0), get_fattime() function need to be
/ added to the project to read current time form real-time clock. FF_NORTC_MON,
/ FF_NORTC_MDAY and FF_NORTC_YEAR have no effect.
/ These options have no effect at read-only configuration (FF_FS_READONLY = 1). */
#define FF_FS_LOCK 0
/* The option FF_FS_LOCK switches file lock function to control duplicated file open
/ and illegal operation to open objects. This option must be 0 when FF_FS_READONLY
/ is 1.
/
/ 0: Disable file lock function. To avoid volume corruption, application program
/ should avoid illegal open, remove and rename to the open objects.
/ >0: Enable file lock function. The value defines how many files/sub-directories
/ can be opened simultaneously under file lock control. Note that the file
/ lock control is independent of re-entrancy. */
/* #include <somertos.h> // O/S definitions */
#define FF_FS_REENTRANT 0
#define FF_FS_TIMEOUT 1000
#define FF_SYNC_t HANDLE
/* The option FF_FS_REENTRANT switches the re-entrancy (thread safe) of the FatFs
/ module itself. Note that regardless of this option, file access to different
/ volume is always re-entrant and volume control functions, f_mount(), f_mkfs()
/ and f_fdisk() function, are always not re-entrant. Only file/directory access
/ to the same volume is under control of this function.
/
/ 0: Disable re-entrancy. FF_FS_TIMEOUT and FF_SYNC_t have no effect.
/ 1: Enable re-entrancy. Also user provided synchronization handlers,
/ ff_req_grant(), ff_rel_grant(), ff_del_syncobj() and ff_cre_syncobj()
/ function, must be added to the project. Samples are available in
/ option/syscall.c.
/
/ The FF_FS_TIMEOUT defines timeout period in unit of time tick.
/ The FF_SYNC_t defines O/S dependent sync object type. e.g. HANDLE, ID, OS_EVENT*,
/ SemaphoreHandle_t and etc. A header file for O/S definitions needs to be
/ included somewhere in the scope of ff.h. */
/*--- End of configuration options ---*/

15597
source/fat/ffunicode.c Normal file
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42
source/memNtrWram.h Normal file
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#pragma once
typedef enum
{
MEM_NTR_WRAM_ARM9 = 0,
MEM_NTR_WRAM_ARM7 = 1
} MemNtrWramMapping;
#define REG_WRAMCNT (*(vu8*)0x04000247)
#ifdef __cplusplus
extern "C" {
#endif
static inline void mem_setNtrWram0Mapping(MemNtrWramMapping mapping)
{
REG_WRAMCNT = (REG_WRAMCNT & ~1) | mapping;
}
static inline MemNtrWramMapping mem_getNtrWram0Mapping(void)
{
return REG_WRAMCNT & 1;
}
static inline void mem_setNtrWram1Mapping(MemNtrWramMapping mapping)
{
REG_WRAMCNT = (REG_WRAMCNT & ~2) | (mapping << 1);
}
static inline MemNtrWramMapping mem_getNtrWram1Mapping(void)
{
return (REG_WRAMCNT >> 1) & 1;
}
static inline void mem_setNtrWramMapping(MemNtrWramMapping block0, MemNtrWramMapping block1)
{
REG_WRAMCNT = block0 | (block1 << 1);
}
#ifdef __cplusplus
}
#endif

145
source/memTwlWram.h Normal file
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#pragma once
typedef enum
{
MEM_TWL_WRAM_A_SLOT_0 = 0,
MEM_TWL_WRAM_A_SLOT_01 = 2,
MEM_TWL_WRAM_A_SLOT_ALL = 3
} MemTwlWramASlots;
typedef enum
{
MEM_TWL_WRAM_BC_SLOT_0 = 0,
MEM_TWL_WRAM_BC_SLOT_01 = 1,
MEM_TWL_WRAM_BC_SLOT_0123 = 2,
MEM_TWL_WRAM_BC_SLOT_ALL = 3
} MemTwlWramBCSlots;
typedef enum
{
MEM_TWL_WRAM_A_NONE = 0,
MEM_TWL_WRAM_A_ARM9 = 0x80,
MEM_TWL_WRAM_A_ARM7 = 0x81,
} MemTwlWramAMaster;
typedef enum
{
MEM_TWL_WRAM_B_NONE = 0,
MEM_TWL_WRAM_B_ARM9 = 0x80,
MEM_TWL_WRAM_B_ARM7 = 0x81,
MEM_TWL_WRAM_B_DSP_CODE = 0x82
} MemTwlWramBMaster;
typedef enum
{
MEM_TWL_WRAM_C_NONE = 0,
MEM_TWL_WRAM_C_ARM9 = 0x80,
MEM_TWL_WRAM_C_ARM7 = 0x81,
MEM_TWL_WRAM_C_DSP_DATA = 0x82
} MemTwlWramCMaster;
#define MEM_TWL_WRAM_BASE 0x03000000
#define MEM_TWL_WRAM_A_SLOT_COUNT 4
#define MEM_TWL_WRAM_A_SLOT_SIZE 0x10000
#define MEM_TWL_WRAM_BC_SLOT_COUNT 8
#define MEM_TWL_WRAM_BC_SLOT_SIZE 0x8000
#define REG_MBK1 (*(vu32*)0x04004040)
#define REG_MBK2 (*(vu32*)0x04004044)
#define REG_MBK3 (*(vu32*)0x04004048)
#define REG_MBK4 (*(vu32*)0x0400404C)
#define REG_MBK5 (*(vu32*)0x04004050)
#define REG_MBK6 (*(vu32*)0x04004054)
#define REG_MBK7 (*(vu32*)0x04004058)
#define REG_MBK8 (*(vu32*)0x0400405C)
#define REG_MBK9 (*(vu32*)0x04004060)
#ifdef __cplusplus
extern "C" {
#endif
static inline void mem_setTwlWramAMapping(MemTwlWramASlots usedSlots, u32 start, u32 length)
{
start = (start - MEM_TWL_WRAM_BASE) >> 16;
u32 end = start + (length >> 16);
REG_MBK6 = (start << 4) | (usedSlots << 12) | (end << 20);
}
static inline void mem_setTwlWramBMapping(MemTwlWramBCSlots usedSlots, u32 start, u32 length)
{
start = (start - MEM_TWL_WRAM_BASE) >> 15;
u32 end = start + (length >> 15);
REG_MBK7 = (start << 3) | (usedSlots << 12) | (end << 19);
}
static inline void mem_setTwlWramCMapping(MemTwlWramBCSlots usedSlots, u32 start, u32 length)
{
start = (start - MEM_TWL_WRAM_BASE) >> 15;
u32 end = start + (length >> 15);
REG_MBK8 = (start << 3) | (usedSlots << 12) | (end << 19);
}
static inline void* mem_getTwlWramAStart(void)
{
return (void*)(MEM_TWL_WRAM_BASE + (((REG_MBK6 >> 4) & 0xFF) << 16));
}
static inline void* mem_getTwlWramBStart(void)
{
return (void*)(MEM_TWL_WRAM_BASE + (((REG_MBK7 >> 3) & 0x1FF) << 15));
}
static inline void* mem_getTwlWramCStart(void)
{
return (void*)(MEM_TWL_WRAM_BASE + (((REG_MBK8 >> 3) & 0x1FF) << 15));
}
#ifdef LIBTWL_ARM9
static inline void mem_setTwlWramABlockMapping(MemTwlWramAMaster master, int block, int slot)
{
((vu8*)&REG_MBK1)[block] = master | (slot << 2);
}
static inline void mem_setTwlWramBBlockMapping(MemTwlWramBMaster master, int block, int slot)
{
((vu8*)&REG_MBK2)[block] = master | (slot << 2);
}
static inline void mem_setTwlWramCBlockMapping(MemTwlWramCMaster master, int block, int slot)
{
((vu8*)&REG_MBK4)[block] = master | (slot << 2);
}
#endif
static inline bool mem_isTwlWramUnlocked(void)
{
if ((REG_SCFG_EXT & 0x80000000) == 0)
return false; // SCFG and MBK registers are permanently locked
if ((REG_MBK9 & 0xFFFF0F) != 0)
return false; // One or more MBK registers are locked
return true;
}
#ifdef LIBTWL_ARM7
static inline bool mem_isTwlWramUnlockable(void)
{
return (REG_SCFG_EXT & 0x80000000) != 0;
}
static inline void mem_unlockAllTwlWram(void)
{
REG_MBK9 = 0;
}
#endif
#ifdef __cplusplus
}
#endif

207
source/memVram.h Normal file
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#pragma once
typedef enum
{
MEM_VRAM_AB_NONE = 0,
MEM_VRAM_AB_LCDC = 0x80,
MEM_VRAM_AB_MAIN_BG_00000 = 0x81,
MEM_VRAM_AB_MAIN_BG_20000 = 0x89,
MEM_VRAM_AB_MAIN_BG_40000 = 0x91,
MEM_VRAM_AB_MAIN_BG_60000 = 0x99,
MEM_VRAM_AB_MAIN_OBJ_00000 = 0x82,
MEM_VRAM_AB_MAIN_OBJ_20000 = 0x8A,
MEM_VRAM_AB_TEX_SLOT_0 = 0x83,
MEM_VRAM_AB_TEX_SLOT_1 = 0x8B,
MEM_VRAM_AB_TEX_SLOT_2 = 0x93,
MEM_VRAM_AB_TEX_SLOT_3 = 0x9B
} MemVramABMapping;
typedef enum
{
MEM_VRAM_C_NONE = 0,
MEM_VRAM_C_LCDC = 0x80,
MEM_VRAM_C_MAIN_BG_00000 = 0x81,
MEM_VRAM_C_MAIN_BG_20000 = 0x89,
MEM_VRAM_C_MAIN_BG_40000 = 0x91,
MEM_VRAM_C_MAIN_BG_60000 = 0x99,
MEM_VRAM_C_ARM7_00000 = 0x82,
MEM_VRAM_C_ARM7_20000 = 0x8A,
MEM_VRAM_C_TEX_SLOT_0 = 0x83,
MEM_VRAM_C_TEX_SLOT_1 = 0x8B,
MEM_VRAM_C_TEX_SLOT_2 = 0x93,
MEM_VRAM_C_TEX_SLOT_3 = 0x9B,
MEM_VRAM_C_SUB_BG_00000 = 0x84
} MemVramCMapping;
typedef enum
{
MEM_VRAM_D_NONE = 0,
MEM_VRAM_D_LCDC = 0x80,
MEM_VRAM_D_MAIN_BG_00000 = 0x81,
MEM_VRAM_D_MAIN_BG_20000 = 0x89,
MEM_VRAM_D_MAIN_BG_40000 = 0x91,
MEM_VRAM_D_MAIN_BG_60000 = 0x99,
MEM_VRAM_D_ARM7_00000 = 0x82,
MEM_VRAM_D_ARM7_20000 = 0x8A,
MEM_VRAM_D_TEX_SLOT_0 = 0x83,
MEM_VRAM_D_TEX_SLOT_1 = 0x8B,
MEM_VRAM_D_TEX_SLOT_2 = 0x93,
MEM_VRAM_D_TEX_SLOT_3 = 0x9B,
MEM_VRAM_D_SUB_OBJ_00000 = 0x84
} MemVramDMapping;
typedef enum
{
MEM_VRAM_E_NONE = 0,
MEM_VRAM_E_LCDC = 0x80,
MEM_VRAM_E_MAIN_BG_00000 = 0x81,
MEM_VRAM_E_MAIN_OBJ_00000 = 0x82,
MEM_VRAM_E_TEX_PLTT_SLOT_0123 = 0x83,
MEM_VRAM_E_MAIN_BG_EXT_PLTT_SLOT_0123 = 0x84
} MemVramEMapping;
typedef enum
{
MEM_VRAM_FG_NONE = 0,
MEM_VRAM_FG_LCDC = 0x80,
MEM_VRAM_FG_MAIN_BG_00000 = 0x81,
MEM_VRAM_FG_MAIN_BG_04000 = 0x89,
MEM_VRAM_FG_MAIN_BG_10000 = 0x91,
MEM_VRAM_FG_MAIN_BG_14000 = 0x99,
MEM_VRAM_FG_MAIN_OBJ_00000 = 0x82,
MEM_VRAM_FG_MAIN_OBJ_04000 = 0x8A,
MEM_VRAM_FG_MAIN_OBJ_10000 = 0x92,
MEM_VRAM_FG_MAIN_OBJ_14000 = 0x9A,
MEM_VRAM_FG_TEX_PLTT_SLOT_0 = 0x83,
MEM_VRAM_FG_TEX_PLTT_SLOT_1 = 0x8B,
MEM_VRAM_FG_TEX_PLTT_SLOT_4 = 0x93,
MEM_VRAM_FG_TEX_PLTT_SLOT_5 = 0x9B,
MEM_VRAM_FG_MAIN_BG_EXT_PLTT_SLOT_01 = 0x84,
MEM_VRAM_FG_MAIN_BG_EXT_PLTT_SLOT_23 = 0x8C,
MEM_VRAM_FG_MAIN_OBJ_EXT_PLTT = 0x85
} MemVramFGMapping;
typedef enum
{
MEM_VRAM_H_NONE = 0,
MEM_VRAM_H_LCDC = 0x80,
MEM_VRAM_H_SUB_BG_00000 = 0x81,
MEM_VRAM_H_SUB_BG_EXT_PLTT_SLOT_0123 = 0x82
} MemVramHMapping;
typedef enum
{
MEM_VRAM_I_NONE = 0,
MEM_VRAM_I_LCDC = 0x80,
MEM_VRAM_I_SUB_BG_08000 = 0x81,
MEM_VRAM_I_SUB_OBJ_00000 = 0x82,
MEM_VRAM_I_SUB_OBJ_EXT_PLTT = 0x83
} MemVramIMapping;
#define REG_VRAMCNT_A (*(vu8*)0x04000240)
#define REG_VRAMCNT_B (*(vu8*)0x04000241)
#define REG_VRAMCNT_C (*(vu8*)0x04000242)
#define REG_VRAMCNT_D (*(vu8*)0x04000243)
#define REG_VRAMCNT_E (*(vu8*)0x04000244)
#define REG_VRAMCNT_F (*(vu8*)0x04000245)
#define REG_VRAMCNT_G (*(vu8*)0x04000246)
#define REG_VRAMCNT_H (*(vu8*)0x04000248)
#define REG_VRAMCNT_I (*(vu8*)0x04000249)
#ifdef __cplusplus
extern "C" {
#endif
static inline void mem_setVramAMapping(MemVramABMapping mapping)
{
REG_VRAMCNT_A = (u8)mapping;
}
static inline MemVramABMapping mem_getVramAMapping(void)
{
return (MemVramABMapping)REG_VRAMCNT_A;
}
static inline void mem_setVramBMapping(MemVramABMapping mapping)
{
REG_VRAMCNT_B = (u8)mapping;
}
static inline MemVramABMapping mem_getVramBMapping(void)
{
return (MemVramABMapping)REG_VRAMCNT_B;
}
static inline void mem_setVramCMapping(MemVramCMapping mapping)
{
REG_VRAMCNT_C = (u8)mapping;
}
static inline MemVramCMapping mem_getVramCMapping(void)
{
return (MemVramCMapping)REG_VRAMCNT_C;
}
static inline void mem_setVramDMapping(MemVramDMapping mapping)
{
REG_VRAMCNT_D = (u8)mapping;
}
static inline MemVramDMapping mem_getVramDMapping(void)
{
return (MemVramDMapping)REG_VRAMCNT_D;
}
static inline void mem_setVramEMapping(MemVramEMapping mapping)
{
REG_VRAMCNT_E = (u8)mapping;
}
static inline MemVramEMapping mem_getVramEMapping(void)
{
return (MemVramEMapping)REG_VRAMCNT_E;
}
static inline void mem_setVramFMapping(MemVramFGMapping mapping)
{
REG_VRAMCNT_F = (u8)mapping;
}
static inline MemVramFGMapping mem_getVramFMapping(void)
{
return (MemVramFGMapping)REG_VRAMCNT_F;
}
static inline void mem_setVramGMapping(MemVramFGMapping mapping)
{
REG_VRAMCNT_G = (u8)mapping;
}
static inline MemVramFGMapping mem_getVramGMapping(void)
{
return (MemVramFGMapping)REG_VRAMCNT_G;
}
static inline void mem_setVramHMapping(MemVramHMapping mapping)
{
REG_VRAMCNT_H = (u8)mapping;
}
static inline MemVramHMapping mem_getVramHMapping(void)
{
return (MemVramHMapping)REG_VRAMCNT_H;
}
static inline void mem_setVramIMapping(MemVramIMapping mapping)
{
REG_VRAMCNT_I = (u8)mapping;
}
static inline MemVramIMapping mem_getVramIMapping(void)
{
return (MemVramIMapping)REG_VRAMCNT_I;
}
#ifdef __cplusplus
}
#endif

99
source/start.s Normal file
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.section ".uart", "ax"
.arm
.global _uart_header
.type _uart_header, %function
_uart_header:
// header area of payload
// command
.word 0
.word 0
// length of command payload in ASCII (9e)
.word 0x6539
// dataBuf, just fill with zeros
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
// r3 = UART_Read ptr
.word 0x0200DA4C
// r4 = payload length (UART_Read r1)
// provided in linkerscript
.word __data_size
// r5-r7
.word 0
.word 0
.word 0
// r8 - destination address (UART_Read r0)
.word _start
// r9
.word 0
// pc -> gadget
.word 0x0201DE98
// stack for "pop {r4-r8,pc}" at 0x0201DEB4
.word 0
.word 0
.word 0
.word 0
.word 0
// stack pc -> entrypoint, usually equal to dest addr (at 0x84)
.word _start
.section ".crt0", "ax"
.arm
.global _start
.type _start, %function
_start:
// disable irqs
mov r0, #0x04000000
str r0, [r0, #0x208]
// configure cp15
// disable itcm, dtcm, caches and mpu
ldr r0,= 0x00002078
mcr p15, 0, r0, c1, c0
mov r0, #0
// invalidate entire icache
mcr p15, 0, r0, c7, c5, 0
// invalidate entire dcache
mcr p15, 0, r0, c7, c6, 0
// drain write buffer
mcr p15, 0, r0, c7, c10, 4
// clear bss
ldr r0,= __bss_start
ldr r1,= __bss_end
cmp r0, r1
beq bss_done
mov r2, #0
1:
str r2, [r0], #4
cmp r0, r1
bne 1b
bss_done:
b main
.pool
.end

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