#pragma once
#include <cassert>
#include <cstdio>
#include <cstring>
#include <filesystem>
#include <optional>
#include <string>
#include <type_traits>
#include <vector>
#include "helpers.hpp"
#include "memory.hpp"
#include "result.hpp"
#include "result/result.hpp"
using Result::HorizonResult;
namespace PathType {
enum : u32 {
Invalid = 0,
Empty = 1,
Binary = 2,
ASCII = 3,
UTF16 = 4,
};
}
namespace ArchiveID {
enum : u32 {
SelfNCCH = 3,
SaveData = 4,
ExtSaveData = 6,
SharedExtSaveData = 7,
SystemSaveData = 8,
SDMC = 9,
SDMCWriteOnly = 0xA,
CardSPI = 0x12345679,
SavedataAndNcch = 0x2345678A,
// 3DBrew: This is the same as the regular SaveData archive, except with this the savedata ID and mediatype is loaded from the input archive
// lowpath.
UserSaveData1 = 0x567890B2,
// 3DBrew: Similar to 0x567890B2 but can only access Accessible Save specified in exheader?
UserSaveData2 = 0x567890B4,
TwlPhoto = 0x567890AC,
TwlSound = 0x567890AD,
};
static std::string toString(u32 id) {
switch (id) {
case SelfNCCH: return "SelfNCCH";
case SaveData: return "SaveData";
case ExtSaveData: return "ExtSaveData";
case SharedExtSaveData: return "SharedExtSaveData";
case SystemSaveData: return "SystemSaveData";
case SDMC: return "SDMC";
case SDMCWriteOnly: return "SDMC (Write-only)";
case SavedataAndNcch: return "Savedata & NCCH (archive 0x2345678A)";
case TwlPhoto: return "TWL_PHOTO";
case TwlSound: return "TWL_SOUND";
default: return "Unknown archive";
}
}
} // namespace ArchiveID
struct FSPath {
u32 type = PathType::Invalid;
std::vector<u8> binary; // Path data for binary paths
std::string string; // Path data for ASCII paths
std::u16string utf16_string;
FSPath() {}
FSPath(u32 type, const std::vector<u8>& vec) : type(type) {
switch (type) {
case PathType::Binary: binary = std::move(vec); break;
case PathType::ASCII:
string.resize(vec.size() - 1); // -1 because of the null terminator
std::memcpy(string.data(), vec.data(), vec.size() - 1); // Copy string data
break;
case PathType::UTF16: {
const size_t size = vec.size() / sizeof(u16) - 1; // Character count. -1 because null terminator here too
utf16_string.resize(size);
std::memcpy(utf16_string.data(), vec.data(), size * sizeof(u16));
break;
};
}
}
bool isUTF16() const { return type == PathType::UTF16; }
bool isASCII() const { return type == PathType::ASCII; }
bool isBinary() const { return type == PathType::Binary; }
// This is not called "isEmpty()" to make obvious that we're talking about an empty-type path, NOT an empty text path
bool isEmptyType() const { return type == PathType::Empty; }
bool isTextPath() const { return isUTF16() || isASCII(); }
};
struct FilePerms {
u32 raw;
FilePerms(u32 val) : raw(val) {}
bool read() const { return (raw & 1) != 0; }
bool write() const { return (raw & 2) != 0; }
bool create() const { return (raw & 4) != 0; }
};
class ArchiveBase;
struct FileSession {
ArchiveBase* archive = nullptr;
FILE* fd = nullptr; // File descriptor for file sessions that require them.
FSPath path;
FSPath archivePath;
u32 priority = 0; // TODO: What does this even do
bool isOpen;
FileSession(ArchiveBase* archive, const FSPath& filePath, const FSPath& archivePath, FILE* fd, bool isOpen = true)
: archive(archive), path(filePath), archivePath(archivePath), fd(fd), isOpen(isOpen), priority(0) {}
// For cloning a file session
FileSession(const FileSession& other)
: archive(other.archive), path(other.path), archivePath(other.archivePath), fd(other.fd), isOpen(other.isOpen), priority(other.priority) {}
};
struct ArchiveSession {
ArchiveBase* archive = nullptr;
FSPath path;
bool isOpen;
ArchiveSession(ArchiveBase* archive, const FSPath& filePath, bool isOpen = true) : archive(archive), path(filePath), isOpen(isOpen) {}
};
struct DirectoryEntry {
std::filesystem::path path;
bool isDirectory;
};
struct DirectorySession {
ArchiveBase* archive = nullptr;
// For directories which are mirrored to a specific path on the disk, this contains that path
// Otherwise this is a nullopt
std::optional<std::filesystem::path> pathOnDisk;
// The list of directory entries + the index of the entry we're currently inspecting
std::vector<DirectoryEntry> entries;
size_t currentEntry;
bool isOpen;
DirectorySession(ArchiveBase* archive, std::filesystem::path path, bool isOpen = true) : archive(archive), pathOnDisk(path), isOpen(isOpen) {
currentEntry = 0; // Start from entry 0
// Read all directory entries, cache them
for (auto& e : std::filesystem::directory_iterator(path)) {
DirectoryEntry entry;
entry.path = e.path();
entry.isDirectory = std::filesystem::is_directory(e);
entries.push_back(entry);
}
}
};
// Represents a file descriptor obtained from OpenFile. If the optional is nullopt, opening the file failed.
// Otherwise the fd of the opened file is returned (or nullptr if the opened file doesn't require one)
using FileDescriptor = std::optional<FILE*>;
class ArchiveBase {
public:
struct FormatInfo {
u32 size; // Archive size
u32 numOfDirectories; // Number of directories
u32 numOfFiles; // Number of files
bool duplicateData; // Whether to duplicate data or not
};
protected:
using Handle = u32;
static constexpr FileDescriptor NoFile = nullptr;
static constexpr FileDescriptor FileError = std::nullopt;
Memory& mem;
// Returns if a specified 3DS path in UTF16 or ASCII format is safe or not
// A 3DS path is considered safe if its first character is '/' which means we're not trying to access anything outside the root of the fs
// And if it doesn't contain enough instances of ".." (Indicating "climb up a folder" in filesystems) to let the software climb up the directory
// tree And access files outside of the emulator's app data folder
template <u32 format>
bool isPathSafe(const FSPath& path) {
static_assert(format == PathType::ASCII || format == PathType::UTF16);
using String = typename std::conditional<format == PathType::UTF16, std::u16string, std::string>::type; // String type for the path
using Char = typename String::value_type; // Char type for the path
String pathString, dots;
if constexpr (std::is_same<String, std::u16string>()) {
pathString = path.utf16_string;
dots = u"..";
} else {
pathString = path.string;
dots = "..";
}
// If the path string doesn't begin with / then that means it's accessing outside the FS root, which is invalid & unsafe
if (pathString[0] != Char('/')) return false;
// Counts how many folders sans the root our file is nested under.
// If it's < 0 at any point of parsing, then the path is unsafe and tries to crawl outside our file sandbox.
// If it's 0 then this is the FS root.
// If it's > 0 then we're in a subdirectory of the root.
int level = 0;
// Split the string on / characters and see how many of the substrings are ".."
size_t pos = 0;
while ((pos = pathString.find(Char('/'))) != String::npos) {
String token = pathString.substr(0, pos);
pathString.erase(0, pos + 1);
if (token == dots) {
level--;
if (level < 0) return false;
} else {
level++;
}
}
return true;
}
public:
virtual std::string name() = 0;
virtual u64 getFreeBytes() = 0;
virtual HorizonResult createFile(const FSPath& path, u64 size) = 0;
virtual HorizonResult deleteFile(const FSPath& path) = 0;
virtual Rust::Result<FormatInfo, HorizonResult> getFormatInfo(const FSPath& path) {
Helpers::panic("Unimplemented GetFormatInfo for %s archive", name().c_str());
// Return a dummy struct just to avoid the UB of not returning anything, even if we panic
return Ok(FormatInfo{.size = 0, .numOfDirectories = 0, .numOfFiles = 0, .duplicateData = false});
}
virtual HorizonResult createDirectory(const FSPath& path) {
Helpers::panic("Unimplemented CreateDirectory for %s archive", name().c_str());
return Result::FS::AlreadyExists;
}
// Returns nullopt if opening the file failed, otherwise returns a file descriptor to it (nullptr if none is needed)
virtual FileDescriptor openFile(const FSPath& path, const FilePerms& perms) = 0;
virtual Rust::Result<ArchiveBase*, HorizonResult> openArchive(const FSPath& path) = 0;
virtual Rust::Result<DirectorySession, HorizonResult> openDirectory(const FSPath& path) {
Helpers::panic("Unimplemented OpenDirectory for %s archive", name().c_str());
return Err(Result::FS::FileNotFoundAlt);
}
virtual void format(const FSPath& path, const FormatInfo& info) { Helpers::panic("Unimplemented Format for %s archive", name().c_str()); }
virtual HorizonResult renameFile(const FSPath& oldPath, const FSPath& newPath) {
Helpers::panic("Unimplemented RenameFile for %s archive", name().c_str());
return Result::Success;
}
// Read size bytes from a file starting at offset "offset" into a certain buffer in memory
// Returns the number of bytes read, or nullopt if the read failed
virtual std::optional<u32> readFile(FileSession* file, u64 offset, u32 size, u32 dataPointer) = 0;
ArchiveBase(Memory& mem) : mem(mem) {}
bool isSafeTextPath(const FSPath& path) {
if (path.type == PathType::UTF16) {
return isPathSafe<PathType::UTF16>(path);
} else if (path.type == PathType::ASCII){
return isPathSafe<PathType::ASCII>(path);
}
Helpers::panic("ArchiveBase::IsSafeTextPath: Invalid path");
}
// Appends a 3DS path to an std::filesystem::path
void appendPath(std::filesystem::path& diskPath, const FSPath& guestPath) {
if (guestPath.type == PathType::UTF16) {
diskPath += std::filesystem::path(guestPath.utf16_string).make_preferred();
} else if (guestPath.type == PathType::ASCII) {
diskPath += std::filesystem::path(guestPath.string).make_preferred();
} else [[unlikely]] {
Helpers::panic("ArchiveBase::AppendPath: Invalid 3DS path");
}
}
};
struct ArchiveResource {
u32 sectorSize; // Size of a sector in bytes
u32 clusterSize; // Size of a cluster in bytes
u32 partitionCapacityInClusters;
u32 freeSpaceInClusters;
};