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Remove not_ported dir.

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jakcron 2021-10-16 14:13:44 +08:00
parent f04c53f21e
commit d4232a1f22
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341
src/not_ported/RomfsProcess.cpp
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@ -1,341 +0,0 @@
#include <iostream>
#include <iomanip>
#include <fnd/SimpleTextOutput.h>
#include <fnd/SimpleFile.h>
#include <fnd/io.h>
#include "CompressedArchiveIFile.h"
#include "RomfsProcess.h"
nstool::RomfsProcess::RomfsProcess() :
mFile(),
mCliOutputMode(true, false, false, false),
mVerify(false),
mExtractPath(),
mExtract(false),
mMountName(),
mListFs(false),
mDirNum(0),
mFileNum(0)
{
mRootDir.name.clear();
mRootDir.dir_list.clear();
mRootDir.file_list.clear();
}
void nstool::RomfsProcess::process()
{
resolveRomfs();
if (mCliOutputMode.show_basic_info)
{
displayHeader();
if (mListFs || mCliOutputMode.show_extended_info)
displayFs();
}
if (mExtract)
extractFs();
}
void nstool::RomfsProcess::setInputFile(const std::shared_ptr<tc::io::IStream>& file)
{
mFile = file;
}
void nstool::RomfsProcess::setCliOutputMode(CliOutputMode type)
{
mCliOutputMode = type;
}
void nstool::RomfsProcess::setVerifyMode(bool verify)
{
mVerify = verify;
}
void nstool::RomfsProcess::setMountPointName(const std::string& mount_name)
{
mMountName = mount_name;
}
void nstool::RomfsProcess::setExtractPath(const std::string& path)
{
mExtract = true;
mExtractPath = path;
}
void nstool::RomfsProcess::setListFs(bool list_fs)
{
mListFs = list_fs;
}
const nstool::RomfsProcess::sDirectory& nstool::RomfsProcess::getRootDir() const
{
return mRootDir;
}
void nstool::RomfsProcess::printTab(size_t tab) const
{
for (size_t i = 0; i < tab; i++)
{
std::cout << " ";
}
}
void nstool::RomfsProcess::displayFile(const sFile& file, size_t tab) const
{
printTab(tab);
std::cout << file.name;
if (mCliOutputMode.show_layout)
{
std::cout << std::hex << " (offset=0x" << file.offset << ", size=0x" << file.size << ")";
}
std::cout << std::endl;
}
void nstool::RomfsProcess::displayDir(const sDirectory& dir, size_t tab) const
{
if (dir.name.empty() == false)
{
printTab(tab);
std::cout << dir.name << std::endl;
}
for (size_t i = 0; i < dir.dir_list.size(); i++)
{
displayDir(dir.dir_list[i], tab+1);
}
for (size_t i = 0; i < dir.file_list.size(); i++)
{
displayFile(dir.file_list[i], tab+1);
}
}
void nstool::RomfsProcess::displayHeader()
{
std::cout << "[RomFS]" << std::endl;
std::cout << " DirNum: " << std::dec << mDirNum << std::endl;
std::cout << " FileNum: " << std::dec << mFileNum << std::endl;
if (mMountName.empty() == false)
{
std::cout << " MountPoint: " << mMountName;
if (mMountName.at(mMountName.length()-1) != '/')
std::cout << "/";
std::cout << std::endl;
}
}
void nstool::RomfsProcess::displayFs()
{
displayDir(mRootDir, 1);
}
void nstool::RomfsProcess::extractDir(const std::string& path, const sDirectory& dir)
{
std::string dir_path;
std::string file_path;
// make dir path
fnd::io::appendToPath(dir_path, path);
if (dir.name.empty() == false)
fnd::io::appendToPath(dir_path, dir.name);
// make directory
fnd::io::makeDirectory(dir_path);
// extract files
fnd::SimpleFile outFile;
for (size_t i = 0; i < dir.file_list.size(); i++)
{
file_path.clear();
fnd::io::appendToPath(file_path, dir_path);
fnd::io::appendToPath(file_path, dir.file_list[i].name);
if (mCliOutputMode.show_basic_info)
std::cout << "extract=[" << file_path << "]" << std::endl;
outFile.open(file_path, outFile.Create);
(*mFile)->seek(dir.file_list[i].offset);
for (size_t j = 0; j < ((dir.file_list[i].size / kCacheSize) + ((dir.file_list[i].size % kCacheSize) != 0)); j++)
{
(*mFile)->read(mCache.data(), _MIN(dir.file_list[i].size - (kCacheSize * j),kCacheSize));
outFile.write(mCache.data(), _MIN(dir.file_list[i].size - (kCacheSize * j),kCacheSize));
}
outFile.close();
}
for (size_t i = 0; i < dir.dir_list.size(); i++)
{
extractDir(dir_path, dir.dir_list[i]);
}
}
void nstool::RomfsProcess::extractFs()
{
// allocate only when extractDir is invoked
mCache.alloc(kCacheSize);
extractDir(mExtractPath, mRootDir);
}
bool nstool::RomfsProcess::validateHeaderLayout(const nn::hac::sRomfsHeader* hdr) const
{
bool validLayout = true;
if (hdr->header_size.get() != sizeof(nn::hac::sRomfsHeader))
{
validLayout = false;
}
uint64_t pos = hdr->sections[0].offset.get();
for (size_t i = 0; i < nn::hac::romfs::SECTION_NUM; i++)
{
if (hdr->sections[i].offset.get() != pos)
{
validLayout = false;
}
pos += hdr->sections[i].size.get();
}
return validLayout;
}
void nstool::RomfsProcess::importDirectory(uint32_t dir_offset, sDirectory& dir)
{
nn::hac::sRomfsDirEntry* d_node = get_dir_node(dir_offset);
/*
printf("[DIR-NODE]\n");
printf(" parent=%08x\n", d_node->parent.get());
printf(" sibling=%08x\n", d_node->sibling.get());
printf(" child=%08x\n", d_node->child.get());
printf(" file=%08x\n", d_node->file.get());
printf(" hash=%08x\n", d_node->hash.get());
printf(" name_size=%08x\n", d_node->name_size.get());
printf(" name=%s\n", d_node->name);
*/
for (uint32_t file_addr = d_node->file.get(); file_addr != nn::hac::romfs::kInvalidAddr; )
{
nn::hac::sRomfsFileEntry* f_node = get_file_node(file_addr);
/*
printf("[FILE-NODE]\n");
printf(" parent=%08x\n", f_node->parent.get());
printf(" sibling=%08x\n", f_node->sibling.get());
printf(" offset=%08" PRIx64 "\n", f_node->offset.get());
printf(" size=%08" PRIx64 "\n", f_node->size.get());
printf(" hash=%08x\n", f_node->hash.get());
printf(" name_size=%08x\n", f_node->name_size.get());
printf(" name=%s\n", f_node->name);
*/
dir.file_list.push_back({std::string(f_node->name(), f_node->name_size.get()), mHdr.data_offset.get() + f_node->offset.get(), f_node->size.get()});
file_addr = f_node->sibling.get();
mFileNum++;
}
for (uint32_t child_addr = d_node->child.get(); child_addr != nn::hac::romfs::kInvalidAddr; )
{
nn::hac::sRomfsDirEntry* c_node = get_dir_node(child_addr);
dir.dir_list.push_back({std::string(c_node->name(), c_node->name_size.get())});
importDirectory(child_addr, dir.dir_list.atBack());
child_addr = c_node->sibling.get();
mDirNum++;
}
}
void nstool::RomfsProcess::resolveRomfs()
{
if (*mFile == nullptr)
{
throw tc::Exception(kModuleName, "No file reader set.");
}
// read header
(*mFile)->read((byte_t*)&mHdr, 0, sizeof(nn::hac::sRomfsHeader));
// logic check on the header layout
if (validateHeaderLayout(&mHdr) == false)
{
throw tc::Exception(kModuleName, "Invalid ROMFS Header");
}
// check for romfs compression
size_t physical_size = (*mFile)->size();
size_t logical_size = mHdr.sections[nn::hac::romfs::FILE_NODE_TABLE].offset.get() + mHdr.sections[nn::hac::romfs::FILE_NODE_TABLE].size.get();
// if logical size is greater than the physical size, check for compression meta footer
if (logical_size > physical_size)
{
// initial and final entries
nn::hac::sCompressionEntry entry[2];
// read final compression entry
(*mFile)->read((byte_t*)&entry[1], physical_size - sizeof(nn::hac::sCompressionEntry), sizeof(nn::hac::sCompressionEntry));
// the final compression entry should be for the (final part, in the case of metadata > 0x10000) romfs footer, for which the logical offset is detailed in the romfs header
// the compression is always enabled for non-header compression entries
uint64_t romfs_metadata_begin_offset = mHdr.sections[nn::hac::romfs::DIR_HASHMAP_TABLE].offset.get();
uint64_t romfs_metadata_end_offset = mHdr.sections[nn::hac::romfs::FILE_NODE_TABLE].offset.get() + mHdr.sections[nn::hac::romfs::FILE_NODE_TABLE].size.get();
if ((entry[1].virtual_offset.get() >= romfs_metadata_begin_offset && entry[1].virtual_offset.get() < romfs_metadata_end_offset) == false || \
entry[1].compression_type != (byte_t)nn::hac::compression::CompressionType::Lz4)
{
throw tc::Exception(kModuleName, "RomFs appears corrupted (bad final compression entry virtual offset/compression type)");
}
// the first compression entry follows the physical placement of the final data chunk (specified in the final compression entry)
size_t first_entry_offset = align(entry[1].physical_offset.get() + entry[1].physical_size.get(), nn::hac::compression::kRomfsBlockAlign);
// quick check to make sure the offset at least before the last entry offset
if (first_entry_offset >= (physical_size - sizeof(nn::hac::sCompressionEntry)))
{
throw tc::Exception(kModuleName, "RomFs appears corrupted (bad final compression entry physical offset/size)");
}
// read first compression entry
(*mFile)->read((byte_t*)&entry[0], first_entry_offset, sizeof(nn::hac::sCompressionEntry));
// validate first compression entry
// this should be the same for all compressed romfs
if (entry[0].virtual_offset.get() != 0x0 || \
entry[0].physical_offset.get() != 0x0 || \
entry[0].physical_size.get() != 0x200 || \
entry[0].compression_type != (byte_t)nn::hac::compression::CompressionType::None)
{
throw tc::Exception(kModuleName, "RomFs appears corrupted (bad first compression entry)");
}
// wrap mFile in a class to transparantly decompress the image.
mFile = new CompressedArchiveIFile(mFile, first_entry_offset);
}
// read directory nodes
mDirNodes.alloc(mHdr.sections[nn::hac::romfs::DIR_NODE_TABLE].size.get());
(*mFile)->read(mDirNodes.data(), mHdr.sections[nn::hac::romfs::DIR_NODE_TABLE].offset.get(), mDirNodes.size());
//printf("[RAW DIR NODES]\n");
//fnd::SimpleTextOutput::hxdStyleDump(mDirNodes.data(), mDirNodes.size());
// read file nodes
mFileNodes.alloc(mHdr.sections[nn::hac::romfs::FILE_NODE_TABLE].size.get());
(*mFile)->read(mFileNodes.data(), mHdr.sections[nn::hac::romfs::FILE_NODE_TABLE].offset.get(), mFileNodes.size());
//printf("[RAW FILE NODES]\n");
//fnd::SimpleTextOutput::hxdStyleDump(mFileNodes.data(), mFileNodes.size());
// A logic check on the root directory node
if ( get_dir_node(0)->parent.get() != 0 \
|| get_dir_node(0)->sibling.get() != nn::hac::romfs::kInvalidAddr \
|| get_dir_node(0)->hash.get() != nn::hac::romfs::kInvalidAddr \
|| get_dir_node(0)->name_size.get() != 0)
{
throw tc::Exception(kModuleName, "Invalid root directory node");
}
// import directory into internal structure
mDirNum = 0;
mFileNum = 0;
importDirectory(0, mRootDir);
}

136
src/not_ported/RomfsProcess.h
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#pragma once
#include "types.h"
#include <nn/hac/define/romfs.h>
namespace nstool {
class RomfsProcess
{
public:
struct sDirectory;
struct sFile;
struct sDirectory
{
std::string name;
std::vector<sDirectory> dir_list;
std::vector<sFile> file_list;
void operator=(const sDirectory& other)
{
name = other.name;
dir_list = other.dir_list;
file_list = other.file_list;
}
bool operator==(const sDirectory& other) const
{
return (name == other.name) \
&& (dir_list == other.dir_list) \
&& (file_list == other.file_list);
}
bool operator!=(const sDirectory& other) const
{
return !operator==(other);
}
bool operator==(const std::string& other) const
{
return (name == other);
}
};
struct sFile
{
std::string name;
int64_t offset;
int64_t size;
void operator=(const sFile& other)
{
name = other.name;
offset = other.offset;
size = other.size;
}
bool operator==(const sFile& other) const
{
return (name == other.name) \
&& (offset == other.offset) \
&& (size == other.size);
}
bool operator!=(const sFile& other) const
{
return !operator==(other);
}
bool operator==(const std::string& other) const
{
return (name == other);
}
};
RomfsProcess();
void process();
// generic
void setInputFile(const std::shared_ptr<tc::io::IStream>& file);
void setCliOutputMode(CliOutputMode type);
void setVerifyMode(bool verify);
// romfs specific
void setMountPointName(const std::string& mount_name);
void setExtractPath(const tc::io::Path& path);
void setListFs(bool list_fs);
const sDirectory& getRootDir() const;
private:
const std::string kModuleName = "RomfsProcess";
static const size_t kCacheSize = 0x10000;
std::shared_ptr<tc::io::IStream> mFile;
CliOutputMode mCliOutputMode;
bool mShowBasicInfo;
bool mShowExtendedInfo;
bool mShowLayoutInfo;
bool mShowKeydata;
bool mVerbose;
bool mVerify;
tc::Optional<tc::io::Path> mExtractPath;
std::string mMountName;
bool mListFs;
tc::ByteData mCache;
size_t mDirNum;
size_t mFileNum;
nn::hac::sRomfsHeader mHdr;
tc::ByteData mDirNodes;
tc::ByteData mFileNodes;
sDirectory mRootDir;
inline nn::hac::sRomfsDirEntry* get_dir_node(uint32_t offset) { return (nn::hac::sRomfsDirEntry*)(mDirNodes.data() + offset); }
inline nn::hac::sRomfsFileEntry* get_file_node(uint32_t offset) { return (nn::hac::sRomfsFileEntry*)(mFileNodes.data() + offset); }
void printTab(size_t tab) const;
void displayFile(const sFile& file, size_t tab) const;
void displayDir(const sDirectory& dir, size_t tab) const;
void displayHeader();
void displayFs();
void extractDir(const std::string& path, const sDirectory& dir);
void extractFs();
bool validateHeaderLayout(const nn::hac::sRomfsHeader* hdr) const;
void importDirectory(uint32_t dir_offset, sDirectory& dir);
void resolveRomfs();
};
}