vcmi/lib/filesystem/CArchiveLoader.cpp

/*
 * CArchiveLoader.cpp, part of VCMI engine
 *
 * Authors: listed in file AUTHORS in main folder
 *
 * License: GNU General Public License v2.0 or later
 * Full text of license available in license.txt file, in main folder
 *
 */
#include "StdInc.h"
#include "CArchiveLoader.h"

#include "VCMIDirs.h"
#include "CFileInputStream.h"
#include "CCompressedStream.h"

#include "CBinaryReader.h"

VCMI_LIB_NAMESPACE_BEGIN

ArchiveEntry::ArchiveEntry()
	: offset(0), fullSize(0), compressedSize(0)
{

}

CArchiveLoader::CArchiveLoader(std::string _mountPoint, boost::filesystem::path _archive, bool _extractArchives) :
    archive(std::move(_archive)),
    mountPoint(std::move(_mountPoint)),
	extractArchives(_extractArchives)
{
	// Open archive file(.snd, .vid, .lod)
	CFileInputStream fileStream(archive);

	// Fake .lod file with no data has to be silently ignored.
	if(fileStream.getSize() < 10)
		return;

	// Retrieve file extension of archive in uppercase
	const std::string ext = boost::to_upper_copy(archive.extension().string());

	// Init the specific lod container format
	if(ext == ".LOD" || ext == ".PAC")
		initLODArchive(mountPoint, fileStream);
	else if(ext == ".VID")
		initVIDArchive(mountPoint, fileStream);
	else if(ext == ".SND")
		initSNDArchive(mountPoint, fileStream);
	else
		throw std::runtime_error("LOD archive format unknown. Cannot deal with " + archive.string());

	logGlobal->trace("%sArchive \"%s\" loaded (%d files found).", ext, archive.filename(), entries.size());
}

void CArchiveLoader::initLODArchive(const std::string &mountPoint, CFileInputStream & fileStream)
{
	// Read count of total files
	CBinaryReader reader(&fileStream);

	fileStream.seek(8);
	ui32 totalFiles = reader.readUInt32();

	// Get all entries from file
	fileStream.seek(0x5c);

	// Insert entries to list
	for(ui32 i = 0; i < totalFiles; ++i)
	{
		char filename[16];
		reader.read(reinterpret_cast<ui8*>(filename), 16);

		// Create archive entry
		ArchiveEntry entry;
		entry.name     = filename;
		entry.offset   = reader.readUInt32();
		entry.fullSize = reader.readUInt32();
		fileStream.skip(4); // unused, unknown
		entry.compressedSize     = reader.readUInt32();

		// Add lod entry to local entries map
		entries[ResourcePath(mountPoint + entry.name)] = entry;

		if(extractArchives)
		{
			si64 currentPosition = fileStream.tell(); // save filestream position

			std::string fName = filename;
			boost::to_upper(fName);

			if(fName.find(".PCX") != std::string::npos)
				extractToFolder("IMAGES", mountPoint, entry);
			else if ((fName.find(".DEF") != std::string::npos ) || (fName.find(".MSK") != std::string::npos) || (fName.find(".FNT") != std::string::npos) || (fName.find(".PAL") != std::string::npos))
				extractToFolder("SPRITES", mountPoint, entry);
			else if ((fName.find(".H3C") != std::string::npos))
				extractToFolder("SPRITES", mountPoint, entry);
			else
				extractToFolder("MISC", mountPoint, entry);

			fileStream.seek(currentPosition); // restore filestream position
		}
	}
}

void CArchiveLoader::initVIDArchive(const std::string &mountPoint, CFileInputStream & fileStream)
{

	// Read count of total files
	CBinaryReader reader(&fileStream);
	fileStream.seek(0);
	ui32 totalFiles = reader.readUInt32();

	std::set<int> offsets;

	// Insert entries to list
	for(ui32 i = 0; i < totalFiles; ++i)
	{
		char filename[40];
		reader.read(reinterpret_cast<ui8*>(filename), 40);

		ArchiveEntry entry;
		entry.name = filename;
		entry.offset = reader.readInt32();
		entry.compressedSize = 0;

		offsets.insert(entry.offset);
		entries[ResourcePath(mountPoint + entry.name)] = entry;
	}
	offsets.insert(static_cast<int>(fileStream.getSize()));

	// now when we know position of all files their sizes can be set correctly
	for (auto & entry : entries)
	{
		auto it = offsets.find(entry.second.offset);
		it++;
		entry.second.fullSize = *it - entry.second.offset;

		if(extractArchives)
			extractToFolder("VIDEO", fileStream, entry.second);
	}
}

void CArchiveLoader::initSNDArchive(const std::string &mountPoint, CFileInputStream & fileStream)
{
	// Read count of total files
	CBinaryReader reader(&fileStream);
	fileStream.seek(0);
	ui32 totalFiles = reader.readUInt32();

	// Insert entries to list
	for(ui32 i = 0; i < totalFiles; ++i)
	{
		char filename[40];
		reader.read(reinterpret_cast<ui8*>(filename), 40);

		// for some reason entries in snd have format NAME\0WAVRUBBISH....
		// and Polish version does not have extension at all
		// we need to replace first \0 with dot and add wav extension manuall - we don't expect other types here anyway
		ArchiveEntry entry;
		entry.name  = filename; // till 1st \0
		entry.name += ".wav";

		entry.offset = reader.readInt32();
		entry.fullSize = reader.readInt32();
		entry.compressedSize = 0;
		entries[ResourcePath(mountPoint + entry.name)] = entry;

		if(extractArchives)
			extractToFolder("SOUND", fileStream, entry);
	}
}

std::unique_ptr<CInputStream> CArchiveLoader::load(const ResourcePath & resourceName) const
{
	assert(existsResource(resourceName));

	const ArchiveEntry & entry = entries.at(resourceName);

	if (entry.compressedSize != 0) //compressed data
	{
		auto fileStream = std::make_unique<CFileInputStream>(archive, entry.offset, entry.compressedSize);

		return std::make_unique<CCompressedStream>(std::move(fileStream), false, entry.fullSize);
	}
	else
	{
		return std::make_unique<CFileInputStream>(archive, entry.offset, entry.fullSize);
	}
}

bool CArchiveLoader::existsResource(const ResourcePath & resourceName) const
{
	return entries.count(resourceName) != 0;
}

std::string CArchiveLoader::getMountPoint() const
{
	return mountPoint;
}

const std::unordered_map<ResourcePath, ArchiveEntry> & CArchiveLoader::getEntries() const
{
	return entries;
}

std::unordered_set<ResourcePath> CArchiveLoader::getFilteredFiles(std::function<bool(const ResourcePath &)> filter) const
{
	std::unordered_set<ResourcePath> foundID;

	for(const auto & file : entries)
	{
		if (filter(file.first))
			foundID.insert(file.first);
	}
	return foundID;
}

void CArchiveLoader::extractToFolder(const std::string & outputSubFolder, CInputStream & fileStream, const ArchiveEntry & entry, bool absolute) const
{
	si64 currentPosition = fileStream.tell(); // save filestream position

	std::vector<ui8> data(entry.fullSize);
	fileStream.seek(entry.offset);
	fileStream.read(data.data(), entry.fullSize);

	boost::filesystem::path extractedFilePath = createExtractedFilePath(outputSubFolder, entry.name, absolute);

	// writeToOutputFile
	std::ofstream out(extractedFilePath.c_str(), std::ofstream::binary);
	out.exceptions(std::ifstream::failbit | std::ifstream::badbit);
	out.write(reinterpret_cast<char *>(data.data()), entry.fullSize);

	fileStream.seek(currentPosition); // restore filestream position
}

void CArchiveLoader::extractToFolder(const std::string & outputSubFolder, const std::string & mountPoint, ArchiveEntry entry, bool absolute) const
{
	std::unique_ptr<CInputStream> inputStream = load(ResourcePath(mountPoint + entry.name));

	entry.offset = 0;
	extractToFolder(outputSubFolder, *inputStream, entry, absolute);
}

boost::filesystem::path createExtractedFilePath(const std::string & outputSubFolder, const std::string & entryName, bool absolute)
{
	boost::filesystem::path extractionFolderPath = absolute ? outputSubFolder : VCMIDirs::get().userExtractedPath() / outputSubFolder;
	boost::filesystem::path extractedFilePath = extractionFolderPath / entryName;

	boost::filesystem::create_directories(extractionFolderPath);

	return extractedFilePath;
}

VCMI_LIB_NAMESPACE_END