UnrealEngineUWP/Engine/Source/Programs/Unsync/Private/UnsyncUtil.cpp

// Copyright Epic Games, Inc. All Rights Reserved.

#include "UnsyncUtil.h"
#include "UnsyncFile.h"

#if UNSYNC_PLATFORM_WINDOWS
#	include <Windows.h>
#	include <shellapi.h>
#	include <lm.h>
#	include <lmdfs.h>
#	include <wincrypt.h>
#	include <winnetwk.h> // for WNetGetUniversalName
#	pragma comment(lib, "Netapi32.lib")
#	pragma comment(lib, "Crypt32.lib")
#	pragma comment(lib, "Bcrypt.lib")
#	pragma comment(lib, "Mpr.lib")
#endif	// UNSYNC_PLATFORM_WINDOWS

#include <stdlib.h>
#include <codecvt>
#include <filesystem>
#include <locale>
#include <mutex>
#include <sstream>
#include <unordered_set>
#include <system_error>
#include <fmt/format.h>

namespace unsync {

static FBuffer GSystemRootCerts;

static const char G_HEX_CHARS[] = "0123456789abcdef";

uint64
BytesToHexChars(char* Output, uint64 OutputSize, const uint8* Input, uint64 InputSize)
{
	const uint64 MaxBytes = std::min(OutputSize / 2, InputSize);
	for (uint64 I = 0; I < MaxBytes; ++I)
	{
		uint8 V			  = Input[I];
		Output[I * 2 + 0] = G_HEX_CHARS[V >> 4];
		Output[I * 2 + 1] = G_HEX_CHARS[V & 0xF];
	}
	return MaxBytes * 2;
}

std::string
BytesToHexString(const uint8* Data, uint64 Size)
{
	std::string Result;
	Result.resize(Size * 2);
	uint64 WrittenChars = BytesToHexChars(Result.data(), Result.length(), Data, Size);

#ifdef _NDEBUG
	UNSYNC_ASSERT(written_chars == result.length());
#else
	UNSYNC_UNUSED(WrittenChars);
#endif

	return Result;
}

FTimingLogger::FTimingLogger(const char* InName, bool InEnabled) : Enabled(InEnabled), Name(InName)
{
	if (Enabled)
	{
		TimeBegin = TimePointNow();
	}
}

FTimingLogger::~FTimingLogger()
{
	if (Enabled)
	{
		FTimePoint	  TimeEnd	   = TimePointNow();
		FTimeDuration Duration	   = FTimeDuration(TimeEnd - TimeBegin);
		double		  TotalSeconds = DurationSec(TimeBegin, TimeEnd);

		int H = std::chrono::duration_cast<std::chrono::hours>(Duration).count();
		int M = std::chrono::duration_cast<std::chrono::minutes>(Duration).count() % 60;
		int S = int(std::chrono::duration_cast<std::chrono::seconds>(Duration).count() % 60);

		if (Name.empty())
		{
			UNSYNC_VERBOSE(L"%.2f sec (%02d:%02d:%02d)", TotalSeconds, H, M, S);
		}
		else
		{
			UNSYNC_VERBOSE(L"%hs: %.2f sec (%02d:%02d:%02d)", Name.c_str(), TotalSeconds, H, M, S);
		}

		LogFlush();
	}
}

template<typename T>
static bool
IsTrivialAsciiString(const T& Input)
{
	for (auto c : Input)
	{
		if ((unsigned)c > 127)
		{
			return false;
		}
	}
	return true;
}

std::wstring
ConvertUtf8ToWide(std::string_view StringUtf8)
{
	std::wstring Result;

	if (IsTrivialAsciiString(StringUtf8))
	{
		Result.reserve(StringUtf8.length());
		for (char c : StringUtf8)
		{
			Result.push_back((wchar_t)c);
		}
	}
	else
	{
		std::wstring_convert<std::codecvt_utf8<wchar_t>> Cvt;
		Result = Cvt.from_bytes(StringUtf8.data(), StringUtf8.data() + StringUtf8.length());
	}

	return Result;
}

std::string
ConvertWideToUtf8(std::wstring_view StringWide)
{
	std::string Result;

	if (IsTrivialAsciiString(StringWide))
	{
		Result.reserve(StringWide.length());
		for (wchar_t wc : StringWide)
		{
			Result.push_back((char)wc);
		}
	}
	else
	{
		std::wstring_convert<std::codecvt_utf8<wchar_t>> Cvt;
		Result = Cvt.to_bytes(StringWide.data(), StringWide.data() + StringWide.length());
	}

	return Result;
}

const bool
FFileAttributeCache::Exists(const FPath& Path) const
{
	const auto It = Map.find(Path.native());
	return It != Map.end();
}

std::wstring
StringToLower(const std::wstring& Input)
{
	std::wstring Result = Input;
	std::transform(Result.begin(), Result.end(), Result.begin(), [](int32 C) { return wchar_t(::tolower(C)); });
	return Result;
}

std::wstring
StringToUpper(const std::wstring& Input)
{
	std::wstring Result = Input;
	std::transform(Result.begin(), Result.end(), Result.begin(), [](int32 C) { return wchar_t(::toupper(C)); });
	return Result;
}

FDfsMirrorInfo
DfsEnumerate(const FPath& Root)
{
	FDfsMirrorInfo Result;

#if UNSYNC_PLATFORM_WINDOWS

	std::wstring RootPathLower = StringToLower(Root.native());

	LPWSTR RootPathCstr = (LPWSTR)Root.c_str();

	DWORD ResumeHandle = 0;

	std::vector<PDFS_INFO_3> InfosToFree;

	PDFS_INFO_3	 BestMatchEntry = nullptr;
	std::wstring BestMatchPath;

	for (;;)
	{
		DWORD		EntriesRead = 0;
		PDFS_INFO_3 DfsInfoRoot = nullptr;
		DWORD		Res			= NetDfsEnum(RootPathCstr, 3, MAX_PREFERRED_LENGTH, (LPBYTE*)&DfsInfoRoot, &EntriesRead, &ResumeHandle);
		if (Res == ERROR_NO_MORE_ITEMS)
		{
			break;
		}
		else if (Res == RPC_S_INVALID_NET_ADDR)
		{
			// Not a network share root, so nothing to do
			break;
		}
		else if (Res != ERROR_SUCCESS)
		{
			UNSYNC_LOG(L"DFS enumeration failed with error: %d", Res);
			break;
		}

		PDFS_INFO_3 DfsInfo = DfsInfoRoot;

		for (DWORD I = 0; I < EntriesRead; I++)
		{
			std::wstring EntryPathLower = StringToLower(DfsInfo->EntryPath);

			// entry prefix must match requested root path
			if (RootPathLower.find(EntryPathLower) == 0 && (RootPathLower.length() > BestMatchPath.length()))
			{
				DWORD			  NumOnlineStorages = 0;
				PDFS_STORAGE_INFO StorageInfo		= DfsInfo->Storage;
				for (DWORD J = 0; J < DfsInfo->NumberOfStorages; J++)
				{
					if (StorageInfo->State != DFS_STORAGE_STATE_OFFLINE)
					{
						NumOnlineStorages++;
					}
					++StorageInfo;
				}

				BestMatchPath  = DfsInfo->EntryPath;
				BestMatchEntry = DfsInfo;
			}

			++DfsInfo;
		}

		InfosToFree.push_back(DfsInfoRoot);
	}

	if (BestMatchEntry)
	{
		Result.Root					  = BestMatchPath;
		PDFS_STORAGE_INFO StorageInfo = BestMatchEntry->Storage;
		Result.Storages.reserve(BestMatchEntry->NumberOfStorages);
		for (DWORD J = 0; J < BestMatchEntry->NumberOfStorages; J++)
		{
			if (StorageInfo->State != DFS_STORAGE_STATE_OFFLINE)
			{
				FDfsStorageInfo ResultEntry;
				ResultEntry.Server = StorageInfo->ServerName;
				ResultEntry.Share  = StorageInfo->ShareName;
				Result.Storages.push_back(ResultEntry);
			}
			++StorageInfo;
		}
	}

	for (auto It : InfosToFree)
	{
		NetApiBufferFree(It);
	}

#endif	// UNSYNC_PLATFORM_WINDOWS

	return Result;
}

FPath GetUniversalPath(const FPath& Path)
{
	FPath Result = Path;

#if UNSYNC_PLATFORM_WINDOWS

	// https://docs.microsoft.com/en-us/windows/win32/api/winnetwk/nf-winnetwk-wnetgetuniversalnamea

	static constexpr DWORD MaxBufferSize = 1024;

	WCHAR Buffer[MaxBufferSize] = {};

	DWORD				 BufferSize		   = MaxBufferSize;
	UNIVERSAL_NAME_INFOW* UniversalNameInfo = (UNIVERSAL_NAME_INFOW*)Buffer;

	DWORD ErrorCode = WNetGetUniversalNameW(Path.native().c_str(), UNIVERSAL_NAME_INFO_LEVEL, (LPVOID)UniversalNameInfo, &BufferSize);
	if (ErrorCode == NO_ERROR)
	{
		Result = FPath(UniversalNameInfo->lpUniversalName);
	}

#endif	// UNSYNC_PLATFORM_WINDOWS

	return Result;
}

FPath
NormalizeFilenameUtf8(const std::string& InFilename)
{
	std::string_view Filename	   = InFilename;
	std::string_view FileUrlPrefix = "file://";
	if (Filename.starts_with(FileUrlPrefix))
	{
		Filename = Filename.substr(FileUrlPrefix.length());
	}

	FPath FilenameAsPath = ConvertUtf8ToWide(Filename);
	FPath NormalPath = FilenameAsPath.lexically_normal();
	FPath AbsoluteNormalPath = std::filesystem::absolute(NormalPath);
	return AbsoluteNormalPath;
}

FPath
GetAbsoluteNormalPath(const FPath& InPath)
{
	FPath NormalPath = InPath.lexically_normal();
	FPath AbsoluteNormalPath = std::filesystem::absolute(NormalPath);
	return AbsoluteNormalPath;
}


const FBuffer&
GetSystemRootCerts()
{
	static bool IsInitialized = false;
	if (IsInitialized)
	{
		return GSystemRootCerts;
	}

	IsInitialized = true;

#if UNSYNC_PLATFORM_WINDOWS
	HCERTSTORE CertStore = CertOpenSystemStoreA((HCRYPTPROV_LEGACY) nullptr, "ROOT");
	if (!CertStore)
	{
		UNSYNC_ERROR(L"Failed to open root system certificate storage");
		return GSystemRootCerts;
	}

	PCCERT_CONTEXT CertContext = CertEnumCertificatesInStore(CertStore, nullptr);

	GSystemRootCerts.Clear();

	std::unordered_set<FHash128> UniqueCerts;

	uint32 NumDuplicateCerts = 0;

	FBuffer TempCert;
	while (CertContext)
	{
		DWORD CertLen = 0;
		CryptBinaryToStringA(CertContext->pbCertEncoded, CertContext->cbCertEncoded, CRYPT_STRING_BASE64HEADER, nullptr, &CertLen);

		TempCert.Resize(CertLen);
		CryptBinaryToStringA(CertContext->pbCertEncoded,
							 CertContext->cbCertEncoded,
							 CRYPT_STRING_BASE64HEADER,
							 (char*)TempCert.Data(),
							 &CertLen);

		FHash128 CertHash = HashBlake3Bytes<FHash128>(TempCert.Data(), TempCert.Size());

		auto InsertResult = UniqueCerts.insert(CertHash);
		if (InsertResult.second)
		{
			GSystemRootCerts.Append(TempCert.Data(), TempCert.Size() - 1);
		}
		else
		{
			NumDuplicateCerts++;
		}

		CertContext = CertEnumCertificatesInStore(CertStore, CertContext);
	}
	CertCloseStore(CertStore, 0);
#endif	// UNSYNC_PLATFORM_WINDOWS

#if UNSYNC_PLATFORM_UNIX
	{
		const char* PossibleCertsPaths[] = {
			"/etc/ssl/certs/ca-certificates.crt",				  // Debian/Ubuntu/Gentoo etc.
			"/etc/pki/tls/certs/ca-bundle.crt",					  // Fedora/RHEL 6
			"/etc/ssl/ca-bundle.pem",							  // OpenSUSE
			"/etc/pki/tls/cacert.pem",							  // OpenELEC
			"/etc/pki/ca-trust/extracted/pem/tls-ca-bundle.pem",  // CentOS/RHEL 7
			"/etc/ssl/cert.pem",								  // Alpine Linux
		};

		for (const char* CertsPath : PossibleCertsPaths)
		{
			GSystemRootCerts = ReadFileToBuffer(CertsPath);
			if (!GSystemRootCerts.Empty())
			{
				UNSYNC_VERBOSE2(L"Loaded system CA bundle from '%hs'", CertsPath);
				break;
			}
		}

		if (GSystemRootCerts.Empty())
		{
			UNSYNC_WARNING(
				L"Could not find CA certificate bundle in any of the known locations. "
				L"Use --cacert <path> to explicitly specify the CA file.");
		}
	}
#endif	// UNSYNC_PLATFORM_UNIX

	GSystemRootCerts.PushBack(0);

	return GSystemRootCerts;
}

#if UNSYNC_PLATFORM_WINDOWS
void OpenUrlInDefaultBrowser(const char* Address)
{
	ShellExecuteA(nullptr, "open", Address, nullptr, nullptr, SW_SHOWNORMAL);
}
#else // UNSYNC_PLATFORM_WINDOWS
void
OpenUrlInDefaultBrowser(const char* Address)
{
	UNSYNC_FATAL(L"OpenUrlInDefaultBrowser is not implemented");
}
#endif // UNSYNC_PLATFORM_WINDOWS


#if UNSYNC_PLATFORM_WINDOWS
FPath GetUserHomeDirectory()
{
	if (const char* EnvUserProfile = getenv("USERPROFILE"))
	{
		return NormalizeFilenameUtf8(EnvUserProfile);
	}
	else
	{
		return {};
	}
}
#else // UNSYNC_PLATFORM_WINDOWS
FPath
GetUserHomeDirectory()
{
	if (const char* EnvUserProfile = getenv("HOME"))
	{
		return NormalizeFilenameUtf8(EnvUserProfile);
	}
	else
	{
		return {};
	}
}
#endif // UNSYNC_PLATFORM_WINDOWS

std::string
FormatSystemErrorMessage(int32 ErrorCode)
{
	std::string ErrorMessage = std::system_category().message(ErrorCode);
	return fmt::format("Error code {}: {}", ErrorCode, ErrorMessage);
}

}  // namespace unsync