/*
  KeePass Password Safe - The Open-Source Password Manager
  Copyright (C) 2003-2024 Dominik Reichl <dominik.reichl@t-online.de>

  This program is free software; you can redistribute it and/or modify
  it under the terms of the GNU General Public License as published by
  the Free Software Foundation; either version 2 of the License, or
  (at your option) any later version.

  This program is distributed in the hope that it will be useful,
  but WITHOUT ANY WARRANTY; without even the implied warranty of
  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  GNU General Public License for more details.

  You should have received a copy of the GNU General Public License
  along with this program; if not, write to the Free Software
  Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
*/

using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Reflection;
using System.Text;

#if !KeePassUAP
using System.Security.Cryptography;
#endif

using KeePassLib.Native;
using KeePassLib.Utility;

namespace KeePassLib.Cryptography
{
	public static class CryptoUtil
	{
		private static bool? g_obProtData = null;
		public static bool IsProtectedDataSupported
		{
			get
			{
				if(g_obProtData.HasValue) return g_obProtData.Value;

				bool b = false;
				try
				{
					Random r = CryptoRandom.NewWeakRandom();

					byte[] pbData = new byte[137];
					r.NextBytes(pbData);

					byte[] pbEnt = new byte[41];
					r.NextBytes(pbEnt);

					byte[] pbEnc = ProtectedData.Protect(pbData, pbEnt,
						DataProtectionScope.CurrentUser);
					if((pbEnc != null) && !MemUtil.ArraysEqual(pbEnc, pbData))
					{
						byte[] pbDec = ProtectedData.Unprotect(pbEnc, pbEnt,
							DataProtectionScope.CurrentUser);
						if((pbDec != null) && MemUtil.ArraysEqual(pbDec, pbData))
							b = true;
					}
				}
				catch(Exception) { Debug.Assert(false); }

				Debug.Assert(b); // Should be supported on all systems
				g_obProtData = b;
				return b;
			}
		}

		public static byte[] HashSha256(byte[] pbData)
		{
			if(pbData == null) throw new ArgumentNullException("pbData");

			return HashSha256(pbData, 0, pbData.Length);
		}

		public static byte[] HashSha256(byte[] pbData, int iOffset, int cbCount)
		{
			if(pbData == null) throw new ArgumentNullException("pbData");

#if DEBUG
			byte[] pbCopy = new byte[pbData.Length];
			Array.Copy(pbData, pbCopy, pbData.Length);
#endif

			byte[] pbHash;
			using(SHA256Managed h = new SHA256Managed())
			{
				pbHash = h.ComputeHash(pbData, iOffset, cbCount);
			}

#if DEBUG
			// Ensure the data has not been modified
			Debug.Assert(MemUtil.ArraysEqual(pbData, pbCopy));

			Debug.Assert((pbHash != null) && (pbHash.Length == 32));
			byte[] pbZero = new byte[32];
			Debug.Assert(!MemUtil.ArraysEqual(pbHash, pbZero));
#endif

			return pbHash;
		}

		internal static byte[] HashSha256(string strFilePath)
		{
			byte[] pbHash = null;

			using(FileStream fs = new FileStream(strFilePath, FileMode.Open,
				FileAccess.Read, FileShare.Read))
			{
				using(SHA256Managed h = new SHA256Managed())
				{
					pbHash = h.ComputeHash(fs);
				}
			}

			return pbHash;
		}

		/// <summary>
		/// Create a cryptographic key of length <paramref name="cbOut" />
		/// (in bytes) from <paramref name="pbIn" />.
		/// </summary>
		public static byte[] ResizeKey(byte[] pbIn, int iInOffset,
			int cbIn, int cbOut)
		{
			if(pbIn == null) throw new ArgumentNullException("pbIn");
			if(cbOut < 0) throw new ArgumentOutOfRangeException("cbOut");

			if(cbOut == 0) return MemUtil.EmptyByteArray;

			byte[] pbHash;
			if(cbOut <= 32) pbHash = HashSha256(pbIn, iInOffset, cbIn);
			else
			{
				using(SHA512Managed h = new SHA512Managed())
				{
					pbHash = h.ComputeHash(pbIn, iInOffset, cbIn);
				}
			}

			if(cbOut == pbHash.Length) return pbHash;

			byte[] pbRet = new byte[cbOut];
			if(cbOut < pbHash.Length)
				Array.Copy(pbHash, pbRet, cbOut);
			else
			{
				int iPos = 0;
				ulong r = 0;
				while(iPos < cbOut)
				{
					Debug.Assert(pbHash.Length == 64);
					using(HMACSHA256 h = new HMACSHA256(pbHash))
					{
						byte[] pbR = MemUtil.UInt64ToBytes(r);
						byte[] pbPart = h.ComputeHash(pbR);

						int cbCopy = Math.Min(cbOut - iPos, pbPart.Length);
						Debug.Assert(cbCopy > 0);

						Array.Copy(pbPart, 0, pbRet, iPos, cbCopy);
						iPos += cbCopy;
						++r;

						MemUtil.ZeroByteArray(pbPart);
					}
				}
				Debug.Assert(iPos == cbOut);
			}

#if DEBUG
			byte[] pbZero = new byte[pbHash.Length];
			Debug.Assert(!MemUtil.ArraysEqual(pbHash, pbZero));
#endif
			MemUtil.ZeroByteArray(pbHash);
			return pbRet;
		}

#if !KeePassUAP
		private static bool? g_obAesCsp = null;
		internal static SymmetricAlgorithm CreateAes()
		{
			if(g_obAesCsp.HasValue)
				return (g_obAesCsp.Value ? CreateAesCsp() : new RijndaelManaged());

			SymmetricAlgorithm a = CreateAesCsp();
			g_obAesCsp = (a != null);
			return (a ?? new RijndaelManaged());
		}

		private static SymmetricAlgorithm CreateAesCsp()
		{
			try
			{
				// On Windows, the CSP implementation is only minimally
				// faster (and for key derivations it's not used anyway,
				// as KeePass uses a native implementation based on
				// CNG/BCrypt, which is much faster)
				if(!NativeLib.IsUnix()) return null;

				string strFqn = Assembly.CreateQualifiedName(
					"System.Core, Version=4.0.0.0, Culture=neutral, PublicKeyToken=b77a5c561934e089",
					"System.Security.Cryptography.AesCryptoServiceProvider");

				Type t = Type.GetType(strFqn);
				if(t == null) return null;

				return (Activator.CreateInstance(t) as SymmetricAlgorithm);
			}
			catch(Exception) { Debug.Assert(false); }

			return null;
		}
#endif

		public static byte[] ProtectData(byte[] pb, byte[] pbOptEntropy,
			DataProtectionScope s)
		{
			return ProtectDataPriv(pb, true, pbOptEntropy, s);
		}

		public static byte[] UnprotectData(byte[] pb, byte[] pbOptEntropy,
			DataProtectionScope s)
		{
			return ProtectDataPriv(pb, false, pbOptEntropy, s);
		}

		private static byte[] ProtectDataPriv(byte[] pb, bool bProtect,
			byte[] pbOptEntropy, DataProtectionScope s)
		{
			if(pb == null) throw new ArgumentNullException("pb");

			if((pbOptEntropy != null) && (pbOptEntropy.Length == 0))
				pbOptEntropy = null;

			if(CryptoUtil.IsProtectedDataSupported)
			{
				if(bProtect)
					return ProtectedData.Protect(pb, pbOptEntropy, s);
				return ProtectedData.Unprotect(pb, pbOptEntropy, s);
			}

			Debug.Assert(false);
			byte[] pbCopy = new byte[pb.Length];
			Array.Copy(pb, pbCopy, pb.Length);
			return pbCopy;
		}
	}
}