using OfficeOpenXml.Utils;
using System;
using System.Collections.Generic;
using System.Globalization;
using System.Linq;
using System.Security.Cryptography;
using System.Text;
using System.Xml;
namespace OfficeOpenXml
{
///
/// Algorithm for password hash
///
internal enum eProtectedRangeAlgorithm
{
///
/// Specifies that the MD2 algorithm, as defined by RFC 1319, shall be used.
///
MD2,
///
/// Specifies that the MD4 algorithm, as defined by RFC 1319, shall be used.
///
MD4,
///
/// Specifies that the MD5 algorithm, as defined by RFC 1319, shall be used.
///
MD5,
///
/// Specifies that the RIPEMD-128 algorithm, as defined by RFC 1319, shall be used.
///
RIPEMD128,
///
/// Specifies that the RIPEMD-160 algorithm, as defined by ISO/IEC10118-3:2004 shall be used.
///
RIPEMD160,
///
/// Specifies that the SHA-1 algorithm, as defined by ISO/IEC 10118-3:2004 shall be used.
///
SHA1,
///
/// Specifies that the SHA-256 algorithm, as defined by ISO/IEC10118-3:2004 shall be used.
///
SHA256,
///
/// Specifies that the SHA-384 algorithm, as defined by ISO/IEC 10118-3:2004 shall be used.
///
SHA384,
///
/// Specifies that the SHA-512 algorithm, as defined by ISO/IEC10118-3:2004 shall be used.
///
SHA512,
///
/// Specifies that the WHIRLPOOL algorithm, as defined by ISO/IEC 10118-3:2004 shall be used.
///
WHIRLPOOL
}
public class ExcelProtectedRange : XmlHelper
{
public string Name
{
get
{
return GetXmlNodeString("@name");
}
set
{
SetXmlNodeString("@name",value);
}
}
ExcelAddress _address=null;
public ExcelAddress Address
{
get
{
if(_address==null)
{
_address=new ExcelAddress(GetXmlNodeString("@sqref"));
}
return _address;
}
set
{
SetXmlNodeString("@sqref", SqRefUtility.ToSqRefAddress(value.Address));
_address=value;
}
}
internal ExcelProtectedRange(string name, ExcelAddress address, XmlNamespaceManager ns, XmlNode topNode) :
base(ns,topNode)
{
Name = name;
Address = address;
}
///
/// Sets the password for the range
///
///
public void SetPassword(string password)
{
var byPwd = Encoding.Unicode.GetBytes(password);
var rnd = RandomNumberGenerator.Create();
var bySalt=new byte[16];
rnd.GetBytes(bySalt);
//Default SHA512 and 10000 spins
Algorithm=eProtectedRangeAlgorithm.SHA512;
SpinCount = SpinCount < 100000 ? 100000 : SpinCount;
//Combine salt and password and calculate the initial hash
var hp=new SHA512CryptoServiceProvider();
var buffer=new byte[byPwd.Length + bySalt.Length];
Array.Copy(bySalt, buffer, bySalt.Length);
Array.Copy(byPwd, 0, buffer, 16, byPwd.Length);
var hash = hp.ComputeHash(buffer);
//Now iterate the number of spinns.
for (var i = 0; i < SpinCount; i++)
{
buffer=new byte[hash.Length+4];
Array.Copy(hash, buffer, hash.Length);
Array.Copy(BitConverter.GetBytes(i), 0, buffer, hash.Length, 4);
hash = hp.ComputeHash(buffer);
}
Salt = Convert.ToBase64String(bySalt);
Hash = Convert.ToBase64String(hash);
}
public string SecurityDescriptor
{
get
{
return GetXmlNodeString("@securityDescriptor");
}
set
{
SetXmlNodeString("@securityDescriptor",value);
}
}
internal int SpinCount
{
get
{
return GetXmlNodeInt("@spinCount");
}
set
{
SetXmlNodeString("@spinCount",value.ToString(CultureInfo.InvariantCulture));
}
}
internal string Salt
{
get
{
return GetXmlNodeString("@saltValue");
}
set
{
SetXmlNodeString("@saltValue", value);
}
}
internal string Hash
{
get
{
return GetXmlNodeString("@hashValue");
}
set
{
SetXmlNodeString("@hashValue", value);
}
}
internal eProtectedRangeAlgorithm Algorithm
{
get
{
var v=GetXmlNodeString("@algorithmName");
return (eProtectedRangeAlgorithm)Enum.Parse(typeof(eProtectedRangeAlgorithm), v.Replace("-", ""));
}
set
{
var v = value.ToString();
if(v.StartsWith("SHA"))
{
v=v.Insert(3,"-");
}
else if(v.StartsWith("RIPEMD"))
{
v=v.Insert(6,"-");
}
SetXmlNodeString("@algorithmName", v);
}
}
}
}