An C# implementation of Shamir's Secret Sharing.
| Status | Solution | Project Format | .NET Version |
|---|---|---|---|
/badge.svg){kind=icon} |
SecretSharingDotNet.sln |
SDK | Standard 2.0 |
| Standard 2.1 | |||
| FX 4.6.2 | |||
| FX 4.7 | |||
| FX 4.7.1 | |||
| FX 4.7.2 | |||
| FX 4.8 | |||
| .NET 6 | |||
| .NET 7 | |||
| .NET 8 |
| Build And Test Status | NuGet Version | Git Tag | Target Frameworks |
|---|---|---|---|
 |
 |
 |
Standard 2.0 |
| Standard 2.1 | |||
| FX 4.6.2 | |||
| FX 4.7 | |||
| FX 4.7.1 | |||
| FX 4.7.2 | |||
| FX 4.8 | |||
| .NET 6 | |||
| .NET 7 | |||
| .NET 8 |
-
Open a console and switch to the directory, containing your project file.
-
Use the following command to install version 0.11.0 of the SecretSharingDotNet package:
dotnet add package SecretSharingDotNet -v 0.11.0 -f <FRAMEWORK> -
After the completion of the command, look at the project file to make sure that the package is successfully installed.
You can open the
.csprojfile to see the added package reference:<ItemGroup> <PackageReference Include="SecretSharingDotNet" Version="0.11.0" /> </ItemGroup>
-
Open a console and switch to the directory, containing your project file.
-
Use the following command to remove the SecretSharingDotNet package:
dotnet remove package SecretSharingDotNet -
After the completion of the command, look at the project file to make sure that the package is successfully removed.
You can open the
.csprojfile to check the deleted package reference.
Use the function MakeShares to generate the shares, based on a random or pre-defined secret.
Afterwards, use the function Reconstruction to re-construct the original secret.
The length of the shares is based on the security level. It's possible to pre-define a security level by ctor or the SecurityLevel property. The pre-defined security level will be overriden, if the secret size is greater than the Mersenne prime, which is calculated by means of the security level. It is not necessary to define a security level for a re-construction.
Create a random secret in conjunction with the generation of shares. The length of the generated shares and of the secret are based on the security level. Here is an example with a pre-defined security level of 127:
using System;
using System.Collections.Generic;
using System.Linq;
using System.Numerics;
using SecretSharingDotNet.Cryptography;
using SecretSharingDotNet.Math;
namespace Example1
{
public class Program
{
public static void Main(string[] args)
{
var gcd = new ExtendedEuclideanAlgorithm<BigInteger>();
//// Create Shamir's Secret Sharing instance with BigInteger
var split = new ShamirsSecretSharing<BigInteger>(gcd);
//// Minimum number of shared secrets for reconstruction: 3
//// Maximum number of shared secrets: 7
//// Security level: 127 (Mersenne prime exponent)
var shares = split.MakeShares(3, 7, 127);
//// The property 'shares.OriginalSecret' represents the random secret
var secret = shares.OriginalSecret;
//// Secret as big integer number
Console.WriteLine((BigInteger)secret);
//// Secret as base64 string
Console.WriteLine(secret.ToBase64());
//// The 'shares' instance contains the shared secrets
var combine = new ShamirsSecretSharing<BigInteger>(gcd);
var subSet1 = shares.Where(p => p.X.IsEven).ToList();
var recoveredSecret1 = combine.Reconstruction(subSet1.ToArray());
var subSet2 = shares.Where(p => !p.X.IsEven).ToList();
var recoveredSecret2 = combine.Reconstruction(subSet2.ToArray());
//// String representation of all shares
Console.WriteLine(shares);
//// 1st recovered secret as big integer number
Console.WriteLine((BigInteger)recoveredSecret1);
//// 2nd recovered secret as big integer number
Console.WriteLine((BigInteger)recoveredSecret2);
//// 1st recovered secret as base64 string
Console.WriteLine(recoveredSecret1.ToBase64());
//// 2nd recovered secret as base64 string
Console.WriteLine(recoveredSecret2.ToBase64());
}
}
}Use a text as secret, which can be divided into shares. The length of the generated shares is based on the security level. Here is an example with auto-detected security level:
using System;
using System.Collections.Generic;
using System.Linq;
using System.Numerics;
using SecretSharingDotNet.Cryptography;
using SecretSharingDotNet.Math;
namespace Example2
{
public class Program
{
public static void Main(string[] args)
{
var gcd = new ExtendedEuclideanAlgorithm<BigInteger>();
//// Create Shamir's Secret Sharing instance with BigInteger
var split = new ShamirsSecretSharing<BigInteger>(gcd);
string password = "Hello World!!";
//// Minimum number of shared secrets for reconstruction: 3
//// Maximum number of shared secrets: 7
//// Attention: The password length can change the security level set by the ctor
//// or SecurityLevel property.
var shares = split.MakeShares(3, 7, password);
//// The property 'shares.OriginalSecret' represents the original password
var secret = shares.OriginalSecret;
//// The 'shares' instance contains the shared secrets
var combine = new ShamirsSecretSharing<BigInteger>(gcd);
var subSet1 = shares.Where(p => p.X.IsEven).ToList();
var recoveredSecret1 = combine.Reconstruction(subSet1.ToArray());
var subSet2 = shares.Where(p => !p.X.IsEven).ToList();
var recoveredSecret2 = combine.Reconstruction(subSet2.ToArray());
//// String representation of all shares
Console.WriteLine(shares);
//// 1st recovered secret as string (not base64!)
Console.WriteLine(recoveredSecret1);
//// 2nd recovered secret as string (not base64!)
Console.WriteLine(recoveredSecret2);
}
}
}Use an integer number as secret, which can be divided into shares. The length of the generated shares is based on the security level. Here is an example with a pre-defined security level of 521:
using System;
using System.Collections.Generic;
using System.Linq;
using System.Numerics;
using SecretSharingDotNet.Cryptography;
using SecretSharingDotNet.Math;
namespace Example3
{
public class Program
{
public static void Main(string[] args)
{
var gcd = new ExtendedEuclideanAlgorithm<BigInteger>();
//// Create Shamir's Secret Sharing instance with BigInteger
//// and
var split = new ShamirsSecretSharing<BigInteger>(gcd);
BigInteger number = 20000;
//// Minimum number of shared secrets for reconstruction: 3
//// Maximum number of shared secrets: 7
//// Security level: 521 (Mersenne prime exponent)
//// Attention: The size of the number can change the security level set by the ctor
//// or SecurityLevel property.
var shares = split.MakeShares (3, 7, number, 521);
//// The property 'shares.OriginalSecret' represents the number (original secret)
var secret = shares.OriginalSecret;
//// The 'shares' instance contains the shared secrets
var combine = new ShamirsSecretSharing<BigInteger>(gcd);
var subSet1 = shares.Where(p => p.X.IsEven).ToList();
var recoveredSecret1 = combine.Reconstruction(subSet1.ToArray());
var subSet2 = shares.Where(p => !p.X.IsEven).ToList();
var recoveredSecret2 = combine.Reconstruction(subSet2.ToArray());
//// String representation of all shares
Console.WriteLine(shares);
//// 1st recovered secret as big integer number
Console.WriteLine((BigInteger)recoveredSecret1);
//// 2nd recovered secret as big integer number
Console.WriteLine((BigInteger)recoveredSecret2);
}
}
}Use a byte array as secret, which can be divided into shares. The length of the generated shares is based on the security level. Here is an example with auto-detected security level:
using System;
using System.Collections.Generic;
using System.Linq;
using System.Numerics;
using SecretSharingDotNet.Cryptography;
using SecretSharingDotNet.Math;
namespace Example4
{
public class Program
{
public static void Main(string[] args)
{
var gcd = new ExtendedEuclideanAlgorithm<BigInteger>();
//// Create Shamir's Secret Sharing instance with BigInteger
var split = new ShamirsSecretSharing<BigInteger>(gcd);
byte[] bytes = { 0x1D, 0x2E, 0x3F };
//// Minimum number of shared secrets for reconstruction: 4
//// Maximum number of shared secrets: 10
//// Attention: The password length changes the security level set by the ctor
var shares = split.MakeShares(4, 10, bytes);
//// The 'shares' instance contains the shared secrets
var combine = new ShamirsSecretSharing<BigInteger>(gcd);
var subSet = shares.Where(p => p.X.IsEven).ToList();
var recoveredSecret = combine.Reconstruction(subSet.ToArray()).ToByteArray();
//// String representation of all shares
Console.WriteLine(shares);
//// The secret bytes.
Console.WriteLine($"{recoveredSecret[0]:X2}, {recoveredSecret[1]:X2}, {recoveredSecret[2]:X2}");
}
}
}The following example shows three ways to use shares to reconstruct a secret:
using System;
using System.Collections.Generic;
using System.Linq;
using System.Numerics;
using SecretSharingDotNet.Cryptography;
using SecretSharingDotNet.Math;
namespace Example5
{
public class Program
{
public static void Main(string[] args)
{
var gcd = new ExtendedEuclideanAlgorithm<BigInteger>();
//// One way to use shares
string shares1 = "02-665C74ED38FDFF095B2FC9319A272A75" + Environment.NewLine +
"05-CDECB88126DBC04D753E0C2D83D7B55D" + Environment.NewLine +
"07-54A83E34AB0310A7F5D80F2A68FD4F33";
//// A 2nd way to use shares
string[] shares2 = {"02-665C74ED38FDFF095B2FC9319A272A75",
"07-54A83E34AB0310A7F5D80F2A68FD4F33",
"05-CDECB88126DBC04D753E0C2D83D7B55D"};
//// Another way to use shares
var fp1 = new FinitePoint<BigInteger>("05-CDECB88126DBC04D753E0C2D83D7B55D");
var fp2 = new FinitePoint<BigInteger>("07-54A83E34AB0310A7F5D80F2A68FD4F33");
var fp3 = new FinitePoint<BigInteger>("02-665C74ED38FDFF095B2FC9319A272A75");
var combine = new ShamirsSecretSharing<BigInteger>(gcd);
var recoveredSecret1 = combine.Reconstruction(shares1);
//// Output should be 52199147989510990914370102003412153
Console.WriteLine((BigInteger)recoveredSecret1);
var recoveredSecret2 = combine.Reconstruction(shares2);
//// Output should be 52199147989510990914370102003412153
Console.WriteLine((BigInteger)recoveredSecret2);
//// Output should be 52199147989510990914370102003412153
var recoveredSecret3 = combine.Reconstruction(fp1, fp2, fp3);
Console.WriteLine((BigInteger)recoveredSecret3);
}
}
}For the following instructions, please make sure that you are connected to the internet. If necessary, NuGet will try to restore the xUnit packages.
If you start the unit tests on Linux, you must install the mono-complete package in case of the .NET Frameworks 4.6.2, 4.7, 4.7.1, 4.7.2, 4.8 and 4.8.1.
You can find the Mono installation instructions here.
The .NET Frameworks 4.6.2, 4.7, 4.7.1, 4.7.2, 4.8 and 4.8.1 can be found here.
The .NET SDKs 6.0, 7.0 and 8.0 can be found here.
You can use the SecretSharingDotNet.sln solution file with the dotnet command to build the SecretSharingDotNet library in the Debug or Release configuration. You can also use the dotnet command to start the unit tests.
dotnet restore SecretSharingDotNet.sln
dotnet build -c Debug --no-restore SecretSharingDotNet.sln
or
dotnet build -c Release --no-restore SecretSharingDotNet.sln
dotnet test -c Debug --no-restore --no-build SecretSharingDotNet.sln -- RunConfiguration.TargetPlatform=x64 RunConfiguration.MaxCpuCount=1 xUnit.AppDomain=denied xUnit.ParallelizeAssembly=false xUnit.ParallelizeTestCollections=false
or
dotnet test -c Release --no-restore --no-build SecretSharingDotNet.sln -- RunConfiguration.TargetPlatform=x64 RunConfiguration.MaxCpuCount=1 xUnit.AppDomain=denied xUnit.ParallelizeAssembly=false xUnit.ParallelizeTestCollections=false