jellyfin/Emby.Server.Implementations/Library/DefaultAuthenticationProvider.cs

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C#
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using System;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using MediaBrowser.Controller.Authentication;
using MediaBrowser.Controller.Entities;
using MediaBrowser.Model.Cryptography;
namespace Emby.Server.Implementations.Library
{
public class DefaultAuthenticationProvider : IAuthenticationProvider, IRequiresResolvedUser
{
private readonly ICryptoProvider _cryptographyProvider;
public DefaultAuthenticationProvider(ICryptoProvider crypto)
{
_cryptographyProvider = crypto;
}
public string Name => "Default";
public bool IsEnabled => true;
//This is dumb and an artifact of the backwards way auth providers were designed.
//This version of authenticate was never meant to be called, but needs to be here for interface compat
//Only the providers that don't provide local user support use this
public Task<ProviderAuthenticationResult> Authenticate(string username, string password)
{
throw new NotImplementedException();
}
//This is the verson that we need to use for local users. Because reasons.
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public Task<ProviderAuthenticationResult> Authenticate(string username, string password, User resolvedUser)
{
bool success = false;
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if (resolvedUser == null)
{
throw new Exception("Invalid username or password");
}
//As long as jellyfin supports passwordless users, we need this little block here to accomodate
if (IsPasswordEmpty(resolvedUser, password))
{
return Task.FromResult(new ProviderAuthenticationResult
{
Username = username
});
}
ConvertPasswordFormat(resolvedUser);
byte[] passwordbytes = Encoding.UTF8.GetBytes(password);
PasswordHash readyHash = new PasswordHash(resolvedUser.Password);
byte[] CalculatedHash;
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string CalculatedHashString;
if (_cryptographyProvider.GetSupportedHashMethods().Contains(readyHash.Id))
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{
if (string.IsNullOrEmpty(readyHash.Salt))
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{
CalculatedHash = _cryptographyProvider.ComputeHash(readyHash.Id, passwordbytes);
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CalculatedHashString = BitConverter.ToString(CalculatedHash).Replace("-", string.Empty);
}
else
{
CalculatedHash = _cryptographyProvider.ComputeHash(readyHash.Id, passwordbytes, readyHash.SaltBytes);
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CalculatedHashString = BitConverter.ToString(CalculatedHash).Replace("-", string.Empty);
}
if (CalculatedHashString == readyHash.Hash)
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{
success = true;
//throw new Exception("Invalid username or password");
}
}
else
{
throw new Exception(String.Format($"Requested crypto method not available in provider: {readyHash.Id}"));
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}
//var success = string.Equals(GetPasswordHash(resolvedUser), GetHashedString(resolvedUser, password), StringComparison.OrdinalIgnoreCase);
if (!success)
{
throw new Exception("Invalid username or password");
}
return Task.FromResult(new ProviderAuthenticationResult
{
Username = username
});
}
//This allows us to move passwords forward to the newformat without breaking. They are still insecure, unsalted, and dumb before a password change
//but at least they are in the new format.
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private void ConvertPasswordFormat(User user)
{
if (!string.IsNullOrEmpty(user.Password))
{
return;
}
if (!user.Password.Contains("$"))
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{
string hash = user.Password;
user.Password = String.Format("$SHA1${0}", hash);
}
if (user.EasyPassword != null && !user.EasyPassword.Contains("$"))
{
string hash = user.EasyPassword;
user.EasyPassword = string.Format("$SHA1${0}", hash);
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}
}
public Task<bool> HasPassword(User user)
{
var hasConfiguredPassword = !IsPasswordEmpty(user, GetPasswordHash(user));
return Task.FromResult(hasConfiguredPassword);
}
private bool IsPasswordEmpty(User user, string password)
{
if (string.IsNullOrEmpty(user.Password))
{
return string.IsNullOrEmpty(password);
}
return false;
}
public Task ChangePassword(User user, string newPassword)
{
ConvertPasswordFormat(user);
//This is needed to support changing a no password user to a password user
if (string.IsNullOrEmpty(user.Password))
{
PasswordHash newPasswordHash = new PasswordHash(_cryptographyProvider);
newPasswordHash.SaltBytes = _cryptographyProvider.GenerateSalt();
newPasswordHash.Salt = PasswordHash.ConvertToByteString(newPasswordHash.SaltBytes);
newPasswordHash.Id = _cryptographyProvider.DefaultHashMethod;
newPasswordHash.Hash = GetHashedStringChangeAuth(newPassword, newPasswordHash);
user.Password = newPasswordHash.ToString();
return Task.CompletedTask;
}
PasswordHash passwordHash = new PasswordHash(user.Password);
if (passwordHash.Id == "SHA1" && string.IsNullOrEmpty(passwordHash.Salt))
{
passwordHash.SaltBytes = _cryptographyProvider.GenerateSalt();
passwordHash.Salt = PasswordHash.ConvertToByteString(passwordHash.SaltBytes);
passwordHash.Id = _cryptographyProvider.DefaultHashMethod;
passwordHash.Hash = GetHashedStringChangeAuth(newPassword, passwordHash);
}
else if (newPassword != null)
{
passwordHash.Hash = GetHashedString(user, newPassword);
}
if (string.IsNullOrWhiteSpace(passwordHash.Hash))
{
throw new ArgumentNullException(nameof(passwordHash.Hash));
}
user.Password = passwordHash.ToString();
return Task.CompletedTask;
}
public string GetPasswordHash(User user)
{
return user.Password;
}
public string GetHashedStringChangeAuth(string newPassword, PasswordHash passwordHash)
{
passwordHash.HashBytes = Encoding.UTF8.GetBytes(newPassword);
return PasswordHash.ConvertToByteString(_cryptographyProvider.ComputeHash(passwordHash));
}
/// <summary>
/// Gets the hashed string.
/// </summary>
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public string GetHashedString(User user, string str)
{
PasswordHash passwordHash;
if (String.IsNullOrEmpty(user.Password))
{
passwordHash = new PasswordHash(_cryptographyProvider);
}
else
{
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ConvertPasswordFormat(user);
passwordHash = new PasswordHash(user.Password);
}
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if (passwordHash.SaltBytes != null)
{
//the password is modern format with PBKDF and we should take advantage of that
passwordHash.HashBytes = Encoding.UTF8.GetBytes(str);
return PasswordHash.ConvertToByteString(_cryptographyProvider.ComputeHash(passwordHash));
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}
else
{
//the password has no salt and should be called with the older method for safety
return PasswordHash.ConvertToByteString(_cryptographyProvider.ComputeHash(passwordHash.Id, Encoding.UTF8.GetBytes(str)));
}
}
}
}