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PasswordHasher.cs
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PasswordHasher.cs
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// Copyright (c) .NET Foundation. All rights reserved.
// Licensed under the Apache License, Version 2.0. See License.txt in the project root for license information.
using Microsoft.AspNetCore.Cryptography.KeyDerivation;
using System;
using System.Runtime.CompilerServices;
using System.Security.Cryptography;
namespace AspNetCore.Xcode.Me
{
/// <summary>
/// Implements the standard Identity password hashing.
/// </summary>
public class PasswordHasher
{
/* =======================
* HASHED PASSWORD FORMATS
* =======================
* PBKDF2 with HMAC-SHA256, 128-bit salt, 256-bit subkey, 10000 iterations.
* Format: { 0x01, prf (UInt32), iter count (UInt32), salt length (UInt32), salt, subkey }
* (All UInt32s are stored big-endian.)
*/
private readonly int _iterCount=1000;
private readonly RandomNumberGenerator _rng= RandomNumberGenerator.Create();
// Compares two byte arrays for equality. The method is specifically written so that the loop is not optimized.
[MethodImpl(MethodImplOptions.NoInlining | MethodImplOptions.NoOptimization)]
private static bool ByteArraysEqual(byte[] a, byte[] b)
{
if (a == null && b == null)
{
return true;
}
if (a == null || b == null || a.Length != b.Length)
{
return false;
}
var areSame = true;
for (var i = 0; i < a.Length; i++)
{
areSame &= (a[i] == b[i]);
}
return areSame;
}
/// <summary>
/// Returns a hashed representation of the supplied .
/// </summary>
/// <param name="password">The password to hash.</param>
/// <returns>A hashed representation of the supplied for the specified .</returns>
public virtual string HashPassword(string password)
{
if (password == null)
{
throw new ArgumentNullException(nameof(password));
}
return Convert.ToBase64String(HashPassword(password, _rng));
}
private byte[] HashPassword(string password, RandomNumberGenerator rng)
{
return HashPassword(password, rng,
prf: KeyDerivationPrf.HMACSHA256,
iterCount: _iterCount,
saltSize: 128 / 8,
numBytesRequested: 256 / 8);
}
private static byte[] HashPassword(string password, RandomNumberGenerator rng, KeyDerivationPrf prf, int iterCount, int saltSize, int numBytesRequested)
{
// Produce a version 3 (see comment above) text hash.
byte[] salt = new byte[saltSize];
rng.GetBytes(salt);
byte[] subkey = KeyDerivation.Pbkdf2(password, salt, prf, iterCount, numBytesRequested);
var outputBytes = new byte[13 + salt.Length + subkey.Length];
outputBytes[0] = 0x01; // format marker
WriteNetworkByteOrder(outputBytes, 1, (uint)prf);
WriteNetworkByteOrder(outputBytes, 5, (uint)iterCount);
WriteNetworkByteOrder(outputBytes, 9, (uint)saltSize);
Buffer.BlockCopy(salt, 0, outputBytes, 13, salt.Length);
Buffer.BlockCopy(subkey, 0, outputBytes, 13 + saltSize, subkey.Length);
return outputBytes;
}
private static uint ReadNetworkByteOrder(byte[] buffer, int offset)
{
return ((uint)(buffer[offset + 0]) << 24)
| ((uint)(buffer[offset + 1]) << 16)
| ((uint)(buffer[offset + 2]) << 8)
| ((uint)(buffer[offset + 3]));
}
/// <summary>
/// Returns a indicating the result of a password hash comparison.
/// </summary>
/// <param name="hashedPassword">The hash value for a user's stored password.</param>
/// <param name="providedPassword">The password supplied for comparison.</param>
/// <returns>A indicating the result of a password hash comparison.</returns>
/// <remarks>Implementations of this method should be time consistent.</remarks>
public virtual bool VerifyHashedPassword(string hashedPassword, string providedPassword)
{
if (hashedPassword == null)
{
throw new ArgumentNullException(nameof(hashedPassword));
}
if (providedPassword == null)
{
throw new ArgumentNullException(nameof(providedPassword));
}
byte[] decodedHashedPassword = Convert.FromBase64String(hashedPassword);
// read the format marker from the hashed password
if (decodedHashedPassword.Length == 0)
{
return false;
}
return VerifyHashedPassword(decodedHashedPassword, providedPassword, out int embeddedIterCount);
}
private static bool VerifyHashedPassword(byte[] hashedPassword, string password, out int iterCount)
{
iterCount = default;
try
{
// Read header information
KeyDerivationPrf prf = (KeyDerivationPrf)ReadNetworkByteOrder(hashedPassword, 1);
iterCount = (int)ReadNetworkByteOrder(hashedPassword, 5);
int saltLength = (int)ReadNetworkByteOrder(hashedPassword, 9);
// Read the salt: must be >= 128 bits
if (saltLength < 128 / 8)
{
return false;
}
byte[] salt = new byte[saltLength];
Buffer.BlockCopy(hashedPassword, 13, salt, 0, salt.Length);
// Read the subkey (the rest of the payload): must be >= 128 bits
int subkeyLength = hashedPassword.Length - 13 - salt.Length;
if (subkeyLength < 128 / 8)
{
return false;
}
byte[] expectedSubkey = new byte[subkeyLength];
Buffer.BlockCopy(hashedPassword, 13 + salt.Length, expectedSubkey, 0, expectedSubkey.Length);
// Hash the incoming password and verify it
byte[] actualSubkey = KeyDerivation.Pbkdf2(password, salt, prf, iterCount, subkeyLength);
return ByteArraysEqual(actualSubkey, expectedSubkey);
}
catch
{
// This should never occur except in the case of a malformed payload, where
// we might go off the end of the array. Regardless, a malformed payload
// implies verification failed.
return false;
}
}
private static void WriteNetworkByteOrder(byte[] buffer, int offset, uint value)
{
buffer[offset + 0] = (byte)(value >> 24);
buffer[offset + 1] = (byte)(value >> 16);
buffer[offset + 2] = (byte)(value >> 8);
buffer[offset + 3] = (byte)(value >> 0);
}
}
}