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authorTim Whittington <bc@whittington.net.nz>2013-10-19 21:09:41 +1300
committerTim Whittington <bc@whittington.net.nz>2013-10-20 20:47:23 +1300
commitab670ffe1486ea52cd88a1a8234b201874460b4c (patch)
treebe2731fe4b3607b02c3603f9e28ab28b31b01f2c /crypto/src
parentfixed line endings (diff)
downloadBouncyCastle.NET-ed25519-ab670ffe1486ea52cd88a1a8234b201874460b4c.tar.xz
Port Poly1305 Mac implementation and tests from bc-java.
Diffstat (limited to 'crypto/src')
-rw-r--r--crypto/src/crypto/generators/Poly1305KeyGenerator.cs122
-rw-r--r--crypto/src/crypto/macs/Poly1305.cs272
2 files changed, 394 insertions, 0 deletions
diff --git a/crypto/src/crypto/generators/Poly1305KeyGenerator.cs b/crypto/src/crypto/generators/Poly1305KeyGenerator.cs
new file mode 100644
index 000000000..f2aa85262
--- /dev/null
+++ b/crypto/src/crypto/generators/Poly1305KeyGenerator.cs
@@ -0,0 +1,122 @@
+using System;
+
+using Org.BouncyCastle.Crypto;
+using Org.BouncyCastle.Crypto.Parameters;
+using Org.BouncyCastle.Math;
+
+namespace Org.BouncyCastle.Crypto.Generators
+{
+	/// <summary>
+	/// Generates keys for the Poly1305 MAC.
+	/// </summary>
+	/// <remarks>
+	/// Poly1305 keys are 256 bit keys consisting of a 128 bit secret key used for the underlying block
+	/// cipher followed by a 128 bit {@code r} value used for the polynomial portion of the Mac. <br>
+	/// The {@code r} value has a specific format with some bits required to be cleared, resulting in an
+	/// effective 106 bit key. <br>
+	/// A separately generated 256 bit key can be modified to fit the Poly1305 key format by using the
+	/// {@link #clamp(byte[])} method to clear the required bits.
+	/// </remarks>
+	/// <seealso cref="Org.Bouncycastle.Crypto.Macs.Poly1305"/>
+	public class Poly1305KeyGenerator
+		: CipherKeyGenerator
+	{
+		private const byte R_MASK_LOW_2 = (byte)0xFC;
+		private const byte R_MASK_HIGH_4 = (byte)0x0F;
+
+		/// <summary>
+		/// Initialises the key generator.
+		/// </summary>
+		/// <remarks>
+		/// Poly1305 keys are always 256 bits, so the key length in the provided parameters is ignored.
+		/// </remarks>
+		protected override void engineInit(KeyGenerationParameters param)
+		{
+			// Poly1305 keys are always 256 bits
+			this.random = param.Random;
+			this.strength = 32;
+		}
+
+		/// <summary>
+		/// Generates a 256 bit key in the format required for Poly1305 - e.g.
+		/// <code>k[0] ... k[15], r[0] ... r[15]</code> with the required bits in <code>r</code> cleared
+		/// as per <see cref="Clamp(byte[])"/>.
+		/// </summary>
+		protected override byte[] engineGenerateKey()
+		{
+			byte[] key = base.engineGenerateKey();
+			Clamp(key);
+			return key;
+		}
+
+		/// <summary>
+		/// Modifies an existing 32 byte key value to comply with the requirements of the Poly1305 key by
+		/// clearing required bits in the <code>r</code> (second 16 bytes) portion of the key.<br>
+		/// Specifically:
+		/// <ul>
+		/// <li>r[3], r[7], r[11], r[15] have top four bits clear (i.e., are {0, 1, . . . , 15})</li>
+		/// <li>r[4], r[8], r[12] have bottom two bits clear (i.e., are in {0, 4, 8, . . . , 252})</li>
+		/// </ul>
+		/// </summary>
+		/// <param name="key">a 32 byte key value <code>k[0] ... k[15], r[0] ... r[15]</code></param>
+		public static void Clamp(byte[] key)
+		{
+			/*
+	         * Key is k[0] ... k[15], r[0] ... r[15] as per poly1305_aes_clamp in ref impl.
+	         */
+			if (key.Length != 32)
+			{
+				throw new ArgumentException("Poly1305 key must be 256 bits.");
+			}
+
+			/*
+	         * r[3], r[7], r[11], r[15] have top four bits clear (i.e., are {0, 1, . . . , 15})
+	         */
+			key[19] &= R_MASK_HIGH_4;
+			key[23] &= R_MASK_HIGH_4;
+			key[27] &= R_MASK_HIGH_4;
+			key[31] &= R_MASK_HIGH_4;
+
+			/*
+	         * r[4], r[8], r[12] have bottom two bits clear (i.e., are in {0, 4, 8, . . . , 252}).
+	         */
+			key[20] &= R_MASK_LOW_2;
+			key[24] &= R_MASK_LOW_2;
+			key[28] &= R_MASK_LOW_2;
+		}
+
+		/// <summary>
+		/// Checks a 32 byte key for compliance with the Poly1305 key requirements, e.g.
+		/// <code>k[0] ... k[15], r[0] ... r[15]</code> with the required bits in <code>r</code> cleared
+		/// as per <see cref="Clamp(byte[])"/>.
+		/// </summary>
+		/// <param name="key">Key.</param>
+		/// <exception cref="System.ArgumentException">if the key is of the wrong length, or has invalid bits set
+		///           in the <code>r</code> portion of the key.</exception>
+		public static void CheckKey(byte[] key)
+		{
+			if (key.Length != 32)
+			{
+				throw new ArgumentException("Poly1305 key must be 256 bits.");
+			}
+
+			checkMask(key[19], R_MASK_HIGH_4);
+			checkMask(key[23], R_MASK_HIGH_4);
+			checkMask(key[27], R_MASK_HIGH_4);
+			checkMask(key[31], R_MASK_HIGH_4);
+
+			checkMask(key[20], R_MASK_LOW_2);
+			checkMask(key[24], R_MASK_LOW_2);
+			checkMask(key[28], R_MASK_LOW_2);
+		}
+
+		private static void checkMask(byte b, byte mask)
+		{
+			if ((b & (~mask)) != 0)
+			{
+				throw new ArgumentException("Invalid format for r portion of Poly1305 key.");
+			}
+		}
+
+	}
+}
\ No newline at end of file
diff --git a/crypto/src/crypto/macs/Poly1305.cs b/crypto/src/crypto/macs/Poly1305.cs
new file mode 100644
index 000000000..2d453b6ad
--- /dev/null
+++ b/crypto/src/crypto/macs/Poly1305.cs
@@ -0,0 +1,272 @@
+using System;
+
+using Org.BouncyCastle.Crypto.Generators;
+using Org.BouncyCastle.Crypto.Parameters;
+using Org.BouncyCastle.Crypto.Utilities;
+
+namespace Org.BouncyCastle.Crypto.Macs
+{
+
+	/// <summary>
+	/// Poly1305 message authentication code, designed by D. J. Bernstein.
+	/// </summary>
+	/// <remarks>
+	/// Poly1305 computes a 128-bit (16 bytes) authenticator, using a 128 bit nonce and a 256 bit key
+	/// consisting of a 128 bit key applied to an underlying cipher, and a 128 bit key (with 106
+	/// effective key bits) used in the authenticator.
+	/// 
+	/// The polynomial calculation in this implementation is adapted from the public domain <a
+	/// href="https://github.com/floodyberry/poly1305-donna">poly1305-donna-unrolled</a> C implementation
+	/// by Andrew M (@floodyberry).
+	/// </remarks>
+	/// <seealso cref="Org.BouncyCastle.Crypto.Generators.Poly1305KeyGenerator"/>
+	public class Poly1305
+		: IMac
+	{
+		private const int BLOCK_SIZE = 16;
+
+		private readonly IBlockCipher cipher;
+
+		private readonly byte[] singleByte = new byte[1];
+
+		// Initialised state
+
+		/** Polynomial key */
+		private uint r0, r1, r2, r3, r4;
+
+		/** Precomputed 5 * r[1..4] */
+		private uint s1, s2, s3, s4;
+
+		/** Encrypted nonce */
+		private uint k0, k1, k2, k3;
+
+		// Accumulating state
+
+		/** Current block of buffered input */
+		private byte[] currentBlock = new byte[BLOCK_SIZE];
+
+		/** Current offset in input buffer */
+		private int currentBlockOffset = 0;
+
+		/** Polynomial accumulator */
+		private uint h0, h1, h2, h3, h4;
+
+		/**
+	     * Constructs a Poly1305 MAC, using a 128 bit block cipher.
+	     */
+		public Poly1305(IBlockCipher cipher)
+		{
+			if (cipher.GetBlockSize() != BLOCK_SIZE)
+			{
+				throw new ArgumentException("Poly1305 requires a 128 bit block cipher.");
+			}
+			this.cipher = cipher;
+		}
+
+		/// <summary>
+		/// Initialises the Poly1305 MAC.
+		/// </summary>
+		/// <param name="parameters">a {@link ParametersWithIV} containing a 128 bit nonce and a {@link KeyParameter} with
+		///          a 256 bit key complying to the {@link Poly1305KeyGenerator Poly1305 key format}.</param>
+		public void Init(ICipherParameters parameters)
+		{
+			byte[] nonce;
+			byte[] key;
+			if ((parameters is ParametersWithIV) && ((ParametersWithIV)parameters).Parameters is KeyParameter)
+			{
+				nonce = ((ParametersWithIV)parameters).GetIV();
+				key = ((KeyParameter)((ParametersWithIV)parameters).Parameters).GetKey();
+			}
+			else
+			{
+				throw new ArgumentException("Poly1305 requires a key and and IV.");
+			}
+
+			setKey(key, nonce);
+			Reset();
+		}
+
+		private void setKey(byte[] key, byte[] nonce)
+		{
+			if (nonce.Length != BLOCK_SIZE)
+			{
+				throw new ArgumentException("Poly1305 requires a 128 bit IV.");
+			}
+			Poly1305KeyGenerator.CheckKey(key);
+
+			// Extract r portion of key
+			uint t0 = Pack.LE_To_UInt32(key, BLOCK_SIZE + 0);
+			uint t1 = Pack.LE_To_UInt32(key, BLOCK_SIZE + 4);
+			uint t2 = Pack.LE_To_UInt32(key, BLOCK_SIZE + 8);
+			uint t3 = Pack.LE_To_UInt32(key, BLOCK_SIZE + 12);
+
+			r0 = t0 & 0x3ffffff; t0 >>= 26; t0 |= t1 << 6;
+			r1 = t0 & 0x3ffff03; t1 >>= 20; t1 |= t2 << 12;
+			r2 = t1 & 0x3ffc0ff; t2 >>= 14; t2 |= t3 << 18;
+			r3 = t2 & 0x3f03fff; t3 >>= 8;
+			r4 = t3 & 0x00fffff;
+
+			// Precompute multipliers
+			s1 = r1 * 5;
+			s2 = r2 * 5;
+			s3 = r3 * 5;
+			s4 = r4 * 5;
+
+			// Compute encrypted nonce
+			byte[] cipherKey = new byte[BLOCK_SIZE];
+			Array.Copy(key, 0, cipherKey, 0, cipherKey.Length);
+
+			cipher.Init(true, new KeyParameter(cipherKey));
+			cipher.ProcessBlock(nonce, 0, cipherKey, 0);
+
+			k0 = Pack.LE_To_UInt32(cipherKey, 0);
+			k1 = Pack.LE_To_UInt32(cipherKey, 4);
+			k2 = Pack.LE_To_UInt32(cipherKey, 8);
+			k3 = Pack.LE_To_UInt32(cipherKey, 12);
+		}
+
+		public string AlgorithmName
+		{
+			get { return "Poly1305-" + cipher.AlgorithmName; }
+		}
+
+		public int GetMacSize()
+		{
+			return BLOCK_SIZE;
+		}
+
+		public void Update(byte input)
+		{
+			singleByte[0] = input;
+			BlockUpdate(singleByte, 0, 1);
+		}
+
+		public void BlockUpdate(byte[] input, int inOff, int len)
+		{
+			int copied = 0;
+			while (len > copied)
+			{
+				if (currentBlockOffset == BLOCK_SIZE)
+				{
+					processBlock();
+					currentBlockOffset = 0;
+				}
+
+				int toCopy = System.Math.Min((len - copied), BLOCK_SIZE - currentBlockOffset);
+				Array.Copy(input, copied + inOff, currentBlock, currentBlockOffset, toCopy);
+				copied += toCopy;
+				currentBlockOffset += toCopy;
+			}
+
+		}
+
+		private void processBlock()
+		{
+			if (currentBlockOffset < BLOCK_SIZE)
+			{
+				currentBlock[currentBlockOffset] = 1;
+				for (int i = currentBlockOffset + 1; i < BLOCK_SIZE; i++)
+				{
+					currentBlock[i] = 0;
+				}
+			}
+
+			ulong t0 = Pack.LE_To_UInt32(currentBlock, 0);
+			ulong t1 = Pack.LE_To_UInt32(currentBlock, 4);
+			ulong t2 = Pack.LE_To_UInt32(currentBlock, 8);
+			ulong t3 = Pack.LE_To_UInt32(currentBlock, 12);
+
+			h0 += (uint)(t0 & 0x3ffffffU);
+			h1 += (uint)((((t1 << 32) | t0) >> 26) & 0x3ffffff);
+			h2 += (uint)((((t2 << 32) | t1) >> 20) & 0x3ffffff);
+			h3 += (uint)((((t3 << 32) | t2) >> 14) & 0x3ffffff);
+			h4 += (uint)(t3 >> 8);
+
+			if (currentBlockOffset == BLOCK_SIZE)
+			{
+				h4 += (1 << 24);
+			}
+
+			ulong tp0 = mul32x32_64(h0,r0) + mul32x32_64(h1,s4) + mul32x32_64(h2,s3) + mul32x32_64(h3,s2) + mul32x32_64(h4,s1);
+			ulong tp1 = mul32x32_64(h0,r1) + mul32x32_64(h1,r0) + mul32x32_64(h2,s4) + mul32x32_64(h3,s3) + mul32x32_64(h4,s2);
+			ulong tp2 = mul32x32_64(h0,r2) + mul32x32_64(h1,r1) + mul32x32_64(h2,r0) + mul32x32_64(h3,s4) + mul32x32_64(h4,s3);
+			ulong tp3 = mul32x32_64(h0,r3) + mul32x32_64(h1,r2) + mul32x32_64(h2,r1) + mul32x32_64(h3,r0) + mul32x32_64(h4,s4);
+			ulong tp4 = mul32x32_64(h0,r4) + mul32x32_64(h1,r3) + mul32x32_64(h2,r2) + mul32x32_64(h3,r1) + mul32x32_64(h4,r0);
+
+			ulong b;
+			h0 = (uint)tp0 & 0x3ffffff; b = (tp0 >> 26);
+			tp1 += b; h1 = (uint)tp1 & 0x3ffffff; b = (tp1 >> 26);
+			tp2 += b; h2 = (uint)tp2 & 0x3ffffff; b = (tp2 >> 26);
+			tp3 += b; h3 = (uint)tp3 & 0x3ffffff; b = (tp3 >> 26);
+			tp4 += b; h4 = (uint)tp4 & 0x3ffffff; b = (tp4 >> 26);
+			h0 += (uint)(b * 5);
+		}
+
+		public int DoFinal(byte[] output, int outOff)
+		{
+			if (outOff + BLOCK_SIZE > output.Length)
+			{
+				throw new DataLengthException("Output buffer is too short.");
+			}
+
+			if (currentBlockOffset > 0)
+			{
+				// Process padded block
+				processBlock();
+			}
+
+			ulong f0, f1, f2, f3;
+
+			uint b = h0 >> 26;
+			h0 = h0 & 0x3ffffff;
+			h1 += b; b = h1 >> 26; h1 = h1 & 0x3ffffff;
+			h2 += b; b = h2 >> 26; h2 = h2 & 0x3ffffff;
+			h3 += b; b = h3 >> 26; h3 = h3 & 0x3ffffff;
+			h4 += b; b = h4 >> 26; h4 = h4 & 0x3ffffff;
+			h0 += b * 5;
+
+			uint g0, g1, g2, g3, g4;
+			g0 = h0 + 5; b = g0 >> 26; g0 &= 0x3ffffff;
+			g1 = h1 + b; b = g1 >> 26; g1 &= 0x3ffffff;
+			g2 = h2 + b; b = g2 >> 26; g2 &= 0x3ffffff;
+			g3 = h3 + b; b = g3 >> 26; g3 &= 0x3ffffff;
+			g4 = h4 + b - (1 << 26);
+
+			b = (g4 >> 31) - 1;
+			uint nb = ~b;
+			h0 = (h0 & nb) | (g0 & b);
+			h1 = (h1 & nb) | (g1 & b);
+			h2 = (h2 & nb) | (g2 & b);
+			h3 = (h3 & nb) | (g3 & b);
+			h4 = (h4 & nb) | (g4 & b);
+
+			f0 = ((h0      ) | (h1 << 26)) + (ulong)k0;
+			f1 = ((h1 >> 6 ) | (h2 << 20)) + (ulong)k1;
+			f2 = ((h2 >> 12) | (h3 << 14)) + (ulong)k2;
+			f3 = ((h3 >> 18) | (h4 << 8 )) + (ulong)k3;
+
+			Pack.UInt32_To_LE((uint)f0, output, outOff);
+			f1 += (f0 >> 32);
+			Pack.UInt32_To_LE((uint)f1, output, outOff + 4);
+			f2 += (f1 >> 32);
+			Pack.UInt32_To_LE((uint)f2, output, outOff + 8);
+			f3 += (f2 >> 32);
+			Pack.UInt32_To_LE((uint)f3, output, outOff + 12);
+
+			Reset();
+			return BLOCK_SIZE;
+		}
+
+		public void Reset()
+		{
+			currentBlockOffset = 0;
+
+			h0 = h1 = h2 = h3 = h4 = 0;
+		}
+
+		private static ulong mul32x32_64(uint i1, uint i2)
+		{
+			return ((ulong)i1) * i2;
+		}
+	}
+}