#if !BESTHTTP_DISABLE_ALTERNATE_SSL && (!UNITY_WEBGL || UNITY_EDITOR) #pragma warning disable using System; using System.IO; using BestHTTP.SecureProtocol.Org.BouncyCastle.Asn1; using BestHTTP.SecureProtocol.Org.BouncyCastle.Asn1.Cmp; using BestHTTP.SecureProtocol.Org.BouncyCastle.Asn1.Iana; using BestHTTP.SecureProtocol.Org.BouncyCastle.Asn1.Oiw; using BestHTTP.SecureProtocol.Org.BouncyCastle.Asn1.X509; using BestHTTP.SecureProtocol.Org.BouncyCastle.Crypto; using BestHTTP.SecureProtocol.Org.BouncyCastle.Crypto.IO; using BestHTTP.SecureProtocol.Org.BouncyCastle.Crypto.Parameters; using BestHTTP.SecureProtocol.Org.BouncyCastle.Security; using BestHTTP.SecureProtocol.Org.BouncyCastle.Utilities; namespace BestHTTP.SecureProtocol.Org.BouncyCastle.Crmf { internal class PKMacStreamCalculator : IStreamCalculator { private readonly MacSink _stream; public PKMacStreamCalculator(IMac mac) { _stream = new MacSink(mac); } public Stream Stream { get { return _stream; } } public object GetResult() { return new DefaultPKMacResult(_stream.Mac); } } internal class PKMacFactory : IMacFactory { protected readonly PbmParameter parameters; private readonly byte[] key; public PKMacFactory(byte[] key, PbmParameter parameters) { this.key = Arrays.Clone(key); this.parameters = parameters; } public virtual object AlgorithmDetails { get { return new AlgorithmIdentifier(CmpObjectIdentifiers.passwordBasedMac, parameters); } } public virtual IStreamCalculator CreateCalculator() { IMac mac = MacUtilities.GetMac(parameters.Mac.Algorithm); mac.Init(new KeyParameter(key)); return new PKMacStreamCalculator(mac); } } internal class DefaultPKMacResult : IBlockResult { private readonly IMac mac; public DefaultPKMacResult(IMac mac) { this.mac = mac; } public byte[] Collect() { byte[] res = new byte[mac.GetMacSize()]; mac.DoFinal(res, 0); return res; } public int Collect(byte[] sig, int sigOff) { byte[] signature = Collect(); signature.CopyTo(sig, sigOff); return signature.Length; } } public class PKMacBuilder { private AlgorithmIdentifier owf; private AlgorithmIdentifier mac; private IPKMacPrimitivesProvider provider; private SecureRandom random; private PbmParameter parameters; private int iterationCount; private int saltLength = 20; private int maxIterations; /// /// Default, IterationCount = 1000, OIW=IdSha1, Mac=HmacSHA1 /// public PKMacBuilder() : this(new AlgorithmIdentifier(OiwObjectIdentifiers.IdSha1), 1000, new AlgorithmIdentifier(IanaObjectIdentifiers.HmacSha1, DerNull.Instance), new DefaultPKMacPrimitivesProvider()) { } /// /// Defaults with IPKMacPrimitivesProvider /// /// public PKMacBuilder(IPKMacPrimitivesProvider provider) : this(new AlgorithmIdentifier(OiwObjectIdentifiers.IdSha1), 1000, new AlgorithmIdentifier(IanaObjectIdentifiers.HmacSha1, DerNull.Instance), provider) { } /// /// Create. /// /// The Mac provider /// Digest Algorithm Id /// Mac Algorithm Id public PKMacBuilder(IPKMacPrimitivesProvider provider, AlgorithmIdentifier digestAlgorithmIdentifier, AlgorithmIdentifier macAlgorithmIdentifier) : this(digestAlgorithmIdentifier, 1000, macAlgorithmIdentifier, provider) { } /// /// Create a PKMAC builder enforcing a ceiling on the maximum iteration count. /// /// supporting calculator /// max allowable value for iteration count. public PKMacBuilder(IPKMacPrimitivesProvider provider, int maxIterations) { this.provider = provider; this.maxIterations = maxIterations; } private PKMacBuilder(AlgorithmIdentifier digestAlgorithmIdentifier, int iterationCount, AlgorithmIdentifier macAlgorithmIdentifier, IPKMacPrimitivesProvider provider) { this.iterationCount = iterationCount; this.mac = macAlgorithmIdentifier; this.owf = digestAlgorithmIdentifier; this.provider = provider; } /** * Set the salt length in octets. * * @param saltLength length in octets of the salt to be generated. * @return the generator */ public PKMacBuilder SetSaltLength(int saltLength) { if (saltLength < 8) throw new ArgumentException("salt length must be at least 8 bytes"); this.saltLength = saltLength; return this; } /// /// Set the iteration count. /// /// the iteration count. /// this /// if iteration count is less than 100 public PKMacBuilder SetIterationCount(int iterationCount) { if (iterationCount < 100) throw new ArgumentException("iteration count must be at least 100"); CheckIterationCountCeiling(iterationCount); this.iterationCount = iterationCount; return this; } /// /// Set PbmParameters /// /// The parameters. /// this public PKMacBuilder SetParameters(PbmParameter parameters) { CheckIterationCountCeiling(parameters.IterationCount.IntValueExact); this.parameters = parameters; return this; } /// /// The Secure random /// /// The random. /// this public PKMacBuilder SetSecureRandom(SecureRandom random) { this.random = random; return this; } /// /// Build an IMacFactory. /// /// The password. /// IMacFactory public IMacFactory Build(char[] password) { if (parameters != null) return GenCalculator(parameters, password); byte[] salt = new byte[saltLength]; if (random == null) { this.random = new SecureRandom(); } random.NextBytes(salt); return GenCalculator(new PbmParameter(salt, owf, iterationCount, mac), password); } private void CheckIterationCountCeiling(int iterationCount) { if (maxIterations > 0 && iterationCount > maxIterations) throw new ArgumentException("iteration count exceeds limit (" + iterationCount + " > " + maxIterations + ")"); } private IMacFactory GenCalculator(PbmParameter parameters, char[] password) { // From RFC 4211 // // 1. Generate a random salt value S // // 2. Append the salt to the pw. K = pw || salt. // // 3. Hash the value of K. K = HASH(K) // // 4. Iter = Iter - 1. If Iter is greater than zero. Goto step 3. // // 5. Compute an HMAC as documented in [HMAC]. // // MAC = HASH( K XOR opad, HASH( K XOR ipad, data) ) // // Where opad and ipad are defined in [HMAC]. byte[] pw = Strings.ToUtf8ByteArray(password); byte[] salt = parameters.Salt.GetOctets(); byte[] K = new byte[pw.Length + salt.Length]; Array.Copy(pw, 0, K, 0, pw.Length); Array.Copy(salt, 0, K, pw.Length, salt.Length); IDigest digest = provider.CreateDigest(parameters.Owf); int iter = parameters.IterationCount.IntValueExact; digest.BlockUpdate(K, 0, K.Length); K = new byte[digest.GetDigestSize()]; digest.DoFinal(K, 0); while (--iter > 0) { digest.BlockUpdate(K, 0, K.Length); digest.DoFinal(K, 0); } byte[] key = K; return new PKMacFactory(key, parameters); } } } #pragma warning restore #endif