OAuthBase.cs

using System;

using System.Security.Cryptography;

using System.Collections.Generic;

using System.Text;

using System.Web;



namespace OAuth {

	public class OAuthBase {



        /// <summary>

        /// Provides a predefined set of algorithms that are supported officially by the protocol

        /// </summary>

        public enum SignatureTypes {

            HMACSHA1,

            PLAINTEXT,

            RSASHA1

        }



        /// <summary>

        /// Provides an internal structure to sort the query parameter

        /// </summary>

        protected class QueryParameter {

            private string name = null;

            private string value = null;



            public QueryParameter(string name, string value) {

                this.name = name;

                this.value = value;

            }



            public string Name {

                get { return name; }

            }



            public string Value {

                get { return value; }

            }            

        }



        /// <summary>

        /// Comparer class used to perform the sorting of the query parameters

        /// </summary>

        protected class QueryParameterComparer : IComparer<QueryParameter> {



            #region IComparer<QueryParameter> Members



            public int Compare(QueryParameter x, QueryParameter y) {

                if (x.Name == y.Name) {

                    return string.Compare(x.Value, y.Value);

                } else {

                    return string.Compare(x.Name, y.Name);

                }

            }



            #endregion

        }



		protected const string OAuthVersion = "1.0";

        protected const string OAuthParameterPrefix = "oauth_";



        //

        // List of know and used oauth parameters' names

        //        

		protected const string OAuthConsumerKeyKey = "oauth_consumer_key";

		protected const string OAuthCallbackKey = "oauth_callback";

		protected const string OAuthVersionKey = "oauth_version";

		protected const string OAuthSignatureMethodKey = "oauth_signature_method";

		protected const string OAuthSignatureKey = "oauth_signature";

		protected const string OAuthTimestampKey = "oauth_timestamp";

		protected const string OAuthNonceKey = "oauth_nonce";

		protected const string OAuthTokenKey = "oauth_token";

		protected const string OAuthTokenSecretKey = "oauth_token_secret";



        protected const string HMACSHA1SignatureType = "HMAC-SHA1";

        protected const string PlainTextSignatureType = "PLAINTEXT";

        protected const string RSASHA1SignatureType = "RSA-SHA1";



        protected Random random = new Random();



        protected string unreservedChars = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789-_.~";



        /// <summary>

        /// Helper function to compute a hash value

        /// </summary>

        /// <param name="hashAlgorithm">The hashing algoirhtm used. If that algorithm needs some initialization, like HMAC and its derivatives, they should be initialized prior to passing it to this function</param>

        /// <param name="data">The data to hash</param>

        /// <returns>a Base64 string of the hash value</returns>

        private string ComputeHash(HashAlgorithm hashAlgorithm, string data) {

            if (hashAlgorithm == null) {

                throw new ArgumentNullException("hashAlgorithm");

            }



            if (string.IsNullOrEmpty(data)) {

                throw new ArgumentNullException("data");

            }



            byte[] dataBuffer = System.Text.Encoding.ASCII.GetBytes(data);

            byte[] hashBytes = hashAlgorithm.ComputeHash(dataBuffer);



            return Convert.ToBase64String(hashBytes);

        }



        /// <summary>

        /// Internal function to cut out all non oauth query string parameters (all parameters not begining with "oauth_")

        /// </summary>

        /// <param name="parameters">The query string part of the Url</param>

        /// <returns>A list of QueryParameter each containing the parameter name and value</returns>

        private List<QueryParameter> GetQueryParameters(string parameters) {

            if (parameters.StartsWith("?")) {

                parameters = parameters.Remove(0, 1);

            }



            List<QueryParameter> result = new List<QueryParameter>();



            if (!string.IsNullOrEmpty(parameters)) {

                string[] p = parameters.Split('&');

                foreach (string s in p) {

                    if (!string.IsNullOrEmpty(s) && !s.StartsWith(OAuthParameterPrefix)) {

                        if (s.IndexOf('=') > -1) {

                            string[] temp = s.Split('=');

                            result.Add(new QueryParameter(temp[0], temp[1]));

                        } else {

                            result.Add(new QueryParameter(s, string.Empty));

                        }

                    }

                }

            }



            return result;

        }



        /// <summary>

        /// This is a different Url Encode implementation since the default .NET one outputs the percent encoding in lower case.

        /// While this is not a problem with the percent encoding spec, it is used in upper case throughout OAuth

        /// </summary>

        /// <param name="value">The value to Url encode</param>

        /// <returns>Returns a Url encoded string</returns>

        protected string UrlEncode(string value) {

            StringBuilder result = new StringBuilder();



            foreach (char symbol in value) {

                if (unreservedChars.IndexOf(symbol) != -1) {

                    result.Append(symbol);

                } else {

                    result.Append('%' + String.Format("{0:X2}", (int)symbol));

                }

            }



            return result.ToString();

        }

                        

        /// <summary>

        /// Normalizes the request parameters according to the spec

        /// </summary>

        /// <param name="parameters">The list of parameters already sorted</param>

        /// <returns>a string representing the normalized parameters</returns>

		protected string NormalizeRequestParameters(IList<QueryParameter> parameters) {			

			StringBuilder sb = new StringBuilder();

            QueryParameter p = null;

            for (int i = 0; i < parameters.Count; i++) {

                p = parameters[i];

                sb.AppendFormat("{0}={1}", p.Name, p.Value);



                if (i < parameters.Count - 1) {

                    sb.Append("&");

                }

            }



            return sb.ToString();

		}



        /// <summary>

        /// Generate the signature base that is used to produce the signature

        /// </summary>

        /// <param name="url">The full url that needs to be signed including its non OAuth url parameters</param>

        /// <param name="consumerKey">The consumer key</param>        

        /// <param name="token">The token, if available. If not available pass null or an empty string</param>

        /// <param name="tokenSecret">The token secret, if available. If not available pass null or an empty string</param>

        /// <param name="httpMethod">The http method used. Must be a valid HTTP method verb (POST,GET,PUT, etc)</param>

        /// <param name="signatureType">The signature type. To use the default values use <see cref="OAuthBase.SignatureTypes">OAuthBase.SignatureTypes</see>.</param>

        /// <returns>The signature base</returns>

        public string GenerateSignatureBase(Uri url, string consumerKey, string token, string tokenSecret, string httpMethod, string timeStamp, string nonce, string signatureType, out string normalizedUrl, out string normalizedRequestParameters) {

            if (token == null) {

                token = string.Empty;

            }



            if (tokenSecret == null) {

                tokenSecret = string.Empty;

            }



            if (string.IsNullOrEmpty(consumerKey)) {

                throw new ArgumentNullException("consumerKey");

            }



            if (string.IsNullOrEmpty(httpMethod)) {

                throw new ArgumentNullException("httpMethod");

            }



            if (string.IsNullOrEmpty(signatureType)) {

                throw new ArgumentNullException("signatureType");

            }



			normalizedUrl = null;

			normalizedRequestParameters = null;



            List<QueryParameter> parameters = GetQueryParameters(url.Query);

            parameters.Add(new QueryParameter(OAuthVersionKey, OAuthVersion));

            parameters.Add(new QueryParameter(OAuthNonceKey, nonce));

            parameters.Add(new QueryParameter(OAuthTimestampKey, timeStamp));

            parameters.Add(new QueryParameter(OAuthSignatureMethodKey, signatureType));

            parameters.Add(new QueryParameter(OAuthConsumerKeyKey, consumerKey));



            if (!string.IsNullOrEmpty(token)) {

                parameters.Add(new QueryParameter(OAuthTokenKey, token));

            }



            parameters.Sort(new QueryParameterComparer());



            normalizedUrl = string.Format("{0}://{1}", url.Scheme, url.Host);

            if (!((url.Scheme == "http" && url.Port == 80) || (url.Scheme == "https" && url.Port == 443)))

            {

                normalizedUrl += ":" + url.Port;

            }

            normalizedUrl += url.AbsolutePath;

            normalizedRequestParameters = NormalizeRequestParameters(parameters);



            StringBuilder signatureBase = new StringBuilder();			

            signatureBase.AppendFormat("{0}&", httpMethod.ToUpper());

            signatureBase.AppendFormat("{0}&", UrlEncode(normalizedUrl));

            signatureBase.AppendFormat("{0}", UrlEncode(normalizedRequestParameters));



            return signatureBase.ToString();

        }



        /// <summary>

        /// Generate the signature value based on the given signature base and hash algorithm

        /// </summary>

        /// <param name="signatureBase">The signature based as produced by the GenerateSignatureBase method or by any other means</param>

        /// <param name="hash">The hash algorithm used to perform the hashing. If the hashing algorithm requires initialization or a key it should be set prior to calling this method</param>

        /// <returns>A base64 string of the hash value</returns>

        public string GenerateSignatureUsingHash(string signatureBase, HashAlgorithm hash) {

            return ComputeHash(hash, signatureBase);

        }



        /// <summary>

        /// Generates a signature using the HMAC-SHA1 algorithm

        /// </summary>		

        /// <param name="url">The full url that needs to be signed including its non OAuth url parameters</param>

        /// <param name="consumerKey">The consumer key</param>

        /// <param name="consumerSecret">The consumer seceret</param>

        /// <param name="token">The token, if available. If not available pass null or an empty string</param>

        /// <param name="tokenSecret">The token secret, if available. If not available pass null or an empty string</param>

        /// <param name="httpMethod">The http method used. Must be a valid HTTP method verb (POST,GET,PUT, etc)</param>

        /// <returns>A base64 string of the hash value</returns>

		public string GenerateSignature(Uri url, string consumerKey, string consumerSecret, string token, string tokenSecret, string httpMethod, string timeStamp, string nonce, out string normalizedUrl, out string normalizedRequestParameters) {            

			return GenerateSignature(url, consumerKey, consumerSecret, token, tokenSecret, httpMethod, timeStamp, nonce, SignatureTypes.HMACSHA1, out normalizedUrl, out normalizedRequestParameters);

        }



        /// <summary>

        /// Generates a signature using the specified signatureType 

        /// </summary>		

        /// <param name="url">The full url that needs to be signed including its non OAuth url parameters</param>

        /// <param name="consumerKey">The consumer key</param>

        /// <param name="consumerSecret">The consumer seceret</param>

        /// <param name="token">The token, if available. If not available pass null or an empty string</param>

        /// <param name="tokenSecret">The token secret, if available. If not available pass null or an empty string</param>

        /// <param name="httpMethod">The http method used. Must be a valid HTTP method verb (POST,GET,PUT, etc)</param>

        /// <param name="signatureType">The type of signature to use</param>

        /// <returns>A base64 string of the hash value</returns>

		public string GenerateSignature(Uri url, string consumerKey, string consumerSecret, string token, string tokenSecret, string httpMethod, string timeStamp, string nonce, SignatureTypes signatureType, out string normalizedUrl, out string normalizedRequestParameters) {

			normalizedUrl = null;

			normalizedRequestParameters = null;



            switch (signatureType) {

                case SignatureTypes.PLAINTEXT:					

                    return HttpUtility.UrlEncode(string.Format("{0}&{1}", consumerSecret, tokenSecret));

                case SignatureTypes.HMACSHA1:					

					string signatureBase = GenerateSignatureBase(url, consumerKey, token, tokenSecret, httpMethod, timeStamp, nonce, HMACSHA1SignatureType, out normalizedUrl, out normalizedRequestParameters);



                    HMACSHA1 hmacsha1 = new HMACSHA1();

                    hmacsha1.Key = Encoding.ASCII.GetBytes(string.Format("{0}&{1}", UrlEncode(consumerSecret), string.IsNullOrEmpty(tokenSecret) ? "" : UrlEncode(tokenSecret)));



                    return GenerateSignatureUsingHash(signatureBase, hmacsha1);                                        

                case SignatureTypes.RSASHA1:

                    throw new NotImplementedException();

                default:

                    throw new ArgumentException("Unknown signature type", "signatureType");

            }

        }



        /// <summary>

        /// Generate the timestamp for the signature        

        /// </summary>

        /// <returns></returns>

        public virtual string GenerateTimeStamp() {

            // Default implementation of UNIX time of the current UTC time

            TimeSpan ts = DateTime.UtcNow - new DateTime(1970, 1, 1, 0, 0, 0, 0);

            return Convert.ToInt64(ts.TotalSeconds).ToString();            

        }



        /// <summary>

        /// Generate a nonce

        /// </summary>

        /// <returns></returns>

        public virtual string GenerateNonce() {

            // Just a simple implementation of a random number between 123400 and 9999999

            return random.Next(123400, 9999999).ToString();            

        }



	}

}