Exemplo n.º 1
0
        private string CalculateVer(DiscoNode n)
        {
            if (m_hash == null)
            {
                return(null);
            }

            // 1. Initialize an empty string S.
            StringBuilder S = new StringBuilder();

            // 2. Sort the service discovery identities [16] by category and then by type
            // (if it exists) and then by xml:lang (if it exists), formatted as
            // CATEGORY '/' [TYPE] '/' [LANG] '/' [NAME]. Note that each slash is
            // included even if the TYPE, LANG, or NAME is not included.
            Ident[] ids = n.GetIdentities();
            Array.Sort(ids);

            // 3. For each identity, append the 'category/type/lang/name' to S, followed by
            // the '<' character.
            foreach (Ident id in ids)
            {
                S.Append(id.Key);
                S.Append(SEP);
            }

            // 4. Sort the supported service discovery features.
            string[] features = n.FeatureNames;
            Array.Sort(features);

            // 5. For each feature, append the feature to S, followed by the '<' character.
            foreach (string feature in features)
            {
                S.Append(feature);
                S.Append(SEP);
            }

            // 6. If the service discovery information response includes XEP-0128 data forms,
            // sort the forms by the FORM_TYPE (i.e., by the XML character
            // data of the <value/> element).
            Data[] ext = n.Extensions;
            if (ext != null)
            {
                Array.Sort(ext, new FormTypeComparer());
                foreach (Data x in ext)
                {
                    // For each extended service discovery information form:

                    // 1. Append the XML character data of the FORM_TYPE field's <value/>
                    // element, followed by the '<' character.
                    S.Append(x.FormType);
                    S.Append(SEP);

                    // 2. Sort the fields by the value of the "var" attribute.
                    bedrock.collections.Tree fields = new bedrock.collections.Tree();
                    foreach (Field f in x.GetFields())
                    {
                        fields[f.Var] = f;
                    }

                    // 3. For each field:
                    foreach (System.Collections.DictionaryEntry entry in fields)
                    {
                        Field f = (Field)entry.Value;
                        if (f.Var == "FORM_TYPE")
                        {
                            continue;
                        }

                        // 1. Append the value of the "var" attribute, followed by the '<' character.
                        S.Append(f.Var);
                        S.Append(SEP);

                        // 2. Sort values by the XML character data of the <value/> element.
                        string[] values = f.Vals;
                        Array.Sort(values);
                        foreach (string v in values)
                        {
                            // 3. For each <value/> element, append the XML character data, followed by the '<' character.
                            S.Append(v);
                            S.Append(SEP);
                        }
                    }
                }
            }

            // Ensure that S is encoded according to the UTF-8 encoding (RFC 3269 [16]).
            byte[] input = Encoding.UTF8.GetBytes(S.ToString());

            // Compute the verification string by hashing S using the algorithm specified
            // in the 'hash' attribute (e.g., SHA-1 as defined in RFC 3174 [17]). The hashed
            // data MUST be generated with binary output and encoded using Base64 as specified
            // in Section 4 of RFC 4648 [18] (note: the Base64 output MUST NOT include
            // whitespace and MUST set padding bits to zero). [19]
            HashAlgorithm hasher = GetHasher(m_hash);

            byte[] hash = hasher.ComputeHash(input, 0, input.Length);
            return(Convert.ToBase64String(hash));
        }
Exemplo n.º 2
0
        private string CalculateVer(DiscoNode n)
        {
            if (m_hash == null)
                return null;

            // 1. Initialize an empty string S.
            StringBuilder S = new StringBuilder();

            // 2. Sort the service discovery identities [16] by category and then by type
            // (if it exists) and then by xml:lang (if it exists), formatted as
            // CATEGORY '/' [TYPE] '/' [LANG] '/' [NAME]. Note that each slash is
            // included even if the TYPE, LANG, or NAME is not included.
            Ident[] ids = n.GetIdentities();
            Array.Sort(ids);

            // 3. For each identity, append the 'category/type/lang/name' to S, followed by
            // the '<' character.
            foreach (Ident id in ids)
            {
                S.Append(id.Key);
                S.Append(SEP);
            }

            // 4. Sort the supported service discovery features.
            string[] features = n.FeatureNames;
            Array.Sort(features);

            // 5. For each feature, append the feature to S, followed by the '<' character.
            foreach (string feature in features)
            {
                S.Append(feature);
                S.Append(SEP);
            }

            // 6. If the service discovery information response includes XEP-0128 data forms,
            // sort the forms by the FORM_TYPE (i.e., by the XML character
            // data of the <value/> element).
            Data[] ext = n.Extensions;
            if (ext != null)
            {
                Array.Sort(ext, new FormTypeComparer());
                foreach (Data x in ext)
                {
                    // For each extended service discovery information form:

                    // 1. Append the XML character data of the FORM_TYPE field's <value/>
                    // element, followed by the '<' character.
                    S.Append(x.FormType);
                    S.Append(SEP);

                    // 2. Sort the fields by the value of the "var" attribute.
                    bedrock.collections.Tree fields = new bedrock.collections.Tree();
                    foreach (Field f in x.GetFields())
                        fields[f.Var] = f;

                    // 3. For each field:
                    foreach (System.Collections.DictionaryEntry entry in fields)
                    {
                        Field f = (Field)entry.Value;
                        if (f.Var == "FORM_TYPE")
                            continue;

                        // 1. Append the value of the "var" attribute, followed by the '<' character.
                        S.Append(f.Var);
                        S.Append(SEP);

                        // 2. Sort values by the XML character data of the <value/> element.
                        string[] values = f.Vals;
                        Array.Sort(values);
                        foreach (string v in values)
                        {
                            // 3. For each <value/> element, append the XML character data, followed by the '<' character.
                            S.Append(v);
                            S.Append(SEP);
                        }
                    }
                }
            }

            // Ensure that S is encoded according to the UTF-8 encoding (RFC 3269 [16]).
            byte[] input = Encoding.UTF8.GetBytes(S.ToString());

            // Compute the verification string by hashing S using the algorithm specified
            // in the 'hash' attribute (e.g., SHA-1 as defined in RFC 3174 [17]). The hashed
            // data MUST be generated with binary output and encoded using Base64 as specified
            // in Section 4 of RFC 4648 [18] (note: the Base64 output MUST NOT include
            // whitespace and MUST set padding bits to zero). [19]
            HashAlgorithm hasher = GetHasher(m_hash);
            byte[] hash = hasher.ComputeHash(input, 0, input.Length);
            return Convert.ToBase64String(hash);
        }