/* * Copyright (c) Citrix Systems, Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1) Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2) Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials * provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED * OF THE POSSIBILITY OF SUCH DAMAGE. */ using System; using System.Collections; using System.Collections.Generic; namespace XenAPI { public enum API_Version { API_1_1 = 1, // XenServer 4.0 (codename Rio) API_1_2 = 2, // XenServer 4.1 (Miami) API_1_3 = 3, // XenServer 5.0 up to update 2 (Orlando) API_1_4 = 4, // Unreleased API_1_5 = 5, // XenServer 5.0 update 3 and above (Floodgate) API_1_6 = 6, // XenServer 5.5 (George) API_1_7 = 7, // XenServer 5.6 (Midnight Ride) API_1_8 = 8, // XenServer 5.6.1 (Cowley) API_1_9 = 9, // XenServer 6.0 (Boston) API_1_10 = 10, // XenServer 6.1 (Tampa) API_2_0 = 11, // XenServer 6.2 (Clearwater) API_2_1 = 12, // XenServer 6.2 with vGPU (vGPU) API_2_2 = 13, // XenServer 6.2 Hotfix XS62ESP1004 (Felton) API_2_3 = 14, // LATEST = 14, // Don't forget to change LATEST above, and APIVersionString below. UNKNOWN = 99 } public static class Helper { public const string NullOpaqueRef = "OpaqueRef:NULL"; public static string APIVersionString(API_Version v) { switch (v) { case API_Version.API_1_1: return "1.1"; case API_Version.API_1_2: return "1.2"; case API_Version.API_1_3: return "1.3"; case API_Version.API_1_4: return "1.4"; case API_Version.API_1_5: return "1.5"; case API_Version.API_1_6: return "1.6"; case API_Version.API_1_7: return "1.7"; case API_Version.API_1_8: return "1.8"; case API_Version.API_1_9: return "1.9"; case API_Version.API_1_10: return "1.10"; case API_Version.API_2_0: return "2.0"; case API_Version.API_2_1: return "2.1"; case API_Version.API_2_2: return "2.2"; case API_Version.API_2_3: return "2.3"; default: return "Unknown"; } } public static API_Version GetAPIVersion(long major, long minor) { try { return (API_Version)Enum.Parse(typeof(API_Version), string.Format("API_{0}_{1}", major, minor)); } catch (ArgumentException) { return API_Version.UNKNOWN; } } /// /// Converts the string representation of an API version number to its API_Version equivalent. /// This function assumes that API version numbers are of form a.b /// public static API_Version GetAPIVersion(string version) { if (version != null) { string[] tokens = version.Split('.'); int major, minor; if (tokens.Length == 2 && int.TryParse(tokens[0], out major) && int.TryParse(tokens[1], out minor)) { return GetAPIVersion(major, minor); } } return API_Version.UNKNOWN; } /// /// Return a positive number if the given session's API version is greater than the given /// API_version, negative if it is less, and 0 if they are equal. /// internal static int APIVersionCompare(Session session, API_Version v) { return (int)session.APIVersion - (int)v; } /// /// Return true if the given session's API version is greater than or equal to the given /// API_version. /// internal static bool APIVersionMeets(Session session, API_Version v) { return APIVersionCompare(session, v) >= 0; } /// /// Test to see if two objects are equal. If the objects implement ICollection, then we will /// call AreCollectionsEqual to compare elements within the collection. /// public static bool AreEqual(object o1, object o2) { if (o1 == null && o2 == null) return true; if (o1 == null || o2 == null) return false; if (o1 is IDictionary) return AreDictEqual((IDictionary)o1, (IDictionary)o2); if (o1 is System.Collections.ICollection) return AreCollectionsEqual((ICollection)o1, (ICollection)o2); return o1.Equals(o2); } /// /// Test to see if two objects are equal. Different from AreEqual in that this function /// considers an empty Collection and null to be equal. /// public static bool AreEqual2(T o1, T o2) { if (o1 == null && o2 == null) return true; if (o1 == null || o2 == null) return o1 == null && IsEmptyCollection(o2) || o2 == null && IsEmptyCollection(o1); if (typeof(T) is IDictionary) return AreDictEqual((IDictionary)o1, (IDictionary)o2); if (typeof(T) is System.Collections.ICollection) return AreCollectionsEqual((ICollection)o1, (ICollection)o2); return o1.Equals(o2); } private static bool IsEmptyCollection(object obj) { ICollection collection = obj as ICollection; return collection != null && collection.Count == 0; } /// /// Test to see if two dictionaries are equal. This dictionary comparison method places a call to AreEqual /// for underlying objects. /// private static bool AreDictEqual(IDictionary d1, IDictionary d2) { if (d1.Count != d2.Count) return false; foreach (object k in d1.Keys) { if (!d2.Contains(k) || !AreEqual(d2[k], d1[k])) return false; } return true; } /// /// Test to see if two collections are equal. The collections are equal if they have the same elements, /// in the same order, and quantity. Elements are equal if their values are equal. /// private static bool AreCollectionsEqual(ICollection c1, ICollection c2) { if (c1.Count != c2.Count) return false; IEnumerator c1Enum = c1.GetEnumerator(); IEnumerator c2Enum = c2.GetEnumerator(); while (c1Enum.MoveNext() && c2Enum.MoveNext()) { if (!AreEqual(c1Enum.Current, c2Enum.Current)) return false; } return true; } public static bool DictEquals(Dictionary d1, Dictionary d2) { if (d1 == null && d2 == null) return true; if (d1 == null || d2 == null) return false; if (d1.Count != d2.Count) return false; foreach (K k in d1.Keys) { if (!d2.ContainsKey(k) || !EqualOrEquallyNull(d2[k], d1[k])) return false; } return true; } internal static bool EqualOrEquallyNull(object o1, object o2) { return o1 == null ? o2 == null : o1.Equals(o2); } /// /// /// /// /// Must not be null. /// internal static string[] RefListToStringArray(List> opaqueRefs) where T : XenObject { string[] result = new string[opaqueRefs.Count]; int i = 0; foreach (XenRef opaqueRef in opaqueRefs) result[i++] = opaqueRef.opaque_ref; return result; } public static bool IsNullOrEmptyOpaqueRef(string opaqueRef) { return string.IsNullOrEmpty(opaqueRef) || (string.Compare(opaqueRef, NullOpaqueRef, true) == 0); } /// /// Converts a List of objects into a string array by calling the ToString() method of each list element. /// /// /// Must not be null. Must not contain null. May contain no elements. /// internal static string[] ObjectListToStringArray(List list) { string[] result = new string[list.Count]; int i = 0; foreach (T t in list) result[i++] = t.ToString(); return result; } /// /// Parses an array of strings into a List of members of the given enum T. /// /// /// Must not be null. Must not contain null. May have Length zero. /// internal static List StringArrayToEnumList(string[] input) { List result = new List(); foreach (string s in input) { try { result.Add((T)Enum.Parse(typeof(T), s)); } catch (ArgumentException) { } } return result; } /// /// Parses an array of objects into a List of members of the given enum T by first calling ToString() on each array element. /// /// /// Must not be null. Must not contain null. May have Length zero. /// internal static List ObjectArrayToEnumList(object[] input) { List result = new List(); foreach (object o in input) { try { result.Add((T)Enum.Parse(typeof(T), o.ToString())); } catch (ArgumentException) { } } return result; } internal static List Proxy_MessageArrayToMessageList(Proxy_Message[] input) { List result = new List(); foreach (Proxy_Message pm in input) { result.Add(new Message(pm)); } return result; } internal static List Proxy_Data_sourceArrayToData_sourceList(Proxy_Data_source[] input) { List result = new List(); foreach (Proxy_Data_source pd in input) { result.Add(new Data_source(pd)); } return result; } internal static Object EnumParseDefault(Type t, string s) { try { return Enum.Parse(t, s == null ? null : s.Replace('-','_')); } catch (ArgumentException) { try { return Enum.Parse(t, "unknown"); } catch (ArgumentException) { try { return Enum.Parse(t, "Unknown"); } catch (ArgumentException) { return 0; } } } } } }