// // System.Reflection/Assembly.cs // // Author: // Paolo Molaro (lupus@ximian.com) // // (C) 2001 Ximian, Inc. http://www.ximian.com // Copyright (C) 2004-2005 Novell, Inc (http://www.novell.com) // Copyright 2011 Xamarin Inc (http://www.xamarin.com). // // Permission is hereby granted, free of charge, to any person obtaining // a copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to // permit persons to whom the Software is furnished to do so, subject to // the following conditions: // // The above copyright notice and this permission notice shall be // included in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, // EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND // NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE // LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION // OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION // WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. // using System.Security; using System.Security.Policy; using System.Security.Permissions; using System.Runtime.Serialization; using System.Reflection; using System.IO; using System.Globalization; using System.Runtime.CompilerServices; using System.Runtime.InteropServices; using System.Collections.Generic; using System.Configuration.Assemblies; using System.Threading; using System.Text; using System.Diagnostics.Contracts; using Mono.Security; namespace System.Reflection { [ComVisible (true)] [ComDefaultInterfaceAttribute (typeof (_Assembly))] [Serializable] [ClassInterface(ClassInterfaceType.None)] [StructLayout (LayoutKind.Sequential)] #if MOBILE public partial class Assembly : ICustomAttributeProvider { #else public abstract class Assembly : ICustomAttributeProvider, _Assembly, IEvidenceFactory, ISerializable { #endif internal class ResolveEventHolder { public event ModuleResolveEventHandler ModuleResolve; } internal class UnmanagedMemoryStreamForModule : UnmanagedMemoryStream { Module module; public unsafe UnmanagedMemoryStreamForModule (byte* pointer, long length, Module module) : base (pointer, length) { this.module = module; } protected override void Dispose (bool disposing) { if (_isOpen) { /* * The returned pointer points inside metadata, so * we have to increase the refcount of the module, and decrease * it when the stream is finalized. */ module = null; } base.Dispose (disposing); } } // Note: changes to fields must be reflected in _MonoReflectionAssembly struct (object-internals.h) #pragma warning disable 649 private IntPtr _mono_assembly; #pragma warning restore 649 private ResolveEventHolder resolve_event_holder; #if !MOBILE private Evidence _evidence; internal PermissionSet _minimum; // for SecurityAction.RequestMinimum internal PermissionSet _optional; // for SecurityAction.RequestOptional internal PermissionSet _refuse; // for SecurityAction.RequestRefuse private PermissionSet _granted; // for the resolved assembly granted permissions private PermissionSet _denied; // for the resolved assembly denied permissions #else object _evidence, _minimum, _optional, _refuse, _granted, _denied; #endif private bool fromByteArray; private string assemblyName; protected Assembly () { resolve_event_holder = new ResolveEventHolder (); } // // We can't store the event directly in this class, since the // compiler would silently insert the fields before _mono_assembly // public event ModuleResolveEventHandler ModuleResolve { [SecurityPermission (SecurityAction.LinkDemand, ControlAppDomain = true)] add { resolve_event_holder.ModuleResolve += value; } [SecurityPermission (SecurityAction.LinkDemand, ControlAppDomain = true)] remove { resolve_event_holder.ModuleResolve -= value; } } [MethodImplAttribute (MethodImplOptions.InternalCall)] private extern string get_code_base (bool escaped); [MethodImplAttribute (MethodImplOptions.InternalCall)] private extern string get_fullname (); [MethodImplAttribute (MethodImplOptions.InternalCall)] private extern string get_location (); [MethodImplAttribute (MethodImplOptions.InternalCall)] private extern string InternalImageRuntimeVersion (); [MethodImplAttribute (MethodImplOptions.InternalCall)] static internal extern string GetAotId (); // SECURITY: this should be the only caller to icall get_code_base private string GetCodeBase (bool escaped) { string cb = get_code_base (escaped); #if !NET_2_1 if (SecurityManager.SecurityEnabled) { // we cannot divulge local file informations if (String.Compare ("FILE://", 0, cb, 0, 7, true, CultureInfo.InvariantCulture) == 0) { string file = cb.Substring (7); new FileIOPermission (FileIOPermissionAccess.PathDiscovery, file).Demand (); } } #endif return cb; } public virtual string CodeBase { get { return GetCodeBase (false); } } public virtual string EscapedCodeBase { get { return GetCodeBase (true); } } public virtual string FullName { get { // // FIXME: This is wrong, but it gets us going // in the compiler for now // return ToString (); } } public virtual extern MethodInfo EntryPoint { [MethodImplAttribute (MethodImplOptions.InternalCall)] get; } public virtual Evidence Evidence { [SecurityPermission (SecurityAction.Demand, ControlEvidence = true)] get { return UnprotectedGetEvidence (); } } // note: the security runtime requires evidences but may be unable to do so... internal Evidence UnprotectedGetEvidence () { #if MOBILE return null; #else // if the host (runtime) hasn't provided it's own evidence... if (_evidence == null) { // ... we will provide our own lock (this) { _evidence = Evidence.GetDefaultHostEvidence (this); } } return _evidence; #endif } [MethodImplAttribute (MethodImplOptions.InternalCall)] internal extern bool get_global_assembly_cache (); internal bool FromByteArray { set { fromByteArray = value; } } public virtual String Location { get { if (fromByteArray) return String.Empty; string loc = get_location (); #if !NET_2_1 if ((loc != String.Empty) && SecurityManager.SecurityEnabled) { // we cannot divulge local file informations new FileIOPermission (FileIOPermissionAccess.PathDiscovery, loc).Demand (); } #endif return loc; } } [ComVisible (false)] public virtual string ImageRuntimeVersion { get { return InternalImageRuntimeVersion (); } } public virtual void GetObjectData (SerializationInfo info, StreamingContext context) { throw new NotImplementedException (); } public virtual bool IsDefined (Type attributeType, bool inherit) { return MonoCustomAttrs.IsDefined (this, attributeType, inherit); } public virtual object [] GetCustomAttributes (bool inherit) { return MonoCustomAttrs.GetCustomAttributes (this, inherit); } public virtual object [] GetCustomAttributes (Type attributeType, bool inherit) { return MonoCustomAttrs.GetCustomAttributes (this, attributeType, inherit); } [MethodImplAttribute (MethodImplOptions.InternalCall)] private extern object GetFilesInternal (String name, bool getResourceModules); public virtual FileStream[] GetFiles () { return GetFiles (false); } public virtual FileStream [] GetFiles (bool getResourceModules) { string[] names = (string[]) GetFilesInternal (null, getResourceModules); if (names == null) return EmptyArray.Value; string location = Location; FileStream[] res; if (location != String.Empty) { res = new FileStream [names.Length + 1]; res [0] = new FileStream (location, FileMode.Open, FileAccess.Read); for (int i = 0; i < names.Length; ++i) res [i + 1] = new FileStream (names [i], FileMode.Open, FileAccess.Read); } else { res = new FileStream [names.Length]; for (int i = 0; i < names.Length; ++i) res [i] = new FileStream (names [i], FileMode.Open, FileAccess.Read); } return res; } public virtual FileStream GetFile (String name) { if (name == null) throw new ArgumentNullException (null, "Name cannot be null."); if (name.Length == 0) throw new ArgumentException ("Empty name is not valid"); string filename = (string)GetFilesInternal (name, true); if (filename != null) return new FileStream (filename, FileMode.Open, FileAccess.Read); else return null; } [MethodImplAttribute (MethodImplOptions.InternalCall)] internal extern IntPtr GetManifestResourceInternal (String name, out int size, out Module module); public virtual Stream GetManifestResourceStream (String name) { if (name == null) throw new ArgumentNullException ("name"); if (name.Length == 0) throw new ArgumentException ("String cannot have zero length.", "name"); ManifestResourceInfo info = GetManifestResourceInfo (name); if (info == null) { Assembly a = AppDomain.CurrentDomain.DoResourceResolve (name, this); if (a != null && a != this) return a.GetManifestResourceStream (name); else return null; } if (info.ReferencedAssembly != null) return info.ReferencedAssembly.GetManifestResourceStream (name); if ((info.FileName != null) && (info.ResourceLocation == 0)) { if (fromByteArray) throw new FileNotFoundException (info.FileName); string location = Path.GetDirectoryName (Location); string filename = Path.Combine (location, info.FileName); return new FileStream (filename, FileMode.Open, FileAccess.Read); } int size; Module module; IntPtr data = GetManifestResourceInternal (name, out size, out module); if (data == (IntPtr) 0) return null; else { UnmanagedMemoryStream stream; unsafe { stream = new UnmanagedMemoryStreamForModule ((byte*) data, size, module); } return stream; } } public virtual Stream GetManifestResourceStream (Type type, String name) { StackCrawlMark stackMark = StackCrawlMark.LookForMyCaller; return GetManifestResourceStream(type, name, false, ref stackMark); } internal Stream GetManifestResourceStream (Type type, String name, bool skipSecurityCheck, ref StackCrawlMark stackMark) { StringBuilder sb = new StringBuilder (); if (type == null) { if (name == null) throw new ArgumentNullException ("type"); } else { String nameSpace = type.Namespace; if (nameSpace != null) { sb.Append (nameSpace); if (name != null) sb.Append (Type.Delimiter); } } if (name != null) sb.Append(name); return GetManifestResourceStream (sb.ToString()); } internal unsafe Stream GetManifestResourceStream(String name, ref StackCrawlMark stackMark, bool skipSecurityCheck) { return GetManifestResourceStream (null, name, skipSecurityCheck, ref stackMark); } internal String GetSimpleName() { AssemblyName aname = GetName (true); return aname.Name; } internal byte[] GetPublicKey() { AssemblyName aname = GetName (true); return aname.GetPublicKey (); } internal Version GetVersion() { AssemblyName aname = GetName (true); return aname.Version; } private AssemblyNameFlags GetFlags() { AssemblyName aname = GetName (true); return aname.Flags; } [MethodImplAttribute (MethodImplOptions.InternalCall)] internal virtual extern Type[] GetTypes (bool exportedOnly); public virtual Type[] GetTypes () { return GetTypes (false); } public virtual Type[] GetExportedTypes () { return GetTypes (true); } public virtual Type GetType (String name, Boolean throwOnError) { return GetType (name, throwOnError, false); } public virtual Type GetType (String name) { return GetType (name, false, false); } [MethodImplAttribute (MethodImplOptions.InternalCall)] internal extern Type InternalGetType (Module module, String name, Boolean throwOnError, Boolean ignoreCase); [MethodImplAttribute (MethodImplOptions.InternalCall)] internal extern static void InternalGetAssemblyName (string assemblyFile, AssemblyName aname); [MethodImplAttribute (MethodImplOptions.InternalCall)] static extern internal void FillName (Assembly ass, AssemblyName aname); public virtual AssemblyName GetName (Boolean copiedName) { throw new NotImplementedException (); } public virtual AssemblyName GetName () { return GetName (false); } public override string ToString () { // note: ToString work without requiring CodeBase (so no checks are needed) if (assemblyName != null) return assemblyName; assemblyName = get_fullname (); return assemblyName; } public static String CreateQualifiedName (String assemblyName, String typeName) { return typeName + ", " + assemblyName; } public static Assembly GetAssembly (Type type) { if (type != null) return type.Assembly; throw new ArgumentNullException ("type"); } [MethodImplAttribute (MethodImplOptions.InternalCall)] public static extern Assembly GetEntryAssembly(); internal Assembly GetSatelliteAssembly (CultureInfo culture, Version version, bool throwOnError) { if (culture == null) throw new ArgumentNullException("culture"); Contract.EndContractBlock(); StackCrawlMark stackMark = StackCrawlMark.LookForMyCaller; String name = GetSimpleName() + ".resources"; return InternalGetSatelliteAssembly(name, culture, version, true, ref stackMark); } internal RuntimeAssembly InternalGetSatelliteAssembly (String name, CultureInfo culture, Version version, bool throwOnFileNotFound, ref StackCrawlMark stackMark) { AssemblyName an = new AssemblyName (); an.SetPublicKey (GetPublicKey ()); an.Flags = GetFlags () | AssemblyNameFlags.PublicKey; if (version == null) an.Version = GetVersion (); else an.Version = version; an.CultureInfo = culture; an.Name = name; Assembly assembly; try { assembly = AppDomain.CurrentDomain.LoadSatellite (an, false); if (assembly != null) return (RuntimeAssembly)assembly; } catch (FileNotFoundException) { assembly = null; // ignore } if (String.IsNullOrEmpty (Location)) return null; // Try the assembly directory string location = Path.GetDirectoryName (Location); string fullName = Path.Combine (location, Path.Combine (culture.Name, an.Name + ".dll")); if (!throwOnFileNotFound && !File.Exists (fullName)) return null; return (RuntimeAssembly)LoadFrom (fullName); } #if !MOBILE Type _Assembly.GetType () { // Required or object::GetType becomes virtual final return base.GetType (); } #endif [MethodImplAttribute (MethodImplOptions.InternalCall)] private extern static Assembly LoadFrom (String assemblyFile, bool refonly); public static Assembly LoadFrom (String assemblyFile) { return LoadFrom (assemblyFile, false); } [Obsolete] public static Assembly LoadFrom (String assemblyFile, Evidence securityEvidence) { Assembly a = LoadFrom (assemblyFile, false); #if !NET_2_1 if ((a != null) && (securityEvidence != null)) { // merge evidence (i.e. replace defaults with provided evidences) a.Evidence.Merge (securityEvidence); } #endif return a; } [Obsolete] [MonoTODO("This overload is not currently implemented")] // FIXME: What are we missing? public static Assembly LoadFrom (String assemblyFile, Evidence securityEvidence, byte[] hashValue, AssemblyHashAlgorithm hashAlgorithm) { throw new NotImplementedException (); } [MonoTODO] public static Assembly LoadFrom (String assemblyFile, byte [] hashValue, AssemblyHashAlgorithm hashAlgorithm) { throw new NotImplementedException (); } public static Assembly UnsafeLoadFrom (String assemblyFile) { return LoadFrom (assemblyFile); } [Obsolete] public static Assembly LoadFile (String path, Evidence securityEvidence) { if (path == null) throw new ArgumentNullException ("path"); if (path == String.Empty) throw new ArgumentException ("Path can't be empty", "path"); // FIXME: Make this do the right thing return LoadFrom (path, securityEvidence); } public static Assembly LoadFile (String path) { return LoadFile (path, null); } public static Assembly Load (String assemblyString) { return AppDomain.CurrentDomain.Load (assemblyString); } [Obsolete] public static Assembly Load (String assemblyString, Evidence assemblySecurity) { return AppDomain.CurrentDomain.Load (assemblyString, assemblySecurity); } public static Assembly Load (AssemblyName assemblyRef) { return AppDomain.CurrentDomain.Load (assemblyRef); } [Obsolete] public static Assembly Load (AssemblyName assemblyRef, Evidence assemblySecurity) { return AppDomain.CurrentDomain.Load (assemblyRef, assemblySecurity); } public static Assembly Load (Byte[] rawAssembly) { return AppDomain.CurrentDomain.Load (rawAssembly); } public static Assembly Load (Byte[] rawAssembly, Byte[] rawSymbolStore) { return AppDomain.CurrentDomain.Load (rawAssembly, rawSymbolStore); } [Obsolete] public static Assembly Load (Byte[] rawAssembly, Byte[] rawSymbolStore, Evidence securityEvidence) { return AppDomain.CurrentDomain.Load (rawAssembly, rawSymbolStore, securityEvidence); } [MonoLimitation ("Argument securityContextSource is ignored")] public static Assembly Load (byte [] rawAssembly, byte [] rawSymbolStore, SecurityContextSource securityContextSource) { return AppDomain.CurrentDomain.Load (rawAssembly, rawSymbolStore); } public static Assembly ReflectionOnlyLoad (byte[] rawAssembly) { return AppDomain.CurrentDomain.Load (rawAssembly, null, null, true); } public static Assembly ReflectionOnlyLoad (string assemblyString) { return AppDomain.CurrentDomain.Load (assemblyString, null, true); } public static Assembly ReflectionOnlyLoadFrom (string assemblyFile) { if (assemblyFile == null) throw new ArgumentNullException ("assemblyFile"); return LoadFrom (assemblyFile, true); } [Obsolete] public static Assembly LoadWithPartialName (string partialName) { return LoadWithPartialName (partialName, null); } [MonoTODO ("Not implemented")] public Module LoadModule (string moduleName, byte [] rawModule) { throw new NotImplementedException (); } [MonoTODO ("Not implemented")] public virtual Module LoadModule (string moduleName, byte [] rawModule, byte [] rawSymbolStore) { throw new NotImplementedException (); } [MethodImplAttribute (MethodImplOptions.InternalCall)] private static extern Assembly load_with_partial_name (string name, Evidence e); [Obsolete] public static Assembly LoadWithPartialName (string partialName, Evidence securityEvidence) { return LoadWithPartialName (partialName, securityEvidence, true); } /** * LAMESPEC: It is possible for this method to throw exceptions IF the name supplied * is a valid gac name and contains filesystem entry charachters at the end of the name * ie System/// will throw an exception. However ////System will not as that is canocolized * out of the name. */ // FIXME: LoadWithPartialName must look cache (no CAS) or read from disk (CAS) internal static Assembly LoadWithPartialName (string partialName, Evidence securityEvidence, bool oldBehavior) { if (!oldBehavior) throw new NotImplementedException (); if (partialName == null) throw new NullReferenceException (); return load_with_partial_name (partialName, securityEvidence); } public Object CreateInstance (String typeName) { return CreateInstance (typeName, false); } public Object CreateInstance (String typeName, Boolean ignoreCase) { Type t = GetType (typeName, false, ignoreCase); if (t == null) return null; try { return Activator.CreateInstance (t); } catch (InvalidOperationException) { throw new ArgumentException ("It is illegal to invoke a method on a Type loaded via ReflectionOnly methods."); } } public virtual Object CreateInstance (String typeName, Boolean ignoreCase, BindingFlags bindingAttr, Binder binder, Object[] args, CultureInfo culture, Object[] activationAttributes) { Type t = GetType (typeName, false, ignoreCase); if (t == null) return null; try { return Activator.CreateInstance (t, bindingAttr, binder, args, culture, activationAttributes); } catch (InvalidOperationException) { throw new ArgumentException ("It is illegal to invoke a method on a Type loaded via ReflectionOnly methods."); } } public Module[] GetLoadedModules () { return GetLoadedModules (false); } public Module[] GetModules () { return GetModules (false); } [MethodImplAttribute (MethodImplOptions.InternalCall)] internal virtual extern Module[] GetModulesInternal (); [MethodImplAttribute (MethodImplOptions.InternalCall)] public extern virtual String[] GetManifestResourceNames (); [MethodImplAttribute (MethodImplOptions.InternalCall)] public extern static Assembly GetExecutingAssembly (); [MethodImplAttribute (MethodImplOptions.InternalCall)] public extern static Assembly GetCallingAssembly (); [MethodImplAttribute (MethodImplOptions.InternalCall)] internal static extern AssemblyName[] GetReferencedAssemblies (Assembly module); [MethodImplAttribute (MethodImplOptions.InternalCall)] private extern bool GetManifestResourceInfoInternal (String name, ManifestResourceInfo info); public virtual ManifestResourceInfo GetManifestResourceInfo (String resourceName) { if (resourceName == null) throw new ArgumentNullException ("resourceName"); if (resourceName.Length == 0) throw new ArgumentException ("String cannot have zero length."); ManifestResourceInfo result = new ManifestResourceInfo (null, null, 0); bool found = GetManifestResourceInfoInternal (resourceName, result); if (found) return result; else return null; } [MonoTODO ("Currently it always returns zero")] [ComVisible (false)] public virtual long HostContext { get { return 0; } } internal virtual Module GetManifestModule () { return GetManifestModuleInternal (); } [MethodImplAttribute (MethodImplOptions.InternalCall)] internal extern Module GetManifestModuleInternal (); [ComVisible (false)] public virtual extern bool ReflectionOnly { [MethodImplAttribute (MethodImplOptions.InternalCall)] get; } public override int GetHashCode () { return base.GetHashCode (); } public override bool Equals (object o) { if (((object) this) == o) return true; if (o == null) return false; Assembly other = (Assembly) o; return other._mono_assembly == _mono_assembly; } #if !NET_2_1 // Code Access Security internal void Resolve () { lock (this) { // FIXME: As we (currently) delay the resolution until the first CAS // Demand it's too late to evaluate the Minimum permission set as a // condition to load the assembly into the AppDomain LoadAssemblyPermissions (); Evidence e = new Evidence (UnprotectedGetEvidence ()); // we need a copy to add PRE e.AddHost (new PermissionRequestEvidence (_minimum, _optional, _refuse)); _granted = SecurityManager.ResolvePolicy (e, _minimum, _optional, _refuse, out _denied); } } internal PermissionSet GrantedPermissionSet { get { if (_granted == null) { if (SecurityManager.ResolvingPolicyLevel != null) { if (SecurityManager.ResolvingPolicyLevel.IsFullTrustAssembly (this)) return DefaultPolicies.FullTrust; else return null; // we can't resolve during resolution } Resolve (); } return _granted; } } internal PermissionSet DeniedPermissionSet { get { // yes we look for granted, as denied may be null if (_granted == null) { if (SecurityManager.ResolvingPolicyLevel != null) { if (SecurityManager.ResolvingPolicyLevel.IsFullTrustAssembly (this)) return null; else return DefaultPolicies.FullTrust; // deny unrestricted } Resolve (); } return _denied; } } [MethodImplAttribute (MethodImplOptions.InternalCall)] extern internal static bool LoadPermissions (Assembly a, ref IntPtr minimum, ref int minLength, ref IntPtr optional, ref int optLength, ref IntPtr refused, ref int refLength); // Support for SecurityAction.RequestMinimum, RequestOptional and RequestRefuse private void LoadAssemblyPermissions () { IntPtr minimum = IntPtr.Zero, optional = IntPtr.Zero, refused = IntPtr.Zero; int minLength = 0, optLength = 0, refLength = 0; if (LoadPermissions (this, ref minimum, ref minLength, ref optional, ref optLength, ref refused, ref refLength)) { // Note: no need to cache these permission sets as they will only be created once // at assembly resolution time. if (minLength > 0) { byte[] data = new byte [minLength]; Marshal.Copy (minimum, data, 0, minLength); _minimum = SecurityManager.Decode (data); } if (optLength > 0) { byte[] data = new byte [optLength]; Marshal.Copy (optional, data, 0, optLength); _optional = SecurityManager.Decode (data); } if (refLength > 0) { byte[] data = new byte [refLength]; Marshal.Copy (refused, data, 0, refLength); _refuse = SecurityManager.Decode (data); } } } public virtual PermissionSet PermissionSet { get { return this.GrantedPermissionSet; } } public virtual SecurityRuleSet SecurityRuleSet { get { throw CreateNIE (); } } #endif static Exception CreateNIE () { return new NotImplementedException ("Derived classes must implement it"); } public virtual IList GetCustomAttributesData () { return CustomAttributeData.GetCustomAttributes (this); } [MonoTODO] public bool IsFullyTrusted { get { return true; } } public virtual Type GetType (string name, bool throwOnError, bool ignoreCase) { throw CreateNIE (); } public virtual Module GetModule (String name) { throw CreateNIE (); } public virtual AssemblyName[] GetReferencedAssemblies () { throw CreateNIE (); } public virtual Module[] GetModules (bool getResourceModules) { throw CreateNIE (); } [MonoTODO ("Always returns the same as GetModules")] public virtual Module[] GetLoadedModules (bool getResourceModules) { throw CreateNIE (); } public virtual Assembly GetSatelliteAssembly (CultureInfo culture) { throw CreateNIE (); } public virtual Assembly GetSatelliteAssembly (CultureInfo culture, Version version) { throw CreateNIE (); } public virtual Module ManifestModule { get { throw CreateNIE (); } } public virtual bool GlobalAssemblyCache { get { throw CreateNIE (); } } public virtual bool IsDynamic { get { return false; } } public static bool operator == (Assembly left, Assembly right) { if ((object)left == (object)right) return true; if ((object)left == null ^ (object)right == null) return false; return left.Equals (right); } public static bool operator != (Assembly left, Assembly right) { if ((object)left == (object)right) return false; if ((object)left == null ^ (object)right == null) return true; return !left.Equals (right); } public virtual IEnumerable DefinedTypes { get { foreach (var type in GetTypes ()) { yield return type.GetTypeInfo (); } } } public virtual IEnumerable ExportedTypes { get { return GetExportedTypes (); } } public virtual IEnumerable Modules { get { return GetModules (); } } public virtual IEnumerable CustomAttributes { get { return GetCustomAttributesData (); } } } }