// ==++== // // Copyright (c) Microsoft Corporation. All rights reserved. // // ==--== /*============================================================ ** ** File: AssemblyName ** ** [....] ** [....] ** ** ** Purpose: Used for binding and retrieving info about an assembly ** ** ===========================================================*/ namespace System.Reflection { using System; using System.IO; using System.Configuration.Assemblies; using System.Runtime.CompilerServices; using CultureInfo = System.Globalization.CultureInfo; using System.Runtime.Serialization; using System.Security.Permissions; using System.Runtime.InteropServices; using System.Runtime.Versioning; using System.Diagnostics.Contracts; [Serializable] [ClassInterface(ClassInterfaceType.None)] [ComDefaultInterface(typeof(_AssemblyName))] [System.Runtime.InteropServices.ComVisible(true)] public sealed class AssemblyName : _AssemblyName, ICloneable, ISerializable, IDeserializationCallback { // // READ ME // If you modify any of these fields, you must also update the // AssemblyBaseObject structure in object.h // private String _Name; // Name private byte[] _PublicKey; private byte[] _PublicKeyToken; private CultureInfo _CultureInfo; private String _CodeBase; // Potential location to get the file private Version _Version; private StrongNameKeyPair _StrongNameKeyPair; private SerializationInfo m_siInfo; //A temporary variable which we need during deserialization. private byte[] _HashForControl; private AssemblyHashAlgorithm _HashAlgorithm; private AssemblyHashAlgorithm _HashAlgorithmForControl; private AssemblyVersionCompatibility _VersionCompatibility; private AssemblyNameFlags _Flags; public AssemblyName() { _HashAlgorithm = AssemblyHashAlgorithm.None; _VersionCompatibility = AssemblyVersionCompatibility.SameMachine; _Flags = AssemblyNameFlags.None; } // Set and get the name of the assembly. If this is a weak Name // then it optionally contains a site. For strong assembly names, // the name partitions up the strong name's namespace public String Name { get { return _Name; } set { _Name = value; } } public Version Version { get { return _Version; } set { _Version = value; } } // Locales, internally the LCID is used for the match. public CultureInfo CultureInfo { get { return _CultureInfo; } set { _CultureInfo = value; } } public String CultureName { get { return (_CultureInfo == null) ? null : _CultureInfo.Name; } } public String CodeBase { #if FEATURE_CORECLR [System.Security.SecurityCritical] // auto-generated #endif [ResourceExposure(ResourceScope.Machine)] get { return _CodeBase; } #if FEATURE_CORECLR [System.Security.SecurityCritical] // auto-generated #endif [ResourceExposure(ResourceScope.Machine)] set { _CodeBase = value; } } public String EscapedCodeBase { [System.Security.SecuritySafeCritical] // auto-generated [ResourceExposure(ResourceScope.Machine)] [ResourceConsumption(ResourceScope.Machine)] get { if (_CodeBase == null) return null; else return EscapeCodeBase(_CodeBase); } } public ProcessorArchitecture ProcessorArchitecture { get { int x = (((int)_Flags) & 0x70) >> 4; if(x > 5) x = 0; return (ProcessorArchitecture)x; } set { int x = ((int)value) & 0x07; if(x <= 5) { _Flags = (AssemblyNameFlags)((int)_Flags & 0xFFFFFF0F); _Flags |= (AssemblyNameFlags)(x << 4); } } } [System.Runtime.InteropServices.ComVisible(false)] public AssemblyContentType ContentType { get { int x = (((int)_Flags) & 0x00000E00) >> 9; if (x > 1) x = 0; return (AssemblyContentType)x; } set { int x = ((int)value) & 0x07; if (x <= 1) { _Flags = (AssemblyNameFlags)((int)_Flags & 0xFFFFF1FF); _Flags |= (AssemblyNameFlags)(x << 9); } } } // Make a copy of this assembly name. public Object Clone() { AssemblyName name = new AssemblyName(); name.Init(_Name, _PublicKey, _PublicKeyToken, _Version, _CultureInfo, _HashAlgorithm, _VersionCompatibility, _CodeBase, _Flags, _StrongNameKeyPair); name._HashForControl=_HashForControl; name._HashAlgorithmForControl=_HashAlgorithmForControl; return name; } /* * Get the AssemblyName for a given file. This will only work * if the file contains an assembly manifest. This method causes * the file to be opened and closed. */ [System.Security.SecuritySafeCritical] // auto-generated [ResourceExposure(ResourceScope.None)] [ResourceConsumption(ResourceScope.Machine, ResourceScope.Machine)] static public AssemblyName GetAssemblyName(String assemblyFile) { if(assemblyFile == null) throw new ArgumentNullException("assemblyFile"); Contract.EndContractBlock(); // Assembly.GetNameInternal() will not demand path discovery // permission, so do that first. String fullPath = Path.GetFullPathInternal(assemblyFile); new FileIOPermission( FileIOPermissionAccess.PathDiscovery, fullPath ).Demand(); return nGetFileInformation(fullPath); } internal void SetHashControl(byte[] hash, AssemblyHashAlgorithm hashAlgorithm) { _HashForControl=hash; _HashAlgorithmForControl=hashAlgorithm; } // The public key that is used to verify an assemblies // inclusion into the namespace. If the public key associated // with the namespace cannot verify the assembly the assembly // will fail to load. public byte[] GetPublicKey() { #if FEATURE_LEGACYNETCF if (CompatibilitySwitches.IsAppEarlierThanWindowsPhone8 && _PublicKey == null) return EmptyArray.Value; else #endif return _PublicKey; } public void SetPublicKey(byte[] publicKey) { _PublicKey = publicKey; if (publicKey == null) _Flags &= ~AssemblyNameFlags.PublicKey; else _Flags |= AssemblyNameFlags.PublicKey; } // The compressed version of the public key formed from a truncated hash. // Will throw a SecurityException if _PublicKey is invalid [System.Security.SecuritySafeCritical] // auto-generated public byte[] GetPublicKeyToken() { if (_PublicKeyToken == null) _PublicKeyToken = nGetPublicKeyToken(); return _PublicKeyToken; } public void SetPublicKeyToken(byte[] publicKeyToken) { _PublicKeyToken = publicKeyToken; } // Flags modifying the name. So far the only flag is PublicKey, which // indicates that a full public key and not the compressed version is // present. // Processor Architecture flags are set only through ProcessorArchitecture // property and can't be set or retrieved directly // Content Type flags are set only through ContentType property and can't be // set or retrieved directly public AssemblyNameFlags Flags { get { return (AssemblyNameFlags)((uint)_Flags & 0xFFFFF10F); } set { _Flags &= unchecked((AssemblyNameFlags)0x00000EF0); _Flags |= (value & unchecked((AssemblyNameFlags)0xFFFFF10F)); } } public AssemblyHashAlgorithm HashAlgorithm { get { return _HashAlgorithm; } set { _HashAlgorithm = value; } } public AssemblyVersionCompatibility VersionCompatibility { get { return _VersionCompatibility; } set { _VersionCompatibility = value; } } public StrongNameKeyPair KeyPair { get { return _StrongNameKeyPair; } set { _StrongNameKeyPair = value; } } public String FullName { [System.Security.SecuritySafeCritical] // auto-generated get { String name = nToString(); if (CompatibilitySwitches.IsAppEarlierThanWindowsPhone8 && string.IsNullOrEmpty(name)) return base.ToString(); return name; } } // Returns the stringized version of the assembly name. public override String ToString() { String s = FullName; if(s == null) return base.ToString(); else return s; } [System.Security.SecurityCritical] // auto-generated_required public void GetObjectData(SerializationInfo info, StreamingContext context) { if (info == null) throw new ArgumentNullException("info"); Contract.EndContractBlock(); //Allocate the serialization info and serialize our static data. info.AddValue("_Name", _Name); info.AddValue("_PublicKey", _PublicKey, typeof(byte[])); info.AddValue("_PublicKeyToken", _PublicKeyToken, typeof(byte[])); #if FEATURE_USE_LCID info.AddValue("_CultureInfo", (_CultureInfo == null) ? -1 :_CultureInfo.LCID); #endif info.AddValue("_CodeBase", _CodeBase); info.AddValue("_Version", _Version); info.AddValue("_HashAlgorithm", _HashAlgorithm, typeof(AssemblyHashAlgorithm)); info.AddValue("_HashAlgorithmForControl", _HashAlgorithmForControl, typeof(AssemblyHashAlgorithm)); info.AddValue("_StrongNameKeyPair", _StrongNameKeyPair, typeof(StrongNameKeyPair)); info.AddValue("_VersionCompatibility", _VersionCompatibility, typeof(AssemblyVersionCompatibility)); info.AddValue("_Flags", _Flags, typeof(AssemblyNameFlags)); info.AddValue("_HashForControl",_HashForControl,typeof(byte[])); } public void OnDeserialization(Object sender) { // Deserialization has already been performed if (m_siInfo == null) return; _Name = m_siInfo.GetString("_Name"); _PublicKey = (byte[]) m_siInfo.GetValue("_PublicKey", typeof(byte[])); _PublicKeyToken = (byte[]) m_siInfo.GetValue("_PublicKeyToken", typeof(byte[])); #if FEATURE_USE_LCID int lcid = (int)m_siInfo.GetInt32("_CultureInfo"); if (lcid != -1) _CultureInfo = new CultureInfo(lcid); #endif _CodeBase = m_siInfo.GetString("_CodeBase"); _Version = (Version) m_siInfo.GetValue("_Version", typeof(Version)); _HashAlgorithm = (AssemblyHashAlgorithm) m_siInfo.GetValue("_HashAlgorithm", typeof(AssemblyHashAlgorithm)); _StrongNameKeyPair = (StrongNameKeyPair) m_siInfo.GetValue("_StrongNameKeyPair", typeof(StrongNameKeyPair)); _VersionCompatibility = (AssemblyVersionCompatibility)m_siInfo.GetValue("_VersionCompatibility", typeof(AssemblyVersionCompatibility)); _Flags = (AssemblyNameFlags) m_siInfo.GetValue("_Flags", typeof(AssemblyNameFlags)); try { _HashAlgorithmForControl = (AssemblyHashAlgorithm) m_siInfo.GetValue("_HashAlgorithmForControl", typeof(AssemblyHashAlgorithm)); _HashForControl = (byte[]) m_siInfo.GetValue("_HashForControl", typeof(byte[])); } catch (SerializationException) { // RTM did not have these defined _HashAlgorithmForControl = AssemblyHashAlgorithm.None; _HashForControl = null; } m_siInfo = null; } [System.Security.SecuritySafeCritical] // auto-generated public AssemblyName(String assemblyName) { if (assemblyName == null) throw new ArgumentNullException("assemblyName"); Contract.EndContractBlock(); if ((assemblyName.Length == 0) || (assemblyName[0] == '\0')) throw new ArgumentException(Environment.GetResourceString("Format_StringZeroLength")); _Name = assemblyName; nInit(); } [System.Security.SecuritySafeCritical] // auto-generated [ResourceExposure(ResourceScope.None)] static public bool ReferenceMatchesDefinition(AssemblyName reference, AssemblyName definition) { // Optimization for common use case if (Object.ReferenceEquals(reference, definition)) { return true; } return ReferenceMatchesDefinitionInternal(reference, definition, true); } /// "parse" tells us to parse the simple name of the assembly as if it was the full name /// almost never the right thing to do, but needed for compat [System.Security.SecuritySafeCritical] // auto-generated [ResourceExposure(ResourceScope.None)] [MethodImplAttribute(MethodImplOptions.InternalCall)] static internal extern bool ReferenceMatchesDefinitionInternal(AssemblyName reference, AssemblyName definition, bool parse); [System.Security.SecurityCritical] // auto-generated [ResourceExposure(ResourceScope.None)] [MethodImplAttribute(MethodImplOptions.InternalCall)] internal extern void nInit(out RuntimeAssembly assembly, bool forIntrospection, bool raiseResolveEvent); [System.Security.SecurityCritical] // auto-generated internal void nInit() { RuntimeAssembly dummy = null; nInit(out dummy, false, false); } // Constructs a new AssemblyName during deserialization. internal AssemblyName(SerializationInfo info, StreamingContext context) { //The graph is not valid until OnDeserialization() has been called. m_siInfo = info; } internal void SetProcArchIndex(PortableExecutableKinds pek, ImageFileMachine ifm) { ProcessorArchitecture = CalculateProcArchIndex(pek, ifm, _Flags); } internal static ProcessorArchitecture CalculateProcArchIndex(PortableExecutableKinds pek, ImageFileMachine ifm, AssemblyNameFlags flags) { if (((uint)flags & 0xF0) == 0x70) return ProcessorArchitecture.None; if ((pek & System.Reflection.PortableExecutableKinds.PE32Plus) == System.Reflection.PortableExecutableKinds.PE32Plus) { switch (ifm) { case System.Reflection.ImageFileMachine.IA64: return ProcessorArchitecture.IA64; case System.Reflection.ImageFileMachine.AMD64: return ProcessorArchitecture.Amd64; case System.Reflection.ImageFileMachine.I386: if ((pek & System.Reflection.PortableExecutableKinds.ILOnly) == System.Reflection.PortableExecutableKinds.ILOnly) return ProcessorArchitecture.MSIL; break; } } else { if (ifm == System.Reflection.ImageFileMachine.I386) { if ((pek & System.Reflection.PortableExecutableKinds.Required32Bit) == System.Reflection.PortableExecutableKinds.Required32Bit) return ProcessorArchitecture.X86; if ((pek & System.Reflection.PortableExecutableKinds.ILOnly) == System.Reflection.PortableExecutableKinds.ILOnly) return ProcessorArchitecture.MSIL; return ProcessorArchitecture.X86; } if (ifm == System.Reflection.ImageFileMachine.ARM) { return ProcessorArchitecture.Arm; } } return ProcessorArchitecture.None; } internal void Init(String name, byte[] publicKey, byte[] publicKeyToken, Version version, CultureInfo cultureInfo, AssemblyHashAlgorithm hashAlgorithm, AssemblyVersionCompatibility versionCompatibility, String codeBase, AssemblyNameFlags flags, StrongNameKeyPair keyPair) // Null if ref, matching Assembly if def { _Name = name; if (publicKey != null) { _PublicKey = new byte[publicKey.Length]; Array.Copy(publicKey, _PublicKey, publicKey.Length); } if (publicKeyToken != null) { _PublicKeyToken = new byte[publicKeyToken.Length]; Array.Copy(publicKeyToken, _PublicKeyToken, publicKeyToken.Length); } if (version != null) _Version = (Version) version.Clone(); _CultureInfo = cultureInfo; _HashAlgorithm = hashAlgorithm; _VersionCompatibility = versionCompatibility; _CodeBase = codeBase; _Flags = flags; _StrongNameKeyPair = keyPair; } void _AssemblyName.GetTypeInfoCount(out uint pcTInfo) { throw new NotImplementedException(); } void _AssemblyName.GetTypeInfo(uint iTInfo, uint lcid, IntPtr ppTInfo) { throw new NotImplementedException(); } void _AssemblyName.GetIDsOfNames([In] ref Guid riid, IntPtr rgszNames, uint cNames, uint lcid, IntPtr rgDispId) { throw new NotImplementedException(); } void _AssemblyName.Invoke(uint dispIdMember, [In] ref Guid riid, uint lcid, short wFlags, IntPtr pDispParams, IntPtr pVarResult, IntPtr pExcepInfo, IntPtr puArgErr) { throw new NotImplementedException(); } #if FEATURE_APTCA internal string GetNameWithPublicKey() { byte[] key = GetPublicKey(); // The following string should not be localized because it is used in security decisions. return Name + ", PublicKey=" + System.Security.Util.Hex.EncodeHexString(key); } #endif // This call opens and closes the file, but does not add the // assembly to the domain. [System.Security.SecurityCritical] // auto-generated [ResourceExposure(ResourceScope.Machine)] [MethodImplAttribute(MethodImplOptions.InternalCall)] static internal extern AssemblyName nGetFileInformation(String s); [System.Security.SecurityCritical] // auto-generated [ResourceExposure(ResourceScope.None)] [MethodImplAttribute(MethodImplOptions.InternalCall)] private extern String nToString(); [System.Security.SecurityCritical] // auto-generated [ResourceExposure(ResourceScope.None)] [MethodImplAttribute(MethodImplOptions.InternalCall)] private extern byte[] nGetPublicKeyToken(); [System.Security.SecurityCritical] // auto-generated [ResourceExposure(ResourceScope.Machine)] [MethodImplAttribute(MethodImplOptions.InternalCall)] static internal extern String EscapeCodeBase(String codeBase); } }