PolicyManager.cs source code in C# .NET

Source code for the .NET framework in C#

                        

Code:

/ 4.0 / 4.0 / DEVDIV_TFS / Dev10 / Releases / RTMRel / ndp / clr / src / BCL / System / Security / PolicyManager.cs / 1305376 / PolicyManager.cs

                            // ==++== 
//
//   Copyright (c) Microsoft Corporation.  All rights reserved.
//
// ==--== 
// [....]
// 
 
//
// PolicyManager.cs 
//

namespace System.Security {
    using System.Collections; 
    using System.Globalization;
    using System.IO; 
    using System.Runtime.CompilerServices; 
    using System.Runtime.InteropServices;
    using System.Runtime.Serialization.Formatters.Binary; 
    using System.Runtime.Versioning;
    using System.Security.Util;
    using System.Security.Policy;
    using System.Security.Permissions; 
    using System.Text;
    using System.Threading; 
    using System.Diagnostics.Contracts; 

    internal class PolicyManager { 
        // Only parse the system CAS policy levels when needed. In particular,
        // we do not use these when the AppDomain is homogeneous for example.
        private object m_policyLevels;
        private IList PolicyLevels { 
            [System.Security.SecurityCritical]  // auto-generated
            [ResourceExposure(ResourceScope.None)] 
            [ResourceConsumption(ResourceScope.Machine, ResourceScope.Machine)] 
            get {
                if (m_policyLevels == null) { 
                    ArrayList policyLevels = new ArrayList();

                    string enterpriseConfig = PolicyLevel.GetLocationFromType(System.Security.PolicyLevelType.Enterprise);
                    policyLevels.Add(new PolicyLevel(System.Security.PolicyLevelType.Enterprise, enterpriseConfig, ConfigId.EnterprisePolicyLevel)); 

                    string machineConfig = PolicyLevel.GetLocationFromType(System.Security.PolicyLevelType.Machine); 
                    policyLevels.Add(new PolicyLevel(System.Security.PolicyLevelType.Machine, machineConfig, ConfigId.MachinePolicyLevel)); 

                    // The user directory could be null if the user does not have a user profile for example. 
                    if (Config.UserDirectory != null) {
                        string userConfig = PolicyLevel.GetLocationFromType(System.Security.PolicyLevelType.User);
                        policyLevels.Add(new PolicyLevel(System.Security.PolicyLevelType.User, userConfig, ConfigId.UserPolicyLevel));
                    } 
                    Interlocked.CompareExchange(ref m_policyLevels, policyLevels, null);
                } 
                return m_policyLevels as ArrayList; 
            }
        } 

        internal PolicyManager() {}

        [System.Security.SecurityCritical]  // auto-generated 
        internal void AddLevel (PolicyLevel level) {
            PolicyLevels.Add(level); 
        } 

        [System.Security.SecurityCritical]  // auto-generated 
        [SecurityPermissionAttribute(SecurityAction.Demand, Flags=SecurityPermissionFlag.ControlPolicy)]
        internal IEnumerator PolicyHierarchy() {
            return PolicyLevels.GetEnumerator();
        } 

        [System.Security.SecurityCritical]  // auto-generated 
        internal PermissionSet Resolve(Evidence evidence) 
        {
            // If we can resolve the grant set for the evidence via the host or the current AppDomain state, 
            // then return that.  Otherwise, call back out to code group resolution.
            PermissionSet grantSet = null;
            if (CodeAccessSecurityEngine.TryResolveGrantSet(evidence, out grantSet))
            { 
                return grantSet;
            } 
            else 
            {
                BCLDebug.Assert(AppDomain.CurrentDomain.IsLegacyCasPolicyEnabled, "We're about to apply policy in a policy disabled app"); 
                return CodeGroupResolve(evidence, false);
            }
        }
 
        [System.Security.SecurityCritical]  // auto-generated
        [ResourceExposure(ResourceScope.None)] 
        [ResourceConsumption(ResourceScope.AppDomain, ResourceScope.AppDomain)] 
        internal PermissionSet CodeGroupResolve (Evidence evidence, bool systemPolicy) {
            Contract.Assert(AppDomain.CurrentDomain.IsLegacyCasPolicyEnabled); 

            PermissionSet grant = null;
            PolicyStatement policy;
            PolicyLevel currentLevel = null; 

            IEnumerator levelEnumerator = PolicyLevels.GetEnumerator(); 
 
            // We're optimized for standard policy, where the only evidence that is generally evaluated are
            // Zone, StrongName and Url.  Since all of these are relatively inexpensive, we'll force them to 
            // generate, then use that as a key into the cache.
            evidence.GetHostEvidence();
            evidence.GetHostEvidence();
            evidence.GetHostEvidence(); 
            byte[] serializedEvidence = evidence.RawSerialize();
            int count = evidence.RawCount; 
 
            bool legacyIgnoreSystemPolicy = (AppDomain.CurrentDomain.GetData("IgnoreSystemPolicy") != null);
            bool testApplicationLevels = false; 
            while (levelEnumerator.MoveNext())
            {
                currentLevel = (PolicyLevel)levelEnumerator.Current;
                if (systemPolicy) { 
                    if (currentLevel.Type == PolicyLevelType.AppDomain)
                        continue; 
                } else if (legacyIgnoreSystemPolicy && currentLevel.Type != PolicyLevelType.AppDomain) 
                    continue;
 
                policy = currentLevel.Resolve(evidence, count, serializedEvidence);

                // If the grant is "AllPossible", the intersection is just the other permission set.
                // Otherwise, do an inplace intersection (since we know we can alter the grant set since 
                // it is a copy of the first policy statement's permission set).
 
                if (grant == null) 
                    grant = policy.PermissionSet;
                else 
                    grant.InplaceIntersect(policy.GetPermissionSetNoCopy());

                if (grant == null || grant.FastIsEmpty())
                { 
                    break;
                } 
                else if ((policy.Attributes & PolicyStatementAttribute.LevelFinal) == PolicyStatementAttribute.LevelFinal) 
                {
                    if (currentLevel.Type != PolicyLevelType.AppDomain) 
                    {
                        testApplicationLevels = true;
                    }
                    break; 
                }
            } 
 
            if (grant != null && testApplicationLevels)
            { 
                PolicyLevel appDomainLevel = null;

                for (int i = PolicyLevels.Count - 1; i >= 0; --i)
                { 
                    currentLevel = (PolicyLevel) PolicyLevels[i];
                    if (currentLevel.Type == PolicyLevelType.AppDomain) 
                    { 
                        appDomainLevel = currentLevel;
                        break; 
                    }
                }

                if (appDomainLevel != null) 
                {
                    policy = appDomainLevel.Resolve(evidence, count, serializedEvidence); 
                    grant.InplaceIntersect(policy.GetPermissionSetNoCopy()); 
                }
            } 

            if (grant == null)
                grant = new PermissionSet(PermissionState.None);
 
            // Each piece of evidence can possibly create an identity permission that we
            // need to add to our grant set.  Therefore, for all pieces of evidence that 
            // implement the IIdentityPermissionFactory interface, ask it for its 
            // adjoining identity permission and add it to the grant.
 
            if (!grant.IsUnrestricted())
            {
                IEnumerator enumerator = evidence.GetHostEnumerator();
                while (enumerator.MoveNext()) 
                {
                    Object obj = enumerator.Current; 
                    IIdentityPermissionFactory factory = obj as IIdentityPermissionFactory; 
                    if (factory != null)
                    { 
                        IPermission perm = factory.CreateIdentityPermission( evidence );
                        if (perm != null)
                            grant.AddPermission( perm );
                    } 
                }
            } 
 
            grant.IgnoreTypeLoadFailures = true;
            return grant; 
        }

        internal static bool IsGacAssembly (Evidence evidence) {
            return new GacMembershipCondition().Check(evidence); 
        }
 
        [System.Security.SecurityCritical]  // auto-generated 
        internal IEnumerator ResolveCodeGroups (Evidence evidence) {
            ArrayList accumList = new ArrayList(); 
            IEnumerator levelEnumerator = PolicyLevels.GetEnumerator();

            while (levelEnumerator.MoveNext())
            { 
                CodeGroup temp = ((PolicyLevel)levelEnumerator.Current).ResolveMatchingCodeGroups(evidence);
                if (temp != null) 
                    accumList.Add(temp); 
            }
 
            return accumList.GetEnumerator(0, accumList.Count);
        }

#pragma warning disable 618 
        internal static PolicyStatement ResolveCodeGroup(CodeGroup codeGroup, Evidence evidence)
        { 
            // Custom code groups won't know how to mark the evidence they're using, so we need to 
            // be pessimistic and mark it all as used if we encounter a code group from outside of mscorlib.
            if (codeGroup.GetType().Assembly != typeof(UnionCodeGroup).Assembly) 
            {
                evidence.MarkAllEvidenceAsUsed();
            }
 
            return codeGroup.Resolve(evidence);
        } 
#pragma warning restore 618 

        ///  
        ///     Check the membership condition to see if it matches the given evidence, and if the
        ///     membership condition supports it also return the evidence which was used to match the
        ///     membership condition.
        ///  
        internal static bool CheckMembershipCondition(IMembershipCondition membershipCondition,
                                                      Evidence evidence, 
                                                      out object usedEvidence) { 
            BCLDebug.Assert(membershipCondition != null, "membershipCondition != null");
            BCLDebug.Assert(evidence != null, "evidence != null"); 

            IReportMatchMembershipCondition reportMatchMembershipCondition = membershipCondition as IReportMatchMembershipCondition;

            // If the membership condition supports telling us which evidence was used to match, then use 
            // that capability.  Otherwise, we cannot report this information - which means we need to be
            // conservative and assume that all of the evidence was used and mark it as such. 
            if (reportMatchMembershipCondition != null) { 
                return reportMatchMembershipCondition.Check(evidence, out usedEvidence);
            } 
            else {
                usedEvidence = null;
                evidence.MarkAllEvidenceAsUsed();
 
                return membershipCondition.Check(evidence);
            } 
        } 

        [System.Security.SecurityCritical]  // auto-generated 
        internal void Save () {
            EncodeLevel(Environment.GetResourceString("Policy_PL_Enterprise"));
            EncodeLevel(Environment.GetResourceString("Policy_PL_Machine"));
            EncodeLevel(Environment.GetResourceString("Policy_PL_User")); 
        }
 
        [System.Security.SecurityCritical]  // auto-generated 
        private void EncodeLevel (string label) {
            for (int i = 0; i < PolicyLevels.Count; ++i) 
            {
                PolicyLevel currentLevel = (PolicyLevel) PolicyLevels[i];
                if (currentLevel.Label.Equals(label))
                { 
                    EncodeLevel(currentLevel);
                    return; 
                } 
            }
        } 

        [System.Security.SecurityCritical]  // auto-generated
        [ResourceExposure(ResourceScope.None)]
        [ResourceConsumption(ResourceScope.Machine, ResourceScope.Machine)] 
        internal static void EncodeLevel (PolicyLevel level)
        { 
            Contract.Assert(level != null, "No policy level to encode."); 

            // We cannot encode a policy level without a backing file 
            if (level.Path == null)
            {
                string errorMessage = Environment.GetResourceString("Policy_UnableToSave",
                                                    level.Label, 
                                                    Environment.GetResourceString("Policy_SaveNotFileBased"));
                throw new PolicyException(errorMessage); 
            } 

            SecurityElement elConf = new SecurityElement("configuration"); 
            SecurityElement elMscorlib = new SecurityElement("mscorlib");
            SecurityElement elSecurity = new SecurityElement("security");
            SecurityElement elPolicy = new SecurityElement("policy");
 
            elConf.AddChild(elMscorlib);
            elMscorlib.AddChild(elSecurity); 
            elSecurity.AddChild(elPolicy); 
            elPolicy.AddChild(level.ToXml());
 
            try
            {
                StringBuilder sb = new StringBuilder();
                Encoding encoding = Encoding.UTF8; 

                SecurityElement format = new SecurityElement("xml"); 
                format.m_type = SecurityElementType.Format; 
                format.AddAttribute("version", "1.0");
                format.AddAttribute("encoding", encoding.WebName); 
                sb.Append(format.ToString());
                sb.Append(elConf.ToString());

                byte[] data = encoding.GetBytes(sb.ToString()); 

                // Write out the new config. 
                int hrSave = Config.SaveDataByte(level.Path, data, data.Length); 
                Exception extendedError = Marshal.GetExceptionForHR(hrSave);
                if (extendedError != null) 
                {
                    string extendedInformation = extendedError != null ? extendedError.Message : String.Empty;
                    throw new PolicyException(Environment.GetResourceString("Policy_UnableToSave", level.Label, extendedInformation), extendedError);
                } 
            }
            catch (Exception e) 
            { 
                if (e is PolicyException)
                    throw e; 
                else
                    throw new PolicyException(Environment.GetResourceString("Policy_UnableToSave", level.Label, e.Message), e);
            }
 
            Config.ResetCacheData(level.ConfigId);
            if (CanUseQuickCache(level.RootCodeGroup)) 
                Config.SetQuickCache(level.ConfigId, GenerateQuickCache(level)); 
        }
 
        // Here is the managed portion of the QuickCache code.  It
        // is mainly concerned with detecting whether it is valid
        // for us to use the quick cache, and then calculating the
        // proper mapping of partial evidence to partial mapping. 
        //
        // The choice of the partial evidence sets is fairly arbitrary 
        // and in this case is tailored to give us meaningful 
        // results from default policy.
        // 
        // The choice of whether or not we can use the quick cache
        // is far from arbitrary.  There are a number of conditions that must
        // be true for the QuickCache to produce valid result.  These
        // are: 
        //
        // * equivalent evidence objects must produce the same 
        //   grant set (i.e. it must be independent of time of day, 
        //   space on the harddisk, other "external" factors, and
        //   cannot be random). 
        //
        // * evidence must be used positively (i.e. if evidence A grants
        //   permission X, then evidence A+B must grant at least permission
        //   X). 
        //
        // In particular for our implementation, this means that we 
        // limit the classes that can be used by policy to just 
        // the ones defined within mscorlib and that there are
        // no Exclusive bits set on any code groups. 

        internal static bool CanUseQuickCache (CodeGroup group) {
            ArrayList list = new ArrayList();
 
            list.Add(group);
 
            for (int i = 0; i < list.Count; ++i) 
            {
                group = (CodeGroup)list[i]; 

                IUnionSemanticCodeGroup unionGroup = group as IUnionSemanticCodeGroup;

                if (unionGroup != null) 
                {
                    if (!TestPolicyStatement(group.PolicyStatement)) 
                        return false; 
                }
                else 
                {
                    return false;
                }
 
                IMembershipCondition cond = group.MembershipCondition;
                if (cond != null && !(cond is IConstantMembershipCondition)) 
                { 
                    return false;
                } 

                IList children = group.Children;

                if (children != null && children.Count > 0) 
                {
                    IEnumerator enumerator = children.GetEnumerator(); 
 
                    while (enumerator.MoveNext())
                    { 
                        list.Add(enumerator.Current);
                    }
                }
            } 

            return true; 
        } 

        private static bool TestPolicyStatement (PolicyStatement policy) { 
            if (policy == null)
                return true;
            return (policy.Attributes & PolicyStatementAttribute.Exclusive) == 0;
        } 

        private static QuickCacheEntryType[] FullTrustMap; 
        private static QuickCacheEntryType GenerateQuickCache(PolicyLevel level) 
        {
            if (FullTrustMap == null) 
            {
                // This mapping must stay in [....] with the SecurityZone enumeration in SecurityZone.cs
                FullTrustMap = new QuickCacheEntryType[]
                { 
                    QuickCacheEntryType.FullTrustZoneMyComputer,
                  QuickCacheEntryType.FullTrustZoneIntranet, 
                    QuickCacheEntryType.FullTrustZoneTrusted, 
                  QuickCacheEntryType.FullTrustZoneInternet,
                    QuickCacheEntryType.FullTrustZoneUntrusted 
                };
            }

            QuickCacheEntryType accumulator = (QuickCacheEntryType)0; 

            Evidence noEvidence = new Evidence(); 
 
            PermissionSet policy = null;
 
            try
            {
                policy = level.Resolve( noEvidence ).PermissionSet;
                if (policy.IsUnrestricted()) 
                    accumulator |= QuickCacheEntryType.FullTrustAll;
            } 
            catch (PolicyException) 
            {
            } 

            foreach (SecurityZone zone in Enum.GetValues(typeof(SecurityZone)))
            {
                if (zone == SecurityZone.NoZone) 
                    continue;
 
                Evidence zoneEvidence = new Evidence(); 
                zoneEvidence.AddHostEvidence(new Zone(zone));
 
                PermissionSet zonePolicy = null;

                try
                { 
                    zonePolicy = level.Resolve( zoneEvidence ).PermissionSet;
                    if (zonePolicy.IsUnrestricted()) 
                    { 
                        Contract.Assert(0 <= (int)zone && (int)zone < FullTrustMap.Length, "FullTrustMap does not contain a mapping for this zone.");
                        accumulator |= FullTrustMap[(int)zone]; 
                    }
                }
                catch (PolicyException)
                { 
                }
            } 
 
            return accumulator;
        } 

#if _DEBUG
        [System.Security.SecurityCritical]  // auto-generated
        [ResourceExposure(ResourceScope.None)] 
        [DllImport(JitHelpers.QCall, CharSet = CharSet.Unicode), SuppressUnmanagedCodeSecurity]
        internal static extern int DebugOut(String file, String message); 
#endif 
    }
} 

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
// ==++== 
//
//   Copyright (c) Microsoft Corporation.  All rights reserved.
//
// ==--== 
// [....]
// 
 
//
// PolicyManager.cs 
//

namespace System.Security {
    using System.Collections; 
    using System.Globalization;
    using System.IO; 
    using System.Runtime.CompilerServices; 
    using System.Runtime.InteropServices;
    using System.Runtime.Serialization.Formatters.Binary; 
    using System.Runtime.Versioning;
    using System.Security.Util;
    using System.Security.Policy;
    using System.Security.Permissions; 
    using System.Text;
    using System.Threading; 
    using System.Diagnostics.Contracts; 

    internal class PolicyManager { 
        // Only parse the system CAS policy levels when needed. In particular,
        // we do not use these when the AppDomain is homogeneous for example.
        private object m_policyLevels;
        private IList PolicyLevels { 
            [System.Security.SecurityCritical]  // auto-generated
            [ResourceExposure(ResourceScope.None)] 
            [ResourceConsumption(ResourceScope.Machine, ResourceScope.Machine)] 
            get {
                if (m_policyLevels == null) { 
                    ArrayList policyLevels = new ArrayList();

                    string enterpriseConfig = PolicyLevel.GetLocationFromType(System.Security.PolicyLevelType.Enterprise);
                    policyLevels.Add(new PolicyLevel(System.Security.PolicyLevelType.Enterprise, enterpriseConfig, ConfigId.EnterprisePolicyLevel)); 

                    string machineConfig = PolicyLevel.GetLocationFromType(System.Security.PolicyLevelType.Machine); 
                    policyLevels.Add(new PolicyLevel(System.Security.PolicyLevelType.Machine, machineConfig, ConfigId.MachinePolicyLevel)); 

                    // The user directory could be null if the user does not have a user profile for example. 
                    if (Config.UserDirectory != null) {
                        string userConfig = PolicyLevel.GetLocationFromType(System.Security.PolicyLevelType.User);
                        policyLevels.Add(new PolicyLevel(System.Security.PolicyLevelType.User, userConfig, ConfigId.UserPolicyLevel));
                    } 
                    Interlocked.CompareExchange(ref m_policyLevels, policyLevels, null);
                } 
                return m_policyLevels as ArrayList; 
            }
        } 

        internal PolicyManager() {}

        [System.Security.SecurityCritical]  // auto-generated 
        internal void AddLevel (PolicyLevel level) {
            PolicyLevels.Add(level); 
        } 

        [System.Security.SecurityCritical]  // auto-generated 
        [SecurityPermissionAttribute(SecurityAction.Demand, Flags=SecurityPermissionFlag.ControlPolicy)]
        internal IEnumerator PolicyHierarchy() {
            return PolicyLevels.GetEnumerator();
        } 

        [System.Security.SecurityCritical]  // auto-generated 
        internal PermissionSet Resolve(Evidence evidence) 
        {
            // If we can resolve the grant set for the evidence via the host or the current AppDomain state, 
            // then return that.  Otherwise, call back out to code group resolution.
            PermissionSet grantSet = null;
            if (CodeAccessSecurityEngine.TryResolveGrantSet(evidence, out grantSet))
            { 
                return grantSet;
            } 
            else 
            {
                BCLDebug.Assert(AppDomain.CurrentDomain.IsLegacyCasPolicyEnabled, "We're about to apply policy in a policy disabled app"); 
                return CodeGroupResolve(evidence, false);
            }
        }
 
        [System.Security.SecurityCritical]  // auto-generated
        [ResourceExposure(ResourceScope.None)] 
        [ResourceConsumption(ResourceScope.AppDomain, ResourceScope.AppDomain)] 
        internal PermissionSet CodeGroupResolve (Evidence evidence, bool systemPolicy) {
            Contract.Assert(AppDomain.CurrentDomain.IsLegacyCasPolicyEnabled); 

            PermissionSet grant = null;
            PolicyStatement policy;
            PolicyLevel currentLevel = null; 

            IEnumerator levelEnumerator = PolicyLevels.GetEnumerator(); 
 
            // We're optimized for standard policy, where the only evidence that is generally evaluated are
            // Zone, StrongName and Url.  Since all of these are relatively inexpensive, we'll force them to 
            // generate, then use that as a key into the cache.
            evidence.GetHostEvidence();
            evidence.GetHostEvidence();
            evidence.GetHostEvidence(); 
            byte[] serializedEvidence = evidence.RawSerialize();
            int count = evidence.RawCount; 
 
            bool legacyIgnoreSystemPolicy = (AppDomain.CurrentDomain.GetData("IgnoreSystemPolicy") != null);
            bool testApplicationLevels = false; 
            while (levelEnumerator.MoveNext())
            {
                currentLevel = (PolicyLevel)levelEnumerator.Current;
                if (systemPolicy) { 
                    if (currentLevel.Type == PolicyLevelType.AppDomain)
                        continue; 
                } else if (legacyIgnoreSystemPolicy && currentLevel.Type != PolicyLevelType.AppDomain) 
                    continue;
 
                policy = currentLevel.Resolve(evidence, count, serializedEvidence);

                // If the grant is "AllPossible", the intersection is just the other permission set.
                // Otherwise, do an inplace intersection (since we know we can alter the grant set since 
                // it is a copy of the first policy statement's permission set).
 
                if (grant == null) 
                    grant = policy.PermissionSet;
                else 
                    grant.InplaceIntersect(policy.GetPermissionSetNoCopy());

                if (grant == null || grant.FastIsEmpty())
                { 
                    break;
                } 
                else if ((policy.Attributes & PolicyStatementAttribute.LevelFinal) == PolicyStatementAttribute.LevelFinal) 
                {
                    if (currentLevel.Type != PolicyLevelType.AppDomain) 
                    {
                        testApplicationLevels = true;
                    }
                    break; 
                }
            } 
 
            if (grant != null && testApplicationLevels)
            { 
                PolicyLevel appDomainLevel = null;

                for (int i = PolicyLevels.Count - 1; i >= 0; --i)
                { 
                    currentLevel = (PolicyLevel) PolicyLevels[i];
                    if (currentLevel.Type == PolicyLevelType.AppDomain) 
                    { 
                        appDomainLevel = currentLevel;
                        break; 
                    }
                }

                if (appDomainLevel != null) 
                {
                    policy = appDomainLevel.Resolve(evidence, count, serializedEvidence); 
                    grant.InplaceIntersect(policy.GetPermissionSetNoCopy()); 
                }
            } 

            if (grant == null)
                grant = new PermissionSet(PermissionState.None);
 
            // Each piece of evidence can possibly create an identity permission that we
            // need to add to our grant set.  Therefore, for all pieces of evidence that 
            // implement the IIdentityPermissionFactory interface, ask it for its 
            // adjoining identity permission and add it to the grant.
 
            if (!grant.IsUnrestricted())
            {
                IEnumerator enumerator = evidence.GetHostEnumerator();
                while (enumerator.MoveNext()) 
                {
                    Object obj = enumerator.Current; 
                    IIdentityPermissionFactory factory = obj as IIdentityPermissionFactory; 
                    if (factory != null)
                    { 
                        IPermission perm = factory.CreateIdentityPermission( evidence );
                        if (perm != null)
                            grant.AddPermission( perm );
                    } 
                }
            } 
 
            grant.IgnoreTypeLoadFailures = true;
            return grant; 
        }

        internal static bool IsGacAssembly (Evidence evidence) {
            return new GacMembershipCondition().Check(evidence); 
        }
 
        [System.Security.SecurityCritical]  // auto-generated 
        internal IEnumerator ResolveCodeGroups (Evidence evidence) {
            ArrayList accumList = new ArrayList(); 
            IEnumerator levelEnumerator = PolicyLevels.GetEnumerator();

            while (levelEnumerator.MoveNext())
            { 
                CodeGroup temp = ((PolicyLevel)levelEnumerator.Current).ResolveMatchingCodeGroups(evidence);
                if (temp != null) 
                    accumList.Add(temp); 
            }
 
            return accumList.GetEnumerator(0, accumList.Count);
        }

#pragma warning disable 618 
        internal static PolicyStatement ResolveCodeGroup(CodeGroup codeGroup, Evidence evidence)
        { 
            // Custom code groups won't know how to mark the evidence they're using, so we need to 
            // be pessimistic and mark it all as used if we encounter a code group from outside of mscorlib.
            if (codeGroup.GetType().Assembly != typeof(UnionCodeGroup).Assembly) 
            {
                evidence.MarkAllEvidenceAsUsed();
            }
 
            return codeGroup.Resolve(evidence);
        } 
#pragma warning restore 618 

        ///  
        ///     Check the membership condition to see if it matches the given evidence, and if the
        ///     membership condition supports it also return the evidence which was used to match the
        ///     membership condition.
        ///  
        internal static bool CheckMembershipCondition(IMembershipCondition membershipCondition,
                                                      Evidence evidence, 
                                                      out object usedEvidence) { 
            BCLDebug.Assert(membershipCondition != null, "membershipCondition != null");
            BCLDebug.Assert(evidence != null, "evidence != null"); 

            IReportMatchMembershipCondition reportMatchMembershipCondition = membershipCondition as IReportMatchMembershipCondition;

            // If the membership condition supports telling us which evidence was used to match, then use 
            // that capability.  Otherwise, we cannot report this information - which means we need to be
            // conservative and assume that all of the evidence was used and mark it as such. 
            if (reportMatchMembershipCondition != null) { 
                return reportMatchMembershipCondition.Check(evidence, out usedEvidence);
            } 
            else {
                usedEvidence = null;
                evidence.MarkAllEvidenceAsUsed();
 
                return membershipCondition.Check(evidence);
            } 
        } 

        [System.Security.SecurityCritical]  // auto-generated 
        internal void Save () {
            EncodeLevel(Environment.GetResourceString("Policy_PL_Enterprise"));
            EncodeLevel(Environment.GetResourceString("Policy_PL_Machine"));
            EncodeLevel(Environment.GetResourceString("Policy_PL_User")); 
        }
 
        [System.Security.SecurityCritical]  // auto-generated 
        private void EncodeLevel (string label) {
            for (int i = 0; i < PolicyLevels.Count; ++i) 
            {
                PolicyLevel currentLevel = (PolicyLevel) PolicyLevels[i];
                if (currentLevel.Label.Equals(label))
                { 
                    EncodeLevel(currentLevel);
                    return; 
                } 
            }
        } 

        [System.Security.SecurityCritical]  // auto-generated
        [ResourceExposure(ResourceScope.None)]
        [ResourceConsumption(ResourceScope.Machine, ResourceScope.Machine)] 
        internal static void EncodeLevel (PolicyLevel level)
        { 
            Contract.Assert(level != null, "No policy level to encode."); 

            // We cannot encode a policy level without a backing file 
            if (level.Path == null)
            {
                string errorMessage = Environment.GetResourceString("Policy_UnableToSave",
                                                    level.Label, 
                                                    Environment.GetResourceString("Policy_SaveNotFileBased"));
                throw new PolicyException(errorMessage); 
            } 

            SecurityElement elConf = new SecurityElement("configuration"); 
            SecurityElement elMscorlib = new SecurityElement("mscorlib");
            SecurityElement elSecurity = new SecurityElement("security");
            SecurityElement elPolicy = new SecurityElement("policy");
 
            elConf.AddChild(elMscorlib);
            elMscorlib.AddChild(elSecurity); 
            elSecurity.AddChild(elPolicy); 
            elPolicy.AddChild(level.ToXml());
 
            try
            {
                StringBuilder sb = new StringBuilder();
                Encoding encoding = Encoding.UTF8; 

                SecurityElement format = new SecurityElement("xml"); 
                format.m_type = SecurityElementType.Format; 
                format.AddAttribute("version", "1.0");
                format.AddAttribute("encoding", encoding.WebName); 
                sb.Append(format.ToString());
                sb.Append(elConf.ToString());

                byte[] data = encoding.GetBytes(sb.ToString()); 

                // Write out the new config. 
                int hrSave = Config.SaveDataByte(level.Path, data, data.Length); 
                Exception extendedError = Marshal.GetExceptionForHR(hrSave);
                if (extendedError != null) 
                {
                    string extendedInformation = extendedError != null ? extendedError.Message : String.Empty;
                    throw new PolicyException(Environment.GetResourceString("Policy_UnableToSave", level.Label, extendedInformation), extendedError);
                } 
            }
            catch (Exception e) 
            { 
                if (e is PolicyException)
                    throw e; 
                else
                    throw new PolicyException(Environment.GetResourceString("Policy_UnableToSave", level.Label, e.Message), e);
            }
 
            Config.ResetCacheData(level.ConfigId);
            if (CanUseQuickCache(level.RootCodeGroup)) 
                Config.SetQuickCache(level.ConfigId, GenerateQuickCache(level)); 
        }
 
        // Here is the managed portion of the QuickCache code.  It
        // is mainly concerned with detecting whether it is valid
        // for us to use the quick cache, and then calculating the
        // proper mapping of partial evidence to partial mapping. 
        //
        // The choice of the partial evidence sets is fairly arbitrary 
        // and in this case is tailored to give us meaningful 
        // results from default policy.
        // 
        // The choice of whether or not we can use the quick cache
        // is far from arbitrary.  There are a number of conditions that must
        // be true for the QuickCache to produce valid result.  These
        // are: 
        //
        // * equivalent evidence objects must produce the same 
        //   grant set (i.e. it must be independent of time of day, 
        //   space on the harddisk, other "external" factors, and
        //   cannot be random). 
        //
        // * evidence must be used positively (i.e. if evidence A grants
        //   permission X, then evidence A+B must grant at least permission
        //   X). 
        //
        // In particular for our implementation, this means that we 
        // limit the classes that can be used by policy to just 
        // the ones defined within mscorlib and that there are
        // no Exclusive bits set on any code groups. 

        internal static bool CanUseQuickCache (CodeGroup group) {
            ArrayList list = new ArrayList();
 
            list.Add(group);
 
            for (int i = 0; i < list.Count; ++i) 
            {
                group = (CodeGroup)list[i]; 

                IUnionSemanticCodeGroup unionGroup = group as IUnionSemanticCodeGroup;

                if (unionGroup != null) 
                {
                    if (!TestPolicyStatement(group.PolicyStatement)) 
                        return false; 
                }
                else 
                {
                    return false;
                }
 
                IMembershipCondition cond = group.MembershipCondition;
                if (cond != null && !(cond is IConstantMembershipCondition)) 
                { 
                    return false;
                } 

                IList children = group.Children;

                if (children != null && children.Count > 0) 
                {
                    IEnumerator enumerator = children.GetEnumerator(); 
 
                    while (enumerator.MoveNext())
                    { 
                        list.Add(enumerator.Current);
                    }
                }
            } 

            return true; 
        } 

        private static bool TestPolicyStatement (PolicyStatement policy) { 
            if (policy == null)
                return true;
            return (policy.Attributes & PolicyStatementAttribute.Exclusive) == 0;
        } 

        private static QuickCacheEntryType[] FullTrustMap; 
        private static QuickCacheEntryType GenerateQuickCache(PolicyLevel level) 
        {
            if (FullTrustMap == null) 
            {
                // This mapping must stay in [....] with the SecurityZone enumeration in SecurityZone.cs
                FullTrustMap = new QuickCacheEntryType[]
                { 
                    QuickCacheEntryType.FullTrustZoneMyComputer,
                  QuickCacheEntryType.FullTrustZoneIntranet, 
                    QuickCacheEntryType.FullTrustZoneTrusted, 
                  QuickCacheEntryType.FullTrustZoneInternet,
                    QuickCacheEntryType.FullTrustZoneUntrusted 
                };
            }

            QuickCacheEntryType accumulator = (QuickCacheEntryType)0; 

            Evidence noEvidence = new Evidence(); 
 
            PermissionSet policy = null;
 
            try
            {
                policy = level.Resolve( noEvidence ).PermissionSet;
                if (policy.IsUnrestricted()) 
                    accumulator |= QuickCacheEntryType.FullTrustAll;
            } 
            catch (PolicyException) 
            {
            } 

            foreach (SecurityZone zone in Enum.GetValues(typeof(SecurityZone)))
            {
                if (zone == SecurityZone.NoZone) 
                    continue;
 
                Evidence zoneEvidence = new Evidence(); 
                zoneEvidence.AddHostEvidence(new Zone(zone));
 
                PermissionSet zonePolicy = null;

                try
                { 
                    zonePolicy = level.Resolve( zoneEvidence ).PermissionSet;
                    if (zonePolicy.IsUnrestricted()) 
                    { 
                        Contract.Assert(0 <= (int)zone && (int)zone < FullTrustMap.Length, "FullTrustMap does not contain a mapping for this zone.");
                        accumulator |= FullTrustMap[(int)zone]; 
                    }
                }
                catch (PolicyException)
                { 
                }
            } 
 
            return accumulator;
        } 

#if _DEBUG
        [System.Security.SecurityCritical]  // auto-generated
        [ResourceExposure(ResourceScope.None)] 
        [DllImport(JitHelpers.QCall, CharSet = CharSet.Unicode), SuppressUnmanagedCodeSecurity]
        internal static extern int DebugOut(String file, String message); 
#endif 
    }
} 

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.

                        

Link Menu

Network programming in C#, Network Programming in VB.NET, Network Programming in .NET
This book is available now!
Buy at Amazon US or
Buy at Amazon UK