TemplateControlParser.cs source code in C# .NET

Source code for the .NET framework in C#

                        

Code:

/ Net / Net / 3.5.50727.3053 / DEVDIV / depot / DevDiv / releases / whidbey / netfxsp / ndp / fx / src / xsp / System / Web / UI / TemplateControlParser.cs / 2 / TemplateControlParser.cs

                            //------------------------------------------------------------------------------ 
// 
//     Copyright (c) Microsoft Corporation.  All rights reserved.
// 
//----------------------------------------------------------------------------- 

/* 
 * Implements the ASP.NET template parser 
 *
 * Copyright (c) 1998 Microsoft Corporation 
 */

namespace System.Web.UI {
 
using System.Text;
using System; 
using System.IO; 
using System.Collections;
using System.Collections.Specialized; 
using System.ComponentModel;
using System.ComponentModel.Design;
using System.Reflection;
using System.Configuration; 
using System.Web.Caching;
using System.Web.Util; 
using System.Web.Compilation; 
using HttpException = System.Web.HttpException;
using System.Text.RegularExpressions; 
using System.Globalization;
using System.Security.Permissions;

 
/*
 * Parser for TemplateControl's (UserControls and Pages) 
 */ 

///  
/// 
///    [To be supplied.]
/// 
[AspNetHostingPermission(SecurityAction.LinkDemand, Level=AspNetHostingPermissionLevel.Minimal)] 
[AspNetHostingPermission(SecurityAction.InheritanceDemand, Level=AspNetHostingPermissionLevel.Minimal)]
public abstract class TemplateControlParser : BaseTemplateParser { 
 
    // Attributes in <%@ outputcache ... %> directive
    private IDictionary _outputCacheDirective; 

    private OutputCacheParameters _outputCacheSettings;
    internal OutputCacheParameters OutputCacheParameters { get { return _outputCacheSettings; } }
 
    internal bool FAutoEventWireup { get { return !flags[noAutoEventWireup]; } }
 
    internal override bool RequiresCompilation { 
        get { return flags[requiresCompilation] || CompilationMode == CompilationMode.Always; }
    } 

    // Get default settings from config
    internal override void ProcessConfigSettings() {
        base.ProcessConfigSettings(); 

        if (PagesConfig != null) { 
            flags[noAutoEventWireup] = !PagesConfig.AutoEventWireup; 

            // If config has a non-default EnableViewState value, set it in the main directive 
            if (PagesConfig.EnableViewState != Control.EnableViewStateDefault)
                _mainDirectiveConfigSettings["enableviewstate"] = Util.GetStringFromBool(PagesConfig.EnableViewState);

            CompilationMode = PagesConfig.CompilationMode; 
        }
 
        // if there is a filter, ask it if it wants to use a different mode 
        if (_pageParserFilter != null)
            CompilationMode = _pageParserFilter.GetCompilationMode(CompilationMode); 
    }

    internal override void ProcessDirective(string directiveName, IDictionary directive) {
 
        if (StringUtil.EqualsIgnoreCase(directiveName, "outputcache")) {
 
            // Ignore the OutputCache directive in design mode (VSWhidbey 470314) 
            if (FInDesigner)
                return; 

            if (_outputCacheSettings == null) {
                _outputCacheSettings = new OutputCacheParameters();
            } 

            // Make sure the outputcache directive was not already specified 
            if (_outputCacheDirective != null) { 
                throw new HttpException(
                    SR.GetString(SR.Only_one_directive_allowed, directiveName)); 
            }

            ProcessOutputCacheDirective(directiveName, directive);
 
            _outputCacheDirective = directive;
        } 
        else if (StringUtil.EqualsIgnoreCase(directiveName, "reference")) { 

            // Ignore the OutputCache directive in design mode (VSWhidbey 517783) 
            if (FInDesigner) {
                return;
            }
 
            // Even though this only makes sense for compiled pages, We should
            // ignore instead of throw when the page in non-compiled. 
 

            // For historical reasons, the virtual path can be specified by 3 different attributes: 
            // virtualpath, page and control.  They all do the same, and virtualpath is the recommended
            // one (the other two are deprecated).

            // Make sure that no more than one is specified. 

            VirtualPath virtualPath = Util.GetAndRemoveVirtualPathAttribute(directive, "virtualpath"); 
 
            bool enforcePage = false;
            bool enforceControl = false; 

            VirtualPath tmp = Util.GetAndRemoveVirtualPathAttribute(directive, "page");
            if (tmp != null) {
                if (virtualPath != null) { 
                    ProcessError(SR.GetString(SR.Invalid_reference_directive));
                    return; 
                } 
                virtualPath = tmp;
                enforcePage = true; 
            }

            tmp = Util.GetAndRemoveVirtualPathAttribute(directive, "control");
            if (tmp != null) { 
                if (virtualPath != null) {
                    ProcessError(SR.GetString(SR.Invalid_reference_directive)); 
                    return; 
                }
                virtualPath = tmp; 
                enforceControl = true;
            }

            // If we didn't get a virtual path, fail 
            if (virtualPath == null) {
                ProcessError(SR.GetString(SR.Invalid_reference_directive)); 
                return; 
            }
 
            Type t = GetReferencedType(virtualPath);

            if (t == null) {
                ProcessError(SR.GetString(SR.Invalid_reference_directive_attrib, virtualPath)); 
            }
 
            // If the 'page' attribute was used, make sure it's indeed a Page 
            if (enforcePage && !typeof(Page).IsAssignableFrom(t)) {
                ProcessError(SR.GetString(SR.Invalid_reference_directive_attrib, virtualPath)); 
            }

            // If the 'control' attribute was used, make sure it's indeed a UserControl
            if (enforceControl && !typeof(UserControl).IsAssignableFrom(t)) { 
                ProcessError(SR.GetString(SR.Invalid_reference_directive_attrib, virtualPath));
            } 
 
            // If there are some attributes left, fail
            Util.CheckUnknownDirectiveAttributes(directiveName, directive); 
        }
        else {
            base.ProcessDirective(directiveName, directive);
        } 
    }
 
    internal override void ProcessMainDirective(IDictionary mainDirective) { 

        // We want to make sure that we process the compilationmode attribute before any 
        // of the other main directive attributes, since its presence can cause other
        // attributes to be illegal.  So we handle it instead of in ProcessMainDirectiveAttribute.
        object tmpObj = null;
 
        try {
            tmpObj = Util.GetAndRemoveEnumAttribute(mainDirective, 
                typeof(CompilationMode), "compilationmode"); 
        }
        // catch the exception here so we can continue to process the rest of the main directive 
        // when called from CBM
        catch (Exception ex) {
            ProcessError(ex.Message);
        } 

        if (tmpObj != null) { 
            CompilationMode = (CompilationMode) tmpObj; 

            // if there is a filter, ask it if it wants to use a different mode 
            if (_pageParserFilter != null)
                CompilationMode = _pageParserFilter.GetCompilationMode(CompilationMode);
        }
 
        base.ProcessMainDirective(mainDirective);
    } 
 
    internal override bool ProcessMainDirectiveAttribute(string deviceName, string name,
        string value, IDictionary parseData) { 

        switch (name) {

        // Ignore 'targetschema' attribute (ASURT 85670) 
        case "targetschema":
            break; 
 
        case "autoeventwireup":
            // This only makes sense for compiled pages 
            OnFoundAttributeRequiringCompilation(name);

            flags[noAutoEventWireup] = !Util.GetBooleanAttribute(name, value);
            break; 

        case "enabletheming": 
            // Return false to let the generic attribute processing continue 
            // which will cause the EnableTheming property to be set on the
            // TemplateControl instance. 
            return false;

        case CodeFileBaseClassAttributeName:
            // Remember the base class for post processing 
            parseData[name] = Util.GetNonEmptyAttribute(name, value);
            break; 
 
        default:
            // We didn't handle the attribute.  Try the base class 
            return base.ProcessMainDirectiveAttribute(deviceName, name, value, parseData);
        }

        // The attribute was handled 

        // Make sure no device filter or resource expression was specified 
        ValidateBuiltInAttribute(deviceName, name, value); 

        return true; 
    }

    internal override void ProcessUnknownMainDirectiveAttribute(string filter, string attribName, string value) {
 
        // Don't allow the id to be specified on the directive, even though it is
        // a public member of the control class (VSWhidbey 85384) 
        if (attribName == "id") { 
            base.ProcessUnknownMainDirectiveAttribute(filter, attribName, value);
            return; 
        }

        // Process unknown attributes as regular control attribute, hence allowing
        // arbitrary properties of the base class to be set. 
        // But turn off IAttributeAccessor support, otherwise any bad string on a
        // user control's directive won't be caught. 
 
        try {
            RootBuilder.PreprocessAttribute(filter, attribName, value, true /*mainDirectiveMode*/); 
        }
        catch (Exception e) {
            ProcessError(SR.GetString(SR.Attrib_parse_error, attribName, e.Message));
        } 
    }
 
    /* 
     * Add assembly dependencies for a collection of static objects
     */ 
    private void AddStaticObjectAssemblyDependencies(HttpStaticObjectsCollection staticObjects) {
        if (staticObjects == null || staticObjects.Objects == null) return;

        IDictionaryEnumerator en = staticObjects.Objects.GetEnumerator(); 
        while (en.MoveNext()) {
            HttpStaticObjectsEntry entry = (HttpStaticObjectsEntry)en.Value; 
 
            AddTypeDependency(entry.ObjectType);
        } 
    }

    internal Type GetDirectiveType(IDictionary directive, string directiveName) {
        string typeName = Util.GetAndRemoveNonEmptyNoSpaceAttribute(directive, "typeName"); 
        VirtualPath virtualPath = Util.GetAndRemoveVirtualPathAttribute(directive, "virtualPath");
 
        Type resultType = null; 

        // If neither or both are specified, fail 
        if ((typeName == null) == (virtualPath == null)) {
            throw new HttpException(SR.GetString(SR.Invalid_typeNameOrVirtualPath_directive, directiveName));
        }
 
        if (typeName != null) {
            resultType = GetType(typeName); 
            AddTypeDependency(resultType); 
        }
        else { 
            resultType = GetReferencedType(virtualPath);
        }

        // If there are some attributes left, fail 
        Util.CheckUnknownDirectiveAttributes(directiveName, directive);
 
        return resultType; 
    }
 
    internal override void HandlePostParse() {
        base.HandlePostParse();

        if (!FInDesigner) { 
            // Omit AutoEventWireup if there can't possibly be any events defined (ASURT 97772)
            if (ScriptList.Count == 0 && BaseType == DefaultBaseType && CodeFileVirtualPath == null) 
                flags[noAutoEventWireup] = true; 

            _applicationObjects = HttpApplicationFactory.ApplicationState.StaticObjects; 
            AddStaticObjectAssemblyDependencies(_applicationObjects);

            _sessionObjects = HttpApplicationFactory.ApplicationState.SessionStaticObjects;
            AddStaticObjectAssemblyDependencies(_sessionObjects); 
        }
    } 
 
    /*
     * Process the contents of the <%@ OutputCache ... %> directive 
     */
    internal virtual void ProcessOutputCacheDirective(string directiveName, IDictionary directive) {
        int duration = 0;   // Unit is second
        string varyByParams; 
        string varyByCustom;
        string outputCacheProfile = null; 
        string varyByControls; 

        bool fHasDuration = Util.GetAndRemovePositiveIntegerAttribute(directive, "duration", ref duration); 
        if (fHasDuration) {
            OutputCacheParameters.Duration = duration;
        }
 
        //
        if (this is PageParser) { 
            outputCacheProfile = Util.GetAndRemoveNonEmptyAttribute(directive, "cacheProfile"); 
            if (outputCacheProfile != null) {
                OutputCacheParameters.CacheProfile = outputCacheProfile; 
            }
        }

        if (!fHasDuration && (outputCacheProfile == null || outputCacheProfile.Length == 0) && FDurationRequiredOnOutputCache) 
            throw new HttpException(SR.GetString(SR.Missing_attr, "duration"));
 
        varyByCustom = Util.GetAndRemoveNonEmptyAttribute(directive, "varybycustom"); 
        if (varyByCustom != null) {
            OutputCacheParameters.VaryByCustom = varyByCustom; 
        }

        varyByControls = Util.GetAndRemoveNonEmptyAttribute(directive, "varybycontrol");
        if (varyByControls != null) { 
            OutputCacheParameters.VaryByControl = varyByControls;
        } 
 
        varyByParams = Util.GetAndRemoveNonEmptyAttribute(directive, "varybyparam");
        if (varyByParams != null) { 
            OutputCacheParameters.VaryByParam = varyByParams;
        }

        // VaryByParams is required (ASURT 76763) 
        if (varyByParams == null &&
            varyByControls == null && 
            (outputCacheProfile == null || outputCacheProfile.Length == 0) && 
            FVaryByParamsRequiredOnOutputCache)
            throw new HttpException(SR.GetString(SR.Missing_varybyparam_attr)); 

        // If it's "none", set it to null
        if (StringUtil.EqualsIgnoreCase(varyByParams, "none"))
            OutputCacheParameters.VaryByParam = null; 

        if (StringUtil.EqualsIgnoreCase(varyByControls, "none")) 
            OutputCacheParameters.VaryByControl = null; 

        // If there are some attributes left, fail 
        Util.CheckUnknownDirectiveAttributes(directiveName, directive, UnknownOutputCacheAttributeError);
    }

    internal virtual bool FDurationRequiredOnOutputCache { 
        get { return true; }
    } 
 
    internal virtual bool FVaryByParamsRequiredOnOutputCache {
        get { return true; } 
    }

    internal abstract string UnknownOutputCacheAttributeError {
        get; 
    }
} 
} 

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
//------------------------------------------------------------------------------ 
// 
//     Copyright (c) Microsoft Corporation.  All rights reserved.
// 
//----------------------------------------------------------------------------- 

/* 
 * Implements the ASP.NET template parser 
 *
 * Copyright (c) 1998 Microsoft Corporation 
 */

namespace System.Web.UI {
 
using System.Text;
using System; 
using System.IO; 
using System.Collections;
using System.Collections.Specialized; 
using System.ComponentModel;
using System.ComponentModel.Design;
using System.Reflection;
using System.Configuration; 
using System.Web.Caching;
using System.Web.Util; 
using System.Web.Compilation; 
using HttpException = System.Web.HttpException;
using System.Text.RegularExpressions; 
using System.Globalization;
using System.Security.Permissions;

 
/*
 * Parser for TemplateControl's (UserControls and Pages) 
 */ 

///  
/// 
///    [To be supplied.]
/// 
[AspNetHostingPermission(SecurityAction.LinkDemand, Level=AspNetHostingPermissionLevel.Minimal)] 
[AspNetHostingPermission(SecurityAction.InheritanceDemand, Level=AspNetHostingPermissionLevel.Minimal)]
public abstract class TemplateControlParser : BaseTemplateParser { 
 
    // Attributes in <%@ outputcache ... %> directive
    private IDictionary _outputCacheDirective; 

    private OutputCacheParameters _outputCacheSettings;
    internal OutputCacheParameters OutputCacheParameters { get { return _outputCacheSettings; } }
 
    internal bool FAutoEventWireup { get { return !flags[noAutoEventWireup]; } }
 
    internal override bool RequiresCompilation { 
        get { return flags[requiresCompilation] || CompilationMode == CompilationMode.Always; }
    } 

    // Get default settings from config
    internal override void ProcessConfigSettings() {
        base.ProcessConfigSettings(); 

        if (PagesConfig != null) { 
            flags[noAutoEventWireup] = !PagesConfig.AutoEventWireup; 

            // If config has a non-default EnableViewState value, set it in the main directive 
            if (PagesConfig.EnableViewState != Control.EnableViewStateDefault)
                _mainDirectiveConfigSettings["enableviewstate"] = Util.GetStringFromBool(PagesConfig.EnableViewState);

            CompilationMode = PagesConfig.CompilationMode; 
        }
 
        // if there is a filter, ask it if it wants to use a different mode 
        if (_pageParserFilter != null)
            CompilationMode = _pageParserFilter.GetCompilationMode(CompilationMode); 
    }

    internal override void ProcessDirective(string directiveName, IDictionary directive) {
 
        if (StringUtil.EqualsIgnoreCase(directiveName, "outputcache")) {
 
            // Ignore the OutputCache directive in design mode (VSWhidbey 470314) 
            if (FInDesigner)
                return; 

            if (_outputCacheSettings == null) {
                _outputCacheSettings = new OutputCacheParameters();
            } 

            // Make sure the outputcache directive was not already specified 
            if (_outputCacheDirective != null) { 
                throw new HttpException(
                    SR.GetString(SR.Only_one_directive_allowed, directiveName)); 
            }

            ProcessOutputCacheDirective(directiveName, directive);
 
            _outputCacheDirective = directive;
        } 
        else if (StringUtil.EqualsIgnoreCase(directiveName, "reference")) { 

            // Ignore the OutputCache directive in design mode (VSWhidbey 517783) 
            if (FInDesigner) {
                return;
            }
 
            // Even though this only makes sense for compiled pages, We should
            // ignore instead of throw when the page in non-compiled. 
 

            // For historical reasons, the virtual path can be specified by 3 different attributes: 
            // virtualpath, page and control.  They all do the same, and virtualpath is the recommended
            // one (the other two are deprecated).

            // Make sure that no more than one is specified. 

            VirtualPath virtualPath = Util.GetAndRemoveVirtualPathAttribute(directive, "virtualpath"); 
 
            bool enforcePage = false;
            bool enforceControl = false; 

            VirtualPath tmp = Util.GetAndRemoveVirtualPathAttribute(directive, "page");
            if (tmp != null) {
                if (virtualPath != null) { 
                    ProcessError(SR.GetString(SR.Invalid_reference_directive));
                    return; 
                } 
                virtualPath = tmp;
                enforcePage = true; 
            }

            tmp = Util.GetAndRemoveVirtualPathAttribute(directive, "control");
            if (tmp != null) { 
                if (virtualPath != null) {
                    ProcessError(SR.GetString(SR.Invalid_reference_directive)); 
                    return; 
                }
                virtualPath = tmp; 
                enforceControl = true;
            }

            // If we didn't get a virtual path, fail 
            if (virtualPath == null) {
                ProcessError(SR.GetString(SR.Invalid_reference_directive)); 
                return; 
            }
 
            Type t = GetReferencedType(virtualPath);

            if (t == null) {
                ProcessError(SR.GetString(SR.Invalid_reference_directive_attrib, virtualPath)); 
            }
 
            // If the 'page' attribute was used, make sure it's indeed a Page 
            if (enforcePage && !typeof(Page).IsAssignableFrom(t)) {
                ProcessError(SR.GetString(SR.Invalid_reference_directive_attrib, virtualPath)); 
            }

            // If the 'control' attribute was used, make sure it's indeed a UserControl
            if (enforceControl && !typeof(UserControl).IsAssignableFrom(t)) { 
                ProcessError(SR.GetString(SR.Invalid_reference_directive_attrib, virtualPath));
            } 
 
            // If there are some attributes left, fail
            Util.CheckUnknownDirectiveAttributes(directiveName, directive); 
        }
        else {
            base.ProcessDirective(directiveName, directive);
        } 
    }
 
    internal override void ProcessMainDirective(IDictionary mainDirective) { 

        // We want to make sure that we process the compilationmode attribute before any 
        // of the other main directive attributes, since its presence can cause other
        // attributes to be illegal.  So we handle it instead of in ProcessMainDirectiveAttribute.
        object tmpObj = null;
 
        try {
            tmpObj = Util.GetAndRemoveEnumAttribute(mainDirective, 
                typeof(CompilationMode), "compilationmode"); 
        }
        // catch the exception here so we can continue to process the rest of the main directive 
        // when called from CBM
        catch (Exception ex) {
            ProcessError(ex.Message);
        } 

        if (tmpObj != null) { 
            CompilationMode = (CompilationMode) tmpObj; 

            // if there is a filter, ask it if it wants to use a different mode 
            if (_pageParserFilter != null)
                CompilationMode = _pageParserFilter.GetCompilationMode(CompilationMode);
        }
 
        base.ProcessMainDirective(mainDirective);
    } 
 
    internal override bool ProcessMainDirectiveAttribute(string deviceName, string name,
        string value, IDictionary parseData) { 

        switch (name) {

        // Ignore 'targetschema' attribute (ASURT 85670) 
        case "targetschema":
            break; 
 
        case "autoeventwireup":
            // This only makes sense for compiled pages 
            OnFoundAttributeRequiringCompilation(name);

            flags[noAutoEventWireup] = !Util.GetBooleanAttribute(name, value);
            break; 

        case "enabletheming": 
            // Return false to let the generic attribute processing continue 
            // which will cause the EnableTheming property to be set on the
            // TemplateControl instance. 
            return false;

        case CodeFileBaseClassAttributeName:
            // Remember the base class for post processing 
            parseData[name] = Util.GetNonEmptyAttribute(name, value);
            break; 
 
        default:
            // We didn't handle the attribute.  Try the base class 
            return base.ProcessMainDirectiveAttribute(deviceName, name, value, parseData);
        }

        // The attribute was handled 

        // Make sure no device filter or resource expression was specified 
        ValidateBuiltInAttribute(deviceName, name, value); 

        return true; 
    }

    internal override void ProcessUnknownMainDirectiveAttribute(string filter, string attribName, string value) {
 
        // Don't allow the id to be specified on the directive, even though it is
        // a public member of the control class (VSWhidbey 85384) 
        if (attribName == "id") { 
            base.ProcessUnknownMainDirectiveAttribute(filter, attribName, value);
            return; 
        }

        // Process unknown attributes as regular control attribute, hence allowing
        // arbitrary properties of the base class to be set. 
        // But turn off IAttributeAccessor support, otherwise any bad string on a
        // user control's directive won't be caught. 
 
        try {
            RootBuilder.PreprocessAttribute(filter, attribName, value, true /*mainDirectiveMode*/); 
        }
        catch (Exception e) {
            ProcessError(SR.GetString(SR.Attrib_parse_error, attribName, e.Message));
        } 
    }
 
    /* 
     * Add assembly dependencies for a collection of static objects
     */ 
    private void AddStaticObjectAssemblyDependencies(HttpStaticObjectsCollection staticObjects) {
        if (staticObjects == null || staticObjects.Objects == null) return;

        IDictionaryEnumerator en = staticObjects.Objects.GetEnumerator(); 
        while (en.MoveNext()) {
            HttpStaticObjectsEntry entry = (HttpStaticObjectsEntry)en.Value; 
 
            AddTypeDependency(entry.ObjectType);
        } 
    }

    internal Type GetDirectiveType(IDictionary directive, string directiveName) {
        string typeName = Util.GetAndRemoveNonEmptyNoSpaceAttribute(directive, "typeName"); 
        VirtualPath virtualPath = Util.GetAndRemoveVirtualPathAttribute(directive, "virtualPath");
 
        Type resultType = null; 

        // If neither or both are specified, fail 
        if ((typeName == null) == (virtualPath == null)) {
            throw new HttpException(SR.GetString(SR.Invalid_typeNameOrVirtualPath_directive, directiveName));
        }
 
        if (typeName != null) {
            resultType = GetType(typeName); 
            AddTypeDependency(resultType); 
        }
        else { 
            resultType = GetReferencedType(virtualPath);
        }

        // If there are some attributes left, fail 
        Util.CheckUnknownDirectiveAttributes(directiveName, directive);
 
        return resultType; 
    }
 
    internal override void HandlePostParse() {
        base.HandlePostParse();

        if (!FInDesigner) { 
            // Omit AutoEventWireup if there can't possibly be any events defined (ASURT 97772)
            if (ScriptList.Count == 0 && BaseType == DefaultBaseType && CodeFileVirtualPath == null) 
                flags[noAutoEventWireup] = true; 

            _applicationObjects = HttpApplicationFactory.ApplicationState.StaticObjects; 
            AddStaticObjectAssemblyDependencies(_applicationObjects);

            _sessionObjects = HttpApplicationFactory.ApplicationState.SessionStaticObjects;
            AddStaticObjectAssemblyDependencies(_sessionObjects); 
        }
    } 
 
    /*
     * Process the contents of the <%@ OutputCache ... %> directive 
     */
    internal virtual void ProcessOutputCacheDirective(string directiveName, IDictionary directive) {
        int duration = 0;   // Unit is second
        string varyByParams; 
        string varyByCustom;
        string outputCacheProfile = null; 
        string varyByControls; 

        bool fHasDuration = Util.GetAndRemovePositiveIntegerAttribute(directive, "duration", ref duration); 
        if (fHasDuration) {
            OutputCacheParameters.Duration = duration;
        }
 
        //
        if (this is PageParser) { 
            outputCacheProfile = Util.GetAndRemoveNonEmptyAttribute(directive, "cacheProfile"); 
            if (outputCacheProfile != null) {
                OutputCacheParameters.CacheProfile = outputCacheProfile; 
            }
        }

        if (!fHasDuration && (outputCacheProfile == null || outputCacheProfile.Length == 0) && FDurationRequiredOnOutputCache) 
            throw new HttpException(SR.GetString(SR.Missing_attr, "duration"));
 
        varyByCustom = Util.GetAndRemoveNonEmptyAttribute(directive, "varybycustom"); 
        if (varyByCustom != null) {
            OutputCacheParameters.VaryByCustom = varyByCustom; 
        }

        varyByControls = Util.GetAndRemoveNonEmptyAttribute(directive, "varybycontrol");
        if (varyByControls != null) { 
            OutputCacheParameters.VaryByControl = varyByControls;
        } 
 
        varyByParams = Util.GetAndRemoveNonEmptyAttribute(directive, "varybyparam");
        if (varyByParams != null) { 
            OutputCacheParameters.VaryByParam = varyByParams;
        }

        // VaryByParams is required (ASURT 76763) 
        if (varyByParams == null &&
            varyByControls == null && 
            (outputCacheProfile == null || outputCacheProfile.Length == 0) && 
            FVaryByParamsRequiredOnOutputCache)
            throw new HttpException(SR.GetString(SR.Missing_varybyparam_attr)); 

        // If it's "none", set it to null
        if (StringUtil.EqualsIgnoreCase(varyByParams, "none"))
            OutputCacheParameters.VaryByParam = null; 

        if (StringUtil.EqualsIgnoreCase(varyByControls, "none")) 
            OutputCacheParameters.VaryByControl = null; 

        // If there are some attributes left, fail 
        Util.CheckUnknownDirectiveAttributes(directiveName, directive, UnknownOutputCacheAttributeError);
    }

    internal virtual bool FDurationRequiredOnOutputCache { 
        get { return true; }
    } 
 
    internal virtual bool FVaryByParamsRequiredOnOutputCache {
        get { return true; } 
    }

    internal abstract string UnknownOutputCacheAttributeError {
        get; 
    }
} 
} 

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

                        

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