FtpRequestCacheValidator.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 / Net / System / Net / Cache / FtpRequestCacheValidator.cs / 1 / FtpRequestCacheValidator.cs

                            /*++ 
Copyright (c) Microsoft Corporation

Module Name:
 
    FtpRequestCacheValidator.cs
 
Abstract: 
    The class implements FTP Caching validators
 
Author:

    Alexei Vopilov    3-Aug-2004
 
Revision History:
 
--*/ 
namespace System.Net.Cache {
    using System; 
    using System.Net;
    using System.IO;
    using System.Collections;
    using System.Text; 
    using System.Collections.Specialized;
    using System.Globalization; 
    using System.Threading; 

 
    // The class represents an adavanced way for an application to control caching protocol
    internal class FtpRequestCacheValidator: HttpRequestCacheValidator {

        DateTime       m_LastModified; 
        bool           m_HttpProxyMode;
 
        private bool                    HttpProxyMode    {get{return m_HttpProxyMode;}} 
        internal new RequestCachePolicy Policy           {get {return ((RequestCacheValidator)this).Policy;}}
 
        //
        private void ZeroPrivateVars()
        {
            m_LastModified      = DateTime.MinValue; 
            m_HttpProxyMode     = false;
        } 
 
        //public
        internal override RequestCacheValidator CreateValidator() 
        {
            return new FtpRequestCacheValidator(StrictCacheErrors, UnspecifiedMaxAge);
        }
 
        //public
        internal FtpRequestCacheValidator(bool strictCacheErrors, TimeSpan unspecifiedMaxAge): base(strictCacheErrors, unspecifiedMaxAge) 
        { 
        }
 
        //
        // This validation method is called first and before any Cache access is done.
        // Given the request instance the code has to decide whether the request is ever suitable for caching.
        // 
        // Returns:
        // Continue           = Proceed to the next protocol stage. 
        // DoNotTakeFromCache = Don't used caches value for this request 
        // DoNotUseCache      = Cache is not used for this request and response is not cached.
        protected internal override CacheValidationStatus ValidateRequest() 
        {
            // cleanup context after previous  request
            ZeroPrivateVars();
 
            if (Request is HttpWebRequest)
            { 
                m_HttpProxyMode = true; 
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_ftp_proxy_doesnt_support_partial));
                return base.ValidateRequest(); 
            }

            if (Policy.Level == RequestCacheLevel.BypassCache)
                return CacheValidationStatus.DoNotUseCache; 

            string method = Request.Method.ToUpper(CultureInfo.InvariantCulture); 
            if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_ftp_method, method)); 

            switch (method) { 
                case WebRequestMethods.Ftp.DownloadFile:  RequestMethod = HttpMethod.Get;   break;
                case WebRequestMethods.Ftp.UploadFile:    RequestMethod = HttpMethod.Put;break;
                case WebRequestMethods.Ftp.AppendFile:    RequestMethod = HttpMethod.Put;break;
                case WebRequestMethods.Ftp.Rename:        RequestMethod = HttpMethod.Put;break; 
                case WebRequestMethods.Ftp.DeleteFile:    RequestMethod = HttpMethod.Delete;break;
 
                default:        RequestMethod = HttpMethod.Other;    break; 
            }
 
            if ((RequestMethod != HttpMethod.Get || !((FtpWebRequest)Request).UseBinary) && Policy.Level == RequestCacheLevel.CacheOnly)
            {
                // Throw because the request must hit the wire and it's cache-only policy
                FailRequest(WebExceptionStatus.RequestProhibitedByCachePolicy); 
            }
 
            if (method != WebRequestMethods.Ftp.DownloadFile) 
                return CacheValidationStatus.DoNotTakeFromCache;
 
            if (!((FtpWebRequest)Request).UseBinary)
            {
                if(Logging.On)Logging.PrintWarning(Logging.RequestCache, SR.GetString(SR.net_log_cache_ftp_supports_bin_only));
                return CacheValidationStatus.DoNotUseCache; 
            }
 
            if (Policy.Level >= RequestCacheLevel.Reload) 
                return CacheValidationStatus.DoNotTakeFromCache;
 
            return CacheValidationStatus.Continue;
        }

        // 
        // This validation method is called after caching protocol has retrieved the metadata of a cached entry.
        // Given the cached entry context, the request instance and the effective caching policy, 
        // the handler has to decide whether a cached item can be considered as fresh. 
        protected internal override CacheFreshnessStatus ValidateFreshness()
        { 

            if (HttpProxyMode)
            {
                if (CacheStream != Stream.Null) 
                {
                    if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_replacing_entry_with_HTTP_200)); 
 
                    // HTTP validator cannot parse FTP status code and other metadata
                    if (CacheEntry.EntryMetadata == null) 
                        CacheEntry.EntryMetadata = new StringCollection();

                    CacheEntry.EntryMetadata.Clear();
                    CacheEntry.EntryMetadata.Add("HTTP/1.1 200 OK"); 
                }
                return base.ValidateFreshness(); 
            } 

            DateTime nowDate = DateTime.UtcNow; 

            if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_now_time, nowDate.ToString("r", CultureInfo.InvariantCulture)));

            // If absolute Expires can be recovered 
            if (CacheEntry.ExpiresUtc != DateTime.MinValue)
            { 
                //Take absolute Expires value 
                if(Logging.On)Logging.PrintWarning(Logging.RequestCache, SR.GetString(SR.net_log_cache_max_age_absolute, CacheEntry.ExpiresUtc.ToString("r", CultureInfo.InvariantCulture)));
                if (CacheEntry.ExpiresUtc < nowDate) { 
                    return CacheFreshnessStatus.Stale;
                }
                return CacheFreshnessStatus.Fresh;
            } 

            TimeSpan age  = TimeSpan.MaxValue; 
 
            if(CacheEntry.LastSynchronizedUtc != DateTime.MinValue)
            { 
                age = nowDate - CacheEntry.LastSynchronizedUtc;
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_age1, ((int)age.TotalSeconds).ToString(NumberFormatInfo.InvariantInfo), CacheEntry.LastSynchronizedUtc.ToString("r", CultureInfo.InvariantCulture)));
            }
 
            //
            // Heruistic expiration 
            // 
            if (CacheEntry.LastModifiedUtc != DateTime.MinValue)
            { 
                TimeSpan span = (nowDate - CacheEntry.LastModifiedUtc);
                int maxAgeSeconds = (int)(span.TotalSeconds/10);
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_no_max_age_use_10_percent, maxAgeSeconds.ToString(NumberFormatInfo.InvariantInfo), CacheEntry.LastModifiedUtc.ToString("r", CultureInfo.InvariantCulture)));
                if (age.TotalSeconds < maxAgeSeconds) { 
                    return CacheFreshnessStatus.Fresh;
                } 
                return CacheFreshnessStatus.Stale; 
            }
 
            // Else we can only rely on UnspecifiedMaxAge hint
            if(Logging.On)Logging.PrintWarning(Logging.RequestCache, SR.GetString(SR.net_log_cache_no_max_age_use_default, ((int)(UnspecifiedMaxAge.TotalSeconds)).ToString(NumberFormatInfo.InvariantInfo)));
            if (UnspecifiedMaxAge >= age)
            { 
                return CacheFreshnessStatus.Fresh;
            } 
 
            return CacheFreshnessStatus.Stale;
            //return OnValidateFreshness(this); 
        }

        // This method may add headers under the "Warning" header name
        protected internal override CacheValidationStatus ValidateCache() 
        {
            if (HttpProxyMode) 
                return base.ValidateCache(); 

            if (Policy.Level >= RequestCacheLevel.Reload) 
            {
                // For those policies cache is never returned
                GlobalLog.Assert("OnValidateCache()", "This validator should not be called for policy = " + Policy.ToString());
                if(Logging.On)Logging.PrintError(Logging.RequestCache, SR.GetString(SR.net_log_cache_validator_invalid_for_policy, Policy.ToString())); 
                return CacheValidationStatus.DoNotTakeFromCache;
            } 
 
            // First check is do we have a cached entry at all?
            if (CacheStream == Stream.Null || CacheEntry.IsPartialEntry) 
            {
                if (Policy.Level == RequestCacheLevel.CacheOnly)
                {
                    // Throw because entry was not found and it's cache-only policy 
                    FailRequest(WebExceptionStatus.CacheEntryNotFound);
                } 
                if (CacheStream == Stream.Null) 
                {
                    return CacheValidationStatus.DoNotTakeFromCache; 
                }
                // Otherwise it's a partial entry and we can go on the wire
            }
 
            CacheStreamOffset = 0L;
            CacheStreamLength = CacheEntry.StreamSize; 
 
            //
            // Before request submission validation 
            //
            if (Policy.Level == RequestCacheLevel.Revalidate || CacheEntry.IsPartialEntry)
            {
                return TryConditionalRequest(); 
            }
 
            long contentOffset = Request is FtpWebRequest ? ((FtpWebRequest)Request).ContentOffset: 0L; 

            if (CacheFreshnessStatus == CacheFreshnessStatus.Fresh || Policy.Level == RequestCacheLevel.CacheOnly || Policy.Level == RequestCacheLevel.CacheIfAvailable) 
            {
                if (contentOffset != 0)
                {
                    if (contentOffset >= CacheStreamLength) 
                    {
                        if (Policy.Level == RequestCacheLevel.CacheOnly) 
                        { 
                            // Throw because request is outside of cached size and it's cache-only policy
                            FailRequest(WebExceptionStatus.CacheEntryNotFound); 
                        }
                        return CacheValidationStatus.DoNotTakeFromCache;
                    }
                    CacheStreamOffset = contentOffset; 
                }
                return CacheValidationStatus.ReturnCachedResponse; 
            } 

            return CacheValidationStatus.DoNotTakeFromCache; 
        }
        //
        // This is (optionally) called after receiveing a live response
        // 
        protected internal override CacheValidationStatus RevalidateCache()
        { 
            if (HttpProxyMode) 
                return base.RevalidateCache();
 

            if (Policy.Level >= RequestCacheLevel.Reload)
            {
                // For those policies cache is never returned 
                GlobalLog.Assert("RevalidateCache()", "This validator should not be called for policy = " + Policy.ToString());
                if(Logging.On)Logging.PrintError(Logging.RequestCache, SR.GetString(SR.net_log_cache_validator_invalid_for_policy, Policy.ToString())); 
                return CacheValidationStatus.DoNotTakeFromCache; 
            }
 
            // First check is do we still hold on a cached entry?
            if (CacheStream == Stream.Null)
            {
                return CacheValidationStatus.DoNotTakeFromCache; 
            }
 
            // 
            // This is a second+ time validation after receiving at least one response
            // 

            CacheValidationStatus result = CacheValidationStatus.DoNotTakeFromCache;

            FtpWebResponse resp = Response as FtpWebResponse; 
            if (resp == null)
            { 
                // This will result to an application error 
                return CacheValidationStatus.DoNotTakeFromCache;
            } 

            if (resp.StatusCode == FtpStatusCode.FileStatus)
            {
                if(Logging.On) Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_response_last_modified, resp.LastModified.ToUniversalTime().ToString("r", CultureInfo.InvariantCulture), resp.ContentLength)); 
                if(Logging.On) Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_cache_last_modified, CacheEntry.LastModifiedUtc.ToString("r", CultureInfo.InvariantCulture), CacheEntry.StreamSize));
 
                if (CacheStreamOffset != 0L && CacheEntry.IsPartialEntry) 
                {
                    //should never happen 
                    if(Logging.On) Logging.PrintError(Logging.RequestCache, SR.GetString(SR.net_log_cache_partial_and_non_zero_content_offset, CacheStreamOffset.ToString(CultureInfo.InvariantCulture)));
                    result = CacheValidationStatus.DoNotTakeFromCache;
                }
 
                if (resp.LastModified.ToUniversalTime() == CacheEntry.LastModifiedUtc)
                { 
                    if (CacheEntry.IsPartialEntry) 
                    {
                        // A caller will need to use Validator.CacheEntry.StreamSize to figure out what the restart point is 

                        if (resp.ContentLength > 0)
                            this.CacheStreamLength = resp.ContentLength;
                        else 
                            this.CacheStreamLength = -1;
 
                        result = CacheValidationStatus.CombineCachedAndServerResponse; 
                    }
                    else if (resp.ContentLength == CacheEntry.StreamSize) 
                    {
                        result = CacheValidationStatus.ReturnCachedResponse;
                    }
                    else 
                        result = CacheValidationStatus.DoNotTakeFromCache;
                } 
                else 
                    result = CacheValidationStatus.DoNotTakeFromCache;
            } 
            else
            {
                result =  CacheValidationStatus.DoNotTakeFromCache;
            } 

            return result; 
        } 

        // 
        // This validation method is responsible to answer whether the live response is sufficient to make
        // the final decision for caching protocol.
        // This is useful in case of possible failure or inconsistent results received from
        // the remote cache. 
        //
        /// Invalid response from this method means the request was internally modified and should be retried  
        protected internal override CacheValidationStatus ValidateResponse() 
        {
            if (HttpProxyMode) 
                return base.ValidateResponse();

            if (Policy.Level != RequestCacheLevel.Default && Policy.Level != RequestCacheLevel.Revalidate)
            { 
                // Those policy levels do not modify requests
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_response_valid_based_on_policy, Policy.ToString())); 
                return CacheValidationStatus.Continue; 
            }
 
            FtpWebResponse resp = Response as FtpWebResponse;

            if (resp == null) {
                if(Logging.On)Logging.PrintWarning(Logging.RequestCache, SR.GetString(SR.net_log_cache_null_response_failure)); 
                return CacheValidationStatus.Continue;
            } 
 
            if(Logging.On) Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_ftp_response_status, ((int)resp.StatusCode).ToString(CultureInfo.InvariantCulture), resp.StatusCode.ToString()));
 
            // If there was a retry already, it should go with cache disabled so by default we won't retry it again
            if (ResponseCount > 1) {
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_resp_valid_based_on_retry, ResponseCount));
                return CacheValidationStatus.Continue; 
            }
 
            if (resp.StatusCode != FtpStatusCode.OpeningData && resp.StatusCode != FtpStatusCode.FileStatus) 
            {
                return CacheValidationStatus.RetryResponseFromServer; 
            }
            return CacheValidationStatus.Continue;
        }
 
        ///This action handler is responsible for making final decision on whether
        // a received response can be cached. 
        // Invalid result from this method means the response must not be cached 
        protected internal override CacheValidationStatus UpdateCache()
        { 
            if (HttpProxyMode)
                return base.UpdateCache();

            // An combined cace+wire response is not supported if user has specified a restart offset. 
            CacheStreamOffset = 0L;
 
            if (RequestMethod == HttpMethod.Other) 
            {
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_not_updated_based_on_policy, Request.Method)); 
                return CacheValidationStatus.DoNotUpdateCache;
            }

            if (ValidationStatus == CacheValidationStatus.RemoveFromCache) { 
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_removed_existing_invalid_entry));
                return CacheValidationStatus.RemoveFromCache; 
            } 

            if (Policy.Level == RequestCacheLevel.CacheOnly) { 
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_not_updated_based_on_policy, Policy.ToString()));
                return CacheValidationStatus.DoNotUpdateCache;
            }
 
            FtpWebResponse resp = Response as FtpWebResponse;
 
            if (resp == null) 
            {
                if(Logging.On)Logging.PrintWarning(Logging.RequestCache, SR.GetString(SR.net_log_cache_not_updated_because_no_response)); 
                return CacheValidationStatus.DoNotUpdateCache;
            }

            // 
            // Check on cache removal based on the request method
            // 
            if (RequestMethod == HttpMethod.Delete || RequestMethod == HttpMethod.Put) 
            {
                if (RequestMethod == HttpMethod.Delete || 
                    resp.StatusCode == FtpStatusCode.OpeningData ||
                    resp.StatusCode == FtpStatusCode.DataAlreadyOpen ||
                    resp.StatusCode == FtpStatusCode.FileActionOK ||
                    resp.StatusCode == FtpStatusCode.ClosingData) 
                {
                    if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_removed_existing_based_on_method, Request.Method)); 
                    return CacheValidationStatus.RemoveFromCache; 
                }
                if(Logging.On)Logging.PrintWarning(Logging.RequestCache, SR.GetString(SR.net_log_cache_existing_not_removed_because_unexpected_response_status, (int)resp.StatusCode, resp.StatusCode.ToString())); 
                return CacheValidationStatus.DoNotUpdateCache;
            }

            if (Policy.Level == RequestCacheLevel.NoCacheNoStore) { 
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_removed_existing_based_on_policy, Policy.ToString()));
                return CacheValidationStatus.RemoveFromCache; 
            } 

            if (ValidationStatus == CacheValidationStatus.ReturnCachedResponse) 
            {
                // have a response still returning from cache means just revalidated the entry.
                return UpdateCacheEntryOnRevalidate();
            } 

            if (resp.StatusCode != FtpStatusCode.OpeningData 
                && resp.StatusCode != FtpStatusCode.DataAlreadyOpen 
                && resp.StatusCode != FtpStatusCode.ClosingData)
            { 
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_not_updated_based_on_ftp_response_status, FtpStatusCode.OpeningData.ToString() + "|" + FtpStatusCode.DataAlreadyOpen.ToString() + "|" + FtpStatusCode.ClosingData.ToString(), resp.StatusCode.ToString()));
                return CacheValidationStatus.DoNotUpdateCache;
            }
 
            // Check on no-update or cache removal if restart action has invalidated existing cache entry
            if (((FtpWebRequest)Request).ContentOffset != 0L) 
            { 
                if(Logging.On)Logging.PrintWarning(Logging.RequestCache, SR.GetString(SR.net_log_cache_update_not_supported_for_ftp_restart, ((FtpWebRequest)Request).ContentOffset.ToString(CultureInfo.InvariantCulture)));
                if (CacheEntry.LastModifiedUtc != DateTime.MinValue && resp.LastModified.ToUniversalTime() != CacheEntry.LastModifiedUtc) 
                {
                    if(Logging.On)Logging.PrintWarning(Logging.RequestCache, SR.GetString(SR.net_log_cache_removed_entry_because_ftp_restart_response_changed, CacheEntry.LastModifiedUtc.ToString("r", CultureInfo.InvariantCulture), resp.LastModified.ToUniversalTime().ToString("r", CultureInfo.InvariantCulture)));
                    return CacheValidationStatus.RemoveFromCache;
                } 
                return CacheValidationStatus.DoNotUpdateCache;
            } 
 
            return UpdateCacheEntryOnStore();
        } 

        //
        //
        // 
        private CacheValidationStatus UpdateCacheEntryOnStore()
        { 
            CacheEntry.EntryMetadata  = null; 
            CacheEntry.SystemMetadata = null;
 
            FtpWebResponse resp = Response as FtpWebResponse;
            if (resp.LastModified != DateTime.MinValue)
            {
                CacheEntry.LastModifiedUtc = resp.LastModified.ToUniversalTime(); 
            }
 
            ResponseEntityLength = Response.ContentLength; 
            CacheEntry.StreamSize = ResponseEntityLength;       //This is passed down to cache on what size to expect
            CacheEntry.LastSynchronizedUtc = DateTime.UtcNow; 
            return CacheValidationStatus.CacheResponse;
        }
        //
        // 
        private CacheValidationStatus UpdateCacheEntryOnRevalidate()
        { 
            if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_last_synchronized, CacheEntry.LastSynchronizedUtc.ToString("r", CultureInfo.InvariantCulture))); 

            DateTime nowUtc = DateTime.UtcNow; 
            if (CacheEntry.LastSynchronizedUtc + TimeSpan.FromMinutes(1) >= nowUtc)
            {
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_suppress_update_because_synched_last_minute));
                return CacheValidationStatus.DoNotUpdateCache; 
            }
 
            CacheEntry.EntryMetadata  = null; 
            CacheEntry.SystemMetadata = null;
 
            CacheEntry.LastSynchronizedUtc = nowUtc;

            if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_updating_last_synchronized, CacheEntry.LastSynchronizedUtc.ToString("r", CultureInfo.InvariantCulture)));
 
            return CacheValidationStatus.UpdateResponseInformation;
        } 
 
        //
        private CacheValidationStatus TryConditionalRequest() 
        {
            FtpWebRequest request = Request as FtpWebRequest;
            if (request == null || !request.UseBinary)
                return CacheValidationStatus.DoNotTakeFromCache; 

            if (request.ContentOffset != 0L) 
            { 
                if (CacheEntry.IsPartialEntry || request.ContentOffset >= CacheStreamLength)
                    return CacheValidationStatus.DoNotTakeFromCache; 
                CacheStreamOffset = request.ContentOffset;
            }
            return CacheValidationStatus.Continue;
        } 

    } 
} 


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

Module Name:
 
    FtpRequestCacheValidator.cs
 
Abstract: 
    The class implements FTP Caching validators
 
Author:

    Alexei Vopilov    3-Aug-2004
 
Revision History:
 
--*/ 
namespace System.Net.Cache {
    using System; 
    using System.Net;
    using System.IO;
    using System.Collections;
    using System.Text; 
    using System.Collections.Specialized;
    using System.Globalization; 
    using System.Threading; 

 
    // The class represents an adavanced way for an application to control caching protocol
    internal class FtpRequestCacheValidator: HttpRequestCacheValidator {

        DateTime       m_LastModified; 
        bool           m_HttpProxyMode;
 
        private bool                    HttpProxyMode    {get{return m_HttpProxyMode;}} 
        internal new RequestCachePolicy Policy           {get {return ((RequestCacheValidator)this).Policy;}}
 
        //
        private void ZeroPrivateVars()
        {
            m_LastModified      = DateTime.MinValue; 
            m_HttpProxyMode     = false;
        } 
 
        //public
        internal override RequestCacheValidator CreateValidator() 
        {
            return new FtpRequestCacheValidator(StrictCacheErrors, UnspecifiedMaxAge);
        }
 
        //public
        internal FtpRequestCacheValidator(bool strictCacheErrors, TimeSpan unspecifiedMaxAge): base(strictCacheErrors, unspecifiedMaxAge) 
        { 
        }
 
        //
        // This validation method is called first and before any Cache access is done.
        // Given the request instance the code has to decide whether the request is ever suitable for caching.
        // 
        // Returns:
        // Continue           = Proceed to the next protocol stage. 
        // DoNotTakeFromCache = Don't used caches value for this request 
        // DoNotUseCache      = Cache is not used for this request and response is not cached.
        protected internal override CacheValidationStatus ValidateRequest() 
        {
            // cleanup context after previous  request
            ZeroPrivateVars();
 
            if (Request is HttpWebRequest)
            { 
                m_HttpProxyMode = true; 
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_ftp_proxy_doesnt_support_partial));
                return base.ValidateRequest(); 
            }

            if (Policy.Level == RequestCacheLevel.BypassCache)
                return CacheValidationStatus.DoNotUseCache; 

            string method = Request.Method.ToUpper(CultureInfo.InvariantCulture); 
            if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_ftp_method, method)); 

            switch (method) { 
                case WebRequestMethods.Ftp.DownloadFile:  RequestMethod = HttpMethod.Get;   break;
                case WebRequestMethods.Ftp.UploadFile:    RequestMethod = HttpMethod.Put;break;
                case WebRequestMethods.Ftp.AppendFile:    RequestMethod = HttpMethod.Put;break;
                case WebRequestMethods.Ftp.Rename:        RequestMethod = HttpMethod.Put;break; 
                case WebRequestMethods.Ftp.DeleteFile:    RequestMethod = HttpMethod.Delete;break;
 
                default:        RequestMethod = HttpMethod.Other;    break; 
            }
 
            if ((RequestMethod != HttpMethod.Get || !((FtpWebRequest)Request).UseBinary) && Policy.Level == RequestCacheLevel.CacheOnly)
            {
                // Throw because the request must hit the wire and it's cache-only policy
                FailRequest(WebExceptionStatus.RequestProhibitedByCachePolicy); 
            }
 
            if (method != WebRequestMethods.Ftp.DownloadFile) 
                return CacheValidationStatus.DoNotTakeFromCache;
 
            if (!((FtpWebRequest)Request).UseBinary)
            {
                if(Logging.On)Logging.PrintWarning(Logging.RequestCache, SR.GetString(SR.net_log_cache_ftp_supports_bin_only));
                return CacheValidationStatus.DoNotUseCache; 
            }
 
            if (Policy.Level >= RequestCacheLevel.Reload) 
                return CacheValidationStatus.DoNotTakeFromCache;
 
            return CacheValidationStatus.Continue;
        }

        // 
        // This validation method is called after caching protocol has retrieved the metadata of a cached entry.
        // Given the cached entry context, the request instance and the effective caching policy, 
        // the handler has to decide whether a cached item can be considered as fresh. 
        protected internal override CacheFreshnessStatus ValidateFreshness()
        { 

            if (HttpProxyMode)
            {
                if (CacheStream != Stream.Null) 
                {
                    if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_replacing_entry_with_HTTP_200)); 
 
                    // HTTP validator cannot parse FTP status code and other metadata
                    if (CacheEntry.EntryMetadata == null) 
                        CacheEntry.EntryMetadata = new StringCollection();

                    CacheEntry.EntryMetadata.Clear();
                    CacheEntry.EntryMetadata.Add("HTTP/1.1 200 OK"); 
                }
                return base.ValidateFreshness(); 
            } 

            DateTime nowDate = DateTime.UtcNow; 

            if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_now_time, nowDate.ToString("r", CultureInfo.InvariantCulture)));

            // If absolute Expires can be recovered 
            if (CacheEntry.ExpiresUtc != DateTime.MinValue)
            { 
                //Take absolute Expires value 
                if(Logging.On)Logging.PrintWarning(Logging.RequestCache, SR.GetString(SR.net_log_cache_max_age_absolute, CacheEntry.ExpiresUtc.ToString("r", CultureInfo.InvariantCulture)));
                if (CacheEntry.ExpiresUtc < nowDate) { 
                    return CacheFreshnessStatus.Stale;
                }
                return CacheFreshnessStatus.Fresh;
            } 

            TimeSpan age  = TimeSpan.MaxValue; 
 
            if(CacheEntry.LastSynchronizedUtc != DateTime.MinValue)
            { 
                age = nowDate - CacheEntry.LastSynchronizedUtc;
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_age1, ((int)age.TotalSeconds).ToString(NumberFormatInfo.InvariantInfo), CacheEntry.LastSynchronizedUtc.ToString("r", CultureInfo.InvariantCulture)));
            }
 
            //
            // Heruistic expiration 
            // 
            if (CacheEntry.LastModifiedUtc != DateTime.MinValue)
            { 
                TimeSpan span = (nowDate - CacheEntry.LastModifiedUtc);
                int maxAgeSeconds = (int)(span.TotalSeconds/10);
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_no_max_age_use_10_percent, maxAgeSeconds.ToString(NumberFormatInfo.InvariantInfo), CacheEntry.LastModifiedUtc.ToString("r", CultureInfo.InvariantCulture)));
                if (age.TotalSeconds < maxAgeSeconds) { 
                    return CacheFreshnessStatus.Fresh;
                } 
                return CacheFreshnessStatus.Stale; 
            }
 
            // Else we can only rely on UnspecifiedMaxAge hint
            if(Logging.On)Logging.PrintWarning(Logging.RequestCache, SR.GetString(SR.net_log_cache_no_max_age_use_default, ((int)(UnspecifiedMaxAge.TotalSeconds)).ToString(NumberFormatInfo.InvariantInfo)));
            if (UnspecifiedMaxAge >= age)
            { 
                return CacheFreshnessStatus.Fresh;
            } 
 
            return CacheFreshnessStatus.Stale;
            //return OnValidateFreshness(this); 
        }

        // This method may add headers under the "Warning" header name
        protected internal override CacheValidationStatus ValidateCache() 
        {
            if (HttpProxyMode) 
                return base.ValidateCache(); 

            if (Policy.Level >= RequestCacheLevel.Reload) 
            {
                // For those policies cache is never returned
                GlobalLog.Assert("OnValidateCache()", "This validator should not be called for policy = " + Policy.ToString());
                if(Logging.On)Logging.PrintError(Logging.RequestCache, SR.GetString(SR.net_log_cache_validator_invalid_for_policy, Policy.ToString())); 
                return CacheValidationStatus.DoNotTakeFromCache;
            } 
 
            // First check is do we have a cached entry at all?
            if (CacheStream == Stream.Null || CacheEntry.IsPartialEntry) 
            {
                if (Policy.Level == RequestCacheLevel.CacheOnly)
                {
                    // Throw because entry was not found and it's cache-only policy 
                    FailRequest(WebExceptionStatus.CacheEntryNotFound);
                } 
                if (CacheStream == Stream.Null) 
                {
                    return CacheValidationStatus.DoNotTakeFromCache; 
                }
                // Otherwise it's a partial entry and we can go on the wire
            }
 
            CacheStreamOffset = 0L;
            CacheStreamLength = CacheEntry.StreamSize; 
 
            //
            // Before request submission validation 
            //
            if (Policy.Level == RequestCacheLevel.Revalidate || CacheEntry.IsPartialEntry)
            {
                return TryConditionalRequest(); 
            }
 
            long contentOffset = Request is FtpWebRequest ? ((FtpWebRequest)Request).ContentOffset: 0L; 

            if (CacheFreshnessStatus == CacheFreshnessStatus.Fresh || Policy.Level == RequestCacheLevel.CacheOnly || Policy.Level == RequestCacheLevel.CacheIfAvailable) 
            {
                if (contentOffset != 0)
                {
                    if (contentOffset >= CacheStreamLength) 
                    {
                        if (Policy.Level == RequestCacheLevel.CacheOnly) 
                        { 
                            // Throw because request is outside of cached size and it's cache-only policy
                            FailRequest(WebExceptionStatus.CacheEntryNotFound); 
                        }
                        return CacheValidationStatus.DoNotTakeFromCache;
                    }
                    CacheStreamOffset = contentOffset; 
                }
                return CacheValidationStatus.ReturnCachedResponse; 
            } 

            return CacheValidationStatus.DoNotTakeFromCache; 
        }
        //
        // This is (optionally) called after receiveing a live response
        // 
        protected internal override CacheValidationStatus RevalidateCache()
        { 
            if (HttpProxyMode) 
                return base.RevalidateCache();
 

            if (Policy.Level >= RequestCacheLevel.Reload)
            {
                // For those policies cache is never returned 
                GlobalLog.Assert("RevalidateCache()", "This validator should not be called for policy = " + Policy.ToString());
                if(Logging.On)Logging.PrintError(Logging.RequestCache, SR.GetString(SR.net_log_cache_validator_invalid_for_policy, Policy.ToString())); 
                return CacheValidationStatus.DoNotTakeFromCache; 
            }
 
            // First check is do we still hold on a cached entry?
            if (CacheStream == Stream.Null)
            {
                return CacheValidationStatus.DoNotTakeFromCache; 
            }
 
            // 
            // This is a second+ time validation after receiving at least one response
            // 

            CacheValidationStatus result = CacheValidationStatus.DoNotTakeFromCache;

            FtpWebResponse resp = Response as FtpWebResponse; 
            if (resp == null)
            { 
                // This will result to an application error 
                return CacheValidationStatus.DoNotTakeFromCache;
            } 

            if (resp.StatusCode == FtpStatusCode.FileStatus)
            {
                if(Logging.On) Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_response_last_modified, resp.LastModified.ToUniversalTime().ToString("r", CultureInfo.InvariantCulture), resp.ContentLength)); 
                if(Logging.On) Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_cache_last_modified, CacheEntry.LastModifiedUtc.ToString("r", CultureInfo.InvariantCulture), CacheEntry.StreamSize));
 
                if (CacheStreamOffset != 0L && CacheEntry.IsPartialEntry) 
                {
                    //should never happen 
                    if(Logging.On) Logging.PrintError(Logging.RequestCache, SR.GetString(SR.net_log_cache_partial_and_non_zero_content_offset, CacheStreamOffset.ToString(CultureInfo.InvariantCulture)));
                    result = CacheValidationStatus.DoNotTakeFromCache;
                }
 
                if (resp.LastModified.ToUniversalTime() == CacheEntry.LastModifiedUtc)
                { 
                    if (CacheEntry.IsPartialEntry) 
                    {
                        // A caller will need to use Validator.CacheEntry.StreamSize to figure out what the restart point is 

                        if (resp.ContentLength > 0)
                            this.CacheStreamLength = resp.ContentLength;
                        else 
                            this.CacheStreamLength = -1;
 
                        result = CacheValidationStatus.CombineCachedAndServerResponse; 
                    }
                    else if (resp.ContentLength == CacheEntry.StreamSize) 
                    {
                        result = CacheValidationStatus.ReturnCachedResponse;
                    }
                    else 
                        result = CacheValidationStatus.DoNotTakeFromCache;
                } 
                else 
                    result = CacheValidationStatus.DoNotTakeFromCache;
            } 
            else
            {
                result =  CacheValidationStatus.DoNotTakeFromCache;
            } 

            return result; 
        } 

        // 
        // This validation method is responsible to answer whether the live response is sufficient to make
        // the final decision for caching protocol.
        // This is useful in case of possible failure or inconsistent results received from
        // the remote cache. 
        //
        /// Invalid response from this method means the request was internally modified and should be retried  
        protected internal override CacheValidationStatus ValidateResponse() 
        {
            if (HttpProxyMode) 
                return base.ValidateResponse();

            if (Policy.Level != RequestCacheLevel.Default && Policy.Level != RequestCacheLevel.Revalidate)
            { 
                // Those policy levels do not modify requests
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_response_valid_based_on_policy, Policy.ToString())); 
                return CacheValidationStatus.Continue; 
            }
 
            FtpWebResponse resp = Response as FtpWebResponse;

            if (resp == null) {
                if(Logging.On)Logging.PrintWarning(Logging.RequestCache, SR.GetString(SR.net_log_cache_null_response_failure)); 
                return CacheValidationStatus.Continue;
            } 
 
            if(Logging.On) Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_ftp_response_status, ((int)resp.StatusCode).ToString(CultureInfo.InvariantCulture), resp.StatusCode.ToString()));
 
            // If there was a retry already, it should go with cache disabled so by default we won't retry it again
            if (ResponseCount > 1) {
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_resp_valid_based_on_retry, ResponseCount));
                return CacheValidationStatus.Continue; 
            }
 
            if (resp.StatusCode != FtpStatusCode.OpeningData && resp.StatusCode != FtpStatusCode.FileStatus) 
            {
                return CacheValidationStatus.RetryResponseFromServer; 
            }
            return CacheValidationStatus.Continue;
        }
 
        ///This action handler is responsible for making final decision on whether
        // a received response can be cached. 
        // Invalid result from this method means the response must not be cached 
        protected internal override CacheValidationStatus UpdateCache()
        { 
            if (HttpProxyMode)
                return base.UpdateCache();

            // An combined cace+wire response is not supported if user has specified a restart offset. 
            CacheStreamOffset = 0L;
 
            if (RequestMethod == HttpMethod.Other) 
            {
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_not_updated_based_on_policy, Request.Method)); 
                return CacheValidationStatus.DoNotUpdateCache;
            }

            if (ValidationStatus == CacheValidationStatus.RemoveFromCache) { 
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_removed_existing_invalid_entry));
                return CacheValidationStatus.RemoveFromCache; 
            } 

            if (Policy.Level == RequestCacheLevel.CacheOnly) { 
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_not_updated_based_on_policy, Policy.ToString()));
                return CacheValidationStatus.DoNotUpdateCache;
            }
 
            FtpWebResponse resp = Response as FtpWebResponse;
 
            if (resp == null) 
            {
                if(Logging.On)Logging.PrintWarning(Logging.RequestCache, SR.GetString(SR.net_log_cache_not_updated_because_no_response)); 
                return CacheValidationStatus.DoNotUpdateCache;
            }

            // 
            // Check on cache removal based on the request method
            // 
            if (RequestMethod == HttpMethod.Delete || RequestMethod == HttpMethod.Put) 
            {
                if (RequestMethod == HttpMethod.Delete || 
                    resp.StatusCode == FtpStatusCode.OpeningData ||
                    resp.StatusCode == FtpStatusCode.DataAlreadyOpen ||
                    resp.StatusCode == FtpStatusCode.FileActionOK ||
                    resp.StatusCode == FtpStatusCode.ClosingData) 
                {
                    if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_removed_existing_based_on_method, Request.Method)); 
                    return CacheValidationStatus.RemoveFromCache; 
                }
                if(Logging.On)Logging.PrintWarning(Logging.RequestCache, SR.GetString(SR.net_log_cache_existing_not_removed_because_unexpected_response_status, (int)resp.StatusCode, resp.StatusCode.ToString())); 
                return CacheValidationStatus.DoNotUpdateCache;
            }

            if (Policy.Level == RequestCacheLevel.NoCacheNoStore) { 
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_removed_existing_based_on_policy, Policy.ToString()));
                return CacheValidationStatus.RemoveFromCache; 
            } 

            if (ValidationStatus == CacheValidationStatus.ReturnCachedResponse) 
            {
                // have a response still returning from cache means just revalidated the entry.
                return UpdateCacheEntryOnRevalidate();
            } 

            if (resp.StatusCode != FtpStatusCode.OpeningData 
                && resp.StatusCode != FtpStatusCode.DataAlreadyOpen 
                && resp.StatusCode != FtpStatusCode.ClosingData)
            { 
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_not_updated_based_on_ftp_response_status, FtpStatusCode.OpeningData.ToString() + "|" + FtpStatusCode.DataAlreadyOpen.ToString() + "|" + FtpStatusCode.ClosingData.ToString(), resp.StatusCode.ToString()));
                return CacheValidationStatus.DoNotUpdateCache;
            }
 
            // Check on no-update or cache removal if restart action has invalidated existing cache entry
            if (((FtpWebRequest)Request).ContentOffset != 0L) 
            { 
                if(Logging.On)Logging.PrintWarning(Logging.RequestCache, SR.GetString(SR.net_log_cache_update_not_supported_for_ftp_restart, ((FtpWebRequest)Request).ContentOffset.ToString(CultureInfo.InvariantCulture)));
                if (CacheEntry.LastModifiedUtc != DateTime.MinValue && resp.LastModified.ToUniversalTime() != CacheEntry.LastModifiedUtc) 
                {
                    if(Logging.On)Logging.PrintWarning(Logging.RequestCache, SR.GetString(SR.net_log_cache_removed_entry_because_ftp_restart_response_changed, CacheEntry.LastModifiedUtc.ToString("r", CultureInfo.InvariantCulture), resp.LastModified.ToUniversalTime().ToString("r", CultureInfo.InvariantCulture)));
                    return CacheValidationStatus.RemoveFromCache;
                } 
                return CacheValidationStatus.DoNotUpdateCache;
            } 
 
            return UpdateCacheEntryOnStore();
        } 

        //
        //
        // 
        private CacheValidationStatus UpdateCacheEntryOnStore()
        { 
            CacheEntry.EntryMetadata  = null; 
            CacheEntry.SystemMetadata = null;
 
            FtpWebResponse resp = Response as FtpWebResponse;
            if (resp.LastModified != DateTime.MinValue)
            {
                CacheEntry.LastModifiedUtc = resp.LastModified.ToUniversalTime(); 
            }
 
            ResponseEntityLength = Response.ContentLength; 
            CacheEntry.StreamSize = ResponseEntityLength;       //This is passed down to cache on what size to expect
            CacheEntry.LastSynchronizedUtc = DateTime.UtcNow; 
            return CacheValidationStatus.CacheResponse;
        }
        //
        // 
        private CacheValidationStatus UpdateCacheEntryOnRevalidate()
        { 
            if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_last_synchronized, CacheEntry.LastSynchronizedUtc.ToString("r", CultureInfo.InvariantCulture))); 

            DateTime nowUtc = DateTime.UtcNow; 
            if (CacheEntry.LastSynchronizedUtc + TimeSpan.FromMinutes(1) >= nowUtc)
            {
                if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_suppress_update_because_synched_last_minute));
                return CacheValidationStatus.DoNotUpdateCache; 
            }
 
            CacheEntry.EntryMetadata  = null; 
            CacheEntry.SystemMetadata = null;
 
            CacheEntry.LastSynchronizedUtc = nowUtc;

            if(Logging.On)Logging.PrintInfo(Logging.RequestCache, SR.GetString(SR.net_log_cache_updating_last_synchronized, CacheEntry.LastSynchronizedUtc.ToString("r", CultureInfo.InvariantCulture)));
 
            return CacheValidationStatus.UpdateResponseInformation;
        } 
 
        //
        private CacheValidationStatus TryConditionalRequest() 
        {
            FtpWebRequest request = Request as FtpWebRequest;
            if (request == null || !request.UseBinary)
                return CacheValidationStatus.DoNotTakeFromCache; 

            if (request.ContentOffset != 0L) 
            { 
                if (CacheEntry.IsPartialEntry || request.ContentOffset >= CacheStreamLength)
                    return CacheValidationStatus.DoNotTakeFromCache; 
                CacheStreamOffset = request.ContentOffset;
            }
            return CacheValidationStatus.Continue;
        } 

    } 
} 


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

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