/* * Copyright (c) Contributors, http://opensimulator.org/ * See CONTRIBUTORS.TXT for a full list of copyright holders. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of the OpenSimulator Project nor the * names of its contributors may be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE DEVELOPERS ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE CONTRIBUTORS BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ using System; using System.Collections; using System.Collections.Generic; using System.Collections.Specialized; using System.Globalization; using System.IO; using System.IO.Compression; using System.Net; using System.Net.Security; using System.Reflection; using System.Text; using System.Web; using System.Xml; using System.Xml.Serialization; using log4net; using OpenMetaverse.StructuredData; namespace OpenSim.Framework { /// /// Miscellaneous static methods and extension methods related to the web /// public static class WebUtil { private static readonly ILog m_log = LogManager.GetLogger( MethodBase.GetCurrentMethod().DeclaringType); /// /// Control the printing of certain debug messages. /// /// /// If DebugLevel >= 3 then short notices about outgoing HTTP requests are logged. /// public static int DebugLevel { get; set; } /// /// Request number for diagnostic purposes. /// public static int RequestNumber { get; internal set; } /// /// Control where OSD requests should be serialized per endpoint. /// public static bool SerializeOSDRequestsPerEndpoint { get; set; } /// /// this is the header field used to communicate the local request id /// used for performance and debugging /// public const string OSHeaderRequestID = "opensim-request-id"; /// /// Number of milliseconds a call can take before it is considered /// a "long" call for warning & debugging purposes /// public const int LongCallTime = 3000; /// /// The maximum length of any data logged because of a long request time. /// /// /// This is to truncate any really large post data, such as an asset. In theory, the first section should /// give us useful information about the call (which agent it relates to if applicable, etc.). /// public const int MaxRequestDiagLength = 100; /// /// Dictionary of end points /// private static Dictionary m_endpointSerializer = new Dictionary(); private static object EndPointLock(string url) { System.Uri uri = new System.Uri(url); string endpoint = string.Format("{0}:{1}",uri.Host,uri.Port); lock (m_endpointSerializer) { object eplock = null; if (! m_endpointSerializer.TryGetValue(endpoint,out eplock)) { eplock = new object(); m_endpointSerializer.Add(endpoint,eplock); // m_log.WarnFormat("[WEB UTIL] add a new host to end point serializer {0}",endpoint); } return eplock; } } #region JSONRequest /// /// PUT JSON-encoded data to a web service that returns LLSD or /// JSON data /// public static OSDMap PutToServiceCompressed(string url, OSDMap data, int timeout) { return ServiceOSDRequest(url,data, "PUT", timeout, true); } public static OSDMap PutToService(string url, OSDMap data, int timeout) { return ServiceOSDRequest(url,data, "PUT", timeout, false); } public static OSDMap PostToService(string url, OSDMap data, int timeout) { return ServiceOSDRequest(url, data, "POST", timeout, false); } public static OSDMap PostToServiceCompressed(string url, OSDMap data, int timeout) { return ServiceOSDRequest(url, data, "POST", timeout, true); } public static OSDMap GetFromService(string url, int timeout) { return ServiceOSDRequest(url, null, "GET", timeout, false); } public static OSDMap ServiceOSDRequest(string url, OSDMap data, string method, int timeout, bool compressed) { if (SerializeOSDRequestsPerEndpoint) { lock (EndPointLock(url)) { return ServiceOSDRequestWorker(url, data, method, timeout, compressed); } } else { return ServiceOSDRequestWorker(url, data, method, timeout, compressed); } } public static void LogOutgoingDetail(Stream outputStream) { using (StreamReader reader = new StreamReader(Util.Copy(outputStream), Encoding.UTF8)) { string output; if (DebugLevel == 5) { const int sampleLength = 80; char[] sampleChars = new char[sampleLength]; reader.Read(sampleChars, 0, sampleLength); output = new string(sampleChars); } else { output = reader.ReadToEnd(); } LogOutgoingDetail(output); } } public static void LogOutgoingDetail(string output) { if (DebugLevel == 5) { output = output.Substring(0, 80); output = output + "..."; } m_log.DebugFormat("[WEB UTIL]: {0}", output.Replace("\n", @"\n")); } private static OSDMap ServiceOSDRequestWorker(string url, OSDMap data, string method, int timeout, bool compressed) { int reqnum = RequestNumber++; if (DebugLevel >= 3) m_log.DebugFormat( "[WEB UTIL]: HTTP OUT {0} ServiceOSD {1} {2} (timeout {3}, compressed {4})", reqnum, method, url, timeout, compressed); string errorMessage = "unknown error"; int tickstart = Util.EnvironmentTickCount(); int tickdata = 0; string strBuffer = null; try { HttpWebRequest request = (HttpWebRequest)WebRequest.Create(url); request.Method = method; request.Timeout = timeout; request.KeepAlive = false; request.MaximumAutomaticRedirections = 10; request.ReadWriteTimeout = timeout / 4; request.Headers[OSHeaderRequestID] = reqnum.ToString(); // If there is some input, write it into the request if (data != null) { strBuffer = OSDParser.SerializeJsonString(data); if (DebugLevel >= 5) LogOutgoingDetail(strBuffer); byte[] buffer = System.Text.Encoding.UTF8.GetBytes(strBuffer); if (compressed) { request.ContentType = "application/x-gzip"; using (MemoryStream ms = new MemoryStream()) { using (GZipStream comp = new GZipStream(ms, CompressionMode.Compress)) { comp.Write(buffer, 0, buffer.Length); // We need to close the gzip stream before we write it anywhere // because apparently something important related to gzip compression // gets written on the strteam upon Dispose() } byte[] buf = ms.ToArray(); request.ContentLength = buf.Length; //Count bytes to send using (Stream requestStream = request.GetRequestStream()) requestStream.Write(buf, 0, (int)buf.Length); } } else { request.ContentType = "application/json"; request.ContentLength = buffer.Length; //Count bytes to send using (Stream requestStream = request.GetRequestStream()) requestStream.Write(buffer, 0, buffer.Length); //Send it } } // capture how much time was spent writing, this may seem silly // but with the number concurrent requests, this often blocks tickdata = Util.EnvironmentTickCountSubtract(tickstart); using (WebResponse response = request.GetResponse()) { using (Stream responseStream = response.GetResponseStream()) { string responseStr = null; responseStr = responseStream.GetStreamString(); // m_log.DebugFormat("[WEB UTIL]: <{0}> response is <{1}>",reqnum,responseStr); return CanonicalizeResults(responseStr); } } } catch (WebException we) { errorMessage = we.Message; if (we.Status == WebExceptionStatus.ProtocolError) { using (HttpWebResponse webResponse = (HttpWebResponse)we.Response) errorMessage = String.Format("[{0}] {1}", webResponse.StatusCode, webResponse.StatusDescription); } } catch (Exception ex) { errorMessage = ex.Message; } finally { int tickdiff = Util.EnvironmentTickCountSubtract(tickstart); if (tickdiff > LongCallTime) m_log.InfoFormat( "[WEB UTIL]: Slow ServiceOSD request {0} {1} {2} took {3}ms, {4}ms writing, {5}", reqnum, method, url, tickdiff, tickdata, strBuffer != null ? (strBuffer.Length > MaxRequestDiagLength ? strBuffer.Remove(MaxRequestDiagLength) : strBuffer) : ""); else if (DebugLevel >= 4) m_log.DebugFormat( "[WEB UTIL]: HTTP OUT {0} took {1}ms, {2}ms writing", reqnum, tickdiff, tickdata); } m_log.DebugFormat( "[WEB UTIL]: ServiceOSD request {0} {1} {2} FAILED: {3}", reqnum, url, method, errorMessage); return ErrorResponseMap(errorMessage); } /// /// Since there are no consistencies in the way web requests are /// formed, we need to do a little guessing about the result format. /// Keys: /// Success|success == the success fail of the request /// _RawResult == the raw string that came back /// _Result == the OSD unpacked string /// private static OSDMap CanonicalizeResults(string response) { OSDMap result = new OSDMap(); // Default values result["Success"] = OSD.FromBoolean(true); result["success"] = OSD.FromBoolean(true); result["_RawResult"] = OSD.FromString(response); result["_Result"] = new OSDMap(); if (response.Equals("true",System.StringComparison.OrdinalIgnoreCase)) return result; if (response.Equals("false",System.StringComparison.OrdinalIgnoreCase)) { result["Success"] = OSD.FromBoolean(false); result["success"] = OSD.FromBoolean(false); return result; } try { OSD responseOSD = OSDParser.Deserialize(response); if (responseOSD.Type == OSDType.Map) { result["_Result"] = (OSDMap)responseOSD; return result; } } catch { // don't need to treat this as an error... we're just guessing anyway // m_log.DebugFormat("[WEB UTIL] couldn't decode <{0}>: {1}",response,e.Message); } return result; } #endregion JSONRequest #region FormRequest /// /// POST URL-encoded form data to a web service that returns LLSD or /// JSON data /// public static OSDMap PostToService(string url, NameValueCollection data) { return ServiceFormRequest(url,data,10000); } public static OSDMap ServiceFormRequest(string url, NameValueCollection data, int timeout) { lock (EndPointLock(url)) { return ServiceFormRequestWorker(url,data,timeout); } } private static OSDMap ServiceFormRequestWorker(string url, NameValueCollection data, int timeout) { int reqnum = RequestNumber++; string method = (data != null && data["RequestMethod"] != null) ? data["RequestMethod"] : "unknown"; if (DebugLevel >= 3) m_log.DebugFormat( "[WEB UTIL]: HTTP OUT {0} ServiceForm {1} {2} (timeout {3})", reqnum, method, url, timeout); string errorMessage = "unknown error"; int tickstart = Util.EnvironmentTickCount(); int tickdata = 0; string queryString = null; try { HttpWebRequest request = (HttpWebRequest)HttpWebRequest.Create(url); request.Method = "POST"; request.Timeout = timeout; request.KeepAlive = false; request.MaximumAutomaticRedirections = 10; request.ReadWriteTimeout = timeout / 4; request.Headers[OSHeaderRequestID] = reqnum.ToString(); if (data != null) { queryString = BuildQueryString(data); if (DebugLevel >= 5) LogOutgoingDetail(queryString); byte[] buffer = System.Text.Encoding.UTF8.GetBytes(queryString); request.ContentLength = buffer.Length; request.ContentType = "application/x-www-form-urlencoded"; using (Stream requestStream = request.GetRequestStream()) requestStream.Write(buffer, 0, buffer.Length); } // capture how much time was spent writing, this may seem silly // but with the number concurrent requests, this often blocks tickdata = Util.EnvironmentTickCountSubtract(tickstart); using (WebResponse response = request.GetResponse()) { using (Stream responseStream = response.GetResponseStream()) { string responseStr = null; responseStr = responseStream.GetStreamString(); OSD responseOSD = OSDParser.Deserialize(responseStr); if (responseOSD.Type == OSDType.Map) return (OSDMap)responseOSD; } } } catch (WebException we) { errorMessage = we.Message; if (we.Status == WebExceptionStatus.ProtocolError) { using (HttpWebResponse webResponse = (HttpWebResponse)we.Response) errorMessage = String.Format("[{0}] {1}",webResponse.StatusCode,webResponse.StatusDescription); } } catch (Exception ex) { errorMessage = ex.Message; } finally { int tickdiff = Util.EnvironmentTickCountSubtract(tickstart); if (tickdiff > LongCallTime) m_log.InfoFormat( "[WEB UTIL]: Slow ServiceForm request {0} {1} {2} took {3}ms, {4}ms writing, {5}", reqnum, method, url, tickdiff, tickdata, queryString != null ? (queryString.Length > MaxRequestDiagLength) ? queryString.Remove(MaxRequestDiagLength) : queryString : ""); else if (DebugLevel >= 4) m_log.DebugFormat( "[WEB UTIL]: HTTP OUT {0} took {1}ms, {2}ms writing", reqnum, tickdiff, tickdata); } m_log.WarnFormat("[WEB UTIL]: ServiceForm request {0} {1} {2} failed: {2}", reqnum, method, url, errorMessage); return ErrorResponseMap(errorMessage); } /// /// Create a response map for an error, trying to keep /// the result formats consistent /// private static OSDMap ErrorResponseMap(string msg) { OSDMap result = new OSDMap(); result["Success"] = "False"; result["Message"] = OSD.FromString("Service request failed: " + msg); return result; } #endregion FormRequest #region Uri /// /// Combines a Uri that can contain both a base Uri and relative path /// with a second relative path fragment /// /// Starting (base) Uri /// Relative path fragment to append to the end /// of the Uri /// The combined Uri /// This is similar to the Uri constructor that takes a base /// Uri and the relative path, except this method can append a relative /// path fragment on to an existing relative path public static Uri Combine(this Uri uri, string fragment) { string fragment1 = uri.Fragment; string fragment2 = fragment; if (!fragment1.EndsWith("/")) fragment1 = fragment1 + '/'; if (fragment2.StartsWith("/")) fragment2 = fragment2.Substring(1); return new Uri(uri, fragment1 + fragment2); } /// /// Combines a Uri that can contain both a base Uri and relative path /// with a second relative path fragment. If the fragment is absolute, /// it will be returned without modification /// /// Starting (base) Uri /// Relative path fragment to append to the end /// of the Uri, or an absolute Uri to return unmodified /// The combined Uri public static Uri Combine(this Uri uri, Uri fragment) { if (fragment.IsAbsoluteUri) return fragment; string fragment1 = uri.Fragment; string fragment2 = fragment.ToString(); if (!fragment1.EndsWith("/")) fragment1 = fragment1 + '/'; if (fragment2.StartsWith("/")) fragment2 = fragment2.Substring(1); return new Uri(uri, fragment1 + fragment2); } /// /// Appends a query string to a Uri that may or may not have existing /// query parameters /// /// Uri to append the query to /// Query string to append. Can either start with ? /// or just containg key/value pairs /// String representation of the Uri with the query string /// appended public static string AppendQuery(this Uri uri, string query) { if (String.IsNullOrEmpty(query)) return uri.ToString(); if (query[0] == '?' || query[0] == '&') query = query.Substring(1); string uriStr = uri.ToString(); if (uriStr.Contains("?")) return uriStr + '&' + query; else return uriStr + '?' + query; } #endregion Uri #region NameValueCollection /// /// Convert a NameValueCollection into a query string. This is the /// inverse of HttpUtility.ParseQueryString() /// /// Collection of key/value pairs to convert /// A query string with URL-escaped values public static string BuildQueryString(NameValueCollection parameters) { List items = new List(parameters.Count); foreach (string key in parameters.Keys) { string[] values = parameters.GetValues(key); if (values != null) { foreach (string value in values) items.Add(String.Concat(key, "=", HttpUtility.UrlEncode(value ?? String.Empty))); } } return String.Join("&", items.ToArray()); } /// /// /// /// /// /// public static string GetOne(this NameValueCollection collection, string key) { string[] values = collection.GetValues(key); if (values != null && values.Length > 0) return values[0]; return null; } #endregion NameValueCollection #region Stream /// /// Copies the contents of one stream to another, starting at the /// current position of each stream /// /// The stream to copy from, at the position /// where copying should begin /// The stream to copy to, at the position where /// bytes should be written /// The maximum bytes to copy /// The total number of bytes copied /// /// Copying begins at the streams' current positions. The positions are /// NOT reset after copying is complete. /// NOTE!! .NET 4.0 adds the method 'Stream.CopyTo(stream, bufferSize)'. /// This function could be replaced with that method once we move /// totally to .NET 4.0. For versions before, this routine exists. /// This routine used to be named 'CopyTo' but the int parameter has /// a different meaning so this method was renamed to avoid any confusion. /// public static int CopyStream(this Stream copyFrom, Stream copyTo, int maximumBytesToCopy) { byte[] buffer = new byte[4096]; int readBytes; int totalCopiedBytes = 0; while ((readBytes = copyFrom.Read(buffer, 0, Math.Min(4096, maximumBytesToCopy))) > 0) { int writeBytes = Math.Min(maximumBytesToCopy, readBytes); copyTo.Write(buffer, 0, writeBytes); totalCopiedBytes += writeBytes; maximumBytesToCopy -= writeBytes; } return totalCopiedBytes; } /// /// Converts an entire stream to a string, regardless of current stream /// position /// /// The stream to convert to a string /// /// When this method is done, the stream position will be /// reset to its previous position before this method was called public static string GetStreamString(this Stream stream) { string value = null; if (stream != null && stream.CanRead) { long rewindPos = -1; if (stream.CanSeek) { rewindPos = stream.Position; stream.Seek(0, SeekOrigin.Begin); } StreamReader reader = new StreamReader(stream); value = reader.ReadToEnd(); if (rewindPos >= 0) stream.Seek(rewindPos, SeekOrigin.Begin); } return value; } #endregion Stream public class QBasedComparer : IComparer { public int Compare(Object x, Object y) { float qx = GetQ(x); float qy = GetQ(y); return qy.CompareTo(qx); // descending order } private float GetQ(Object o) { // Example: image/png;q=0.9 float qvalue = 1F; if (o is String) { string mime = (string)o; string[] parts = mime.Split(';'); if (parts.Length > 1) { string[] kvp = parts[1].Split('='); if (kvp.Length == 2 && kvp[0] == "q") float.TryParse(kvp[1], NumberStyles.Number, CultureInfo.InvariantCulture, out qvalue); } } return qvalue; } } /// /// Takes the value of an Accept header and returns the preferred types /// ordered by q value (if it exists). /// Example input: image/jpg;q=0.7, image/png;q=0.8, image/jp2 /// Exmaple output: ["jp2", "png", "jpg"] /// NOTE: This doesn't handle the semantics of *'s... /// /// /// public static string[] GetPreferredImageTypes(string accept) { if (string.IsNullOrEmpty(accept)) return new string[0]; string[] types = accept.Split(new char[] { ',' }); if (types.Length > 0) { List list = new List(types); list.RemoveAll(delegate(string s) { return !s.ToLower().StartsWith("image"); }); ArrayList tlist = new ArrayList(list); tlist.Sort(new QBasedComparer()); string[] result = new string[tlist.Count]; for (int i = 0; i < tlist.Count; i++) { string mime = (string)tlist[i]; string[] parts = mime.Split(new char[] { ';' }); string[] pair = parts[0].Split(new char[] { '/' }); if (pair.Length == 2) result[i] = pair[1].ToLower(); else // oops, we don't know what this is... result[i] = pair[0]; } return result; } return new string[0]; } } public static class AsynchronousRestObjectRequester { private static readonly ILog m_log = LogManager.GetLogger(MethodBase.GetCurrentMethod().DeclaringType); /// /// Perform an asynchronous REST request. /// /// GET or POST /// /// /// /// /// /// Thrown if we encounter a /// network issue while posting the request. You'll want to make /// sure you deal with this as they're not uncommon // public static void MakeRequest(string verb, string requestUrl, TRequest obj, Action action) { MakeRequest(verb, requestUrl, obj, action, 0); } public static void MakeRequest(string verb, string requestUrl, TRequest obj, Action action, int maxConnections) { int reqnum = WebUtil.RequestNumber++; if (WebUtil.DebugLevel >= 3) m_log.DebugFormat( "[WEB UTIL]: HTTP OUT {0} AsynchronousRequestObject {1} {2}", reqnum, verb, requestUrl); int tickstart = Util.EnvironmentTickCount(); int tickdata = 0; Type type = typeof(TRequest); WebRequest request = WebRequest.Create(requestUrl); HttpWebRequest ht = (HttpWebRequest)request; if (maxConnections > 0 && ht.ServicePoint.ConnectionLimit < maxConnections) ht.ServicePoint.ConnectionLimit = maxConnections; TResponse deserial = default(TResponse); XmlSerializer deserializer = new XmlSerializer(typeof(TResponse)); request.Method = verb; MemoryStream buffer = null; try { if (verb == "POST") { request.ContentType = "text/xml"; buffer = new MemoryStream(); XmlWriterSettings settings = new XmlWriterSettings(); settings.Encoding = Encoding.UTF8; using (XmlWriter writer = XmlWriter.Create(buffer, settings)) { XmlSerializer serializer = new XmlSerializer(type); serializer.Serialize(writer, obj); writer.Flush(); } int length = (int)buffer.Length; request.ContentLength = length; if (WebUtil.DebugLevel >= 5) WebUtil.LogOutgoingDetail(buffer); request.BeginGetRequestStream(delegate(IAsyncResult res) { using (Stream requestStream = request.EndGetRequestStream(res)) requestStream.Write(buffer.ToArray(), 0, length); // capture how much time was spent writing tickdata = Util.EnvironmentTickCountSubtract(tickstart); request.BeginGetResponse(delegate(IAsyncResult ar) { using (WebResponse response = request.EndGetResponse(ar)) { try { using (Stream respStream = response.GetResponseStream()) deserial = (TResponse)deserializer.Deserialize(respStream); } catch (System.InvalidOperationException) { } } action(deserial); }, null); }, null); } else { request.BeginGetResponse(delegate(IAsyncResult res2) { try { // If the server returns a 404, this appears to trigger a System.Net.WebException even though that isn't // documented in MSDN using (WebResponse response = request.EndGetResponse(res2)) { try { using (Stream respStream = response.GetResponseStream()) deserial = (TResponse)deserializer.Deserialize(respStream); } catch (System.InvalidOperationException) { } } } catch (WebException e) { if (e.Status == WebExceptionStatus.ProtocolError) { if (e.Response is HttpWebResponse) { using (HttpWebResponse httpResponse = (HttpWebResponse)e.Response) { if (httpResponse.StatusCode != HttpStatusCode.NotFound) { // We don't appear to be handling any other status codes, so log these feailures to that // people don't spend unnecessary hours hunting phantom bugs. m_log.DebugFormat( "[ASYNC REQUEST]: Request {0} {1} failed with unexpected status code {2}", verb, requestUrl, httpResponse.StatusCode); } } } } else { m_log.ErrorFormat( "[ASYNC REQUEST]: Request {0} {1} failed with status {2} and message {3}", verb, requestUrl, e.Status, e.Message); } } catch (Exception e) { m_log.ErrorFormat( "[ASYNC REQUEST]: Request {0} {1} failed with exception {2}{3}", verb, requestUrl, e.Message, e.StackTrace); } // m_log.DebugFormat("[ASYNC REQUEST]: Received {0}", deserial.ToString()); try { action(deserial); } catch (Exception e) { m_log.ErrorFormat( "[ASYNC REQUEST]: Request {0} {1} callback failed with exception {2}{3}", verb, requestUrl, e.Message, e.StackTrace); } }, null); } int tickdiff = Util.EnvironmentTickCountSubtract(tickstart); if (tickdiff > WebUtil.LongCallTime) { string originalRequest = null; if (buffer != null) { originalRequest = Encoding.UTF8.GetString(buffer.ToArray()); if (originalRequest.Length > WebUtil.MaxRequestDiagLength) originalRequest = originalRequest.Remove(WebUtil.MaxRequestDiagLength); } m_log.InfoFormat( "[ASYNC REQUEST]: Slow request {0} {1} {2} took {3}ms, {4}ms writing, {5}", reqnum, verb, requestUrl, tickdiff, tickdata, originalRequest); } else if (WebUtil.DebugLevel >= 4) { m_log.DebugFormat( "[WEB UTIL]: HTTP OUT {0} took {1}ms, {2}ms writing", reqnum, tickdiff, tickdata); } } finally { if (buffer != null) buffer.Dispose(); } } } public static class SynchronousRestFormsRequester { private static readonly ILog m_log = LogManager.GetLogger(MethodBase.GetCurrentMethod().DeclaringType); /// /// Perform a synchronous REST request. /// /// /// /// /// /// /// /// Thrown if we encounter a network issue while posting /// the request. You'll want to make sure you deal with this as they're not uncommon public static string MakeRequest(string verb, string requestUrl, string obj, int timeoutsecs) { int reqnum = WebUtil.RequestNumber++; if (WebUtil.DebugLevel >= 3) m_log.DebugFormat( "[WEB UTIL]: HTTP OUT {0} SynchronousRestForms {1} {2}", reqnum, verb, requestUrl); int tickstart = Util.EnvironmentTickCount(); int tickdata = 0; WebRequest request = WebRequest.Create(requestUrl); request.Method = verb; if (timeoutsecs > 0) request.Timeout = timeoutsecs * 1000; string respstring = String.Empty; using (MemoryStream buffer = new MemoryStream()) { if ((verb == "POST") || (verb == "PUT")) { request.ContentType = "application/x-www-form-urlencoded"; int length = 0; using (StreamWriter writer = new StreamWriter(buffer)) { writer.Write(obj); writer.Flush(); } length = (int)obj.Length; request.ContentLength = length; if (WebUtil.DebugLevel >= 5) WebUtil.LogOutgoingDetail(buffer); Stream requestStream = null; try { requestStream = request.GetRequestStream(); requestStream.Write(buffer.ToArray(), 0, length); } catch (Exception e) { m_log.DebugFormat( "[FORMS]: exception occured {0} {1}: {2}{3}", verb, requestUrl, e.Message, e.StackTrace); } finally { if (requestStream != null) requestStream.Dispose(); // capture how much time was spent writing tickdata = Util.EnvironmentTickCountSubtract(tickstart); } } try { using (WebResponse resp = request.GetResponse()) { if (resp.ContentLength != 0) { Stream respStream = null; try { using (respStream = resp.GetResponseStream()) using (StreamReader reader = new StreamReader(respStream)) respstring = reader.ReadToEnd(); } catch (Exception e) { m_log.DebugFormat( "[FORMS]: Exception occured on receiving {0} {1}: {2}{3}", verb, requestUrl, e.Message, e.StackTrace); } } } } catch (System.InvalidOperationException e) { m_log.Debug( string.Format( "[FORMS]: InvalidOperationException on response from {0} {1} ", verb, requestUrl), e); } } int tickdiff = Util.EnvironmentTickCountSubtract(tickstart); if (tickdiff > WebUtil.LongCallTime) m_log.InfoFormat( "[FORMS]: Slow request {0} {1} {2} took {3}ms, {4}ms writing, {5}", reqnum, verb, requestUrl, tickdiff, tickdata, obj.Length > WebUtil.MaxRequestDiagLength ? obj.Remove(WebUtil.MaxRequestDiagLength) : obj); else if (WebUtil.DebugLevel >= 4) m_log.DebugFormat( "[WEB UTIL]: HTTP OUT {0} took {1}ms, {2}ms writing", reqnum, tickdiff, tickdata); return respstring; } public static string MakeRequest(string verb, string requestUrl, string obj) { return MakeRequest(verb, requestUrl, obj, -1); } } public class SynchronousRestObjectRequester { private static readonly ILog m_log = LogManager.GetLogger( MethodBase.GetCurrentMethod().DeclaringType); /// /// Perform a synchronous REST request. /// /// /// /// /// /// /// Thrown if we encounter a network issue while posting /// the request. You'll want to make sure you deal with this as they're not uncommon public static TResponse MakeRequest(string verb, string requestUrl, TRequest obj) { return MakeRequest(verb, requestUrl, obj, 0); } public static TResponse MakeRequest(string verb, string requestUrl, TRequest obj, int pTimeout) { return MakeRequest(verb, requestUrl, obj, pTimeout, 0); } public static TResponse MakeRequest(string verb, string requestUrl, TRequest obj, int pTimeout, int maxConnections) { int reqnum = WebUtil.RequestNumber++; if (WebUtil.DebugLevel >= 3) m_log.DebugFormat( "[WEB UTIL]: HTTP OUT {0} SynchronousRestObject {1} {2}", reqnum, verb, requestUrl); int tickstart = Util.EnvironmentTickCount(); int tickdata = 0; Type type = typeof(TRequest); TResponse deserial = default(TResponse); WebRequest request = WebRequest.Create(requestUrl); HttpWebRequest ht = (HttpWebRequest)request; if (maxConnections > 0 && ht.ServicePoint.ConnectionLimit < maxConnections) ht.ServicePoint.ConnectionLimit = maxConnections; request.Method = verb; MemoryStream buffer = null; try { if ((verb == "POST") || (verb == "PUT")) { request.ContentType = "text/xml"; buffer = new MemoryStream(); XmlWriterSettings settings = new XmlWriterSettings(); settings.Encoding = Encoding.UTF8; using (XmlWriter writer = XmlWriter.Create(buffer, settings)) { XmlSerializer serializer = new XmlSerializer(type); serializer.Serialize(writer, obj); writer.Flush(); } int length = (int)buffer.Length; request.ContentLength = length; if (WebUtil.DebugLevel >= 5) WebUtil.LogOutgoingDetail(buffer); try { using (Stream requestStream = request.GetRequestStream()) requestStream.Write(buffer.ToArray(), 0, length); } catch (Exception e) { m_log.DebugFormat( "[SynchronousRestObjectRequester]: Exception in making request {0} {1}: {2}{3}", verb, requestUrl, e.Message, e.StackTrace); return deserial; } finally { // capture how much time was spent writing tickdata = Util.EnvironmentTickCountSubtract(tickstart); } } try { using (HttpWebResponse resp = (HttpWebResponse)request.GetResponse()) { if (resp.ContentLength != 0) { using (Stream respStream = resp.GetResponseStream()) { XmlSerializer deserializer = new XmlSerializer(typeof(TResponse)); deserial = (TResponse)deserializer.Deserialize(respStream); } } else { m_log.DebugFormat( "[SynchronousRestObjectRequester]: Oops! no content found in response stream from {0} {1}", verb, requestUrl); } } } catch (WebException e) { using (HttpWebResponse hwr = (HttpWebResponse)e.Response) { if (hwr != null && hwr.StatusCode == HttpStatusCode.NotFound) return deserial; else m_log.ErrorFormat( "[SynchronousRestObjectRequester]: WebException for {0} {1} {2}: {3} {4}", verb, requestUrl, typeof(TResponse).ToString(), e.Message, e.StackTrace); } } catch (System.InvalidOperationException) { // This is what happens when there is invalid XML m_log.DebugFormat( "[SynchronousRestObjectRequester]: Invalid XML from {0} {1} {2}", verb, requestUrl, typeof(TResponse).ToString()); } catch (Exception e) { m_log.DebugFormat( "[SynchronousRestObjectRequester]: Exception on response from {0} {1}: {2}{3}", verb, requestUrl, e.Message, e.StackTrace); } int tickdiff = Util.EnvironmentTickCountSubtract(tickstart); if (tickdiff > WebUtil.LongCallTime) { string originalRequest = null; if (buffer != null) { originalRequest = Encoding.UTF8.GetString(buffer.ToArray()); if (originalRequest.Length > WebUtil.MaxRequestDiagLength) originalRequest = originalRequest.Remove(WebUtil.MaxRequestDiagLength); } m_log.InfoFormat( "[SynchronousRestObjectRequester]: Slow request {0} {1} {2} took {3}ms, {4}ms writing, {5}", reqnum, verb, requestUrl, tickdiff, tickdata, originalRequest); } else if (WebUtil.DebugLevel >= 4) { m_log.DebugFormat( "[WEB UTIL]: HTTP OUT {0} took {1}ms, {2}ms writing", reqnum, tickdiff, tickdata); } } finally { if (buffer != null) buffer.Dispose(); } return deserial; } } }