public long ReadInt64(IRemoteProcess remoteProcess, MemoryMap memoryMap) { Contract.Requires <ArgumentNullException>(remoteProcess != null); Contract.Requires <ArgumentNullException>(memoryMap != null); throw new NotImplementedException(); }
public byte[] Read(IRemoteProcess remoteProcess, MemoryMap memoryMap, int size) { Contract.Requires <ArgumentNullException>(remoteProcess != null); Contract.Requires <ArgumentNullException>(memoryMap != null); throw new NotImplementedException(); }
public short ReadInt16(IRemoteProcess remoteProcess, MemoryMap memoryMap) { Contract.Requires<ArgumentNullException>(remoteProcess != null); Contract.Requires<ArgumentNullException>(memoryMap != null); throw new NotImplementedException(); }
public byte[] Read(IRemoteProcess remoteProcess, MemoryMap memoryMap, int size) { Contract.Requires<ArgumentNullException>(remoteProcess != null); Contract.Requires<ArgumentNullException>(memoryMap != null); throw new NotImplementedException(); }
public string ReadString(IRemoteProcess remoteProcess, MemoryMap memoryMap, int?length = null) { Contract.Requires <ArgumentNullException>(remoteProcess != null); Contract.Requires <ArgumentNullException>(memoryMap != null); Contract.Requires <ArgumentOutOfRangeException>(length == null || length >= 0); throw new NotImplementedException(); }
public IProcessModules Create(IRemoteProcess remoteProcess) { Contract.Requires<ArgumentNullException>(remoteProcess != null); return new ProcessModulesViewModel( remoteProcess, this.processDetailsVMFactory.Create(), this.moduleFactories.Select(o => o.Create(remoteProcess))); }
public IProcessModules Create(IRemoteProcess remoteProcess) { Contract.Requires <ArgumentNullException>(remoteProcess != null); return(new ProcessModulesViewModel( remoteProcess, this.processDetailsVMFactory.Create(), this.moduleFactories.Select(o => o.Create(remoteProcess)))); }
/// <summary> /// Get Oracle Version /// </summary> /// <param name="OracleHome">Oracle Home</param> /// <param name="version">Version</param> /// <returns></returns> private ResultCodes GetOracleServerEdition(string OracleHome, out string edition) { ResultCodes resultCode = ResultCodes.RC_SUCCESS; Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Attempting to retrieve config file from OracleHome: {1}.", m_taskId, OracleHome); StringBuilder fileContent = new StringBuilder(); string contentXMLFilePath = string.Empty; edition = @""; if (OracleHome.EndsWith(@"\")) { contentXMLFilePath = OracleHome + @"inventory\ContentsXML\comps.xml"; } else { contentXMLFilePath = OracleHome + @"\inventory\ContentsXML\comps.xml"; } if (Lib.ValidateFile(m_taskId, contentXMLFilePath, m_cimvScope)) { using (IRemoteProcess rp = RemoteProcess.GetRemoteFile(m_taskId, m_cimvScope, contentXMLFilePath, m_connection, m_tftpPath, m_tftpPath_login, m_tftpPath_password, m_tftpDispatcher)) { // // Launch the remote process. // This method will block until the entire remote process operation completes. resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Remote file retrieval operation completed with result code {1}.", m_taskId, resultCode.ToString()); fileContent.Append(rp.Stdout); } // Parse config file content edition = parseContentXMLFile(fileContent.ToString()); } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Oracle Server Config file: {1} does not exist.", m_taskId, contentXMLFilePath); // Some Oracle Administrator might have corrupted config file or registry settings. // In order not to confuse scan result with actual error, return RC_SUCCESS instead. resultCode = ResultCodes.RC_SUCCESS; } return(resultCode); }
private static async Task <IRemoteProcessPipResult> GetCompletionAsync(IRemoteProcess remoteProcess) { try { IRemoteProcessResult anyBuildResult = await remoteProcess.Completion; return(AnyBuildRemoteProcessPipResult.FromAnyBuildResult(anyBuildResult)); } catch (Exception e) { return(new ErrorRemoteProcessPipResult(e.ToString())); } }
public void AttachToProcess(IRemoteProcess remoteProcess) { Contract.Requires <ArgumentNullException>(remoteProcess != null); if (remoteProcess.IsAttached) { return; } this.remoteProcessCommandService.AttachClientToRemoteProcess( new AttachClientToRemoteProcessCommand(remoteProcess.Id)); this.TryClose(); }
private ResultCodes DeleteFile(ManagementScope cimvScope, string fileName) { ResultCodes resultCode = ResultCodes.RC_PROCESSING_EXCEPTION; using (IRemoteProcess rp = RemoteProcess.NewRemoteProcess(m_taskId, cimvScope, @"cmd /Q /C del """ + fileName + '"', null, StdioRedirection.STDOUT, m_connection, m_tftpPath, m_tftpPath_login, m_tftpPath_password, m_tftpDispatcher)) { resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Deletion of file {1} completed with result code {2}.", m_taskId, fileName, resultCode.ToString()); } return(resultCode); }
private IntPtr GetAddress(IRemoteProcess remoteProcess, MemoryMap memoryMap) { Contract.Requires <ArgumentNullException>(remoteProcess != null); Contract.Requires <ArgumentNullException>(memoryMap != null); var module = remoteProcess.Modules.FirstOrDefault( m => string.Equals(m.Name, memoryMap.DllName, StringComparison.OrdinalIgnoreCase)); if (module == null) { return(IntPtr.Zero); } return(memoryMap.Offsets.Skip(1) .Aggregate( module.BaseAddress + memoryMap.Offsets.First(), (current, offset) => (IntPtr)(this.readProcessMemory.ReadInt32(remoteProcess.Handle, current) + offset))); }
public ProcessModulesViewModel(IRemoteProcess remoteProcess, IItem processDetails, IEnumerable<IModule> modules) { Contract.Requires<ArgumentNullException>(remoteProcess != null); Contract.Requires<ArgumentNullException>(processDetails != null); Contract.Requires<ArgumentNullException>(modules != null); this.remoteProcess = remoteProcess; this.processDetails = processDetails; this.iconSource = null; this.modules = new BindableCollection<IModule>(modules); var inpc = remoteProcess as INotifyPropertyChanged; if (inpc == null) { return; } PropertyChangedEventManager.AddHandler( inpc, (sender, args) => this.NotifyOfPropertyChange(() => this.Name), string.Empty); }
public ProcessModulesViewModel(IRemoteProcess remoteProcess, IItem processDetails, IEnumerable <IModule> modules) { Contract.Requires <ArgumentNullException>(remoteProcess != null); Contract.Requires <ArgumentNullException>(processDetails != null); Contract.Requires <ArgumentNullException>(modules != null); this.remoteProcess = remoteProcess; this.processDetails = processDetails; this.iconSource = null; this.modules = new BindableCollection <IModule>(modules); var inpc = remoteProcess as INotifyPropertyChanged; if (inpc == null) { return; } PropertyChangedEventManager.AddHandler( inpc, (sender, args) => this.NotifyOfPropertyChange(() => this.Name), string.Empty); }
/// <summary> /// Collect usage statistics from agent. /// </summary> /// <param name="cimvScope">WMI connection.</param> /// <returns>Operation result code.</returns> private ResultCodes GetUsageStatistics(ManagementScope cimvScope) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Attempting to get usage statistics", m_taskId); ResultCodes resultCode = ResultCodes.RC_PROCESSING_EXCEPTION; if (String.IsNullOrEmpty(m_serviceDataPath)) { return(resultCode); } String resultPath = m_serviceDataPath + "result.cvs"; StringBuilder fileContent = new StringBuilder(); if (Lib.ValidateFile(m_taskId, resultPath, cimvScope)) { using (IRemoteProcess rp = RemoteProcess.GetRemoteFile(m_taskId, cimvScope, resultPath, m_connection, m_tftpPath, m_tftpPath_login, m_tftpPath_password, m_tftpDispatcher)) { // Launch the remote process. // This method will block until the entire remote process operation completes. resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Remote file retrieval operation completed with result code {1}.", m_taskId, resultCode.ToString()); fileContent.Append(rp.Stdout); } string[] lines = fileContent.ToString().Split(new char[] { '\n', '\r' }, StringSplitOptions.RemoveEmptyEntries); m_resultFileContents = String.Join(BdnaDelimiters.DELIMITER_TAG, lines); resultCode = ResultCodes.RC_SUCCESS; } return(resultCode); }
public async Task <IRemoteProcessPip> CreateAndStartAsync(RemoteProcessInfo processInfo, CancellationToken cancellationToken) { Contract.Requires(IsInitialized); IRemoteProcessFactory factory = (await m_initResultLazy.GetValueAsync()).RemoteProcessFactory; var commandInfo = new RemoteCommandExecutionInfo( processInfo.Executable, processInfo.Args, processInfo.WorkingDirectory, useLocalEnvironment: false, processInfo.Environments.ToList()); try { IRemoteProcess remoteCommand = await factory.CreateAndStartAsync(commandInfo, cancellationToken); return(new AnyBuildRemoteProcess(remoteCommand)); } catch (Exception e) { return(new ErrorRemoteProcessPip(e.ToString())); } }
private ResultCodes CopyFiles(ManagementScope cimvScope) { ResultCodes resultCode; string localPath = Directory.GetCurrentDirectory() + s_localServicePath; using (IRemoteProcess rp = RemoteProcess.SendFile(m_taskId, cimvScope, localPath + s_executableName, m_pathName + s_executableName, m_connection, m_tftpPath, m_tftpPath_login, m_tftpPath_password, m_tftpDispatcher)) { resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Sending of file {1} completed with result code {2}.", m_taskId, s_executableName, resultCode.ToString()); } if (resultCode != ResultCodes.RC_SUCCESS) { return(resultCode); } using (IRemoteProcess rp = RemoteProcess.SendFile(m_taskId, cimvScope, localPath + "ListPrint.xml", m_logPathName + "ListPrint.xml", m_connection, m_tftpPath, m_tftpPath_login, m_tftpPath_password, m_tftpDispatcher)) { resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Sending of file {1} completed with result code {2}.", m_taskId, "ListPrint.xml", resultCode.ToString()); } return(resultCode); }
/// <summary> /// Spawn a remote process to execute the L3 validation /// batch file and process the results. /// </summary> /// /// <param name="scope">WMI connection to target host.</param> /// <param name="batchFile">Batch file contents to execute.</param> /// <param name="schemaName">Schema name to validate.</param> /// <param name="scriptParameters">Script parameters to use (contains temporary directory /// parameter).</param> /// <param name="tftpDispatcher">TFTP dispatcher singleton.</param> /// /// <returns>Operation result code.</returns> private ResultCodes ExecuteRemoteProcess( ManagementScope scope, string batchFile, string schemaName, IDictionary <string, object> scriptParameters, string tftpPath, string tftpPath_login, string tftpPath_password, ITftpDispatcher tftpDispatcher) { ResultCodes resultCode = ResultCodes.RC_SUCCESS; string stdout = String.Empty; Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Attempt to establish L3 connection using {1}.", m_taskId, schemaName); using (IRemoteProcess rp = RemoteProcess.ExecuteBatchFile(m_taskId, scope, batchFile, scriptParameters, tftpPath, tftpPath_login, tftpPath_password, tftpDispatcher)) { Stopwatch sw = Stopwatch.StartNew(); resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Remote process operation completed with result code {1}. Elapsed time {2}.", m_taskId, resultCode.ToString(), sw.Elapsed.ToString()); stdout = rp.Stdout.ToString(); if (ResultCodes.RC_SUCCESS == resultCode) { if (null != stdout && 0 < stdout.Length) { if (stdout.Contains("ORA-01017")) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Oracle L3 credential invalid.\nResult code changed to RC_PROCESSING_EXCEPTION.\nSTDOUT/STDERR:\n{1}", m_taskId, stdout); resultCode = ResultCodes.RC_HOST_CONNECT_FAILED; } else if (stdout.Contains("ERROR-")) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Batch file execution exception.\nResult code changed to RC_PROCESSING_EXCEPTION.\nSTDOUT/STDERR:\n{1}", m_taskId, stdout); resultCode = ResultCodes.RC_REMOTE_COMMAND_EXECUTION_ERROR; } else if (!stdout.Contains(@"BDNA")) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: SQLPLUS exception, no proper data returned.\nResult code changed to RC_PROCESSING_EXCEPTION.\nSTDOUT/STDERR:\n{1}", m_taskId, stdout); resultCode = ResultCodes.RC_REMOTE_COMMAND_EXECUTION_ERROR; } else if (!stdout.Contains(@"Execution completed")) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Exception with batch file return data.\nData returned is shorter than expected, possibly due to transfer failure.\nResult code changed to RC_PROCESSING_EXCEPTION.", m_taskId); resultCode = ResultCodes.RC_REMOTE_COMMAND_EXECUTION_ERROR; } } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: No data returned.\nResult code changed to RC_PROCESSING_EXCEPTION.", m_taskId); resultCode = ResultCodes.RC_REMOTE_COMMAND_EXECUTION_ERROR; } } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Remote execution error.\n{1}", m_taskId, stdout); } } if (ResultCodes.RC_SUCCESS == resultCode) { // // If we didn't get the output expected from execution // of the batch file. Force the result code to some // error value so that we try the next credential set. if (0 >= stdout.Length || !s_bdnaRegex.IsMatch(stdout)) { resultCode = ResultCodes.RC_LOGIN_FAILED; // @todo Did login really fail? Perhaps this s/b processing exception } } return(resultCode); }
/// <summary> /// Perform collection task specific processing. /// </summary> /// /// <param name="taskId">Database assigned task Id.</param> /// <param name="cleId">Database Id of owning Collection Engine.</param> /// <param name="elementId">Database Id of element being collected.</param> /// <param name="databaseTimestamp">Database relatvie task dispatch timestamp.</param> /// <param name="localTimestamp">Local task dispatch timestamp.</param> /// <param name="attributes">Map of attribute names to Id for attributes being collected.</param> /// <param name="scriptParameters">Collection script specific parameters (name/value pairs).</param> /// <param name="connection">Connection script results (null if this script does not /// require a remote host connection).</param> /// <param name="tftpDispatcher">Dispatcher for TFTP transfer requests.</param> /// <returns>Collection results.</returns> public CollectionScriptResults ExecuteTask( long taskId, long cleId, long elementId, long databaseTimestamp, long localTimestamp, IDictionary <string, string> attributes, IDictionary <string, string> scriptParameters, IDictionary <string, object> connection, string tftpPath, string tftpPath_login, string tftpPath_password, ITftpDispatcher tftpDispatcher) { string taskIdString = taskId.ToString(); StringBuilder dataRow = new StringBuilder(); StringBuilder resultBuffer = new StringBuilder(); IDictionary <string, string> resultDic = new Dictionary <string, string>(); Stopwatch executionTimer = Stopwatch.StartNew(); ResultCodes resultCode = ResultCodes.RC_SUCCESS; string strOracleHome = null; Lib.Logger.TraceEvent(TraceEventType.Start, 0, "Task Id {0}: Collection script WindowsOracleListenerNamesScript.", taskIdString); try { // Check ManagementScope CIMV ManagementScope cimvScope = null; if (connection == null) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection object passed to WindowsOracleListenerNamesScript is null.", taskIdString); } else if (!connection.ContainsKey("cimv2")) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Management scope for CIMV namespace is not present in connection object.", taskIdString); } else { cimvScope = connection[@"cimv2"] as ManagementScope; if (!cimvScope.IsConnected) { resultCode = ResultCodes.RC_WMI_CONNECTION_FAILED; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection to CIMV namespace failed.", taskIdString); } } //Check OracleHome attributes if (!scriptParameters.ContainsKey("OracleHome")) { resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Missing OracleHome parameter", taskIdString); } else { strOracleHome = scriptParameters["OracleHome"].Trim(); if (strOracleHome.EndsWith(@"\")) { strOracleHome = strOracleHome.Substring(0, strOracleHome.Length - 1); } } // Check Remote Process Temp Directory if (!connection.ContainsKey(@"TemporaryDirectory")) { connection[@"TemporaryDirectory"] = @"%TMP%"; } else { if (!connection[@"TemporaryDirectory"].Equals(@"%TMP%")) { if (!Lib.ValidateDirectory(taskIdString, connection[@"TemporaryDirectory"].ToString(), cimvScope)) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Temporary directory {1} is not valid.", taskIdString, connection[@"TemporaryDirectory"].ToString()); resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; //@TODO: change to RC_TEMP_DIRECTORY_NOT_EXIST } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Temporary directory {1} has been validated.", taskIdString, connection[@"TemporaryDirectory"].ToString()); } } } if (resultCode == ResultCodes.RC_SUCCESS) { string strLISTENERORA = strOracleHome.Trim() + @"\NETWORK\ADMIN\listener.ora"; if (!Lib.ValidateFile(taskIdString, strLISTENERORA, cimvScope)) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Oracle Home does not contain a server installation. listener.ora is missing.\nSkipping the rest of the validation.", taskIdString); } else { string commandLine = @"cmd /q /e:off /C " + @"type " + strOracleHome.Trim() + @"\NETWORK\ADMIN\listener.ora"; StringBuilder stdoutData = new StringBuilder(); using (IRemoteProcess rp = RemoteProcess.NewRemoteProcess( taskIdString, // Task Id to log against. cimvScope, // assuming Remote process uses cimv2 management scope commandLine, // script supplied command line. null, // Optional working directory StdioRedirection.STDOUT, // Flags for what stdio files you want null, // Data to pass for stdin. connection, // Script parameters passed to all collection script by WinCs tftpPath, tftpPath_login, tftpPath_password, tftpDispatcher)) { //This method will block until the entire remote process operation completes. resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Remote process operation completed with result code {1}.", taskIdString, resultCode.ToString()); if (resultCode == ResultCodes.RC_SUCCESS) { stdoutData.Append(rp.Stdout.ToString()); if (rp.Stdout == null || rp.Stdout.Length <= 0) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: No data returned from remote process execution.\nResult code changed to RC_PROCESSING_EXCEPTION.", taskIdString); resultCode = ResultCodes.RC_PROCESSING_EXCEPTION; } } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Remote process execution failed. Result code {1}.\n{2}", taskIdString, resultCode.ToString(), rp.Stdout.ToString()); } } if (stdoutData != null && stdoutData.Length > 0) { StringBuilder sb = new StringBuilder(); string[] arrOutput = stdoutData.ToString().Split("\r\n".ToCharArray()); string strListener = null; bool matched = false; foreach (string line in arrOutput) { if (s_listenerName.IsMatch(line)) { if (!s_listenerNoName.IsMatch(line)) { Match m = s_listenerName.Match(line); strListener = m.Groups[1].Value; sb.AppendLine(strListener); resultDic[strListener] = strListener; } } } if (0 < sb.Length) { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Listener matched:\n{1}", taskIdString, sb.ToString()); } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: No Listener services matched.", taskIdString); } foreach (KeyValuePair <string, string> kvp in resultDic) { if (resultBuffer.Length > 0) { resultBuffer.Append(BdnaDelimiters.DELIMITER_TAG); } resultBuffer.Append(kvp.Value); } if (!attributes.ContainsKey("listenerNames")) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Attribute \"listenerNames\" missing from attributeSet.", taskIdString); } else if (0 == resultBuffer.Length) { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Script completed sucessfully with no data to return.", taskIdString); } else { dataRow.Append(elementId).Append(',') .Append(attributes["listenerNames"]).Append(',') .Append(scriptParameters["CollectorId"]).Append(',') .Append(taskId).Append(',') .Append(databaseTimestamp + executionTimer.ElapsedMilliseconds).Append(',') .Append("listenerNames").Append(',') .Append(BdnaDelimiters.BEGIN_TAG).Append(resultBuffer.ToString()).Append(BdnaDelimiters.END_TAG); } } } } } catch (Exception ex) { if (ResultCodes.RC_SUCCESS == resultCode) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Unhandled exception in WindowsOracleListenerNamesScript. Elapsed time {1}.\n{2}\nResult code changed to RC_PROCESSING_EXCEPTION.", taskIdString, executionTimer.Elapsed.ToString(), ex.ToString()); resultCode = ResultCodes.RC_PROCESSING_EXCEPTION; } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Unhandled exception in WindowsOracleListenerNamesScript. Elapsed time {1}.\n{2}", taskIdString, executionTimer.Elapsed.ToString(), ex.ToString()); } } Lib.Logger.TraceEvent(TraceEventType.Stop, 0, "Task Id {0}: Collection script WindowsOracleListenerNamesScript. Elapsed time {1}. Result code {2}.", taskIdString, executionTimer.Elapsed.ToString(), resultCode.ToString()); return(new CollectionScriptResults(resultCode, 0, null, null, null, false, dataRow.ToString())); }
/// <summary> /// Perform collection task specific processing. /// </summary> /// /// <param name="taskId">Database assigned task Id.</param> /// <param name="cleId">Database Id of owning Collection Engine.</param> /// <param name="elementId">Database Id of element being collected.</param> /// <param name="databaseTimestamp">Database relatvie task dispatch timestamp.</param> /// <param name="localTimestamp">Local task dispatch timestamp.</param> /// <param name="attributes">Map of attribute names to Id for attributes being collected.</param> /// <param name="scriptParameters">Collection script specific parameters (name/value pairs).</param> /// <param name="connection">Connection script results (null if this script does not /// require a remote host connection).</param> /// <param name="tftpDispatcher">Dispatcher for TFTP transfer requests.</param> /// /// <returns>Collection results.</returns> public CollectionScriptResults ExecuteTask( long taskId, long cleId, long elementId, long databaseTimestamp, long localTimestamp, IDictionary <string, string> attributes, IDictionary <string, string> scriptParameters, IDictionary <string, object> connection, string tftpPath, string tftpPath_login, string tftpPath_password, ITftpDispatcher tftpDispatcher) { m_executionTimer = Stopwatch.StartNew(); m_taskId = taskId.ToString(); m_cleId = cleId; m_elementId = elementId; m_databaseTimestamp = databaseTimestamp; m_localTimestamp = localTimestamp; m_attributes = attributes; m_scriptParameters = scriptParameters; ResultCodes resultCode = ResultCodes.RC_SUCCESS; Lib.Logger.TraceEvent(TraceEventType.Start, 0, "Task Id {0}: Collection script WindowsWASProfileFootprintScript.", m_taskId); try { ManagementScope cimvScope = null; ManagementScope defaultScope = null; // Check ManagementScope CIMV if (null == connection) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection object passed to WindowsWASProfileFootprintScript is null.", m_taskId); } else if (!connection.ContainsKey(@"cimv2")) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Management scope for CIMV namespace is not present in connection object.", m_taskId); } else if (!connection.ContainsKey(@"default")) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Management scope for Default namespace is not present in connection object.", m_taskId); } else { cimvScope = connection[@"cimv2"] as ManagementScope; defaultScope = connection[@"default"] as ManagementScope; if (!cimvScope.IsConnected) { resultCode = ResultCodes.RC_WMI_CONNECTION_FAILED; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection to CIMV namespace failed.", m_taskId); } else if (!defaultScope.IsConnected) { resultCode = ResultCodes.RC_WMI_CONNECTION_FAILED; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection to Default namespace failed.", m_taskId); } } //Check WAS Installation Path attribute if (resultCode.Equals(ResultCodes.RC_SUCCESS)) { if (scriptParameters.ContainsKey("profilePath")) { m_profileHome = scriptParameters[@"profilePath"]; } else { resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Missing parameter WAS Profile Path parameter.", m_taskId); } } // Check Remote Process Temp Directory if (resultCode.Equals(ResultCodes.RC_SUCCESS)) { if (!connection.ContainsKey(@"TemporaryDirectory")) { connection[@"TemporaryDirectory"] = @"%TMP%"; } else { if (!connection[@"TemporaryDirectory"].Equals(@"%TMP%")) { if (!Lib.ValidateDirectory(m_taskId, connection[@"TemporaryDirectory"].ToString(), cimvScope)) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Temporary directory {1} is not valid.", m_taskId, connection[@"TemporaryDirectory"].ToString()); resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; //@TODO: change to RC_TEMP_DIRECTORY_NOT_EXIST } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: User specified temp directory has been validated.", m_taskId); } } } } if (resultCode == ResultCodes.RC_SUCCESS) { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Attempting to retrieve file {1}.", m_taskId, m_profileHome); StringBuilder fileContent = new StringBuilder(); StringBuilder setupCmd = new StringBuilder(); setupCmd.Append((string)m_profileHome).Append(@"\bin\setupCmdLine.bat"); if (Lib.ValidateFile(m_taskId, setupCmd.ToString(), cimvScope)) { using (IRemoteProcess rp = RemoteProcess.GetRemoteFile(m_taskId, cimvScope, setupCmd.ToString(), connection, tftpPath, tftpPath_login, tftpPath_password, tftpDispatcher)) { // // Launch the remote process. // This method will block until the entire remote process operation completes. resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Remote file retrieval operation completed with result code {1}.", m_taskId, resultCode.ToString()); fileContent.Append(rp.Stdout); } // Parse file content resultCode = parseCmdlineFile(fileContent.ToString()); } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: WAS setupCmdline file: {1} does not exist.", m_taskId, m_profileHome); resultCode = ResultCodes.RC_SUCCESS; } } } catch (Exception ex) { Lib.LogException(m_taskId, m_executionTimer, "Unhandled exception in WindowsWASProfileFootprintScript", ex); resultCode = ResultCodes.RC_PROCESSING_EXCEPTION; } CollectionScriptResults result = new CollectionScriptResults(resultCode, 0, null, null, null, false, m_dataRow.ToString()); Lib.Logger.TraceEvent(TraceEventType.Stop, 0, "Task Id {0}: Collection script WindowsWASProfileFootprintScript. Elapsed time {1}. Result code {2}.", m_taskId, m_executionTimer.Elapsed.ToString(), result.ResultCode.ToString()); return(result); }
/// <summary> /// Perform collection task specific processing. /// </summary> /// /// <param name="taskId">Database assigned task Id.</param> /// <param name="cleId">Database Id of owning Collection Engine.</param> /// <param name="elementId">Database Id of element being collected.</param> /// <param name="databaseTimestamp">Database relatvie task dispatch timestamp.</param> /// <param name="localTimestamp">Local task dispatch timestamp.</param> /// <param name="attributes">Map of attribute names to Id for attributes being collected.</param> /// <param name="scriptParameters">Collection script specific parameters (name/value pairs).</param> /// <param name="connection">Connection script results (null if this script does not /// require a remote host connection).</param> /// <param name="tftpDispatcher">Dispatcher for TFTP transfer requests.</param> /// /// <returns>Collection results.</returns> public CollectionScriptResults ExecuteTask( long taskId, long cleId, long elementId, long databaseTimestamp, long localTimestamp, IDictionary <string, string> attributes, IDictionary <string, string> scriptParameters, IDictionary <string, object> connection, string tftpPath, string tftpPath_login, string tftpPath_password, ITftpDispatcher tftpDispatcher) { Stopwatch executionTimer = Stopwatch.StartNew(); string taskIdString = taskId.ToString(); StringBuilder dataRow = new StringBuilder(); string strListenerName = null, strOracleHome = null; ResultCodes resultCode = ResultCodes.RC_SUCCESS; Lib.Logger.TraceEvent(TraceEventType.Start, 0, "Task Id {0}: Collection script WindowsOracleListenerStaticScript.", taskIdString); try { // Check ManagementScope CIMV ManagementScope cimvScope = null; if (connection == null) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection object passed to WindowsOracleListenerStaticScript is null.", taskIdString); } else if (!connection.ContainsKey("cimv2")) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Management scope for CIMV namespace is not present in connection object.", taskIdString); } else { cimvScope = connection[@"cimv2"] as ManagementScope; if (!cimvScope.IsConnected) { resultCode = ResultCodes.RC_WMI_CONNECTION_FAILED; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection to CIMV namespace failed.", taskIdString); } } //Check OracleHome attributes if (!scriptParameters.ContainsKey("OracleHome")) { resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Missing OracleHome script parameter.", taskIdString); } else { strOracleHome = scriptParameters["OracleHome"].Trim(); if (strOracleHome.EndsWith(@"\")) { strOracleHome = strOracleHome.Substring(0, strOracleHome.Length - 1); } } //Check Listener Name attribute if (!scriptParameters.ContainsKey("name")) { resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Missing Listener Name script parameter.", taskIdString); } else { strListenerName = scriptParameters["name"]; } // Check Remote Process Temp Directory if (!connection.ContainsKey(@"TemporaryDirectory")) { connection[@"TemporaryDirectory"] = @"%TMP%"; } else { if (!connection[@"TemporaryDirectory"].Equals(@"%TMP%")) { if (!Lib.ValidateDirectory(taskIdString, connection[@"TemporaryDirectory"].ToString(), cimvScope)) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Temporary directory {1} is not valid.", taskIdString, connection[@"TemporaryDirectory"].ToString()); resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; //@TODO: change to RC_TEMP_DIRECTORY_NOT_EXIST } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Temporary directory {1} has been validated.", taskIdString, connection[@"TemporaryDirectory"].ToString()); } } } if (resultCode == ResultCodes.RC_SUCCESS) { string commandLine = @"cmd /q /e:off /C " + strOracleHome.Trim() + @"\BIN\LSNRCTL.EXE status " + strListenerName; StringBuilder stdoutData = new StringBuilder(); using (IRemoteProcess rp = RemoteProcess.NewRemoteProcess(taskIdString, cimvScope, commandLine, null, StdioRedirection.STDOUT, null, connection, tftpPath, tftpPath_login, tftpPath_password, tftpDispatcher)) { //This method will block until the entire remote process operation completes. resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Remote process operation completed with result code {1}.", taskIdString, resultCode.ToString()); if (resultCode == ResultCodes.RC_SUCCESS) { stdoutData.Append(rp.Stdout); if (rp.Stdout != null && rp.Stdout.Length > 0) { if (!rp.Stdout.ToString().ToUpper().Contains(@"PARAMETER FILE")) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: SQLPLUS exception, no proper data returned.\nResult code changed to RC_PROCESSING_EXCEPTION.\nSTDOUT/STDERR:\n{1}", taskIdString, rp.Stdout.ToString()); //resultCode = ResultCodes.RC_PROCESSING_EXCEPTION; } } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: No data returned.\nResult code changed to RC_PROCESSING_EXCEPTION.", taskIdString); resultCode = ResultCodes.RC_REMOTE_COMMAND_EXECUTION_ERROR; } } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Remote execution error.\n{1}", taskIdString, rp.Stdout.ToString()); } } if (resultCode == ResultCodes.RC_SUCCESS && stdoutData.Length > 0) { string[] arrOutputLine = stdoutData.ToString().Split("\r\n".ToCharArray()); string strListenerAddress = "", strParameterFile = "", strInstances = "", strPort = ""; for (int i = 0; i < arrOutputLine.Length; i++) { string output = arrOutputLine[i]; if (s_connectingRegex_en.IsMatch(output)) { MatchCollection mtc = s_connectingRegex_en.Matches(output); foreach (Match m in mtc) { strListenerAddress = "" + m.Groups["addr"].Value; } } else if (s_connectingRegex_fr.IsMatch(output)) { MatchCollection mtc = s_connectingRegex_fr.Matches(output); foreach (Match m in mtc) { strListenerAddress = "" + m.Groups["addr"].Value; } } else if (s_connectingRegex_de.IsMatch(output)) { MatchCollection mtc = s_connectingRegex_de.Matches(output); foreach (Match m in mtc) { strListenerAddress = "" + m.Groups["addr"].Value; } } else if (s_connectingRegex_it.IsMatch(output)) { MatchCollection mtc = s_connectingRegex_it.Matches(output); foreach (Match m in mtc) { strListenerAddress = "" + m.Groups["addr"].Value; } } if (s_listenerRegex_en.IsMatch(output)) { MatchCollection mtc = s_listenerRegex_en.Matches(output); foreach (Match m in mtc) { strParameterFile += "" + m.Groups["parameterFile"].Value; } } else if (s_listenerRegex_fr.IsMatch(output)) { MatchCollection mtc = s_listenerRegex_fr.Matches(output); foreach (Match m in mtc) { strParameterFile += "" + m.Groups["parameterFile"].Value; } } else if (s_listenerRegex_de.IsMatch(output)) { MatchCollection mtc = s_listenerRegex_de.Matches(output); foreach (Match m in mtc) { strParameterFile += "" + m.Groups["parameterFile"].Value; } } else if (s_listenerRegex_it.IsMatch(output)) { MatchCollection mtc = s_listenerRegex_it.Matches(output); foreach (Match m in mtc) { strParameterFile += "" + m.Groups["parameterFile"].Value; } } if (!String.IsNullOrEmpty(strListenerAddress) && s_listeningRegex_en.IsMatch(output)) { int j = 0; for (j = i; j < arrOutputLine.Length; j++) { string ucaseOutput = arrOutputLine[j].ToUpper(); if (!s_keyExtProcRegex_en.IsMatch(ucaseOutput)) { if (s_descriptionRegex_en.IsMatch(ucaseOutput)) { MatchCollection mtc = s_descriptionRegex_en.Matches(ucaseOutput); foreach (Match m in mtc) { strListenerAddress = m.Groups["addr"].Value; } break; } } i = j; } } else if (!String.IsNullOrEmpty(strListenerAddress) && s_listeningRegex_fr.IsMatch(output)) { int j = 0; for (j = i; j < arrOutputLine.Length; j++) { string ucaseOutput = arrOutputLine[j].ToUpper(); if (!s_keyExtProcRegex_fr.IsMatch(ucaseOutput)) { if (s_descriptionRegex_fr.IsMatch(ucaseOutput)) { MatchCollection mtc = s_descriptionRegex_fr.Matches(ucaseOutput); foreach (Match m in mtc) { strListenerAddress = m.Groups["addr"].Value; } break; } } i = j; } } else if (!String.IsNullOrEmpty(strListenerAddress) && s_listeningRegex_de.IsMatch(output)) { int j = 0; for (j = i; j < arrOutputLine.Length; j++) { string ucaseOutput = arrOutputLine[j].ToUpper(); if (!s_keyExtProcRegex_de.IsMatch(ucaseOutput)) { if (s_descriptionRegex_de.IsMatch(ucaseOutput)) { MatchCollection mtc = s_descriptionRegex_de.Matches(ucaseOutput); foreach (Match m in mtc) { strListenerAddress = m.Groups["addr"].Value; } break; } } i = j; } } else if (!String.IsNullOrEmpty(strListenerAddress) && s_listeningRegex_it.IsMatch(output)) { int j = 0; for (j = i; j < arrOutputLine.Length; j++) { string ucaseOutput = arrOutputLine[j].ToUpper(); if (!s_keyExtProcRegex_it.IsMatch(ucaseOutput)) { if (s_descriptionRegex_it.IsMatch(ucaseOutput)) { MatchCollection mtc = s_descriptionRegex_it.Matches(ucaseOutput); foreach (Match m in mtc) { strListenerAddress = m.Groups["addr"].Value; } break; } } i = j; } } if (s_portRegex_en.IsMatch(strListenerAddress)) { Match m0 = s_portRegex_en.Match(strListenerAddress); strPort = m0.Groups[1].Value; } else if (s_portRegex_fr.IsMatch(strListenerAddress)) { Match m0 = s_portRegex_fr.Match(strListenerAddress); strPort = m0.Groups[1].Value; } else if (s_portRegex_de.IsMatch(strListenerAddress)) { Match m0 = s_portRegex_de.Match(strListenerAddress); strPort = m0.Groups[1].Value; } else if (s_portRegex_it.IsMatch(strListenerAddress)) { Match m0 = s_portRegex_it.Match(strListenerAddress); strPort = m0.Groups[1].Value; } if (s_instancesRegex_en.IsMatch(output)) { Match m0 = s_instancesRegex_en.Match(output); string strinstance = m0.Groups[1].Value; if (!String.IsNullOrEmpty(strInstances)) { if (!strInstances.Contains(strinstance)) { strInstances += " " + strinstance; } } else { strInstances = strinstance; } } } dataRow.Append(elementId).Append(',') .Append(attributes["listenerAddress"]).Append(',') .Append(scriptParameters["CollectorId"]).Append(',') .Append(taskId).Append(',') .Append(databaseTimestamp + executionTimer.ElapsedMilliseconds).Append(',') .Append("listenerAddress").Append(',') .Append(BdnaDelimiters.BEGIN_TAG).Append(strListenerAddress).Append(BdnaDelimiters.END_TAG); dataRow.Append(elementId).Append(',') .Append(attributes["parameterFilePath"]).Append(',') .Append(scriptParameters["CollectorId"]).Append(',') .Append(taskId).Append(',') .Append(databaseTimestamp + executionTimer.ElapsedMilliseconds).Append(',') .Append("parameterFilePath").Append(',') .Append(BdnaDelimiters.BEGIN_TAG).Append(strParameterFile).Append(BdnaDelimiters.END_TAG); dataRow.Append(elementId).Append(',') .Append(attributes["port"]).Append(',') .Append(scriptParameters["CollectorId"]).Append(',') .Append(taskId).Append(',') .Append(databaseTimestamp + executionTimer.ElapsedMilliseconds).Append(',') .Append("port").Append(',') .Append(BdnaDelimiters.BEGIN_TAG).Append(strPort).Append(BdnaDelimiters.END_TAG); dataRow.Append(elementId).Append(',') .Append(attributes["associateInstances"]).Append(',') .Append(scriptParameters["CollectorId"]).Append(',') .Append(taskId).Append(',') .Append(databaseTimestamp + executionTimer.ElapsedMilliseconds).Append(',') .Append("associateInstances").Append(',') .Append(BdnaDelimiters.BEGIN_TAG).Append(strInstances).Append(BdnaDelimiters.END_TAG); } } } catch (Exception ex) { if (ResultCodes.RC_SUCCESS == resultCode) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Unhandled exception in WindowsOracleListenerStaticScript. Elapsed time {1}.\n{2}\nResult code changed to RC_PROCESSING_EXCEPTION.", taskIdString, executionTimer.Elapsed.ToString(), ex.ToString()); resultCode = ResultCodes.RC_PROCESSING_EXCEPTION; } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Unhandled exception in WindowsOracleListenerStaticScript. Elapsed time {1}.\n{2}", taskIdString, executionTimer.Elapsed.ToString(), ex.ToString()); } } Lib.Logger.TraceEvent(TraceEventType.Stop, 0, "Task Id {0}: Collection script WindowsOracleListenerStaticScript. Elapsed time {1}. Result code {2}.", taskIdString, executionTimer.Elapsed.ToString(), resultCode.ToString()); return(new CollectionScriptResults(resultCode, 0, null, null, null, false, dataRow.ToString())); }
public void Add(IRemoteProcess entity) { this.processRepository.Add(entity); }
public string ReadString(IRemoteProcess remoteProcess, MemoryMap memoryMap, int? length = null) { Contract.Requires<ArgumentNullException>(remoteProcess != null); Contract.Requires<ArgumentNullException>(memoryMap != null); Contract.Requires<ArgumentOutOfRangeException>(length == null || length >= 0); throw new NotImplementedException(); }
private IntPtr GetAddress(IRemoteProcess remoteProcess, MemoryMap memoryMap) { Contract.Requires<ArgumentNullException>(remoteProcess != null); Contract.Requires<ArgumentNullException>(memoryMap != null); var module = remoteProcess.Modules.FirstOrDefault( m => string.Equals(m.Name, memoryMap.DllName, StringComparison.OrdinalIgnoreCase)); if (module == null) { return IntPtr.Zero; } return memoryMap.Offsets.Skip(1) .Aggregate( module.BaseAddress + memoryMap.Offsets.First(), (current, offset) => (IntPtr)(this.readProcessMemory.ReadInt32(remoteProcess.Handle, current) + offset)); }
/// <summary> /// Perform collection task specific processing. /// </summary> /// /// <param name="taskId">Database assigned task Id.</param> /// <param name="cleId">Database Id of owning Collection Engine.</param> /// <param name="elementId">Database Id of element being collected.</param> /// <param name="databaseTimestamp">Database relatvie task dispatch timestamp.</param> /// <param name="localTimestamp">Local task dispatch timestamp.</param> /// <param name="attributes">Map of attribute names to Id for attributes being collected.</param> /// <param name="scriptParameters">Collection script specific parameters (name/value pairs).</param> /// <param name="connection">Connection script results (null if this script does not /// require a remote host connection).</param> /// <param name="tftpDispatcher">Dispatcher for TFTP transfer requests.</param> /// <returns>Collection results.</returns> public CollectionScriptResults ExecuteTask(long taskId, long cleId, long elementId, long databaseTimestamp, long localTimestamp, IDictionary <string, string> attributes, IDictionary <string, string> scriptParameters, IDictionary <string, object> connection, string tftpPath, string tftpPath_login, string tftpPath_password, ITftpDispatcher tftpDispatcher) { m_taskId = taskId.ToString(); m_cleId = cleId; m_elementId = elementId; m_databaseTimestamp = databaseTimestamp; m_localTimestamp = localTimestamp; m_attributes = attributes; m_scriptParameters = scriptParameters; m_tftpDispatcher = tftpDispatcher; m_tftpPath = tftpPath; m_tftpPath_login = tftpPath_login; m_tftpPath_password = tftpPath_password; m_connection = connection; m_executionTimer = Stopwatch.StartNew(); ResultCodes resultCode = ResultCodes.RC_SUCCESS; Lib.Logger.TraceEvent(TraceEventType.Start, 0, "Task Id {0}: Collection script WinFileContentScript.", m_taskId); try { // Check ManagementScope CIMV if (connection == null) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection object passed to VMWareVMXConfigFileContentScript is null.", m_taskId); } else if (!connection.ContainsKey("cimv2")) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Management scope for CIMV namespace is not present in connection object.", m_taskId); } else { m_cimvScope = connection[@"cimv2"] as ManagementScope; if (!m_cimvScope.IsConnected) { resultCode = ResultCodes.RC_WMI_CONNECTION_FAILED; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection to CIMV namespace failed", m_taskId); } } string filePath = string.Empty; foreach (KeyValuePair <string, string> kvp in scriptParameters) { string key = kvp.Key; if (key.Contains(":")) { int i = key.IndexOf(':'); key = key.Substring(i + 1); } if (key == @"filePath") { filePath = kvp.Value; } } if (string.IsNullOrEmpty(filePath)) { resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task id {0}: Missing file path parameter.", m_taskId); } // Check Remote Process Temp Directory if (!m_connection.ContainsKey(@"TemporaryDirectory")) { m_connection[@"TemporaryDirectory"] = @"%TMP%"; } else { if (!m_connection[@"TemporaryDirectory"].Equals(@"%TMP%")) { if (!Lib.ValidateDirectory(m_taskId, m_connection[@"TemporaryDirectory"].ToString(), m_cimvScope)) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Temporary directory {1} is not valid.", m_taskId, m_connection[@"TemporaryDirectory"].ToString()); resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; //@TODO: change to RC_TEMP_DIRECTORY_NOT_EXIST } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: User specified temp directory has been validated.", m_taskId); } } } if (resultCode == ResultCodes.RC_SUCCESS) { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Attempting to retrieve file {1}.", m_taskId, m_FilePath); StringBuilder fileContent = new StringBuilder(); if (Lib.ValidateFile(m_taskId, filePath, m_cimvScope)) { using (IRemoteProcess rp = RemoteProcess.GetRemoteFile(m_taskId, m_cimvScope, filePath, m_connection, m_tftpPath, m_tftpPath_login, m_tftpPath_password, m_tftpDispatcher)) { // // Launch the remote process. // This method will block until the entire remote process operation completes. resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Remote file retrieval operation completed with result code {1}.", m_taskId, resultCode.ToString()); fileContent.Append(rp.Stdout); } this.BuildDataRow(@"fileContent", fileContent.ToString()); } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: file {1} does not exist.", m_taskId, filePath); //resultCode = ResultCodes.RC_SUCCESS; } } } catch (ManagementException me) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Insufficient privilege to read file.\nMessage: {1}", m_taskId, me.Message); if (me.InnerException != null) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Inner Exception Message: {1}.", m_taskId, me.InnerException.Message); } resultCode = ResultCodes.RC_INSUFFICIENT_PRIVILEGE_TO_READ_REMOTE_FILE; } catch (COMException ce) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Not enough privilege to access run WMI query.\nMessage: {1}.", m_taskId, ce.Message); if (ce.InnerException != null) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Inner Exception Message: {1}.", m_taskId, ce.InnerException.Message); } resultCode = ResultCodes.RC_INSUFFICIENT_PRIVILEGE_TO_RUN_WMI_QUERY; } catch (Exception ex) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Unhandled exception in WinFileContentScript. Elapsed time {1}.\n{2}", m_taskId, m_executionTimer.Elapsed.ToString(), ex.ToString()); resultCode = ResultCodes.RC_INSUFFICIENT_PRIVILEGE_TO_READ_REMOTE_FILE; } Lib.Logger.TraceEvent(TraceEventType.Stop, 0, "Task Id {0}: Collection script VMWareVMXConfigFileContentScript. Elapsed time {1}. Result code {2}.", m_taskId, m_executionTimer.Elapsed.ToString(), resultCode.ToString()); return(new CollectionScriptResults (resultCode, 0, null, null, null, false, m_dataRow.ToString())); }
public ushort ReadUInt16(IRemoteProcess remoteProcess, MemoryMap memoryMap) { var address = this.GetAddress(remoteProcess, memoryMap); return this.readProcessMemory.ReadUInt16(remoteProcess.Handle, address); }
/// <summary> /// Perform collection task specific processing. /// </summary> /// /// <param name="taskId">Database assigned task Id.</param> /// <param name="cleId">Database Id of owning Collection Engine.</param> /// <param name="elementId">Database Id of element being collected.</param> /// <param name="databaseTimestamp">Database relatvie task dispatch timestamp.</param> /// <param name="localTimestamp">Local task dispatch timestamp.</param> /// <param name="attributes">Map of attribute names to Id for attributes being collected.</param> /// <param name="scriptParameters">Collection script specific parameters (name/value pairs).</param> /// <param name="connection">Connection script results (null if this script does not /// require a remote host connection).</param> /// <param name="tftpDispatcher">Dispatcher for TFTP transfer requests.</param> /// /// <returns>Collection results.</returns> public CollectionScriptResults ExecuteTask( long taskId, long cleId, long elementId, long databaseTimestamp, long localTimestamp, IDictionary <string, string> attributes, IDictionary <string, string> scriptParameters, IDictionary <string, object> connection, string tftpPath, string tftpPath_login, string tftpPath_password, ITftpDispatcher tftpDispatcher) { m_taskId = taskId.ToString(); Stopwatch executionTimer = Stopwatch.StartNew(); ResultCodes resultCode = ResultCodes.RC_SUCCESS; StringBuilder dataRow = new StringBuilder(); Lib.Logger.TraceEvent(TraceEventType.Start, 0, "Task Id {0}: Collection script WindowsSiebelServerDataCollectionScript.", m_taskId); try { // // Check ManagementScope CIMV ManagementScope cimvScope = null; if (connection == null) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection object passed to WindowsSiebelServerDataCollectionScript is null.", m_taskId); } else if (!connection.ContainsKey("cimv2")) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Management scope for CIMV namespace is not present in connection object.", m_taskId); } else { cimvScope = connection[@"cimv2"] as ManagementScope; if (!cimvScope.IsConnected) { resultCode = ResultCodes.RC_WMI_CONNECTION_FAILED; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection to CIMV namespace failed.", m_taskId); } } // // Check Siebel Credential if (resultCode == ResultCodes.RC_SUCCESS) { string[] connectionVariables = new String[] { @"SiebelUserName", @"SiebelUserPassword", @"TemporaryDirectory", @"siebelSrvrmgrPath" }; resultCode = this.ValidateConnectionParameters(connection, connectionVariables); } // // Check Parameter variables. if (resultCode == ResultCodes.RC_SUCCESS) { string[] paramVariables = new String[] { @"installDirectory", @"gatewayServerName", @"serverName", @"enterpriseName", @"siebelServerCommand" }; resultCode = this.ValidateScriptParameters(scriptParameters, paramVariables); } // // Check Temporary Directory string tempDir = connection[@"TemporaryDirectory"].ToString(); resultCode = this.ValidateTemporaryDirectory(cimvScope, ref tempDir); // Execute Siebel Command string strBatchFileContent = BuildBatchFile(connection[@"siebelSrvrmgrPath"].ToString(), scriptParameters[@"gatewayServerName"], scriptParameters[@"serverName"], scriptParameters[@"enterpriseName"], connection[@"SiebelUserName"].ToString(), connection[@"SiebelUserPassword"].ToString(), scriptParameters[@"siebelServerCommand"], scriptParameters[@"outputDisplayColumns"]); string stdout = null; using (IRemoteProcess rp = RemoteProcess.ExecuteBatchFile (taskId.ToString(), cimvScope, strBatchFileContent, connection, tftpPath, tftpPath_login, tftpPath_password, tftpDispatcher)) { // //This method will block until the entire remote process operation completes. resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Remote process operation completed with result code {1}.", m_taskId, resultCode.ToString()); if (resultCode == ResultCodes.RC_SUCCESS) { if (rp.Stdout != null && rp.Stdout.Length > 0) { stdout = rp.Stdout.ToString(); string commandOutput = null; if (!stdout.Contains(@"Execution completed")) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Data returned is shorter than expected, possibly due to transfer failure.\nResult code changed to RC_PROCESSING_EXCEPTION.", m_taskId); resultCode = ResultCodes.RC_REMOTE_COMMAND_EXECUTION_ERROR; } else { // // package command output result. if (ResultCodes.RC_SUCCESS == ParseCommandOutput(stdout, scriptParameters[@"siebelServerCommand"], scriptParameters[@"outputDisplayColumns"], out commandOutput)) { if (!attributes.ContainsKey(s_returnAttribute)) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Attribute \"{1}\" missing from attributeSet.", m_taskId, s_returnAttribute); } else { dataRow.Append(elementId).Append(',') .Append(attributes[s_returnAttribute]).Append(',') .Append(scriptParameters[@"CollectorId"]).Append(',') .Append(taskId).Append(',') .Append(databaseTimestamp + executionTimer.ElapsedMilliseconds).Append(',') .Append(s_returnAttribute).Append(',') .Append(BdnaDelimiters.BEGIN_TAG).Append(commandOutput).Append(BdnaDelimiters.END_TAG); } } } } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: No data returned.\nResult code changed to RC_PROCESSING_EXCEPTION.", taskId.ToString()); resultCode = ResultCodes.RC_REMOTE_COMMAND_EXECUTION_ERROR; } } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Remote execution error.\nSTDOUT.STDERR:\n{1}", m_taskId, rp.Stdout.ToString()); } } //// post processing?? //if (resultCode == ResultCodes.RC_SUCCESS && string.IsNullOrEmpty( > 0) { // //foreach (KeyValuePair<string, QueryTableEntry> entry in s_queryTable) { // // entry.Value.ResultHandler(this, entry.Key, stdoutData.ToString()); // //} //} } catch (Exception ex) { if (ResultCodes.RC_SUCCESS == resultCode) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Unhandled exception in WindowsSiebelServerDataCollectionScript. Elapsed time {1}.\n{2}\nResult code changed to RC_PROCESSING_EXCEPTION.", m_taskId, executionTimer.Elapsed.ToString(), ex.ToString()); resultCode = ResultCodes.RC_PROCESSING_EXCEPTION; } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Unhandled exception in WindowsSiebelServerDataCollectionScript. Elapsed time {1}.\n{2}", m_taskId, executionTimer.Elapsed.ToString(), ex.ToString()); } } Lib.Logger.TraceEvent(TraceEventType.Stop, 0, "Task Id {0}: Collection script WindowsSiebelServerDataCollectionScript. Elapsed time {1}. Result code {2}.", m_taskId, executionTimer.Elapsed.ToString(), resultCode.ToString()); return(new CollectionScriptResults(resultCode, 0, null, null, null, false, dataRow.ToString())); }
public void Add(IRemoteProcess remoteProcess) { Contract.Requires<ArgumentNullException>(remoteProcess != null); throw new NotImplementedException(); }
/// <summary> /// Perform collection task specific processing. /// </summary> /// /// <param name="taskId">Database assigned task Id.</param> /// <param name="cleId">Database Id of owning Collection Engine.</param> /// <param name="elementId">Database Id of element being collected.</param> /// <param name="databaseTimestamp">Database relatvie task dispatch timestamp.</param> /// <param name="localTimestamp">Local task dispatch timestamp.</param> /// <param name="attributes">Map of attribute names to Id for attributes being collected.</param> /// <param name="scriptParameters">Collection script specific parameters (name/value pairs).</param> /// <param name="connection">Connection script results (null if this script does not /// require a remote host connection).</param> /// <param name="tftpDispatcher">Dispatcher for TFTP transfer requests.</param> /// /// <returns>Collection results.</returns> public CollectionScriptResults ExecuteTask( long taskId, long cleId, long elementId, long databaseTimestamp, long localTimestamp, IDictionary <string, string> attributes, IDictionary <string, string> scriptParameters, IDictionary <string, object> connection, string tftpPath, string tftpPath_login, string tftpPath_password, ITftpDispatcher tftpDispatcher) { m_executionTimer = Stopwatch.StartNew(); m_taskId = taskId.ToString(); m_cleId = cleId; m_elementId = elementId; m_databaseTimestamp = databaseTimestamp; m_localTimestamp = localTimestamp; m_attributes = attributes; m_scriptParameters = scriptParameters; ResultCodes resultCode = ResultCodes.RC_SUCCESS; Lib.Logger.TraceEvent(TraceEventType.Start, 0, "Task Id {0}: Collection script WindowsWASGetFileScript.", m_taskId); try { ManagementScope cimvScope = null; ManagementScope defaultScope = null; // Check ManagementScope CIMV if (null == connection) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection object passed to WindowsWASGetFileScript is null.", m_taskId); } else if (!connection.ContainsKey(@"cimv2")) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Management scope for CIMV namespace is not present in connection object.", m_taskId); } else if (!connection.ContainsKey(@"default")) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Management scope for Default namespace is not present in connection object.", m_taskId); } else { cimvScope = connection[@"cimv2"] as ManagementScope; defaultScope = connection[@"default"] as ManagementScope; if (!cimvScope.IsConnected) { resultCode = ResultCodes.RC_WMI_CONNECTION_FAILED; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection to CIMV namespace failed.", m_taskId); } else if (!defaultScope.IsConnected) { resultCode = ResultCodes.RC_WMI_CONNECTION_FAILED; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection to Default namespace failed.", m_taskId); } } //Check Script Variables if (resultCode.Equals(ResultCodes.RC_SUCCESS)) { // // We have to massage the script parameter set, replace // any keys with a colon by just the part after the colon. // We should probably narrow this to just the registryKey // and registryRoot entries... Dictionary <string, string> d = new Dictionary <string, string>(); foreach (KeyValuePair <string, string> kvp in scriptParameters) { string[] sa = kvp.Key.Split(s_collectionParameterSetDelimiter, StringSplitOptions.RemoveEmptyEntries); Debug.Assert(sa.Length > 0); d[sa[sa.Length - 1]] = kvp.Value; } scriptParameters = d; if (scriptParameters.ContainsKey("profRegPath")) { m_filePath = scriptParameters[@"profRegPath"]; } else if (scriptParameters.ContainsKey("cellPath")) { m_filePath = scriptParameters[@"cellPath"]; } else if (scriptParameters.ContainsKey("nodeVarPath")) { m_filePath = scriptParameters[@"nodeVarPath"]; } else if (scriptParameters.ContainsKey("rsrcFilePath")) { m_filePath = scriptParameters[@"rsrcFilePath"]; } else if (scriptParameters.ContainsKey("svrCfgPath")) { m_filePath = scriptParameters[@"svrCfgPath"]; } else if (scriptParameters.ContainsKey("virtHostsFilePath")) { m_filePath = scriptParameters[@"virtHostsFilePath"]; } else { resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Missing parameter WAS Script parameter.", m_taskId); } } // Check Remote Process Temp Directory if (resultCode.Equals(ResultCodes.RC_SUCCESS)) { if (!connection.ContainsKey(@"TemporaryDirectory")) { connection[@"TemporaryDirectory"] = @"%TMP%"; } else { if (!connection[@"TemporaryDirectory"].Equals(@"%TMP%")) { if (!Lib.ValidateDirectory(m_taskId, connection[@"TemporaryDirectory"].ToString(), cimvScope)) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Temporary directory {1} is not valid.", m_taskId, connection[@"TemporaryDirectory"].ToString()); resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; //@TODO: change to RC_TEMP_DIRECTORY_NOT_EXIST } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: User specified temp directory has been validated.", m_taskId); } } } } if (resultCode == ResultCodes.RC_SUCCESS) { StringBuilder fileContent = new StringBuilder(); StringBuilder fileName = new StringBuilder(); string[] fileData = m_filePath.Split('='); fileName.Append(fileData[0]); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Attempting to retrieve file {1}.", m_taskId, fileName.ToString()); if (Lib.ValidateFile(m_taskId, fileName.ToString(), cimvScope)) { using (IRemoteProcess rp = RemoteProcess.GetRemoteFile(m_taskId, cimvScope, fileName.ToString(), connection, tftpPath, tftpPath_login, tftpPath_password, tftpDispatcher)) { // Launch the remote process. // This method will block until the entire remote process operation completes. resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Remote file retrieval operation completed with result code {1}.", m_taskId, resultCode.ToString()); fileContent.Append(rp.Stdout); } m_dataRow.Append(m_elementId).Append(',') .Append(m_attributes[fileData[1]]).Append(',') .Append(m_scriptParameters[@"CollectorId"]).Append(',') .Append(m_taskId).Append(',') .Append(m_databaseTimestamp + m_executionTimer.ElapsedMilliseconds).Append(',') .Append(fileData[1]).Append(',') .Append(BdnaDelimiters.BEGIN_TAG).Append(fileContent).Append(BdnaDelimiters.END_TAG); } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: WAS Config file: {1} does not exist.", m_taskId, fileName.ToString()); resultCode = ResultCodes.RC_SUCCESS; } } } catch (Exception ex) { Lib.LogException(m_taskId, m_executionTimer, "Unhandled exception in WindowsWASGetFileScript", ex); resultCode = ResultCodes.RC_INSUFFICIENT_PRIVILEGE_TO_READ_REMOTE_FILE; } CollectionScriptResults result = new CollectionScriptResults(resultCode, 0, null, null, null, false, m_dataRow.ToString()); Lib.Logger.TraceEvent(TraceEventType.Stop, 0, "Task Id {0}: Collection script WindowsWASGetFileScript. Elapsed time {1}. Result code {2}.", m_taskId, m_executionTimer.Elapsed.ToString(), result.ResultCode.ToString()); return(result); }
/// <summary> /// Perform collection task specific processing. /// </summary> /// /// <param name="taskId">Database assigned task Id.</param> /// <param name="cleId">Database Id of owning Collection Engine.</param> /// <param name="elementId">Database Id of element being collected.</param> /// <param name="databaseTimestamp">Database relatvie task dispatch timestamp.</param> /// <param name="localTimestamp">Local task dispatch timestamp.</param> /// <param name="attributes">Map of attribute names to Id for attributes being collected.</param> /// <param name="scriptParameters">Collection script specific parameters (name/value pairs).</param> /// <param name="connection">Connection script results (null if this script does not /// require a remote host connection).</param> /// <param name="tftpDispatcher">Dispatcher for TFTP transfer requests.</param> /// /// <returns>Collection results.</returns> public CollectionScriptResults ExecuteTask( long taskId, long cleId, long elementId, long databaseTimestamp, long localTimestamp, IDictionary <string, string> attributes, IDictionary <string, string> scriptParameters, IDictionary <string, object> connection, string tftpPath, string tftpPath_login, string tftpPath_password, ITftpDispatcher tftpDispatcher) { m_executionTimer = Stopwatch.StartNew(); m_taskId = taskId.ToString(); m_cleId = cleId; m_elementId = elementId; m_databaseTimestamp = databaseTimestamp; m_localTimestamp = localTimestamp; m_attributes = attributes; m_scriptParameters = scriptParameters; ResultCodes resultCode = ResultCodes.RC_SUCCESS; Lib.Logger.TraceEvent(TraceEventType.Start, 0, "Task Id {0}: Collection script WindowsWASIsInstanceRunningScript.", m_taskId); try { // Check ManagementScope CIMV ManagementScope cimvScope = null; if (connection == null) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection object passed to WindowsWASIsInstanceRunningScript is null.", m_taskId); } else if (!connection.ContainsKey("cimv2")) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Management scope for CIMV namespace is not present in connection object.", m_taskId); } else { cimvScope = connection[@"cimv2"] as ManagementScope; if (!cimvScope.IsConnected) { resultCode = ResultCodes.RC_WMI_CONNECTION_FAILED; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection to CIMV namespace failed.", m_taskId); } } //Check WAS Profile path attribute if (!scriptParameters.ContainsKey("installDirectory")) { resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Missing Profile Path Script parameter.", m_taskId); } else { m_installHome = scriptParameters[@"installDirectory"]; } //Check Server Name attribute if (!scriptParameters.ContainsKey("appsrv_Name")) { resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Missing Server Name script parameter.", m_taskId); } else { m_server = scriptParameters[@"appsrv_Name"]; } // Check Remote Process Temp Directory if (!connection.ContainsKey(@"TemporaryDirectory")) { connection[@"TemporaryDirectory"] = @"%TMP%"; } else { if (!connection[@"TemporaryDirectory"].Equals(@"%TMP%")) { if (!Lib.ValidateDirectory(m_taskId, connection[@"TemporaryDirectory"].ToString(), cimvScope)) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Temporary directory {1} is not valid.", m_taskId, connection[@"TemporaryDirectory"].ToString()); resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; //@TODO: change to RC_TEMP_DIRECTORY_NOT_EXIST } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Temporary directory {1} has been validated.", m_taskId, connection[@"TemporaryDirectory"].ToString()); } } } if (resultCode == ResultCodes.RC_SUCCESS) { // EXTRA code for wsadmin string strTempDir = connection["TemporaryDirectory"].ToString().Trim(); if (strTempDir.EndsWith(@"\")) { strTempDir = strTempDir.Substring(0, strTempDir.Length - 1); } string running = "False"; //string batchFile = m_profilePath.Trim() + @"\bin\serverStatus.bat " + m_server + @" -user bdna -password bdna"; string s1 = m_installHome.Trim(); string s2 = s1.Replace(" ", "^ "); string batchFile = s2 + @"\bin\serverStatus.bat " + m_server; //Console.WriteLine(batchFile); using (IRemoteProcess rp = RemoteProcess.ExecuteBatchFile(m_taskId, cimvScope, batchFile.ToString(), connection, tftpPath, tftpPath_login, tftpPath_password, tftpDispatcher)) { //This method will block until the entire remote process operation completes. resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Remote process operation completed with result code {1}.", m_taskId, resultCode.ToString()); string[] arrOutputLine = rp.Stdout.ToString().Split("\r\n".ToCharArray()); for (int i = 0; i < arrOutputLine.Length; i++) { string output = arrOutputLine[i]; if (s_instanceRegex.IsMatch(output)) { Match match = s_instanceRegex.Match(output); string name = match.Groups["server"].ToString(); if (string.Equals(m_server, name)) { running = "True"; } } } } //Console.WriteLine(running); m_dataRow.Append(m_elementId).Append(',') .Append(m_attributes["appSrv_isRunning"]).Append(',') .Append(m_scriptParameters["CollectorId"]).Append(',') .Append(m_taskId).Append(',') .Append(m_databaseTimestamp + m_executionTimer.ElapsedMilliseconds).Append(',') .Append("appSrv_isRunning").Append(',') .Append(BdnaDelimiters.BEGIN_TAG).Append(running).Append(BdnaDelimiters.END_TAG); } } catch (Exception ex) { if (ResultCodes.RC_SUCCESS == resultCode) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Unhandled exception in WindowsWASIsInstanceRunningScript. Elapsed time {1}.\n{2}\nResult code changed to RC_PROCESSING_EXCEPTION.", m_taskId, m_executionTimer.Elapsed.ToString(), ex.ToString()); resultCode = ResultCodes.RC_REMOTE_COMMAND_EXECUTION_ERROR; } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Unhandled exception in WindowsWASIsInstanceRunningScript. Elapsed time {1}.\n{2}", m_taskId, m_executionTimer.Elapsed.ToString(), ex.ToString()); } } Lib.Logger.TraceEvent(TraceEventType.Stop, 0, "Task Id {0}: Collection script WindowsWASIsInstanceRunningScript. Elapsed time {1}. Result code {2}.", m_taskId, m_executionTimer.Elapsed.ToString(), resultCode.ToString()); return(new CollectionScriptResults(resultCode, 0, null, null, null, false, m_dataRow.ToString())); }
public long ReadInt64(IRemoteProcess remoteProcess, MemoryMap memoryMap) { var address = this.GetAddress(remoteProcess, memoryMap); return this.readProcessMemory.ReadInt64(remoteProcess.Handle, address); }
/// <summary> /// Perform collection task specific processing. /// </summary> /// /// <param name="taskId">Database assigned task Id.</param> /// <param name="cleId">Database Id of owning Collection Engine.</param> /// <param name="elementId">Database Id of element being collected.</param> /// <param name="databaseTimestamp">Database relatvie task dispatch timestamp.</param> /// <param name="localTimestamp">Local task dispatch timestamp.</param> /// <param name="attributes">Map of attribute names to Id for attributes being collected.</param> /// <param name="scriptParameters">Collection script specific parameters (name/value pairs).</param> /// <param name="connection">Connection script results (null if this script does not /// require a remote host connection).</param> /// <param name="tftpDispatcher">Dispatcher for TFTP transfer requests.</param> /// <returns>Collection results.</returns> public CollectionScriptResults ExecuteTask(long taskId, long cleId, long elementId, long databaseTimestamp, long localTimestamp, IDictionary <string, string> attributes, IDictionary <string, string> scriptParameters, IDictionary <string, object> connection, string tftpPath, string tftpPath_login, string tftpPath_password, ITftpDispatcher tftpDispatcher) { m_taskId = taskId.ToString(); m_cleId = cleId; m_elementId = elementId; m_databaseTimestamp = databaseTimestamp; m_localTimestamp = localTimestamp; m_attributes = attributes; m_scriptParameters = scriptParameters; m_tftpDispatcher = tftpDispatcher; m_tftpPath = tftpPath; m_tftpPath_login = tftpPath_login; m_tftpPath_password = tftpPath_password; m_connection = connection; m_executionTimer = Stopwatch.StartNew(); ResultCodes resultCode = ResultCodes.RC_SUCCESS; Lib.Logger.TraceEvent(TraceEventType.Start, 0, "Task Id {0}: Collection script MSVirtualServerVMConfigFileContentScript.", m_taskId); try { // Check ManagementScope CIMV if (connection == null) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection object passed to MSVirtualServerVMConfigFileContentScript is null.", m_taskId); } else if (!connection.ContainsKey("cimv2")) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Management scope for CIMV namespace is not present in connection object.", m_taskId); } else { m_cimvScope = connection[@"cimv2"] as ManagementScope; if (!m_cimvScope.IsConnected) { resultCode = ResultCodes.RC_WMI_CONNECTION_FAILED; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection to CIMV namespace failed", m_taskId); } } //Check VM Config File Path attribute if (scriptParameters.ContainsKey("vmcFile")) { m_vmcFilePath = scriptParameters[@"vmcFile"]; } else { resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Missing parameter VM Config File Path attribute.", m_taskId); } // Check Remote Process Temp Directory if (!m_connection.ContainsKey(@"TemporaryDirectory")) { m_connection[@"TemporaryDirectory"] = @"%TMP%"; } else { if (!m_connection[@"TemporaryDirectory"].Equals(@"%TMP%")) { if (!Lib.ValidateDirectory(m_taskId, m_connection[@"TemporaryDirectory"].ToString(), m_cimvScope)) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Temporary directory {1} is not valid.", m_taskId, m_connection[@"TemporaryDirectory"].ToString()); resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; //@TODO: change to RC_TEMP_DIRECTORY_NOT_EXIST } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: User specified temp directory has been validated.", m_taskId); } } } if (resultCode == ResultCodes.RC_SUCCESS) { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Attempting to retrieve file {1}.", m_taskId, m_vmcFilePath); StringBuilder fileContent = new StringBuilder(); if (Lib.ValidateFile(m_taskId, m_vmcFilePath, m_cimvScope)) { using (IRemoteProcess rp = RemoteProcess.GetRemoteFile(m_taskId, m_cimvScope, m_vmcFilePath, m_connection, m_tftpPath, m_tftpPath_login, m_tftpPath_password, m_tftpDispatcher)) { // // Launch the remote process. // This method will block until the entire remote process operation completes. rp.Encoding = Encoding.Unicode; resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Remote file retrieval operation completed with result code {1}.", m_taskId, resultCode.ToString()); fileContent.Append(rp.Stdout); } //Console.WriteLine(fileContent.ToString()); string formattedFile = fileContent.ToString().Substring(1); StringBuilder fileData = getVMData(formattedFile); this.BuildDataRow(@"vmcFileData", fileData.ToString()); } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: VM Config file {1} does not exist.", m_taskId, m_vmcFilePath); resultCode = ResultCodes.RC_SUCCESS; //@TODO: change to RC_REMOTE_FILE_NOT_EXISTED //resultCode = ResultCodes.RC_PROCESSING_EXCEPTION; //@TODO: change to RC_REMOTE_FILE_NOT_EXISTED } } } catch (Exception ex) { if (ResultCodes.RC_SUCCESS == resultCode) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Unhandled exception in MSVirtualServerVMConfigFileContentScript. Elapsed time {1}.\n{2}Result code changed to RC_PROCESSING_EXECEPTION.", m_taskId, m_executionTimer.Elapsed.ToString(), ex.ToString()); resultCode = ResultCodes.RC_INSUFFICIENT_PRIVILEGE_TO_READ_REMOTE_FILE; } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Unhandled exception in MSVirtualServerVMConfigFileContentScript. Elapsed time {1}.\n{2}", m_taskId, m_executionTimer.Elapsed.ToString(), ex.ToString()); } } Lib.Logger.TraceEvent(TraceEventType.Stop, 0, "Task Id {0}: Collection script MSVirtualServerVMConfigFileContentScript. Elapsed time {1}. Result code {2}.", m_taskId, m_executionTimer.Elapsed.ToString(), resultCode.ToString()); return(new CollectionScriptResults (resultCode, 0, null, null, null, false, m_dataRow.ToString())); }
public byte[] Read(IRemoteProcess remoteProcess, MemoryMap memoryMap, int size) { var address = this.GetAddress(remoteProcess, memoryMap); return this.readProcessMemory.Read(remoteProcess.Handle, address, size); }
public string ReadString(IRemoteProcess remoteProcess, MemoryMap memoryMap, int? length = null) { var address = this.GetAddress(remoteProcess, memoryMap); return this.readProcessMemory.ReadString(remoteProcess.Handle, address, length); }
/// <summary> /// Perform collection task specific processing. /// </summary> /// /// <param name="taskId">Database assigned task Id.</param> /// <param name="cleId">Database Id of owning Collection Engine.</param> /// <param name="elementId">Database Id of element being collected.</param> /// <param name="databaseTimestamp">Database relatvie task dispatch timestamp.</param> /// <param name="localTimestamp">Local task dispatch timestamp.</param> /// <param name="attributes">Map of attribute names to Id for attributes being collected.</param> /// <param name="scriptParameters">Collection script specific parameters (name/value pairs).</param> /// <param name="connection">Connection script results (null if this script does not /// require a remote host connection).</param> /// <param name="tftpDispatcher">Dispatcher for TFTP transfer requests.</param> /// /// <returns>Collection results.</returns> public CollectionScriptResults ExecuteTask( long taskId, long cleId, long elementId, long databaseTimestamp, long localTimestamp, IDictionary <string, string> attributes, IDictionary <string, string> scriptParameters, IDictionary <string, object> connection, string tftpPath, string tftpPath_login, string tftpPath_password, ITftpDispatcher tftpDispatcher) { m_taskId = taskId.ToString(); m_cleId = cleId; m_elementId = elementId; m_databaseTimestamp = databaseTimestamp; m_localTimestamp = localTimestamp; m_attributes = attributes; m_scriptParameters = scriptParameters; m_connection = connection; string strOracleHome = null, strSchemaName = null, strSchemaPassword = null; m_executionTimer = Stopwatch.StartNew(); ResultCodes resultCode = ResultCodes.RC_SUCCESS; Lib.Logger.TraceEvent(TraceEventType.Start, 0, "Task Id {0}: Collection script WindowsOracleInstanceLMSOptions3StaticScript.", m_taskId); try { // Check ManagementScope CIMV ManagementScope cimvScope = null; if (connection == null) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection object passed to WindowsOracleInstanceLMSOptions3StaticScript is null.", m_taskId); } else if (!connection.ContainsKey("cimv2")) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Management scope for CIMV namespace is not present in connection object.", m_taskId); } else { cimvScope = connection[@"cimv2"] as ManagementScope; if (!cimvScope.IsConnected) { resultCode = ResultCodes.RC_WMI_CONNECTION_FAILED; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection to CIMV namespace failed", m_taskId); } } if (!scriptParameters.ContainsKey("version")) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Missing script parameter \"version\".", m_taskId); resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; } else { m_strVersion = scriptParameters["version"].Trim(); } if (!scriptParameters.ContainsKey("OracleHome")) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Missing script parameter \"OracleHome\".", m_taskId); resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; } else { strOracleHome = scriptParameters["OracleHome"].Trim(); if (strOracleHome.EndsWith(@"\")) { strOracleHome = strOracleHome.Substring(0, strOracleHome.Length - 1); } } if (!connection.ContainsKey("schemaName")) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Missing script parameter \"schemaName\".", m_taskId); resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; } else { strSchemaName = connection["schemaName"].ToString().Trim(); } if (!connection.ContainsKey("schemaPassword")) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Missing script parameter \"schemaPassword\".", m_taskId); resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; } else { strSchemaPassword = connection["schemaPassword"].ToString().Trim(); } if (ResultCodes.RC_SUCCESS == resultCode) { // Check Remote Process Temp Directory if (!connection.ContainsKey("TemporaryDirectory")) { connection["TemporaryDirectory"] = @"%TMP%"; } else { if (!m_connection[@"TemporaryDirectory"].Equals(@"%TMP%")) { if (!Lib.ValidateDirectory(m_taskId, m_connection[@"TemporaryDirectory"].ToString(), cimvScope)) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Temporary directory {1} is not valid.", m_taskId, connection[@"TemporaryDirectory"].ToString()); resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; //@TODO: change to RC_TEMP_DIRECTORY_NOT_EXIST } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Temporary directory {1} has been validated.", m_taskId, connection[@"TemporaryDirectory"].ToString()); } } } } if (resultCode == ResultCodes.RC_SUCCESS) { string strTempDir = connection["TemporaryDirectory"].ToString().Trim(); if (strTempDir.EndsWith(@"\")) { strTempDir = strTempDir.Substring(0, strTempDir.Length - 1); } string strBatchFileContent = buildBatchFile(strTempDir, strOracleHome, strSchemaName, strSchemaPassword); StringBuilder stdoutData = new StringBuilder(); using (IRemoteProcess rp = RemoteProcess.ExecuteBatchFile (m_taskId, cimvScope, strBatchFileContent, connection, tftpPath, tftpPath_login, tftpPath_password, tftpDispatcher)) { //This method will block until the entire remote process operation completes. resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Remote process operation completed with result code {1}.", m_taskId, resultCode.ToString()); if (resultCode == ResultCodes.RC_SUCCESS) { stdoutData.Append(rp.Stdout); if (rp.Stdout != null && rp.Stdout.Length > 0) { if (rp.Stdout.ToString().Contains("ORA-01017")) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Oracle L3 credential is invalid.\nResult code changed to RC_PROCESSING_EXCEPTION.\nSTDOUT/STDERR:\n{1}", m_taskId, rp.Stdout.ToString()); resultCode = ResultCodes.RC_HOST_CONNECT_FAILED; } else if (rp.Stdout.ToString().Contains("ERROR-")) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Batch file execution exception.\nResult code changed to RC_PROCESSING_EXCEPTION.\nSTDOUT/STDERR:\n{1}", m_taskId, rp.Stdout.ToString()); resultCode = ResultCodes.RC_REMOTE_COMMAND_EXECUTION_ERROR; } else if (!rp.Stdout.ToString().Contains(@"BDNA")) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: SQLPLUS exception, no proper data returned.\nResult code changed to RC_PROCESSING_EXCEPTION.\nSTDOUT/STDERR:\n{1}", m_taskId, rp.Stdout.ToString()); resultCode = ResultCodes.RC_REMOTE_COMMAND_EXECUTION_ERROR; } else if (!rp.Stdout.ToString().Contains(@"Execution completed")) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Exception with batch return data.\nData returned is shorter than expected, possibly due to transfer failure.\nResult code changed to RC_PROCESSING_EXCEPTION.", m_taskId); resultCode = ResultCodes.RC_REMOTE_COMMAND_EXECUTION_ERROR; } } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: No data returned.\nResult code changed to RC_PROCESSING_EXCEPTION.", m_taskId); resultCode = ResultCodes.RC_REMOTE_COMMAND_EXECUTION_ERROR; } } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Remote execution error.\nSTDOUT.STDERR:\n{1}", m_taskId, rp.Stdout.ToString()); } } if (resultCode == ResultCodes.RC_SUCCESS && stdoutData.Length > 0) { foreach (KeyValuePair <string, QueryTableEntry> entry in s_queryTable) { entry.Value.ResultHandler(this, entry.Key, stdoutData.ToString()); } this.processLabelSecurityCollectedData(); if (!ver8_pattern.IsMatch(m_strVersion)) { this.processDatabaseVaultCollectedData(); this.processAuditVaultCollectedData(); } foreach (KeyValuePair <string, string> kvp in m_collectedData) { this.BuildDataRow(kvp.Key, kvp.Value); } } } } catch (Exception ex) { if (ResultCodes.RC_SUCCESS == resultCode) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Unhandled exception in WindowsOracleInstanceLMSOptions3StaticScript. Elapsed time {1}.\n{2}\nResult code changed to RC_PROCESSING_EXCEPTION.", m_taskId, m_executionTimer.Elapsed.ToString(), ex.ToString()); resultCode = ResultCodes.RC_PROCESSING_EXCEPTION; } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Unhandled exception in WindowsOracleInstanceLMSOptions3StaticScript. Elapsed time {1}.\n{2}", m_taskId, m_executionTimer.Elapsed.ToString(), ex.ToString()); } } Lib.Logger.TraceEvent(TraceEventType.Stop, 0, "Task Id {0}: Collection script WindowsOracleInstanceLMSOptions3StaticScript. Elapsed time {1}. Result code {2}.", m_taskId, m_executionTimer.Elapsed.ToString(), resultCode.ToString()); return(new CollectionScriptResults(resultCode, 0, null, null, null, false, m_dataRow.ToString())); }
/// <summary> /// Execute command /// (Note that file path must be absolute path) /// </summary> /// <param name="filePath">File Path</param> /// <param name="collectedData">Collected Result.</param> /// <returns></returns> private ResultCodes ExecuteCommand(string userCommandLine, out string collectedData) { ResultCodes resultCode = ResultCodes.RC_SUCCESS; collectedData = string.Empty; if (!m_connection.ContainsKey(@"TemporaryDirectory")) { m_connection[@"TemporaryDirectory"] = @"%TMP%"; } else { if (!m_connection[@"TemporaryDirectory"].Equals(@"%TMP%")) { if (!Lib.ValidateDirectory(m_taskId, m_connection[@"TemporaryDirectory"].ToString(), m_cimvScope)) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Temporary directory {1} is not valid.", m_taskId, m_connection[@"TemporaryDirectory"].ToString()); resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; //@TODO: change to RC_TEMP_DIRECTORY_NOT_EXIST } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Temporary directory {1} has been validated.", m_taskId, m_connection[@"TemporaryDirectory"].ToString()); } } } if (resultCode == ResultCodes.RC_SUCCESS) { string strTempDir = m_connection["TemporaryDirectory"].ToString().Trim(); if (strTempDir.EndsWith(@"\")) { strTempDir = strTempDir.Substring(0, strTempDir.Length - 1); } string strBatchFileContent = buildBatchFile(userCommandLine); StringBuilder stdoutData = new StringBuilder(); using (IRemoteProcess rp = RemoteProcess.ExecuteBatchFile (m_taskId, m_cimvScope, strBatchFileContent, m_connection, m_tftpPath, m_tftpPath_login, m_tftpPath_password, m_tftpDispatcher)) { //This method will block until the entire remote process operation completes. resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Remote process operation completed with result code {1}.", m_taskId, resultCode.ToString()); if (rp != null && rp.Stdout != null && resultCode == ResultCodes.RC_SUCCESS) { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Remote processExec completed with result <{1}>.", m_taskId, rp.Stdout.ToString()); collectedData = rp.Stdout.ToString(); //string output = rp.Stdout.ToString(); //if (output.IndexOf(s_endTag) != -1) { // collectedData = output.Substring(0, output.Length - s_endTag.Length - 2); //} else { // resultCode = ResultCodes.RC_PROCESS_EXEC_FAILED; // Lib.Logger.TraceEvent(TraceEventType.Error, // 0, // "Task Id {0}: Remote execution error.\nSTDOUT.STDERR:\n{1}", // m_taskId, // rp.Stdout.ToString()); //} } else { resultCode = ResultCodes.RC_PROCESS_EXEC_FAILED; } } } return(resultCode); }
public void Delete(IRemoteProcess entity) { this.processRepository.Delete(entity); }
/// <summary> /// Get File Content /// (Note that file path must be absolute path) /// (Note that file path should not have double quote in general, but it has escaped the double quote to be convenient). /// </summary> /// <param name="filePath">File Path</param> /// <param name="collectedData">Collected Result.</param> /// <returns></returns> private ResultCodes GetFileContent(string filePath, out string collectedData) { collectedData = string.Empty; ResultCodes resultCode = ResultCodes.RC_INSUFFICIENT_PRIVILEGE_TO_ACCESS_FILE_PROPERTY; if (!m_connection.ContainsKey(@"TemporaryDirectory")) { m_connection[@"TemporaryDirectory"] = @"%TMP%"; } else { if (!m_connection[@"TemporaryDirectory"].Equals(@"%TMP%")) { if (!Lib.ValidateDirectory(m_taskId, m_connection[@"TemporaryDirectory"].ToString(), m_cimvScope)) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Temporary directory {1} is not valid.", m_taskId, m_connection[@"TemporaryDirectory"].ToString()); resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; //@TODO: change to RC_TEMP_DIRECTORY_NOT_EXIST } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: User specified temp directory has been validated.", m_taskId); } } } if (filePath.EndsWith("\"") && filePath.StartsWith("\"")) { filePath = filePath.Substring(1, filePath.Length - 2); } if (Lib.ValidateFile(m_taskId, filePath, m_cimvScope)) { using (IRemoteProcess rp = RemoteProcess.GetRemoteFile(m_taskId, m_cimvScope, filePath, m_connection, m_tftpPath, m_tftpPath_login, m_tftpPath_password, m_tftpDispatcher)) { // // Launch the remote process. // This method will block until the entire remote process operation completes. resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Remote file retrieval operation completed with result code {1}.", m_taskId, resultCode.ToString()); collectedData = rp.Stdout.ToString(); } } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: filepath: {1} does not exist.", m_taskId, filePath); } return(resultCode); }
/// <summary> /// Perform collection task specific processing. /// </summary> /// /// <param name="taskId">Database assigned task Id.</param> /// <param name="cleId">Database Id of owning Collection Engine.</param> /// <param name="elementId">Database Id of element being collected.</param> /// <param name="databaseTimestamp">Database relatvie task dispatch timestamp.</param> /// <param name="localTimestamp">Local task dispatch timestamp.</param> /// <param name="attributes">Map of attribute names to Id for attributes being collected.</param> /// <param name="scriptParameters">Collection script specific parameters (name/value pairs).</param> /// <param name="connection">Connection script results (null if this script does not /// require a remote host connection).</param> /// <param name="tftpDispatcher">Dispatcher for TFTP transfer requests.</param> /// /// <returns>Collection results.</returns> public CollectionScriptResults ExecuteTask( long taskId, long cleId, long elementId, long databaseTimestamp, long localTimestamp, IDictionary <string, string> attributes, IDictionary <string, string> scriptParameters, IDictionary <string, object> connection, string tftpPath, string tftpPath_login, string tftpPath_password, ITftpDispatcher tftpDispatcher) { Stopwatch executionTimer = Stopwatch.StartNew(); string taskIdString = taskId.ToString(); StringBuilder dataRow = new StringBuilder(); StringBuilder parsedIniFileData = new StringBuilder(); ResultCodes resultCode = ResultCodes.RC_SUCCESS; Lib.Logger.TraceEvent(TraceEventType.Start, 0, "Task Id {0}: Collection script CollectWindowsCPAINIFile.", taskIdString); Lib.Logger.TraceEvent(TraceEventType.Information, 0, "Task Id {0}: Hash Dump = {1}", taskIdString, scriptParameters.ToString()); string remoteFileName = scriptParameters[@"CPAWindowsIniFilePath"]; StringBuilder collectedCPAttr = new StringBuilder(); string logData = null; Lib.Logger.TraceEvent(TraceEventType.Information, 0, "Passed file name into the script : {0}", remoteFileName); Lib.Logger.TraceEvent(TraceEventType.Information, 0, "Task Id {0}: Running TFTP to collect the contents of CPA INI file on a remote system", taskIdString); MemoryStream ms = new MemoryStream(4096); using (TraceListener tl = new TextWriterTraceListener(ms)) { tl.TraceOutputOptions = TraceOptions.DateTime | TraceOptions.ProcessId | TraceOptions.ThreadId; try { Lib.Logger.Listeners.Add(tl); // // Create a remote process object to manage the // transfer of the remote file contents to our // script. // // Many of these values are passed to the script from // WinCs to give the Remote Process library access to // Facilities outside the script sandbox. The script // need not care what these values are, just pass them // through. // // Wrap the RemoteProcess in a using clause so that resources // are automatically released when the remote process // operation completes. ManagementScope cimvScope = connection[@"cimv2"] as ManagementScope; if (!cimvScope.IsConnected) { resultCode = ResultCodes.RC_WMI_CONNECTION_FAILED; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection to CIMV namespace failed", taskIdString); return(new CollectionScriptResults(resultCode, 0, null, null, null, false, dataRow.ToString())); } connection[@"TemporaryDirectory"] = @"c:\"; // collect data from multiple files if (remoteFileName.Contains(",")) { Lib.Logger.TraceEvent(TraceEventType.Information, 0, "CPAIniFilePath has multiple INI files path (" + remoteFileName + ")", taskIdString); string[] iniFiles = remoteFileName.Split(','); for (int fileCount = 0; fileCount < iniFiles.Length; fileCount++) { String fileName = iniFiles[fileCount]; Lib.Logger.TraceEvent(TraceEventType.Information, 0, "CPA file path is " + fileName, taskIdString); using (IRemoteProcess rp = RemoteProcess.GetRemoteFile(taskIdString, // Task Id to log against. cimvScope, // WMI connection, passed to collection script from WinCs fileName, // Name of remote file to retrieve. connection, // credential hash passed to all collection/connection scripts tftpPath, tftpPath_login, tftpPath_password, tftpDispatcher)) { // TFTP listener, passed to script from WinCs // // Launch the remote process. This method will // block until the entire remote process operation // completes. ResultCodes rc = rp.Launch(); // // Once you get control back, there are properties that // can be checked to information about the outcome of the // operation, obtain log data, and retrieve collection results. Lib.Logger.TraceEvent(TraceEventType.Information, 0, "Remote process operation completed with result code" + rc.ToString(), taskIdString); if (null != collectedCPAttr) { collectedCPAttr.Append(rp.Stdout); } } } if (null != collectedCPAttr) { int MIN_SECTIONS = 1; // string collectedCPAttr = sb.ToString(); // System.Console.WriteLine(collectedCPAttr); string[] cpAttrSections = new Regex(@"\[").Split(collectedCPAttr.ToString()); // System.Console.WriteLine("{0} sections in text:", cpAttrSections.Length); if (cpAttrSections.Length > 0) { for (int secCtr = 0; secCtr < cpAttrSections.Length; secCtr++) { // System.Console.WriteLine("This Section"); // System.Console.WriteLine(cpAttrSections[secCtr]); string[] secEntries = cpAttrSections[secCtr].Split('\n'); if (secEntries.Length == 1) { continue; } for (int entryCtr = 0; entryCtr < secEntries.Length; entryCtr++) { string tEntry = secEntries[entryCtr].Trim(); if (tEntry.Length > 0) { if (tEntry.EndsWith("]")) { if (secCtr > MIN_SECTIONS) { parsedIniFileData.Append("<BDNA,>"); } parsedIniFileData.Append("Section="); parsedIniFileData.Append(tEntry.TrimEnd(']')); } else { if (secEntries[entryCtr - 1].Trim().EndsWith("]")) { parsedIniFileData.Append("<BDNA,1>"); } else { parsedIniFileData.Append("<BDNA,2>"); } parsedIniFileData.Append(tEntry); } } } } } Lib.Logger.TraceEvent(TraceEventType.Information, 0, "Parsing Succeeded. Parsed INI File Data is : " + parsedIniFileData.ToString(), parsedIniFileData.ToString()); if (ResultCodes.RC_SUCCESS == resultCode) { dataRow.Append(elementId).Append(',') .Append(attributes[@"collectedCPAttr"]) .Append(',') .Append(scriptParameters[@"CollectorId"]).Append(',') .Append(taskId).Append(',') .Append(databaseTimestamp + executionTimer.ElapsedMilliseconds) .Append(',') .Append(@"collectedCPAttr") .Append(',') .Append(BdnaDelimiters.BEGIN_TAG) .Append(collectedCPAttr) .Append(BdnaDelimiters.END_TAG); dataRow.Append(elementId).Append(',') .Append(attributes[@"parsedCPAttr"]) .Append(',') .Append(scriptParameters[@"CollectorId"]).Append(',') .Append(taskId).Append(',') .Append(databaseTimestamp + executionTimer.ElapsedMilliseconds) .Append(',') .Append(@"parsedCPAttr") .Append(',') .Append(BdnaDelimiters.BEGIN_TAG) .Append(parsedIniFileData) .Append(BdnaDelimiters.END_TAG); } } } else { using (IRemoteProcess rp = RemoteProcess.GetRemoteFile(taskIdString, // Task Id to log against. cimvScope, // WMI connection, passed to collection script from WinCs remoteFileName, // Name of remote file to retrieve. connection, // credential hash passed to all collection/connection scripts tftpPath, tftpPath_login, tftpPath_password, tftpDispatcher)) { // TFTP listener, passed to script from WinCs // // Launch the remote process. This method will // block until the entire remote process operation // completes. ResultCodes rc = rp.Launch(); // // Once you get control back, there are properties that // can be checked to information about the outcome of the // operation, obtain log data, and retrieve collection results. Lib.Logger.TraceEvent(TraceEventType.Information, 0, "Remote process operation completed with result code" + rc.ToString(), taskIdString); if (null != collectedCPAttr) { collectedCPAttr.Append(rp.Stdout); int MIN_SECTIONS = 1; // string collectedCPAttr = sb.ToString(); // System.Console.WriteLine(collectedCPAttr); string[] cpAttrSections = new Regex(@"\[").Split(collectedCPAttr.ToString()); // System.Console.WriteLine("{0} sections in text:", cpAttrSections.Length); if (cpAttrSections.Length > 0) { for (int secCtr = 0; secCtr < cpAttrSections.Length; secCtr++) { // System.Console.WriteLine("This Section"); // System.Console.WriteLine(cpAttrSections[secCtr]); string[] secEntries = cpAttrSections[secCtr].Split('\n'); if (secEntries.Length == 1) { continue; } for (int entryCtr = 0; entryCtr < secEntries.Length; entryCtr++) { string tEntry = secEntries[entryCtr].Trim(); if (tEntry.Length > 0) { if (tEntry.EndsWith("]")) { if (secCtr > MIN_SECTIONS) { parsedIniFileData.Append("<BDNA,>"); } parsedIniFileData.Append("Section="); parsedIniFileData.Append(tEntry.TrimEnd(']')); } else { if (secEntries[entryCtr - 1].Trim().EndsWith("]")) { parsedIniFileData.Append("<BDNA,1>"); } else { parsedIniFileData.Append("<BDNA,2>"); } parsedIniFileData.Append(tEntry); } } } } } Lib.Logger.TraceEvent(TraceEventType.Information, 0, "Parsing Succeeded. Parsed INI File Data is : " + parsedIniFileData.ToString(), parsedIniFileData.ToString()); if (ResultCodes.RC_SUCCESS == resultCode) { dataRow.Append(elementId).Append(',') .Append(attributes[@"collectedCPAttr"]) .Append(',') .Append(scriptParameters[@"CollectorId"]).Append(',') .Append(taskId).Append(',') .Append(databaseTimestamp + executionTimer.ElapsedMilliseconds) .Append(',') .Append(@"collectedCPAttr") .Append(',') .Append(BdnaDelimiters.BEGIN_TAG) .Append(collectedCPAttr) .Append(BdnaDelimiters.END_TAG); dataRow.Append(elementId).Append(',') .Append(attributes[@"parsedCPAttr"]) .Append(',') .Append(scriptParameters[@"CollectorId"]).Append(',') .Append(taskId).Append(',') .Append(databaseTimestamp + executionTimer.ElapsedMilliseconds) .Append(',') .Append(@"parsedCPAttr") .Append(',') .Append(BdnaDelimiters.BEGIN_TAG) .Append(parsedIniFileData) .Append(BdnaDelimiters.END_TAG); } } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "CPA INI File not found on target machine.", taskIdString); resultCode = ResultCodes.RC_PROCESSING_EXCEPTION; } } } } finally { tl.Flush(); Lib.Logger.Listeners.Remove(tl); } logData = Encoding.UTF8.GetString(ms.GetBuffer(), 0, (int)ms.Length); } Lib.Logger.TraceEvent(TraceEventType.Information, 0, "CPA INI File data returned: ", taskIdString); Lib.Logger.TraceEvent(TraceEventType.Information, 0, collectedCPAttr.ToString(), taskIdString); Lib.Logger.TraceEvent(TraceEventType.Information, 0, "Log data returned: ", taskIdString); Lib.Logger.TraceEvent(TraceEventType.Information, 0, logData, taskIdString); return(new CollectionScriptResults(resultCode, 0, null, null, null, false, dataRow.ToString())); }
/// <summary> /// Perform collection task specific processing. /// </summary> /// /// <param name="taskId">Database assigned task Id.</param> /// <param name="cleId">Database Id of owning Collection Engine.</param> /// <param name="elementId">Database Id of element being collected.</param> /// <param name="databaseTimestamp">Database relatvie task dispatch timestamp.</param> /// <param name="localTimestamp">Local task dispatch timestamp.</param> /// <param name="attributes">Map of attribute names to Id for attributes being collected.</param> /// <param name="scriptParameters">Collection script specific parameters (name/value pairs).</param> /// <param name="connection">Connection script results (null if this script does not /// require a remote host connection).</param> /// <param name="tftpDispatcher">Dispatcher for TFTP transfer requests.</param> /// <returns>Collection results.</returns> public CollectionScriptResults ExecuteTask(long taskId, long cleId, long elementId, long databaseTimestamp, long localTimestamp, IDictionary <string, string> attributes, IDictionary <string, string> scriptParameters, IDictionary <string, object> connection, string tftpPath, string tftpPath_login, string tftpPath_password, ITftpDispatcher tftpDispatcher) { m_taskId = taskId.ToString(); m_cleId = cleId; m_elementId = elementId; m_databaseTimestamp = databaseTimestamp; m_localTimestamp = localTimestamp; m_attributes = attributes; m_scriptParameters = scriptParameters; m_tftpPath = tftpPath; m_tftpPath_login = tftpPath_login; m_tftpPath_password = tftpPath_password; m_tftpDispatcher = tftpDispatcher; m_connection = connection; m_executionTimer = Stopwatch.StartNew(); ResultCodes resultCode = ResultCodes.RC_SUCCESS; Lib.Logger.TraceEvent(TraceEventType.Start, 0, "Task Id {0}: Collection script VMwareVMLSConfigFileContentScript.", m_taskId); try { // Check ManagementScope CIMV if (connection == null) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection object passed to VMwareVMLSConfigFileContentScript is null.", m_taskId); } else if (!connection.ContainsKey("cimv2")) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Management scope for CIMV namespace is not present in connection object.", m_taskId); } else { m_cimvScope = connection[@"cimv2"] as ManagementScope; if (!m_cimvScope.IsConnected) { resultCode = ResultCodes.RC_WMI_CONNECTION_FAILED; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection to CIMV namespace failed.", m_taskId); } } //Check VMLSFilePath attribute if (scriptParameters.ContainsKey("VMLSFilePath")) { m_vmlsFilePath = scriptParameters[@"VMLSFilePath"]; } else { resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Missing parameter VMLSFilePath attribute.", m_taskId); } // Check Remote Process Temp Directory if (!m_connection.ContainsKey(@"TemporaryDirectory")) { m_connection[@"TemporaryDirectory"] = @"%TMP%"; } else { if (!m_connection[@"TemporaryDirectory"].Equals(@"%TMP%")) { if (!Lib.ValidateDirectory(m_taskId, m_connection[@"TemporaryDirectory"].ToString(), m_cimvScope)) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Temporary directory {1} is not valid.", m_taskId, m_connection[@"TemporaryDirectory"].ToString()); resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; //@TODO: change to RC_TEMP_DIRECTORY_NOT_EXIST } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: User specified temp directory has been validated.", m_taskId); } } } // DEBUG-- to be removed #region DEBUG StringBuilder sb = new StringBuilder(); foreach (KeyValuePair <string, string> kvp in m_attributes) { sb.Append(@"Attribute[").Append((string)kvp.Key).Append(@"]=").AppendLine((string)kvp.Value); } Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Attribute dictionary contents:\n{1}", m_taskId, sb.ToString()); #endregion // DEBUG if (resultCode == ResultCodes.RC_SUCCESS) { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Attempting to retrieve file {1}.", m_taskId, m_vmlsFilePath); StringBuilder fileContent = new StringBuilder(); if (Lib.ValidateFile(m_taskId, m_vmlsFilePath, m_cimvScope)) { using (IRemoteProcess rp = RemoteProcess.GetRemoteFile(m_taskId, m_cimvScope, m_vmlsFilePath, m_connection, m_tftpPath, m_tftpPath_login, m_tftpPath_password, m_tftpDispatcher)) { // // Launch the remote process. // This method will block until the entire remote process operation completes. resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Remote file retrieval operation completed with result code {1}.", m_taskId, resultCode.ToString()); fileContent.Append(rp.Stdout); } // Format file content to format: name=value string strFormattedString = this.formatFileContent(fileContent.ToString()); this.BuildDataRow(@"VMLSFileContent", strFormattedString); } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: VMLS file {1} does not exist.", m_taskId, m_vmlsFilePath); resultCode = ResultCodes.RC_INSUFFICIENT_PRIVILEGE_TO_READ_REMOTE_FILE; } } } catch (Exception ex) { if (ResultCodes.RC_SUCCESS == resultCode) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Unhandled exception in VMwareVMLSConfigFileContentScript. Elapsed time {1}.\n{2}\nResult code changed to RC_PROCESSING_EXCEPTION.", m_taskId, m_executionTimer.Elapsed.ToString(), ex.ToString()); resultCode = ResultCodes.RC_INSUFFICIENT_PRIVILEGE_TO_READ_REMOTE_FILE; } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Unhandled exception in VMwareVMLSConfigFileContentScript. Elapsed time {1}.\n{2}", m_taskId, m_executionTimer.Elapsed.ToString(), ex.ToString()); } } Lib.Logger.TraceEvent(TraceEventType.Stop, 0, "Task Id {0}: Collection script VMwareVMLSConfigFileContentScript. Elapsed time {1}. Result code {2}.", m_taskId, m_executionTimer.Elapsed.ToString(), resultCode.ToString()); return(new CollectionScriptResults (resultCode, 0, null, null, null, false, m_dataRow.ToString())); }
public void Add(IRemoteProcess remoteProcess) { this.remoteProcesses.Add(remoteProcess); }
/// <summary> /// Execute nslookup command remotely. /// </summary> /// /// <param name="taskId">Database assigned task Id.</param> /// <param name="cleId">Database Id of owning Collection Engine.</param> /// <param name="elementId">Database Id of element being collected.</param> /// <param name="databaseTimestamp">Database relatvie task dispatch timestamp.</param> /// <param name="localTimestamp">Local task dispatch timestamp.</param> /// <param name="attributes">Map of attribute names to Id for attributes being collected.</param> /// <param name="scriptParameters">Collection script specific parameters (name/value pairs).</param> /// <param name="connection">Connection script results (null if this script does not /// require a remote host connection).</param> /// <param name="tftpDispatcher">Dispatcher for TFTP transfer requests.</param> /// <returns>Collection results.</returns> public CollectionScriptResults ExecuteTask( long taskId, long cleId, long elementId, long databaseTimestamp, long localTimestamp, IDictionary <string, string> attributes, IDictionary <string, string> scriptParameters, IDictionary <string, object> connection, string tftpPath, string tftpPath_login, string tftpPath_password, ITftpDispatcher tftpDispatcher) { m_executionTimer = Stopwatch.StartNew(); m_taskId = taskId.ToString(); m_cleId = cleId; m_elementId = elementId; m_databaseTimestamp = databaseTimestamp; m_localTimestamp = localTimestamp; m_attributes = attributes; m_scriptParameters = scriptParameters; ResultCodes resultCode = ResultCodes.RC_SUCCESS; Lib.Logger.TraceEvent(TraceEventType.Start, 0, "Task Id {0}: Collection script WindowsWASHostsLookupScript.", m_taskId); try { // Check ManagementScope CIMV ManagementScope cimvScope = null; if (connection == null) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection object passed to WindowsWASHostsLookupScript is null.", m_taskId); } else if (!connection.ContainsKey("cimv2")) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Management scope for CIMV namespace is not present in connection object.", m_taskId); } else { cimvScope = connection[@"cimv2"] as ManagementScope; if (!cimvScope.IsConnected) { resultCode = ResultCodes.RC_WMI_CONNECTION_FAILED; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection to CIMV namespace failed", m_taskId); } } //Check script parameter if (!scriptParameters.ContainsKey("hostsToLookup")) { resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Missing parameter hostsToLookup.", m_taskId); } else { m_hostsToLookup = scriptParameters[@"hostsToLookup"]; } // Check Remote Process Temp Directory if (!connection.ContainsKey(@"TemporaryDirectory")) { connection[@"TemporaryDirectory"] = @"%TMP%"; } else { if (!connection[@"TemporaryDirectory"].Equals(@"%TMP%")) { if (!Lib.ValidateDirectory(m_taskId, connection[@"TemporaryDirectory"].ToString(), cimvScope)) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Temporary directory {1} is not valid.", m_taskId, connection[@"TemporaryDirectory"].ToString()); resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; //@TODO: change to RC_TEMP_DIRECTORY_NOT_EXIST } else { Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Temporary directory {1} has been validated.", m_taskId, connection[@"TemporaryDirectory"].ToString()); } } } if (resultCode == ResultCodes.RC_SUCCESS) { StringBuilder val = new StringBuilder(); String[] hosts = m_hostsToLookup.Split(','); foreach (string host in hosts) { StringBuilder commandLine = new StringBuilder(); if (val.ToString().Length != 0) { val.Append(@"<BDNA,>"); } val.Append(host).Append(@"<BDNA,1>"); commandLine.Append(@"nslookup ").Append(host); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Attempting to retrieve command output {1}.", m_taskId, commandLine); String collectedData = ""; using (IRemoteProcess rp = RemoteProcess.ExecuteBatchFile( m_taskId, // Task Id to log against. cimvScope, // assuming Remote process uses cimv2 management scope commandLine.ToString(), // batch file connection, // connection dictionary. tftpPath, tftpPath_login, tftpPath_password, tftpDispatcher)) { //This method will block until the entire remote process operation completes. resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Batch file executed completed with result code {1}.", m_taskId, resultCode.ToString()); collectedData = rp.Stdout.ToString(); if (string.IsNullOrEmpty(collectedData)) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Script completed sucessfully with no data to return.", m_taskId); resultCode = ResultCodes.RC_REMOTE_COMMAND_EXECUTION_ERROR; } else { string[] collectedDataArr = collectedData.Split("\r\n".ToCharArray()); bool flag = false; for (int i = 0; i < collectedDataArr.Length; i++) { string output = collectedDataArr[i]; if (s_nameRegex.IsMatch(output)) { Match match = s_nameRegex.Match(output); string name = match.Groups["name"].ToString(); val.Append(@"DBHost_DNSHostName=").Append(name); flag = true; } if ((s_addrRegex.IsMatch(output)) && (flag)) { Match match = s_addrRegex.Match(output); string addr = match.Groups["address"].ToString(); val.Append(@"<BDNA,1>DBHost_IPAddr=").Append(addr); } } } } } m_dataRow.Append(m_elementId).Append(',') .Append(m_attributes["lookedUpHosts"]).Append(',') .Append(m_scriptParameters["CollectorId"]).Append(',') .Append(m_taskId).Append(',') .Append(m_databaseTimestamp + m_executionTimer.ElapsedMilliseconds).Append(',') .Append("lookedUpHosts").Append(',') .Append(BdnaDelimiters.BEGIN_TAG).Append(val).Append(BdnaDelimiters.END_TAG); } } catch (Exception ex) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Unhandled exception in WindowsWASHostsLookupScript. Elapsed time {1}.\n{2}", m_taskId, m_executionTimer.Elapsed.ToString(), ex.ToString()); } Lib.Logger.TraceEvent(TraceEventType.Stop, 0, "Task Id {0}: Collection script WindowsWASHostsLookupScript. Elapsed time {1}. Result code {2}.", m_taskId, m_executionTimer.Elapsed.ToString(), resultCode); return(new CollectionScriptResults (resultCode, 0, null, null, null, false, m_dataRow.ToString())); }
public float ReadSingle(IRemoteProcess remoteProcess, MemoryMap memoryMap) { var address = this.GetAddress(remoteProcess, memoryMap); return this.readProcessMemory.ReadSingle(remoteProcess.Handle, address); }
/// <summary> /// Execute an arbitrary command remotely. /// </summary> /// /// <param name="taskId">Database assigned task Id.</param> /// <param name="cleId">Database Id of owning Collection Engine.</param> /// <param name="elementId">Database Id of element being collected.</param> /// <param name="databaseTimestamp">Database relatvie task dispatch timestamp.</param> /// <param name="localTimestamp">Local task dispatch timestamp.</param> /// <param name="attributes">Map of attribute names to Id for attributes being collected.</param> /// <param name="scriptParameters">Collection script specific parameters (name/value pairs).</param> /// <param name="connection">Connection script results (null if this script does not /// require a remote host connection).</param> /// <param name="tftpDispatcher">Dispatcher for TFTP transfer requests.</param> /// <returns>Collection results.</returns> public CollectionScriptResults ExecuteTask( long taskId, long cleId, long elementId, long databaseTimestamp, long localTimestamp, IDictionary <string, string> attributes, IDictionary <string, string> scriptParameters, IDictionary <string, object> connection, string tftpPath, string tftpPath_login, string tftpPath_password, ITftpDispatcher tftpDispatcher) { m_taskId = taskId.ToString(); m_executionTimer = Stopwatch.StartNew(); string commandLine = string.Empty; //string returnAttribute = null; string returnAttribute = string.Empty; ResultCodes resultCode = ResultCodes.RC_PROCESSING_EXCEPTION; Lib.Logger.TraceEvent(TraceEventType.Start, 0, "Task Id {0}: Collection script Extend_IBM_WindowsWebSphereMQ_Server_QueueManagerStatic_script.", m_taskId); try { // Check ManagementScope CIMV ManagementScope cimvScope = null; if (connection == null) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection object passed to Extend_IBM_WindowsWebSphereMQ_Server_QueueManagerStatic_script is null.", m_taskId); } else if (!connection.ContainsKey("cimv2")) { resultCode = ResultCodes.RC_NULL_CONNECTION_OBJECT; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Management scope for CIMV namespace is not present in connection object.", m_taskId); } else { cimvScope = connection[@"cimv2"] as ManagementScope; if (!cimvScope.IsConnected) { resultCode = ResultCodes.RC_WMI_CONNECTION_FAILED; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Connection to CIMV namespace failed", m_taskId); } // We have to massage the script parameter set, replace // any keys with a colon by just the part after the colon. Dictionary <string, string> d = new Dictionary <string, string>(); foreach (KeyValuePair <string, string> kvp in scriptParameters) { string[] sa = kvp.Key.Split(s_collectionParameterSetDelimiter, StringSplitOptions.RemoveEmptyEntries); Debug.Assert(sa.Length > 0); d[sa[sa.Length - 1]] = kvp.Value; } scriptParameters = d; //Check input parameter and set what output attribute to return if (scriptParameters.ContainsKey("qmDisplayData_commandLine")) { commandLine = scriptParameters[@"qmDisplayData_commandLine"]; returnAttribute = "qmDisplayData"; } else if (scriptParameters.ContainsKey("channelsStatus_commandLine")) { commandLine = scriptParameters[@"channelsStatus_commandLine"]; returnAttribute = "channelsStatus"; } else if (scriptParameters.ContainsKey("channelsDisplayData_commandLine")) { commandLine = scriptParameters[@"channelsDisplayData_commandLine"]; returnAttribute = "channelsDisplayData"; } else if (scriptParameters.ContainsKey("queuesDisplayData_commandLine")) { commandLine = scriptParameters[@"queuesDisplayData_commandLine"]; returnAttribute = "queuesDisplayData"; } else if (scriptParameters.ContainsKey("channelDetailDisplayData_commandLine")) { commandLine = scriptParameters[@"channelDetailDisplayData_commandLine"]; returnAttribute = "channelDetailDisplayData"; } else if (scriptParameters.ContainsKey("queueDetailDisplayData_commandLine")) { commandLine = scriptParameters[@"queueDetailDisplayData_commandLine"]; returnAttribute = "queueDetailDisplayData"; } else { resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Missing script parameter.", m_taskId); } //Check commandLine parameter //if (!scriptParameters.ContainsKey("commandLine")) if (string.IsNullOrEmpty(commandLine)) { resultCode = ResultCodes.RC_SCRIPT_PARAMETER_MISSING; Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Missing command Line parameter.", m_taskId); } else { // Both Working directory and temporary need to be collected as part of Windows Credential. // BUG 14064 has been filed to track this problem. // Check working and temporary directory parameter if (!connection.ContainsKey(@"WorkingDirectory") || string.IsNullOrEmpty(connection[@"WorkingDirectory"].ToString())) { connection[@"WorkingDirectory"] = @"%TMP%"; } if (!connection.ContainsKey(@"TemporaryDirectory") || string.IsNullOrEmpty(connection[@"TemporaryDirectory"].ToString())) { connection[@"TemporaryDirectory"] = @"%TMP%"; } Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Attempting to retrieve command output {1}.", m_taskId, commandLine); String batchFileContent = this.BuildBatchFile(connection[@"WorkingDirectory"].ToString(), commandLine); String collectedData = ""; using (IRemoteProcess rp = RemoteProcess.ExecuteBatchFile( m_taskId, // Task Id to log against. cimvScope, // assuming Remote process uses cimv2 management scope batchFileContent, // batch file connection, // connection dictionary. tftpPath, tftpPath_login, tftpPath_password, tftpDispatcher)) { //This method will block until the entire remote process operation completes. resultCode = rp.Launch(); Lib.Logger.TraceEvent(TraceEventType.Verbose, 0, "Task Id {0}: Batch file executed completed with result code {1}.", m_taskId, resultCode.ToString()); if (resultCode == ResultCodes.RC_SUCCESS) { collectedData = rp.Stdout.ToString(); if (string.IsNullOrEmpty(collectedData)) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Script completed sucessfully with no data to return.", m_taskId); resultCode = ResultCodes.RC_PROCESSING_EXCEPTION; } else if (!collectedData.Contains(@"Execution completed")) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Exception with batch file return data.\nData returned is shorter than expected, possibly due to transfer failure.\nResult code changed to RC_PROCESSING_EXCEPTION. Partial result: {1}", m_taskId, collectedData); resultCode = ResultCodes.RC_REMOTE_COMMAND_EXECUTION_ERROR; } else { collectedData = collectedData.Substring(0, collectedData.Length - @"Execution completed.\r\n".Length); string strFormattedString = this.formatCommandResult(collectedData.ToString()); m_outputData.Append(elementId).Append(',') //.Append(attributes[@"commandResult"]).Append(',') .Append(attributes[returnAttribute]).Append(',') .Append(scriptParameters[@"CollectorId"]).Append(',') .Append(m_taskId).Append(',') .Append(databaseTimestamp + m_executionTimer.ElapsedMilliseconds).Append(',') .Append(returnAttribute).Append(',') //.Append(BdnaDelimiters.BEGIN_TAG).Append(collectedData).Append(BdnaDelimiters.END_TAG); .Append(BdnaDelimiters.BEGIN_TAG).Append(strFormattedString ).Append(BdnaDelimiters.END_TAG); } } else { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Error during command execution. Elapsed time {1}. Result code {2}.", m_taskId, m_executionTimer.Elapsed.ToString(), resultCode); } } } } } catch (Exception ex) { Lib.Logger.TraceEvent(TraceEventType.Error, 0, "Task Id {0}: Unhandled exception in Extend_IBM_WindowsWebSphereMQ_Server_QueueManagerStatic_script. Elapsed time {1}.\n{2}", m_taskId, m_executionTimer.Elapsed.ToString(), ex.ToString()); } Lib.Logger.TraceEvent(TraceEventType.Stop, 0, "Task Id {0}: Collection script Extend_IBM_WindowsWebSphereMQ_Server_QueueManagerStatic_script. Elapsed time {1}. Result code {2}.", m_taskId, m_executionTimer.Elapsed.ToString(), resultCode); return(new CollectionScriptResults (resultCode, 0, null, null, null, false, m_outputData.ToString())); }
public void AttachToProcess(IRemoteProcess remoteProcess) { Contract.Requires<ArgumentNullException>(remoteProcess != null); if (remoteProcess.IsAttached) { return; } this.remoteProcessCommandService.AttachClientToRemoteProcess( new AttachClientToRemoteProcessCommand(remoteProcess.Id)); this.TryClose(); }