del método TimeSheet.QueueRecallTimesheet
Cambia el estado actual del parte de horas especificado como el estado del parte de horas anterior, cuando el usuario actual era el siguiente aprobador.
Espacio de nombres: WebSvcTimeSheet
Ensamblado: ProjectServerServices (en ProjectServerServices.dll)
Sintaxis
'Declaración
<SoapDocumentMethodAttribute("https://schemas.microsoft.com/office/project/server/webservices/TimeSheet/QueueRecallTimesheet", RequestNamespace := "https://schemas.microsoft.com/office/project/server/webservices/TimeSheet/", _
ResponseNamespace := "https://schemas.microsoft.com/office/project/server/webservices/TimeSheet/", _
Use := SoapBindingUse.Literal, ParameterStyle := SoapParameterStyle.Wrapped)> _
Public Sub QueueRecallTimesheet ( _
jobUID As Guid, _
tsUID As Guid _
)
'Uso
Dim instance As TimeSheet
Dim jobUID As Guid
Dim tsUID As Guid
instance.QueueRecallTimesheet(jobUID, _
tsUID)
[SoapDocumentMethodAttribute("https://schemas.microsoft.com/office/project/server/webservices/TimeSheet/QueueRecallTimesheet", RequestNamespace = "https://schemas.microsoft.com/office/project/server/webservices/TimeSheet/",
ResponseNamespace = "https://schemas.microsoft.com/office/project/server/webservices/TimeSheet/",
Use = SoapBindingUse.Literal, ParameterStyle = SoapParameterStyle.Wrapped)]
public void QueueRecallTimesheet(
Guid jobUID,
Guid tsUID
)
Parámetros
jobUID
Tipo: System.GuidIdentificador único de la tarea de la cola.
tsUID
Tipo: System.GuidIdentificador único del parte de horas.
Comentarios
No se pueden recuperar los partes de horas que están aprobadas o que se encuentran en el proceso de aprobación. Suplentes no pueden recuperar un parte de horas después de que se ha enviado.
El método QueueRecallTimesheet se procesa de forma asincrónica a través de la cola de partes de horas de Project Server.
Este método envía trabajos al objeto QueueSystem . La propiedad CorrelationGUID para el trabajo es igual que el valor de la propiedad TS_UID .
Permisos de Project Server
Permiso |
Descripción |
|---|---|
No estándar |
El usuario actual debe ser el propietario del parte de horas o el administrador. |
Ejemplos
En el ejemplo de código siguiente se determina si existe un parte de horas para el primer período abierto. Si es así, el ejemplo lee el parte de horas. Si no existe el parte de horas, en el ejemplo se crea un parte de horas con el valor predeterminado de líneas de parte de horas que se especifican en el servidor. A continuación, en el ejemplo se envía el parte de horas y se muestra los resultados.
Al final, el ejemplo recupera el parte de horas y lo elimina de modo que se pueden crear de nuevo. Si desea ver la aprobación del parte de horas en Project Web App, convierta en comentario la sección de recuperación y la eliminación.
Períodos del parte de horas deben crearse en la configuración de servidores de partes de horas para que funcione.
For critical information about running this code sample, see Prerequisites for Reference Code Samples.
using System;
using System.Collections.Generic;
using System.Text;
using System.Net;
using System.Data;
using System.Threading;
using System.Web.Services.Protocols;
using PSLibrary = Microsoft.Office.Project.Server.Library;
namespace Microsoft.SDK.Project.Samples.QueueSubmitTimesheet
{
class Program
{
[STAThread]
static void Main()
{
try{
#region Setup
const string PROJECT_SERVER_URI = "http:// ServerName/ProjectServerName/"; // <<--Change to be the name of your server running Project Server and the name of your directory.
const string TIMESHEET_SERVICE_PATH = "_vti_bin/psi/timesheet.asmx";
const string RESOURCE_SERVICE_PATH = "_vti_bin/psi/resource.asmx";
const string ADMIN_SERVICE_PATH = "_vti_bin/psi/admin.asmx";
const string QUEUESYSTEM_SERVICE_PATH = "_vti_bin/psi/queuesystem.asmx";
TimeSheetWebSvc.TimesheetDataSet timeSheetDs;
Guid jobUid;
// Set up the services.
TimeSheetWebSvc.TimeSheet timeSheetSvc = new TimeSheetWebSvc.TimeSheet();
timeSheetSvc.UseDefaultCredentials = true;
timeSheetSvc.Url = PROJECT_SERVER_URI + TIMESHEET_SERVICE_PATH;
ResourceWebSvc.Resource resourceSvc = new ResourceWebSvc.Resource();
resourceSvc.Url = PROJECT_SERVER_URI + RESOURCE_SERVICE_PATH;
resourceSvc.UseDefaultCredentials = true;
AdminWebSvc.Admin adminSvc = new AdminWebSvc.Admin();
adminSvc.Url = PROJECT_SERVER_URI + ADMIN_SERVICE_PATH;
adminSvc.UseDefaultCredentials = true;
QueueSystemWebSvc.QueueSystem q = new QueueSystemWebSvc.QueueSystem();
q.Url = PROJECT_SERVER_URI + QUEUESYSTEM_SERVICE_PATH;
q.UseDefaultCredentials = true;
Guid myUid = resourceSvc.GetCurrentUserUid();
Guid tsUid;
#endregion
#region Read Timesheet
// Time periods must be created by the admin to use timesheets.
// We are just reading the first open period here.
AdminWebSvc.TimePeriodDataSet timeperiodDs = adminSvc.ReadPeriods(AdminWebSvc.PeriodState.Open);
Guid periodUid = timeperiodDs.TimePeriods[0].WPRD_UID;
// If timesheet already exists, read it.
// (To delete an existing unsubmitted timesheet,
// go to the My Timesheet area of the PWA site.)
timeSheetDs = timeSheetSvc.ReadTimesheetByPeriod(myUid,periodUid,TimeSheetWebSvc.Navigation.Current);
#endregion
#region CreateTimesheet if it doesn't exist, then read it
// If the timesheet does not exist, create it.
if(timeSheetDs.Headers.Count<1)
{
timeSheetDs = new TimeSheetWebSvc.TimesheetDataSet();
TimeSheetWebSvc.TimesheetDataSet.HeadersRow headersRow = timeSheetDs.Headers.NewHeadersRow();
headersRow.RES_UID = myUid;
headersRow.TS_UID = Guid.NewGuid();
headersRow.WPRD_UID = periodUid;
headersRow.TS_CREATOR_RES_UID = myUid;
headersRow.TS_NAME = "Timesheet ";
headersRow.TS_COMMENTS = "Random comment text here";
headersRow.TS_ENTRY_MODE_ENUM = (byte)PSLibrary.TimesheetEnum.EntryMode.Weekly;
timeSheetDs.Headers.AddHeadersRow(headersRow);
// Create the timesheet with the default line types that are specified by the admin.
timeSheetSvc.CreateTimesheet(timeSheetDs, TimeSheetWebSvc.PreloadType.Default);
timeSheetDs = timeSheetSvc.ReadTimesheet(headersRow.TS_UID);
}
CodeSampleUtilities.WriteTablesFormated("Timesheet after create:" ,timeSheetDs.Tables);
tsUid=timeSheetDs.Headers[0].TS_UID;
#endregion
#region Submit timesheet, if the status is OK
if ((timeSheetDs.Headers[0].TS_STATUS_ENUM != (byte)PSLibrary.TimesheetEnum.Status.Approved)
&& timeSheetDs.Headers[0].TS_STATUS_ENUM != (byte)PSLibrary.TimesheetEnum.Status.Submitted
)
{
jobUid = Guid.NewGuid();
timeSheetSvc.QueueSubmitTimesheet(jobUid,tsUid,myUid,"I created this timesheet and submitted it through my handy-dandy program.");
CodeSampleUtilities.WaitForQueue(q, jobUid);
}
timeSheetDs = timeSheetSvc.ReadTimesheet(tsUid);
CodeSampleUtilities.WriteTablesFormated("After submission:", timeSheetDs.Tables);
#endregion
#region Recall the timesheet and delete it
// Recall the timesheet and delete it so that we can run the sample again.
jobUid = Guid.NewGuid();
timeSheetSvc.QueueRecallTimesheet(jobUid,tsUid);
CodeSampleUtilities.WaitForQueue(q, jobUid);
jobUid = Guid.NewGuid();
timeSheetSvc.QueueDeleteTimesheet(jobUid, tsUid);
CodeSampleUtilities.WaitForQueue(q, jobUid);
#endregion
}
#region Exception Handlers
catch (SoapException ex)
{
ExceptionHandlers.HandleSoapException(ex);
}
catch (WebException ex)
{
ExceptionHandlers.HandleWebException(ex);
}
catch (Exception ex)
{
ExceptionHandlers.HandleException(ex);
}
finally
{
ExceptionHandlers.ResetConsole();
}
#endregion
}
class ExceptionHandlers
{
public static void HandleSoapException(SoapException ex)
{
PSLibrary.PSClientError error = new PSLibrary.PSClientError(ex);
PSLibrary.PSErrorInfo[] errors = error.GetAllErrors();
string errMess = "==============================\r\nError: \r\n";
for (int i = 0; i < errors.Length; i++)
{
errMess += "\n" + ex.Message.ToString() + "\r\n";
errMess += "".PadRight(30, '=') + "\r\nPSCLientError Output:\r\n \r\n";
errMess += errors[i].ErrId.ToString() + "\n";
for (int j = 0; j < errors[i].ErrorAttributes.Length; j++)
{
errMess += "\r\n\t" + errors[i].ErrorAttributeNames()[j] + ": "
+ errors[i].ErrorAttributes[j];
}
errMess += "\r\n".PadRight(30, '=');
}
Console.ForegroundColor = ConsoleColor.Red;
Console.WriteLine(errMess);
}
public static void HandleWebException(WebException ex)
{
string errMess = ex.Message.ToString() +
"\n\nLog on, or check the Project Server Queuing Service";
Console.ForegroundColor = ConsoleColor.Red;
Console.WriteLine("Error: " + errMess);
}
public static void HandleException(Exception ex)
{
Console.ForegroundColor = ConsoleColor.Red;
Console.WriteLine("Error: " + ex.Message);
}
public static void ResetConsole()
{
Console.ResetColor();
Console.WriteLine("\r\n\r\nPress any key...");
Console.ReadKey();
}
}
class CodeSampleUtilities
{
// Write all contents of a table collection to the console.
public static void WriteTablesToConsole(System.Data.DataTableCollection theTables)
{
Console.ForegroundColor = ConsoleColor.DarkGreen;
foreach (System.Data.DataTable table in theTables)
{
int[] columnWidths = new int[table.Columns.Count];
int tableWidth = 0;
string dataString;
Console.WriteLine("Table: " + table.TableName);
// Write out the column names and get their spacing.
StringBuilder tableRow = new StringBuilder();
for (int i = 0; i < table.Columns.Count; i++)
{
columnWidths[i] = GetColumnWidth(table.Columns[i]);
tableRow.Append(table.Columns[i].ColumnName.PadRight(columnWidths[i]));
tableWidth += columnWidths[i];
}
// Add a space so that it will not wrap.
tableWidth += 1;
// Make the console as wide as the widest table.
Console.BufferWidth = (Console.BufferWidth > tableWidth ? Console.BufferWidth : tableWidth);
tableRow.Append("\r\n");
Console.Write(tableRow.ToString());
// Write out the data.
foreach (DataRow row in table.Rows)
{
tableRow = new StringBuilder();
for (int i = 0; i < table.Columns.Count; i++)
{
dataString = row[i].ToString();
// Truncate output if it is wider than
// the desired column width.
if (dataString.Length >= columnWidths[i])
{
dataString = dataString.Substring(0, columnWidths[i] - 1);
}
// Add the output to the stringbuilder and pad right to fill
// up to the column width.
tableRow.Append(dataString.PadRight(columnWidths[i]));
}
tableRow.Append("\r\n");
Console.Write(tableRow.ToString());
}
Console.Write("\r\n".PadLeft(tableWidth, '-'));
}
Console.ResetColor();
}
// A helper function for WriteTablesToConsole.
private static int GetColumnWidth(DataColumn column)
{
// Note: Might not handle byte[]data types well.
const int MAX_COL_WIDTH = 40;
int dataWidth = 0;
// Return 12 for numbers, 30 for dates, and string width for strings.
switch (column.DataType.UnderlyingSystemType.ToString())
{
case "System.Boolean":
case "System.Byte":
case "System.Byte[]":
case "System.Char":
case "System.Decimal":
case "System.Double":
case "System.Int16":
case "System.Int32":
case "System.Int64":
case "System.SByte":
case "System.Single":
case "System.UInt16":
case "System.UInt32":
case "System.UInt64":
dataWidth = 12;
break;
case "System.DateTime":
case "System.TimeSpan":
dataWidth = 30;
break;
case "System.Guid":
dataWidth = 37;
break;
case "System.String":
// If it has a maxlength, use it.
if (column.MaxLength > 0)
{
dataWidth = column.MaxLength;
}
else
{
// Otherwise, use the max col width.
dataWidth = MAX_COL_WIDTH;
}
break;
default:
dataWidth = column.ColumnName.Length;
break;
}
// Truncate if over the maxlength.
if (dataWidth > MAX_COL_WIDTH)
{
dataWidth = MAX_COL_WIDTH;
}
// Always be at least as wide as the colum name.
return (column.ColumnName.Length > (dataWidth) ? column.ColumnName.Length + 1 : dataWidth);
}
public static void WriteTablesFormated(string Title, System.Data.DataTableCollection theTables)
{
WriteSeparator();
Console.WriteLine(Title);
CodeSampleUtilities.WriteTablesToConsole(theTables);
}
public static void WriteSeparator()
{
Console.ForegroundColor = ConsoleColor.DarkYellow;
Console.WriteLine("".PadRight(Console.BufferWidth, '='));
Console.ResetColor();
}
// Wait for the job to finish.
// Outputs job status to the console.
static public void WaitForQueue(QueueSystemWebSvc.QueueSystem q, Guid jobId)
{
QueueSystemWebSvc.JobState jobState;
const int QUEUE_WAIT_TIME = 1; // One second
bool jobDone = false;
string xmlError = string.Empty;
int wait = 0;
//Wait for the project to get through the queue.
// Get the estimated wait time in seconds.
wait = q.GetJobWaitTime(jobId);
// Wait for it.
Console.Write("Waiting on queue. Estimate: {0} seconds.\r\n ", wait);
// Wait until it is finished.
do
{
// Get the job state.
jobState = q.GetJobCompletionState(jobId, out xmlError);
if (jobState == QueueSystemWebSvc.JobState.Success)
{
jobDone = true;
}
else
{
if (jobState == QueueSystemWebSvc.JobState.Unknown
|| jobState == QueueSystemWebSvc.JobState.Failed
|| jobState == QueueSystemWebSvc.JobState.FailedNotBlocking
|| jobState == QueueSystemWebSvc.JobState.CorrelationBlocked
|| jobState == QueueSystemWebSvc.JobState.Canceled)
{
// If the job failed, error out.
throw (new ApplicationException("Queue request " + jobState + " for Job ID " + jobId + ".\r\n" + xmlError));
}
else
{
//Console.WriteLine("Job State: " + jobState + " for Job ID: " + jobId);
Console.Write("~");
Thread.Sleep(QUEUE_WAIT_TIME * 1000);
}
}
}
while (!jobDone);
Console.Write("\r\n");
}
}
}
}