Exemple #1
0
        public static void Generate(string computerName, SyncList.SyncList <DprCurrentUsers> result)
        {
            Helpers.AssertNotNull(result, @"result SyncList cannot be null");
            Helpers.AssertString(computerName, @"Computer name cannot be empty");

            switch (GetNetworkUsers(computerName, ref result))
            {
            case Win32.Error.Success:
                break;

            case Win32.Error.ErrorMoreData:
                break;

            case Win32.Error.ErrorAccessDenied:
                GlobalLogging.WriteLine(Logging.LogSeverity.Error, @"DprCurrentUsers - Generate - Access Denied for {0}", computerName);
                result.Add(new DprCurrentUsers(computerName, ConnectionStatuses.AccessDenied));
                //return;
                break;

            default:
                GlobalLogging.WriteLine(Logging.LogSeverity.Error, @"DprCurrentUsers - Generate - Unknown Error for {0}", computerName);
                result.Add(new DprCurrentUsers(computerName, ConnectionStatuses.Error));
                //return;
                break;
            }
            GetLocallyLoggedOnUsers(computerName, result);
            ValidateUniqueness(result);
        }
Exemple #2
0
        public static void Generate(string computerName, SyncList.SyncList <DprComputerInfo> result)
        {
            Helpers.AssertNotNull(result, @"result SyncList cannot be null");
            Helpers.AssertString(computerName, @"Computer name cannot be empty");
            var ci = new DprComputerInfo(computerName)
            {
                LocalSystemDateTime = DateTime.Now
            };

            try {
                WmiHelpers.ForEach(computerName, @"SELECT * FROM Win32_OperatingSystem WHERE Primary=TRUE", obj => {
                    ci.LastBootTime = WmiHelpers.GetNullableDate(obj, @"LastBootUpTime");
                    ci.SystemTime   = WmiHelpers.GetNullableDate(obj, @"LocalDateTime");
                    ci.Version      = WmiHelpers.GetString(obj, @"Caption");
                    ci.Architecture = WmiHelpers.GetString(obj, @"OSArchitecture");
                    ci.InstallDate  = WmiHelpers.GetNullableDate(obj, @"InstallDate");
                    return(true);
                });

                WmiHelpers.ForEach(computerName, @"SELECT * FROM Win32_BIOS", obj => {
                    ci.Manufacturer  = WmiHelpers.GetString(obj, @"Manufacturer");
                    ci.HwReleaseDate = WmiHelpers.GetNullableDate(obj, @"ReleaseDate");
                    ci.SerialNumber  = WmiHelpers.GetString(obj, @"SerialNumber");
                    ci.BiosVersion   = WmiHelpers.GetString(obj, @"SMBIOSBIOSVersion");
                    return(true);
                });

                WmiHelpers.ForEach(computerName, @"SELECT * FROM Win32_ComputerSystem", obj => {
                    ci.Model = WmiHelpers.GetString(obj, @"Model");
                    ci.TotalPhysicalMemory = WmiHelpers.GetUInt(obj, @"TotalPhysicalMemory");
                    return(true);
                });
            } catch (UnauthorizedAccessException uae) {
                GlobalLogging.WriteLine(Logging.LogSeverity.Error, @"Exception - {0} - {1}", uae.TargetSite, uae.Message);
                ci.ConnectionStatus = ConnectionStatuses.AuthorizationError;
            } catch (Exception ex) {
                GlobalLogging.WriteLine(Logging.LogSeverity.Error, @"Exception - {0} - {1}", ex.TargetSite, ex.Message);
                ci.ConnectionStatus = ConnectionStatuses.Error;
            }
            result.Add(ci);
            ValidateUniqueness(result);
        }