private EnvelopeType _export(Session xenSession, string targetPath, string ovfname, string vmUuid) { EnvelopeType ovfEnv; try { auditLog.DebugFormat("Export: {0}, {1}", ovfname, targetPath); #region GET VM Reference XenRef <VM> vmRef = null; try { vmRef = VM.get_by_uuid(xenSession, vmUuid); } catch { log.WarnFormat("VM not found as uuid: {0}, trying as name-label", vmUuid); vmRef = null; } if (vmRef == null) { try { List <XenRef <VM> > vmRefs = VM.get_by_name_label(xenSession, vmUuid); vmRef = vmRefs[0]; traceLog.DebugFormat("{0} VM(s) found by label {1}", vmRefs.Count, vmUuid); if (vmRefs.Count > 1) { log.WarnFormat("Only exporting FIRST VM with name {0}", vmUuid); } } catch { log.ErrorFormat(Messages.ERROR_VM_NOT_FOUND, vmUuid); throw; } } #endregion VM vm = VM.get_record(xenSession, vmRef); if (vm.power_state != vm_power_state.Halted && vm.power_state != vm_power_state.Suspended) { var message = string.Format(Messages.ERROR_VM_NOT_HALTED, vm.Name()); OnUpdate(new XenOvfTranportEventArgs(XenOvfTranportEventType.ExportProgress, "Export", message)); log.Info(message); throw new Exception(message); } #region CREATE ENVELOPE / ADD VIRTUAL SYSTEM ovfEnv = OVF.CreateEnvelope(ovfname); string vsId = OVF.AddVirtualSystem(ovfEnv, vm.name_label); string vhsId = OVF.AddVirtualHardwareSection(ovfEnv, vsId); #endregion #region TRY TO ID OS XenRef <VM_guest_metrics> vmgmRef = VM.get_guest_metrics(xenSession, vmRef); if (!vmgmRef.opaque_ref.ToUpper().Contains("NULL")) { VM_guest_metrics vmgm = VM_guest_metrics.get_record(xenSession, vmgmRef); //VM_metrics vmm = VM_metrics.get_record(xenSession, VM.get_metrics(xenSession, vmRef)); if (vmgm.os_version != null && vmgm.os_version.Count > 0) { foreach (string key in vmgm.os_version.Keys) { if (key.ToLower().Equals("name")) { ushort osid = ValueMaps.OperatingSystem(vmgm.os_version[key]); if (osid == 0xFFFF) { osid = 1; } // change to OTHER since search failed. string version = OVF.GetContentMessage("SECTION_OPERATINGSYSTEM_INFO"); if (vmgm.os_version.ContainsKey("major") && vmgm.os_version.ContainsKey("minor")) { version = string.Format(OVF.GetContentMessage("SECTION_OPERATINGSYSTEM_VERSION"), vmgm.os_version["major"], vmgm.os_version["minor"]); } string osname = (vmgm.os_version[key].Split(new [] { '|' }))[0]; OVF.UpdateOperatingSystemSection(ovfEnv, vsId, osname, version, osid); break; } } } } #endregion #region ADD VSSD // IS PV'd? for VirtualSystemType identification. string typeformat = @"{0}-{1}-{2}"; string vmtype = string.Format(typeformat, "hvm", "3.0", "unknown"); if (vm.HVM_boot_policy != null && vm.HVM_boot_policy == Properties.Settings.Default.xenBootOptions) { if (!string.IsNullOrEmpty(vm.domarch)) { vmtype = string.Format(typeformat, vm.domarch, "3.0", "unknown"); } } else { if (!string.IsNullOrEmpty(vm.domarch)) { vmtype = string.Format(typeformat, "xen", "3.0", vm.domarch); } else { vmtype = string.Format(typeformat, "xen", "3.0", "unknown"); } } OVF.AddVirtualSystemSettingData(ovfEnv, vsId, vhsId, vm.name_label, OVF.GetContentMessage("VSSD_CAPTION"), vm.name_description, Guid.NewGuid().ToString(), vmtype); #endregion #region ADD CPUS OVF.SetCPUs(ovfEnv, vsId, (ulong)vm.VCPUs_max); #endregion #region ADD MEMORY OVF.SetMemory(ovfEnv, vsId, (ulong)(vm.memory_dynamic_max / MB), "MB"); #endregion #region ADD NETWORKS List <XenRef <VIF> > vifs = VM.get_VIFs(xenSession, vmRef); foreach (XenRef <VIF> vifref in vifs) { VIF vif = VIF.get_record(xenSession, vifref); XenRef <Network> netRef = vif.network; Network net = Network.get_record(xenSession, netRef); // Why is the following call reference using name_label where other references use uuid? OVF.AddNetwork(ovfEnv, vsId, net.uuid, net.name_label, net.name_description, vif.MAC); } #endregion #region SET STARTUP OPTIONS OVF.AddStartupSection(ovfEnv, true, vsId, vm.order, vm.start_delay, vm.shutdown_delay); #endregion #region GET AND EXPORT DISKS using iSCSI List <XenRef <VBD> > vbdlist = VM.get_VBDs(xenSession, vmRef); _vdiRefs.Clear(); int diskIndex = 0; foreach (XenRef <VBD> vbdref in vbdlist) { VBD vbd = VBD.get_record(xenSession, vbdref); if (vbd.type == vbd_type.CD) { string rasdid = OVF.AddCDROM(ovfEnv, vsId, vbd.uuid, OVF.GetContentMessage("RASD_16_CAPTION"), OVF.GetContentMessage("RASD_16_DESCRIPTION")); OVF.SetTargetDeviceInRASD(ovfEnv, vsId, rasdid, vbd.userdevice); } else { try { XenRef <VDI> vdi = VBD.get_VDI(xenSession, vbdref); if (vdi != null && !string.IsNullOrEmpty(vdi.opaque_ref) && !(vdi.opaque_ref.ToLower().Contains("null"))) { _vdiRefs.Add(vdi); VDI lVdi = VDI.get_record(xenSession, vdi); string destinationFilename = Path.Combine(targetPath, string.Format(@"{0}.vhd", lVdi.uuid)); string diskid = Guid.NewGuid().ToString(); string diskName = lVdi.name_label; if (diskName == null) { diskName = string.Format("{0} {1}", OVF.GetContentMessage("RASD_19_CAPTION"), diskIndex); } OVF.AddDisk(ovfEnv, vsId, diskid, Path.GetFileName(destinationFilename), vbd.bootable, diskName, lVdi.name_description, (ulong)lVdi.physical_utilisation, (ulong)lVdi.virtual_size); OVF.SetTargetDeviceInRASD(ovfEnv, vsId, diskid, vbd.userdevice); diskIndex++; } } catch (Exception ex) { log.InfoFormat("Export: VBD Skipped: {0}: {1}", vbdref, ex.Message); } } } #endregion if (!MetaDataOnly) { _copydisks(ovfEnv, ovfname, targetPath); } #region ADD XEN SPECIFICS if (vm.HVM_boot_params != null) { Dictionary <string, string> _params = vm.HVM_boot_params; foreach (string key in _params.Keys) { if (key.ToLower().Equals("order")) { OVF.AddOtherSystemSettingData(ovfEnv, vsId, "HVM_boot_params", _params[key], OVF.GetContentMessage("OTHER_SYSTEM_SETTING_DESCRIPTION_1")); } } } if (!string.IsNullOrEmpty(vm.HVM_boot_policy)) { OVF.AddOtherSystemSettingData(ovfEnv, vsId, "HVM_boot_policy", vm.HVM_boot_policy, OVF.GetContentMessage("OTHER_SYSTEM_SETTING_DESCRIPTION_2")); } if (vm.HVM_shadow_multiplier != 1.0) { OVF.AddOtherSystemSettingData(ovfEnv, vsId, "HVM_shadow_multiplier", Convert.ToString(vm.HVM_shadow_multiplier), OVF.GetContentMessage("OTHER_SYSTEM_SETTING_DESCRIPTION_1")); } if (vm.platform != null) { Dictionary <string, string> platform = vm.platform; StringBuilder sb = new StringBuilder(); foreach (string key in platform.Keys) { sb.AppendFormat(@"{0}={1};", key, platform[key]); } OVF.AddOtherSystemSettingData(ovfEnv, vsId, "platform", sb.ToString(), OVF.GetContentMessage("OTHER_SYSTEM_SETTING_DESCRIPTION_3")); } if (!string.IsNullOrEmpty(vm.PV_args)) { OVF.AddOtherSystemSettingData(ovfEnv, vsId, "PV_args", vm.PV_args, OVF.GetContentMessage("OTHER_SYSTEM_SETTING_DESCRIPTION_1")); } if (!string.IsNullOrEmpty(vm.PV_bootloader)) { OVF.AddOtherSystemSettingData(ovfEnv, vsId, "PV_bootloader", vm.PV_bootloader, OVF.GetContentMessage("OTHER_SYSTEM_SETTING_DESCRIPTION_1")); } if (!string.IsNullOrEmpty(vm.PV_bootloader_args)) { OVF.AddOtherSystemSettingData(ovfEnv, vsId, "PV_bootloader_args", vm.PV_bootloader_args, OVF.GetContentMessage("OTHER_SYSTEM_SETTING_DESCRIPTION_1")); } if (!string.IsNullOrEmpty(vm.PV_kernel)) { OVF.AddOtherSystemSettingData(ovfEnv, vsId, "PV_kernel", vm.PV_kernel, OVF.GetContentMessage("OTHER_SYSTEM_SETTING_DESCRIPTION_1")); } if (!string.IsNullOrEmpty(vm.PV_legacy_args)) { OVF.AddOtherSystemSettingData(ovfEnv, vsId, "PV_legacy_args", vm.PV_legacy_args, OVF.GetContentMessage("OTHER_SYSTEM_SETTING_DESCRIPTION_1")); } if (!string.IsNullOrEmpty(vm.PV_ramdisk)) { OVF.AddOtherSystemSettingData(ovfEnv, vsId, "PV_ramdisk", vm.PV_ramdisk, OVF.GetContentMessage("OTHER_SYSTEM_SETTING_DESCRIPTION_1")); } if (vm.hardware_platform_version >= 0) { OVF.AddOtherSystemSettingData(ovfEnv, vsId, "hardware_platform_version", vm.hardware_platform_version.ToString(), OVF.GetContentMessage("OTHER_SYSTEM_SETTING_DESCRIPTION_1")); } if (vm.HasSriovRecommendation()) { OVF.AddOtherSystemSettingData(ovfEnv, vsId, "allow_network_sriov", bool.TrueString.ToLowerInvariant(), OVF.GetContentMessage("OTHER_SYSTEM_SETTING_DESCRIPTION_1")); } if (vm.has_vendor_device) { //serialise it with a different name to avoid it being deserialised automatically and getting the wrong type OVF.AddOtherSystemSettingData(ovfEnv, vsId, "VM_has_vendor_device", vm.has_vendor_device.ToString(), OVF.GetContentMessage("OTHER_SYSTEM_SETTING_DESCRIPTION_1")); } if (vm.VGPUs.Count != 0) { VGPU vgpu = VGPU.get_record(xenSession, vm.VGPUs[0]); if (vgpu != null) { var vgpuGroup = GPU_group.get_record(xenSession, vgpu.GPU_group); var vgpuType = VGPU_type.get_record(xenSession, vgpu.type); var sb = new StringBuilder(); sb.AppendFormat("GPU_types={{{0}}};", vgpuGroup.GPU_types == null || vgpuGroup.GPU_types.Length < 1 ? "" : string.Join(";", vgpuGroup.GPU_types)); sb.AppendFormat("VGPU_type_vendor_name={0};", vgpuType.vendor_name ?? ""); sb.AppendFormat("VGPU_type_model_name={0};", vgpuType.model_name ?? ""); OVF.AddOtherSystemSettingData(ovfEnv, vsId, "vgpu", sb.ToString(), OVF.GetContentMessage("OTHER_SYSTEM_SETTING_DESCRIPTION_4")); } } string pvsSiteUuid = string.Empty; var allProxies = xenSession.Connection.Cache.PVS_proxies; foreach (var p in allProxies.Where(p => p != null && p.VIF != null)) { var vif = xenSession.Connection.Resolve(p.VIF); if (vif != null) { var vmFromVif = xenSession.Connection.Resolve(vif.VM); if (vmFromVif != null && vmFromVif.uuid == vm.uuid) { var pvsSite = xenSession.Connection.Resolve(p.site); if (pvsSite != null) { pvsSiteUuid = pvsSite.uuid; } break; } } } if (!string.IsNullOrEmpty(pvsSiteUuid)) { var sb = new StringBuilder(); sb.AppendFormat("PVS_SITE={{{0}}};", string.Format("uuid={0}", pvsSiteUuid)); OVF.AddOtherSystemSettingData(ovfEnv, vsId, "pvssite", sb.ToString(), OVF.GetContentMessage("OTHER_SYSTEM_SETTING_DESCRIPTION_5")); } #endregion OVF.FinalizeEnvelope(ovfEnv); } catch (Exception ex) { if (ex is OperationCanceledException) { throw; } log.Error(Messages.ERROR_EXPORT_FAILED); throw new Exception(Messages.ERROR_EXPORT_FAILED, ex); } return(ovfEnv); }
protected override void TestCore() { // Choose a linux VM at random which is not a template or control domain and which is currently switched off. var vmRecords = VM.get_all_records(_session); var vmRef = (from KeyValuePair <XenRef <VM>, VM> kvp in vmRecords let theVm = kvp.Value where !theVm.is_a_template && !theVm.is_control_domain && !theVm.name_label.ToLower().Contains("windows") && theVm.power_state == vm_power_state.Halted select kvp.Key).FirstOrDefault(); if (vmRef == null) { var msg = "Cannot find a halted linux VM. Please create one."; _logger.Log(msg); throw new Exception(msg); } //to avoid playing with existing data, clone the VM and powercycle its clone VM vm = VM.get_record(_session, vmRef); _logger.Log("Cloning VM '{0}'...", vm.name_label); string cloneVmRef = VM.clone(_session, vmRef, string.Format("Cloned VM (from '{0}')", vm.name_label)); _logger.Log("Cloned VM; new VM's ref is {0}", cloneVmRef); VM.set_name_description(_session, cloneVmRef, "Another cloned VM"); VM cloneVm = VM.get_record(_session, cloneVmRef); _logger.Log("Clone VM's Name: {0}, Description: {1}, Power State: {2}", cloneVm.name_label, cloneVm.name_description, cloneVm.power_state); _logger.Log("Starting VM in paused state..."); VM.start(_session, cloneVmRef, true, true); _logger.Log("VM Power State: {0}", VM.get_power_state(_session, cloneVmRef)); _logger.Log("Unpausing VM..."); VM.unpause(_session, cloneVmRef); _logger.Log("VM Power State: {0}", VM.get_power_state(_session, cloneVmRef)); // here we need to delay for a bit until the suspend feauture is written // in the guest metrics; this check should be enough for most guests; // let's try a certain number of times with sleeps of a few seconds inbetween int max = 20; int delay = 10; for (int i = 0; i < max; i++) { cloneVm = VM.get_record(_session, cloneVmRef); var metrics = VM_guest_metrics.get_record(_session, cloneVm.guest_metrics); if (metrics.other.ContainsKey("feature-suspend") && metrics.other["feature-suspend"] == "1") { break; } _logger.Log("Checked for feature-suspend count {0} out of {1}; will re-try in {2}sec.", i + 1, max, delay); Thread.Sleep(delay * 1000); } _logger.Log("Suspending VM..."); VM.suspend(_session, cloneVmRef); _logger.Log("VM Power State: {0}", VM.get_power_state(_session, cloneVmRef)); _logger.Log("Resuming VM..."); VM.resume(_session, cloneVmRef, false, true); _logger.Log("VM Power State: {0}", VM.get_power_state(_session, cloneVmRef)); _logger.Log("Forcing shutdown VM..."); VM.hard_shutdown(_session, cloneVmRef); _logger.Log("VM Power State: {0}", VM.get_power_state(_session, cloneVmRef)); cloneVm = VM.get_record(_session, cloneVmRef); var vdis = (from vbd in cloneVm.VBDs let vdi = VBD.get_VDI(_session, vbd) where vdi.opaque_ref != "OpaqueRef:NULL" select vdi).ToList(); _logger.Log("Destroying VM..."); VM.destroy(_session, cloneVmRef); _logger.Log("Destroying VM's disks..."); foreach (var vdi in vdis) { VDI.destroy(_session, vdi); } _logger.Log("VM destroyed."); }
public int GetVMIP(string ServerIP, string username, string password, string VMNameLabel, int Timer) { Logger NewLogObj = new Logger(); string LogFilePath = NewLogObj.GetLogFilePath(); FileOperations FileObj = new FileOperations(); string hostname = ServerIP; int port = 80; // default int ExceptionHandlingnotReqdFlag = 0; try { Session session = new Session(hostname, port); session.login_with_password(username, password, API_Version.API_1_3); //MessageBox.Show("Conection Successfully Estabilished to the XenServer: " +Connection_XS_IP +""); List <XenRef <VM> > vmRefs = VM.get_all(session); StartSearch: foreach (XenRef <VM> vmRef in vmRefs) { //http://forums.citrix.com/thread.jspa?threadID=244784 VM vm = VM.get_record(session, vmRef); if (!vm.is_a_template && !vm.is_control_domain && !vm.is_a_snapshot && !vm.is_snapshot_from_vmpp) { //System.Console.Write("\nVM Name: {0} -> IP Address: ", vm.name_label); if (string.Compare(vm.name_label, VMNameLabel) == 0) { try { NewLogObj.WriteLogFile(LogFilePath, VMNameLabel + " found. Fetching records", "info"); bool dict_key = true; int WaitTimeout = 2400000; //40 mins //Wait till VM starts running while (!(string.Compare(vm.power_state.ToString(), "Running") == 0) && Timer < WaitTimeout) { System.Console.WriteLine("Waiting for VM " + VMNameLabel + " to poweron"); Thread.Sleep(1000); Timer = Timer + 1000; goto StartSearch; } if (!(string.Compare(vm.power_state.ToString(), "Running") == 0) && Timer >= WaitTimeout) { System.Console.WriteLine("Timeout waiting for VM " + VMNameLabel + " to poweron."); NewLogObj.WriteLogFile(LogFilePath, "Timeout waiting for VM " + VMNameLabel + " to poweron.", "fail"); return(-1); } while (dict_key == true && Timer < WaitTimeout) { try { int IPFound = 0; XenRef <VM_guest_metrics> gmsref = vm.guest_metrics; VM_guest_metrics gms = VM_guest_metrics.get_record(session, gmsref); Dictionary <String, String> dict = null; dict = gms.networks; String vmIP = null; foreach (String keyStr in dict.Keys) { dict_key = false; vmIP = (String)(dict[keyStr]); //excluding IPv6 address which contains the character : if (!vmIP.Contains(':')) { if (!vmIP.StartsWith("169")) { System.Console.WriteLine(vmIP); NewLogObj.WriteLogFile(LogFilePath, "IP address obtained for VM " + VMNameLabel + " is " + vmIP, "info"); IPFound = 1; return(1); } } } //for each keyStr if (dict_key == false || IPFound == 0) { System.Console.WriteLine("No valid IP addressfound for " + VMNameLabel); NewLogObj.WriteLogFile(LogFilePath, "No valid IP addressfound for " + VMNameLabel, "fail"); ExceptionHandlingnotReqdFlag = 1; return(-1); } } catch (Exception e) { //To avoid reduntant calls to function if (ExceptionHandlingnotReqdFlag == 1) { return(-1); } else { //System.Console.WriteLine(e.ToString() + " Waiting .."); System.Console.WriteLine(" Waiting for VM " + VMNameLabel + "to aquire IP address.."); Thread.Sleep(1000); Timer = Timer + 1000; goto StartSearch; //GetVMIP(ServerIP, username, password, VMNameLabel, Timer); } } } if (dict_key == true && Timer > WaitTimeout) { NewLogObj.WriteLogFile(LogFilePath, "Timeout waiting for the VM " + VMNameLabel + " to obtain IP address", "fail"); FileObj.ExitTestEnvironment(); return(-1); } } //try loop catch (Exception e) { System.Console.WriteLine(e.ToString()); return(-1); } } } //check and allow only VMs there by excluding templates/controldomain/snapshots/etc... } //For each... } // try to connect XenServer host. catch (Exception e1) { string exceptionText = "Server \"" + hostname + "\" cannot be contacted." + "\n\nError: " + e1.ToString(); System.Console.WriteLine(exceptionText); } //System.Console.WriteLine("Press a key to continue..."); //System.Console.ReadLine(); return(-1); }
public Object vmcollect(Session session, List <XenRef <VM> > vmRefs) { ArrayList vmc = new ArrayList(); string mydocs = Environment.GetFolderPath(Environment.SpecialFolder.MyDocuments); int vme = 1; string log; string entry; try { int vmcount = 0; foreach (XenRef <VM> vmRef in vmRefs) { VM vm = VM.get_record(session, vmRef); string tempdecr = vm.name_description; //do not list templates or controller domain if (!vm.is_a_template && !vm.is_control_domain) { vmcount = vmcount + 1; vmc.Add("Virtual Machine Name:"); try { vmc.Add(Convert.ToString(vm.name_label)); } catch { vmc.Add("Data not available"); log = mydocs + "\\Halfmode\\HalfmodeConnection.log"; entry = DateTime.Now.ToString("HH:mm:ss") + " VM Collection Error " + vme; writelog.entry(log, entry); vme++; } vmc.Add("Decription:"); try { vmc.Add(Convert.ToString(vm.name_description)); } catch { vmc.Add("Data not available"); log = mydocs + "\\Halfmode\\HalfmodeConnection.log"; entry = DateTime.Now.ToString("HH:mm:ss") + " VM Collection Error " + vme; writelog.entry(log, entry); vme++; } vmc.Add("VM Power State:"); try { vmc.Add(Convert.ToString(vm.power_state)); } catch { vmc.Add("Data not available"); log = mydocs + "\\Halfmode\\HalfmodeConnection.log"; entry = DateTime.Now.ToString("HH:mm:ss") + " VM Collection Error " + vme; writelog.entry(log, entry); vme++; } vmc.Add("Amount of VCPUs:"); try { vmc.Add("Not displayed in demo version"); } catch { vmc.Add("Data not available"); log = mydocs + "\\Halfmode\\HalfmodeConnection.log"; entry = DateTime.Now.ToString("HH:mm:ss") + " VM Collection Error " + vme; writelog.entry(log, entry); vme++; } vmc.Add("Max Amount of Memory:"); try { long maxmem = vm.memory_static_max; maxmem = maxmem / 1048576; vmc.Add("Not displayed in demo version"); } catch { vmc.Add("Data not available"); log = mydocs + "\\Halfmode\\HalfmodeConnection.log"; entry = DateTime.Now.ToString("HH:mm:ss") + " VM Collection Error " + vme; writelog.entry(log, entry); vme++; } vmc.Add("Min Amount of Memory:"); try { long minmem = vm.memory_static_min; minmem = minmem / 1048576; vmc.Add(Convert.ToString(minmem)); } catch { vmc.Add("Data not available"); log = mydocs + "\\Halfmode\\HalfmodeConnection.log"; entry = DateTime.Now.ToString("HH:mm:ss") + " VM Collection Error " + vme; writelog.entry(log, entry); vme++; } VM_metrics ms = VM_metrics.get_record(session, vm.metrics); vmc.Add("Date of install:"); try { vmc.Add(Convert.ToString(ms.install_time)); } catch { vmc.Add("Data not available"); log = mydocs + "\\Halfmode\\HalfmodeConnection.log"; entry = DateTime.Now.ToString("HH:mm:ss") + " VM Collection Error " + vme; writelog.entry(log, entry); vme++; } vmc.Add("Startup time:"); try { vmc.Add(Convert.ToString(ms.start_time)); } catch { vmc.Add("Data not available"); log = mydocs + "\\Halfmode\\HalfmodeConnection.log"; entry = DateTime.Now.ToString("HH:mm:ss") + " VM Collection Error " + vme; writelog.entry(log, entry); vme++; } vmc.Add("Time of last shutdown:"); try { vmc.Add(Convert.ToString(vm.other_config["last_shutdown_time"])); } catch { vmc.Add("Never Shutdown"); } vmc.Add("Reason for Shutdown:"); try { vmc.Add(vm.other_config["last_shutdown_reason"]); } catch { vmc.Add("Never Shutdown"); } vmc.Add("UUID"); try { vmc.Add(vm.uuid); } catch { vmc.Add("Data not available"); log = mydocs + "\\Halfmode\\HalfmodeConnection.log"; entry = DateTime.Now.ToString("HH:mm:ss") + " VM Collection Error " + vme; writelog.entry(log, entry); vme++; } if (vm.guest_metrics.ServerOpaqueRef == "OpaqueRef:NULL") { } else { VM_guest_metrics xms = VM_guest_metrics.get_record(session, vm.guest_metrics); vmc.Add("OS version and System disk: "); try { vmc.Add("Not displayed in demo version"); } catch { vmc.Add("Data not available"); log = mydocs + "\\Halfmode\\HalfmodeConnection.log"; entry = DateTime.Now.ToString("HH:mm:ss") + " VM Collection Error " + vme; writelog.entry(log, entry); vme++; } } VM vmRecord = VM.get_record(session, vmRef); if (vmRecord.guest_metrics == "OpaqueRef:NULL") { } else { XenRef <VM_guest_metrics> gmsref = vmRecord.guest_metrics; VM_guest_metrics gms = VM_guest_metrics.get_record(session, gmsref); Dictionary <String, String> dict = null; dict = gms.networks; String vmIP = null; if (dict.Count >= 1) { vmc.Add("Number of Xentools Visible VIFs:"); try { vmc.Add(Convert.ToString(dict.Count)); } catch { vmc.Add("Data not available"); log = mydocs + "\\Halfmode\\HalfmodeConnection.log"; entry = DateTime.Now.ToString("HH:mm:ss") + " VM Collection Error " + vme; writelog.entry(log, entry); vme++; } foreach (String keyStr in dict.Keys) { vmc.Add("IP Address:"); try { vmIP = (String)(dict[keyStr]); vmc.Add("Not displayed in demo version"); } catch { vmc.Add("Data not available"); log = mydocs + "\\Halfmode\\HalfmodeConnection.log"; entry = DateTime.Now.ToString("HH:mm:ss") + " VM Collection Error " + vme; writelog.entry(log, entry); vme++; } } } } } vme = 1; } log = mydocs + "\\Halfmode\\HalfmodeConnection.log"; entry = DateTime.Now.ToString("HH:mm:ss") + " VM Collection Finished "; writelog.entry(log, entry); } catch { log = mydocs + "\\Halfmode\\HalfmodeConnection.log"; entry = DateTime.Now.ToString("HH:mm:ss") + " VM Collection Failed "; writelog.entry(log, entry); } if ((vmc.Count & 2) == 0) { } else { vmc.Add(" "); } return(vmc); }