Example #1
0
        private void TransformXvaOvf_VM(EnvelopeType env, string vsId, string lang, XenStruct vmstruct)
        {
            int PVvalue = 0;
            foreach (XenMember n in vmstruct.xenmember)
            {
                //
                // Currently these are the only values we care about.
                //
                if (n.xenname.ToLower().Equals("uuid"))
                {
                    UpdateVirtualSystemSettingData(env, vsId, "VirtualSystemIdentifier", (string)n.xenvalue);
                }
                if (n.xenname.ToLower().Equals("name_label"))
                {
                    if (n.xenvalue != null && n.xenvalue is string && ((string)n.xenvalue).Length > 0)
                    {
                        UpdateVirtualSystemName(env, vsId, lang, (string)n.xenvalue);
                        UpdateVirtualSystemSettingData(env, vsId, "ElementName", (string)n.xenvalue);
                        UpdateVirtualSystemSettingData(env, vsId, "Caption", _ovfrm.GetString("CONVERT_APP_NAME"));
                    }
                }
                else if (n.xenname.ToLower().Equals("memory_static_max"))
                {
                    if (n.xenvalue != null && n.xenvalue is string && ((string)n.xenvalue).Length > 0)
                    {
                        UInt64 memory = Convert.ToUInt64(n.xenvalue) / MB;
                        SetMemory(env, vsId, memory, "MB");
                    }
                }
                else if (n.xenname.ToLower().Equals("vcpus_max"))
                {
                    if (n.xenvalue != null && n.xenvalue is string && ((string)n.xenvalue).Length > 0)
                    {
                        UInt64 cpus = Convert.ToUInt64(n.xenvalue);
                        SetCPUs(env, vsId, cpus);
                    }
                }
                else if (
                         n.xenname.ToLower().Equals("pv_bootloader") ||
                         n.xenname.ToLower().Equals("pv_kernel") ||
                         n.xenname.ToLower().Equals("pv_ramdisk") ||
                         n.xenname.ToLower().Equals("pv_args") ||
                         n.xenname.ToLower().Equals("pv_bootloader_args") ||
                         n.xenname.ToLower().Equals("pv_legacy_args") ||
                         n.xenname.ToLower().Equals("hvm_boot_policy") ||
                         n.xenname.ToLower().Equals("hvm_shadow_multiplier")
                        )
                {
                    if (n.xenvalue != null && n.xenvalue is string && ((string)n.xenvalue).Length > 0)
                    {
                        if (n.xenname.ToLower().StartsWith("pv"))
                        {
                            PVvalue++;
                        }
                        if (n.xenname.ToLower().StartsWith("hvm_boot"))
                        {
                            PVvalue--;
                        }
                        AddOtherSystemSettingData(env, vsId, lang, n.xenname, (string)n.xenvalue, _ovfrm.GetString("XENSERVER_SPECIFIC_DESCRIPTION"));
                    }
                }
                else if (n.xenname.ToLower().Equals("hvm_boot_params"))
                {

                    if (n.xenvalue != null && n.xenvalue is XenStruct && ((XenStruct)n.xenvalue).xenmember != null)
                    {
                        string bootorder = "dc";
                        foreach (XenMember xm in ((XenStruct)n.xenvalue).xenmember)
                        {
                            PVvalue--;
                            if (xm.xenname.ToLower().Equals("order"))
                            {
                                if (xm.xenvalue != null && xm.xenvalue is string && ((string)xm.xenvalue).Length > 0)
                                {
                                    bootorder = (string)xm.xenvalue;
                                }
                            }
                        }
                        AddOtherSystemSettingData(env, vsId, lang, n.xenname, bootorder, _ovfrm.GetString("XENSERVER_SPECIFIC_DESCRIPTION"));
                    }
                }
                else if (n.xenname.ToLower().Equals("platform"))
                {
                    if (n.xenvalue != null && n.xenvalue is XenStruct && ((XenStruct)n.xenvalue).xenmember != null)
                    {
                        StringBuilder p = new StringBuilder();
                        foreach (XenMember xm in ((XenStruct)n.xenvalue).xenmember)
                        {
                            if (xm.xenvalue != null && xm.xenvalue is string && ((string)xm.xenvalue).Length > 0)
                            {
                                p.AppendFormat("{0}={1}; ", xm.xenname, (string)xm.xenvalue);
                            }
                        }
                        AddOtherSystemSettingData(env, vsId, lang, n.xenname, p.ToString().Trim(), _ovfrm.GetString("XENSERVER_PLATFORM_DESCRIPTION"));
                    }
                }
                else if (n.xenname.ToLower().Equals("other_config"))
                {
                    // Ignored, why you say? Because I haven't found one that is 'required' to reproduce the vm, yet.
                }
                else if (n.xenname.ToLower().Equals("domarch"))
                {
                    // Can't depend on a value here but we need to set it to work correctly.
                    if (n.xenvalue != null && n.xenvalue is string && ((string)n.xenvalue).Length > 0)
                    {
                        string svalue = (string)n.xenvalue;

                        if (svalue.Equals("hvm"))
                        {
                            PVvalue = -10;
                        }
                    }

                    if (PVvalue < 0)
                    {
                        UpdateVirtualSystemSettingData(env, vsId, "VirtualSystemType", "hvm-3.0-unknown");
                    }
                    else
                    {
                        UpdateVirtualSystemSettingData(env, vsId, "VirtualSystemType", "xen-3.0-unknown");
                    }
                }
            }
            log.DebugFormat("OVF.TransformXvaOvf_VM completed {0}", vsId);
        }
Example #2
0
        private void TransformXvaOvf_VIF(EnvelopeType env, string vsId, string lang, XenStruct vmstruct)
        {
            string vifuuid = null;
            string mac = null;

            foreach (XenMember n in vmstruct.xenmember)
            {
                //
                // Currently these are the only values we care about.
                //
                if (n.xenname.ToLower().Equals("uuid") &&
                    n.xenvalue != null &&
                    n.xenvalue is string &&
                    ((string)n.xenvalue).Length > 0)
                {
                    vifuuid = (string)n.xenvalue;
                    if (vifuuid.ToLower().Contains("null"))
                    {
                        vifuuid = null;
                    }
                }
                else if (n.xenname.ToLower().Equals("network") &&
                         n.xenvalue != null &&
                         n.xenvalue is string &&
                         ((string)n.xenvalue).Length > 0)
                {
                    string netref = ((string)n.xenvalue);
                    if (!netref.ToLower().Contains("null"))
                    {
                        if (!mappings.ContainsKey(netref))
                        {
                            mappings.Add(netref, vifuuid);
                        }
                    }
                }
                else if (n.xenname.ToLower().Equals("mac") &&
                         n.xenvalue != null &&
                         n.xenvalue is string &&
                         ((string)n.xenvalue).Length > 0)
                {
                    mac = ((string)n.xenvalue);
                }
            }
            AddNetwork(env, vsId, lang, vifuuid, null, mac);
            log.DebugFormat("OVF.TransformXvaOvf_VIF completed {0}", vsId);
        }
Example #3
0
 private void TransformXvaOvf_VDI(EnvelopeType env, string vsId, string lang, string refId, DiskInfo di, XenStruct vmstruct)
 {
     string instanceId = null;
     if (mappings.ContainsKey(refId))
     {
         instanceId = string.Format(@"Xen:{0}/{1}", vsId, mappings[refId]);
     }
     else
     {
         instanceId = string.Format(@"Xen:{0}/{1}", vsId, Guid.NewGuid().ToString());
     }
     string description = null;
     string vhdfilename = di.VhdFileName;
     ulong filesize = 0;
     ulong capacity = 0;
     ulong freespace = 0;
     foreach (XenMember n in vmstruct.xenmember)
     {
         if (n.xenname.ToLower().Equals("virtual_size"))
         {
             capacity = Convert.ToUInt64(n.xenvalue);
         }
         else if (n.xenname.ToLower().Equals("physical_utilisation"))
         {
             filesize = Convert.ToUInt64(n.xenvalue);
         }
     }
     freespace = capacity - filesize;
     UpdateDisk(env, vsId, instanceId, description, vhdfilename, filesize, capacity, freespace);
     log.DebugFormat("OVF.TransformXvaOvf_VDI completed {0}", vsId);
 }
Example #4
0
        private void TransformXvaOvf_VBD(EnvelopeType env, string vsId, string lang, XenStruct vmstruct)
        {
            string diskId = null;
            string vhdfilename = "";
            bool bootable = false;
            string caption = null;
            string description = null;
            ulong filesize = 0;
            ulong capacity = 0;
            string vdiuuid = null;

            bool isDisk = false;

            StringBuilder connection = new StringBuilder();
            foreach (XenMember n in vmstruct.xenmember)
            {
                //
                // Currently these are the only values we care about.
                //
                if (n.xenname.ToLower().Equals("uuid") &&
                    n.xenvalue != null &&
                    n.xenvalue is string &&
                    ((string)n.xenvalue).Length > 0)
                {
                    vdiuuid = (string)n.xenvalue;
                    if (!vdiuuid.ToLower().Contains("null"))
                    {
                        diskId = string.Format(@"Xen:{0}/{1}", vsId, vdiuuid);
                    }
                    else
                    {
                        vdiuuid = null;
                    }
                }
                else if (n.xenname.ToLower().Equals("vdi") &&
                         n.xenvalue != null &&
                         n.xenvalue is string &&
                         ((string)n.xenvalue).Length > 0)
                {
                    string vdiref = ((string)n.xenvalue);
                    if (!vdiref.ToLower().Contains("null"))
                    {
                        if (!mappings.ContainsKey(vdiref))
                        {
                            mappings.Add(vdiref, vdiuuid);
                        }
                    }
                }
                else if (n.xenname.ToLower().Equals("userdevice") &&
                         n.xenvalue != null &&
                         n.xenvalue is string &&
                         ((string)n.xenvalue).Length > 0)
                {
                    connection.AppendFormat("device={0},", ((string)n.xenvalue));
                }
                else if (n.xenname.ToLower().Equals("bootable") &&
                         n.xenvalue != null &&
                         n.xenvalue is string &&
                         ((string)n.xenvalue).Length > 0)
                {
                    connection.AppendFormat("bootable={0},", ((string)n.xenvalue));
                    bootable = Convert.ToBoolean(((string)n.xenvalue));
                }
                else if (n.xenname.ToLower().Equals("mode") &&
                         n.xenvalue != null &&
                         n.xenvalue is string &&
                         ((string)n.xenvalue).Length > 0)
                {
                    connection.AppendFormat("mode={0},", ((string)n.xenvalue));
                }
                else if (n.xenname.ToLower().Equals("type") &&
                         n.xenvalue != null &&
                         n.xenvalue is string &&
                         ((string)n.xenvalue).Length > 0)
                {
                    switch (((string)n.xenvalue).ToUpper())
                    {
                        case "CD":
                            {
                                isDisk = false;
                                caption = _ovfrm.GetString("RASD_16_CAPTION");
                                description = _ovfrm.GetString("RASD_16_DESCRIPTION");
                                break;
                            }
                        case "DISK":
                            {
                                caption = _ovfrm.GetString("RASD_19_CAPTION");
                                description = _ovfrm.GetString("RASD_19_DESCRIPTION");
                                isDisk = true;
                                break;
                            }
                    }
                }
            }
            if (vdiuuid != null)
                connection.AppendFormat("vdi={0}", vdiuuid);

            if (isDisk)
            {
                AddDisk(env, vsId, diskId, lang, vhdfilename, bootable, caption, description, filesize, capacity);
                UpdateResourceAllocationSettingData(env, vsId, diskId, "Connection", connection.ToString());
            }
            else
            {
                AddCDROM(env, vsId, diskId, caption, description);
            }
            log.DebugFormat("OVF.TransformXvaOvf_VBD completed {0}", vsId);
        }
Example #5
0
 private void TransformXvaOvf_SR(EnvelopeType env, string vsId, string lang, XenStruct vmstruct)
 {
     //
     // Currently this is data for the Environment not necessarily part of the VM
     // even if the VM is in this SR it may not exist in the target server therefore
     // it is not required in the OVF.
     //
     log.DebugFormat("OVF.TransformXvaOvf_SR completed {0}", vsId);
 }
Example #6
0
        private void TransformXvaOvf_Network(EnvelopeType env, string vsId, string lang, string refId, XenStruct vmstruct)
        {
            string networkName = null;

            foreach (XenMember n in vmstruct.xenmember)
            {
                //
                // Currently these are the only values we care about.
                //
                if (n.xenname.ToLower().Equals("name_label") &&
                         n.xenvalue != null &&
                         n.xenvalue is string &&
                         ((string)n.xenvalue).Length > 0)
                {
                    networkName = ((string)n.xenvalue);
                    break;
                }
            }

            foreach (Section_Type section in env.Sections)
            {
                if (section is NetworkSection_Type)
                {
                    NetworkSection_Type ns = (NetworkSection_Type)section;
                    foreach (NetworkSection_TypeNetwork net in ns.Network)
                    {
                        if (net.Description != null &&
                            net.Description.msgid != null &&
                            net.Description.msgid.Equals(mappings[refId]))
                        {
                            net.Description.Value = networkName;
                            break;
                        }
                    }
                    break;
                }
            }
            log.DebugFormat("OVF.TransformXvaOvf_Network completed {0}", vsId);
        }