func TestSetNetworkDataOVS(t *testing.T) {
hnic1 := &host.NIC{
Name: "br0-ovs",
Driver: "openvswitch",
Vendor: "",
Model: "",
PCIAddr: "",
Desc: "test1_ovs",
Type: host.NicTypeOVS,
}
gnic1 := guest.NewNIC()
gnic1.Network = "net1"
gnic1.PCIAddr.Domain = "0000"
gnic1.PCIAddr.Slot = "5"
gnic1.PCIAddr.Bus = "00"
gnic1.PCIAddr.Function = "0"
gnic1.HostNIC = hnic1
list1 := guest.NewNICList()
list1.Add(gnic1)
mode1 := new(xmlinput.Mode)
mode1.Type = xmlinput.ConTypeOVS
mode1.VnicDriver = "virtio"
net1 := new(xmlinput.Network)
net1.Modes = []*xmlinput.Mode{mode1}
net1.Name = "net1"
hnic2 := &host.NIC{
Name: "br1-ovs",
Driver: "openvswitch",
Vendor: "",
Model: "",
PCIAddr: "",
Desc: "test1_ovs",
Type: host.NicTypeOVS,
}
gnic2 := guest.NewNIC()
gnic2.Network = "net2"
gnic2.PCIAddr.Domain = "0000"
gnic2.PCIAddr.Slot = "6"
gnic2.PCIAddr.Bus = "00"
gnic2.PCIAddr.Function = "0"
gnic2.HostNIC = hnic2
list2 := guest.NewNICList()
list2.Add(gnic2)
mode2 := new(xmlinput.Mode)
mode2.Type = xmlinput.ConTypeOVS
mode2.VnicDriver = "virtio"
net2 := new(xmlinput.Network)
net2.Modes = []*xmlinput.Mode{mode2}
net2.Name = "net2"
lists := []guest.NICList{list1, list2}
nets := []*xmlinput.Network{net1, net2}
c := guest.NewConfig()
c.NICLists = lists
c.Networks = nets
d := new(meta)
str, err := d.SetNetworkData(c, "")
if err != nil {
t.Fatal(err)
}
fmt.Printf("Template: %s\n\n", TmpltBridgedOVS)
fmt.Printf("Expected: %s\n", expectedSetNetworkDataBridgedOVS)
fmt.Printf("Generated:%s\n", str)
}
func TestSetNetworkDataDirect(t *testing.T) {
hnic1 := &host.NIC{
Name: "eth0",
Driver: "tg3",
Vendor: "Broadcom",
Model: "",
PCIAddr: "pci@0000:09:00.0",
Desc: "test1_direct",
Type: host.NicTypePhys,
}
gnic1 := guest.NewNIC()
gnic1.Network = "net1"
gnic1.PCIAddr.Domain = "0000"
gnic1.PCIAddr.Slot = "5"
gnic1.PCIAddr.Bus = "00"
gnic1.PCIAddr.Function = "0"
gnic1.HostNIC = hnic1
list1 := guest.NewNICList()
list1.Add(gnic1)
mode1 := new(xmlinput.Mode)
mode1.Type = xmlinput.ConTypeDirect
mode1.VnicDriver = "virtio"
net1 := new(xmlinput.Network)
net1.Modes = []*xmlinput.Mode{mode1}
net1.Name = "net1"
hnic2 := &host.NIC{
Name: "eth1",
Driver: "tg3",
Vendor: "Broadcom",
Model: "",
PCIAddr: "pci@0000:10:00.0",
Desc: "test1_direct",
Type: host.NicTypePhys,
}
gnic2 := guest.NewNIC()
gnic2.Network = "net1"
gnic2.PCIAddr.Domain = "0000"
gnic2.PCIAddr.Slot = "6"
gnic2.PCIAddr.Bus = "00"
gnic2.PCIAddr.Function = "0"
gnic2.HostNIC = hnic2
list2 := guest.NewNICList()
list2.Add(gnic2)
mode2 := new(xmlinput.Mode)
mode2.Type = xmlinput.ConTypeDirect
mode2.VnicDriver = "virtio"
net2 := new(xmlinput.Network)
net2.Modes = []*xmlinput.Mode{mode2}
net2.Name = "net2"
lists := []guest.NICList{list1, list2}
nets := []*xmlinput.Network{net1, net2}
c := guest.NewConfig()
c.NICLists = lists
c.Networks = nets
d := new(meta)
str, err := d.SetNetworkData(c, "")
if err != nil {
t.Fatal(err)
}
fmt.Printf("Template: %s\n\n", TmpltDirect)
fmt.Printf("Expected: %s\n", expectedSetNetworkDataDirect)
fmt.Printf("Generated:%s\n", str)
}
func uiNicSelectMenu(ui *gui.DialogUi, data *xmlinput.XMLInputData, guestPortCounter *int,
guestPciSlotCounter *int, hnics host.NICList, net *xmlinput.Network, index int) (guest.NICList, error) {
list := make([]string, 0)
keeper := make(map[string]*host.NIC)
indexStrToInt := make(map[string][]int)
indexInt := 1
for _, hnic := range hnics {
indexStr := strconv.Itoa(indexInt)
list = append(list, indexStr, fmt.Sprintf("%-22s%-15s%-68s%-10s", hnic.Name, hnic.PCIAddr, hnic.Desc, uiNUMAIntToString(hnic.NUMANode)))
keeper[indexStr] = hnic
if indexInt == 1 {
// index 0 - element index in the list
// index 1 - element counter
// index 2 - PCI slot number represented as integer
indexStrToInt[indexStr] = []int{1, 0, 0}
} else {
indexStrToInt[indexStr] = []int{indexInt*2 - 1, 0, 0}
}
indexInt++
}
listLength := len(list)
gnics := guest.NewNICList()
var disjuncNicVendor string
var disjuncNicModel string
for {
if index > 0 {
ui.HelpButton(true)
ui.SetHelpLabel("Back")
}
width := uiHeaderSelectNics(ui)
ui.SetSize(listLength+8, width+5)
ui.SetTitle(fmt.Sprintf("Select interface for network \"%s\"", net.Name))
nicNumStr, err := ui.Menu(listLength+5, list[0:]...)
if err != nil {
if err.Error() == gui.DialogNext {
if len(gnics) == 0 && net.Optional == false {
continue
}
break
}
*guestPciSlotCounter -= len(gnics)
*guestPortCounter -= len(gnics)
return nil, err
}
hnic := keeper[nicNumStr]
// verify that we need to proceed with "disjunction"
if net.NicsDisjunction && (hnic.Type == host.NicTypePhys || hnic.Type == host.NicTypePhysVF) &&
(hnic.Vendor != disjuncNicVendor && hnic.Model != disjuncNicModel) {
// back to menu in case "disjunction" entries already exist
if host_hwfilter.NicDisjunctionFound(hnic, data.HostNics.Allowed) && disjuncNicVendor != "" {
msg := fmt.Sprintf("'%s' cannot be selected alongside '%s %s'", hnic.Desc, disjuncNicVendor, disjuncNicModel)
ui.Output(gui.Warning, msg, "Press <OK> to return to menu.")
continue
}
// set the new entries
disjuncNicVendor = hnic.Vendor
disjuncNicModel = hnic.Model
}
delNicCounter := indexStrToInt[nicNumStr][1]
// counter for the NIC found,we should remove the NIC object and its references
if delNicCounter > 0 {
// find the guest NIC object in the guest NICs list
if _, index, err := gnics.NicByHostNicObj(hnic); err == nil {
// if found :
// - remove the object
// - decrement guestPortCounter
// - decriment guestPciSlotCounter
gnics.Remove(index)
if *guestPortCounter > 0 {
*guestPortCounter--
}
if *guestPciSlotCounter > data.GuestNic.PCI.FirstSlot {
*guestPciSlotCounter--
}
// update the list with the new entry containing deselected NIC
list[indexStrToInt[nicNumStr][0]] = fmt.Sprintf("%-22s%-15s%-68s%-10s", hnic.Name, hnic.PCIAddr, hnic.Desc, uiNUMAIntToString(hnic.NUMANode))
// - reset element counter
// - reset PCI slot number
indexStrToInt[nicNumStr][1] = 0
indexStrToInt[nicNumStr][2] = 0
}
// iterate over the map and update entries
for nicIndex, data := range indexStrToInt {
nicCounter := data[1]
if nicCounter > delNicCounter {
tmpNic := keeper[nicIndex]
nicCounter--
list[data[0]] = fmt.Sprintf("%-22s%-15s%-68s%-9s%d", tmpNic.Name, tmpNic.PCIAddr,
tmpNic.Desc, uiNUMAIntToString(tmpNic.NUMANode), nicCounter)
indexStrToInt[nicIndex][1] = nicCounter
indexStrToInt[nicIndex][2]--
if gnic, _, err := gnics.NicByHostNicObj(tmpNic); err == nil {
gnic.PCIAddr.Slot = utils.IntToHexString(indexStrToInt[nicIndex][2])
}
}
}
// clear "disjunction" entries in case gnics slice is empty
if gnics.Length() == 0 {
disjuncNicVendor = ""
disjuncNicModel = ""
}
continue
}
// create new guest NIC, set his number and counter
indexStrToInt[nicNumStr][1] = *guestPortCounter
indexStrToInt[nicNumStr][2] = *guestPciSlotCounter
list[indexStrToInt[nicNumStr][0]] = fmt.Sprintf("%-22s%-15s%-68s%-9s%d", hnic.Name, hnic.PCIAddr,
hnic.Desc, uiNUMAIntToString(hnic.NUMANode), *guestPortCounter)
gnic := guest.NewNIC()
gnic.Network = net.Name
gnic.PCIAddr.Domain = data.PCI.Domain
gnic.PCIAddr.Bus = data.PCI.Bus
gnic.PCIAddr.Slot = utils.IntToHexString(*guestPciSlotCounter)
gnic.PCIAddr.Function = data.PCI.Function
gnic.HostNIC = hnic
gnics.Add(gnic)
*guestPciSlotCounter++
*guestPortCounter++
}
return gnics, nil
}
