virtigolib/addDroplet.go

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// Copyright 2024 WIT.COM Inc Licensed GPL 3.0
package virtigoxml
import (
"encoding/xml"
"errors"
"fmt"
"github.com/google/uuid"
"go.wit.com/log"
"libvirt.org/go/libvirtxml"
pb "go.wit.com/lib/protobuf/virtbuf"
)
// import a libvirt xml file
func AddDomainDroplet(cluster *pb.Cluster, domcfg *libvirtxml.Domain) (*pb.Droplet, []*pb.Event, error) {
var alle []*pb.Event
if domcfg == nil {
return nil, alle, errors.New("domcfg == nil")
}
d, err := findDomain(cluster, domcfg)
if err != nil {
return nil, alle, err
}
if d == nil {
d = cluster.AddDroplet(domcfg.UUID, domcfg.Name, 2, 2*1024*1024)
d.StartState = pb.DropletState_OFF
d.CurrentState = pb.DropletState_UNKNOWN
// if the domcfg doesn't have a uuid, make a new one here
if d.Uuid == "" {
u := uuid.New()
d.Uuid = u.String()
}
}
alle, err = updateDroplet(cluster, d, domcfg)
if err != nil {
log.Info("updateDroplet() failed for", d.Hostname)
return d, alle, errors.New("update failed for " + domcfg.Name)
}
log.Info("added new droplet", domcfg.Name, domcfg.UUID)
DumpNonStandardXML(domcfg)
return d, alle, nil
}
func findDomain(c *pb.Cluster, domcfg *libvirtxml.Domain) (*pb.Droplet, error) {
var found *pb.Droplet
if domcfg == nil {
return nil, errors.New("domcfg == nil")
}
for _, d := range c.Droplets {
if d.Hostname == domcfg.Name {
if d.Uuid != domcfg.UUID {
if domcfg.UUID == "" {
// ignore blank or nonexistent UUID's
// todo: check to see if the uuid already exists ?
domcfg.UUID = d.Uuid
} else {
fmt.Println("Will Change UUID from", d.Uuid, "to", domcfg.UUID, "for hostname", d.Hostname)
d.Uuid = domcfg.UUID
}
}
if found == nil {
found = d
} else {
fmt.Println("FOUND TWICE", d.Uuid, domcfg.Name, domcfg.UUID)
return d, errors.New("Found Twice")
}
}
if d.Uuid == domcfg.UUID {
if d.Hostname != domcfg.Name {
fmt.Println("protobuf has: UUID and Name:", d.Uuid, d.Hostname)
fmt.Println("libvirt has: UUID and Name:", domcfg.UUID, domcfg.Name)
fmt.Println("FOUND UUID WITH MIS-MATCHED NAME", domcfg.Name, domcfg.UUID)
return d, errors.New("UUID with mis-matched names")
}
}
}
return found, nil
}
func updateDroplet(cluster *pb.Cluster, d *pb.Droplet, domcfg *libvirtxml.Domain) ([]*pb.Event, error) {
var alle []*pb.Event
if d == nil {
return alle, errors.New("d == nil")
}
if domcfg == nil {
return alle, errors.New("domcfg == nil")
}
e, err := updateMemory(d, domcfg)
if err != nil {
log.Info("updateMemory() failed")
return alle, err
}
if e != nil {
alle = append(alle, e)
}
// update arch & machine
if (domcfg.OS != nil) && (domcfg.OS.Type != nil) {
// OS Type: &{Arch:x86_64 Machine:pc-i440fx-5.2 Type:hvm}
t := domcfg.OS.Type
if d.QemuArch != t.Arch {
e := d.NewChangeEvent("Droplet.QemuArch", d.QemuArch, t.Arch)
alle = append(alle, e)
d.QemuArch = t.Arch
}
if d.QemuMachine != t.Machine {
e := d.NewChangeEvent("Droplet.QemuMachine", d.QemuMachine, t.Machine)
alle = append(alle, e)
d.QemuMachine = t.Machine
}
}
// check cpus
if d.Cpus != int64(domcfg.VCPU.Value) {
// fmt.Printf("cpus changed. VCPU = %+v\n", domcfg.VCPU)
fmt.Printf("cpus changed. from %d to %d\n", d.Cpus, domcfg.VCPU.Value)
alle = append(alle, d.NewChangeEvent("Droplet.Cpus", d.Cpus, domcfg.VCPU.Value))
d.Cpus = int64(domcfg.VCPU.Value)
}
// update spice port
if domcfg.Devices.Graphics != nil {
for _, g := range domcfg.Devices.Graphics {
if g.Spice == nil {
continue
}
var s *libvirtxml.DomainGraphicSpice
s = g.Spice
// fmt.Printf("Spice: %d %+v %s\n", i, s, s.AutoPort)
if s.AutoPort == "yes" {
// should ignore either way
} else {
if d.SpicePort != int64(s.Port) {
// print out, but ignore the port number
d.SpicePort = int64(s.Port)
fmt.Printf("Spice Port set to = %d\n", s.Port)
alle = append(alle, d.NewChangeEvent("Droplet.SpicePort", d.SpicePort, s.Port))
}
}
}
}
// check type
if domcfg.Type != "kvm" {
fmt.Printf("not kvm. Virt type == %s\n", domcfg.Type)
return alle, errors.New("not kvm")
}
nete, err := updateNetwork(cluster, d, domcfg)
if err != nil {
log.Info("updateNetwork() failed", err)
return alle, err
}
for _, e := range nete {
alle = append(alle, e)
}
nete, err = updateDisk(cluster, d, domcfg)
if err != nil {
return alle, err
}
for _, e := range nete {
alle = append(alle, e)
}
if alle == nil {
log.Info("libvirt xml import worked. nothing changed", domcfg.Name)
return alle, nil
}
log.Info("libvirt xml import worked. droplet changed", domcfg.Name)
// append each change event
for _, e := range alle {
cluster.Events = append(cluster.Events, e)
}
return alle, nil
}
// returns false if something went wrong
func updateMemory(d *pb.Droplet, domcfg *libvirtxml.Domain) (*pb.Event, error) {
if (d == nil) || (domcfg == nil) {
return nil, errors.New("domcfg == nil")
}
if domcfg.Memory == nil {
// nothing to do. libvirt xml file didn't define memory size
return nil, nil
}
var m int64 = 0
switch domcfg.Memory.Unit {
case "KiB":
m = int64(domcfg.Memory.Value * 1024)
case "MiB":
m = int64(domcfg.Memory.Value * 1024 * 1024)
case "GiB":
m = int64(domcfg.Memory.Value * 1024 * 1024 * 1024)
default:
fmt.Println("Unknown Memory Unit", domcfg.Memory.Unit)
return nil, errors.New("Unknown Memory Unit " + domcfg.Memory.Unit)
}
e := d.SetMemory(m)
if e != nil {
fmt.Printf("Memory changed %s to %d %s\n", pb.HumanFormatBytes(d.Memory), domcfg.Memory.Value, domcfg.Memory.Unit)
d.Memory = m
}
return e, nil
}
func updateNetwork(cluster *pb.Cluster, d *pb.Droplet, domcfg *libvirtxml.Domain) ([]*pb.Event, error) {
var allEvents []*pb.Event
if (d == nil) || (domcfg == nil) {
return nil, errors.New("domcfg == nil")
}
// mac address & bridge name
var macs map[string]string
macs = make(map[string]string)
// Iterate over the network interfaces and print the MAC addresses
for _, iface := range domcfg.Devices.Interfaces {
var hwaddr string
var brname string
// fmt.Printf("iface: %+v\n", iface)
// fmt.Printf("MAC: %+v\n", iface.MAC)
// fmt.Printf("Source: %+v\n", iface.Source)
// fmt.Printf("Bridge: %+v\n", iface.Source.Bridge)
// fmt.Printf("Model: %+v\n", iface.Model)
if iface.MAC != nil {
// iface.MAC.Address = "aa:bb:aa:bb:aa:ff"
// log.Info("Interface:", iface.Target, "MAC Address:", iface.MAC.Address)
// fmt.Printf("source: %+v\n", iface.Source)
hwaddr = iface.MAC.Address
}
if iface.Source == nil {
// fmt.Printf("non-standard network: %+v\n", iface)
updatedXML, _ := xml.MarshalIndent(domcfg.Devices.Interfaces, "", " ")
log.Info("Non-Standard Network XML Start")
fmt.Println(string(updatedXML))
log.Info("Non-Standard Network XML End")
return nil, errors.New("non-standard network. source == nil")
}
if iface.Source.Bridge == nil {
if hwaddr == "" {
fmt.Printf("non-standard network: %+v\n", iface)
updatedXML, _ := xml.MarshalIndent(domcfg.Devices.Interfaces, "", " ")
log.Info("Non-Standard Network XML Start")
fmt.Println(string(updatedXML))
log.Info("Non-Standard Network XML End")
return nil, errors.New("bridge is nil and no mac address")
}
brname = ""
} else {
if iface.Source.Bridge.Bridge == "" {
if hwaddr == "" {
fmt.Printf("non-standard network: %+v\n", iface)
fmt.Printf("iface.Mac: %+v\n", iface)
updatedXML, _ := xml.MarshalIndent(domcfg.Devices.Interfaces, "", " ")
log.Info("Non-Standard Network XML Start")
fmt.Println(string(updatedXML))
log.Info("Non-Standard Network XML End")
return nil, errors.New("bridge is blank and no mac address")
}
brname = iface.Source.Bridge.Bridge
}
}
// log.Info("network has bridge:", iface.Source.Bridge.Bridge)
if hwaddr == "" {
hwaddr = "generate " + domcfg.Name
log.Info("need to generate mac addr for bridge:", brname)
// return nil, errors.New("need to generate mac addr for bridge: " + brname)
}
macs[hwaddr] = brname
}
for mac, brname := range macs {
var found bool = false
// log.Info("XML has mac address:", mac, brname)
for _, eth := range d.Networks {
if eth.Mac == mac {
// log.Info("OKAY. FOUND ETH:", eth.Mac, eth.Name, brname)
found = true
if brname == "" {
// if new bridge name is blank, keep the old one
brname = eth.Name
}
if eth.Name != brname {
// if argv.IgnoreBr {
log.Info("network was:", eth.Mac, eth.Name)
log.Info("network now:", eth.Mac, brname)
log.Info("ignoring network change (--xml-ignore-net)")
// } else {
// return nil, errors.New("bridge name changed")
// }
}
}
}
if !found {
if CheckUniqueMac(cluster, mac) {
} else {
log.Info("droplet", d.Hostname, "duplicate mac address", mac)
return nil, errors.New("duplicate mac address")
}
var eth *pb.Network
eth = new(pb.Network)
eth.Mac = mac
if brname == "" {
brname = "worldbr"
}
eth.Name = brname
d.Networks = append(d.Networks, eth)
allEvents = append(allEvents, d.NewChangeEvent("Droplet NewNetwork", "", mac+" "+brname))
}
}
log.Verbose("mac addrs:", macs)
return allEvents, nil
}
/* from vm3-with-nvme-1.5GB-sec.xml
<disk type='block' device='disk'>
<driver name='qemu' type='raw'/>
<source dev='/dev/nvme4n1'/>
<backingStore/>
<target dev='vdb' bus='virtio'/>
<alias name='virtio-disk1'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x04' function='0x0'/>
</disk>
*/
// returns false if something went wrong
func updateDisk(cluster *pb.Cluster, d *pb.Droplet, domcfg *libvirtxml.Domain) ([]*pb.Event, error) {
var alle []*pb.Event
if (d == nil) || (domcfg == nil) {
return nil, errors.New("domcfg == nil")
}
for _, disk := range domcfg.Devices.Disks {
var t *libvirtxml.DomainDiskSourceFile
t = disk.Source.File
if t == nil {
fmt.Println("disk.Source.File == nil")
continue
}
filename := t.File
if filename == "" {
fmt.Println("No disk source file found.")
continue
}
e, err := InsertFilename(cluster, d, filename)
if err != nil {
return alle, err
}
if e == nil {
continue
}
alle = append(alle, e)
/*
var found bool = false
for _, disk := range d.Disks {
if disk.Filename == filename {
log.Verbose("OKAY. FOUND filename", filename)
found = true
}
}
if !found {
var disk *pb.Disk
disk = new(pb.Disk)
disk.Filename = filename
d.Disks = append(d.Disks, disk)
log.Info("New filename", filename)
}
*/
}
return alle, nil
}