// Package host provides utilities and data structures in relation to a libvirt host. // This includes getting a list of virtual machines running on a host, launching // a new virtual machine on a host, triggering a virtual machine migration to another // host, getting hardware and resource usage from a host, and eventually more. // Most of this is data at the moment, ensuring data can be gathered efficiently without // slowing down the host from it's main job of running virtual machines. package host import ( "log" "sync" "git.staur.ca/stobbsm/clustvirt/lib/guest" "git.staur.ca/stobbsm/clustvirt/lib/secret" "git.staur.ca/stobbsm/clustvirt/lib/storagepool" "git.staur.ca/stobbsm/clustvirt/lib/storagevol" "git.staur.ca/stobbsm/clustvirt/util" "libvirt.org/go/libvirt" ) // Host holds information and acts as a connection handle for a Host // If a connection is closed prematurely, will re-open the connection and // try the attempted method again type Host struct { // HostName used to make the connection HostName string // SystemHostName is the hostname as reported by the system itself SystemHostName string // FreeMemory is the available free memory FreeMemory uint64 // LibVersion is the version of Libvirt on the host LibVersion uint32 // HostInfo provides basic HW information about a host HostInfo NodeInfo // HostSEVInfo provides informatoin about AMD SEV extentions available on the host HostSEVInfo SEVInfo // AvailableCPUTypes are the available types of CPUs that can be used for VM creation AvailableCPUTypes []string // NodeMemory provides basic memory information about the Host NodeMemory NodeMemoryInfo // StorageCapabilities is the XML representation of the hosts storage capabilities StorageCapabilities string // SysInfo is the XML representation of the host system information SysInfo string // Alive indicates if the connection is alive Alive bool // Encrypted indicates if the connection is encrypted Encrypted bool // Secure indicates if the connection is secure Secure bool // VMList is the list of virtual machines available to the host VMList []VMInfo // NetIfList is the list of network interfaces on the host NetIfFList []NetIfInfo // NetworkList is the list of defined networks on the host NetworkList []NetworkInfo // DeviceList is the list of devices on the host DeviceList []DeviceInfo // SecretList provides a list of secrets available to the host SecretList []SecretInfo // StoragePoolList provides the list of stoarge ppols available to the host StoragePoolList []StoragePoolInfo uri *URI conn *libvirt.Connect close chan struct{} closeErr chan error } // DeviceInfo holds basic information for host devices type DeviceInfo struct { Name string Capabilities []string XML string } // VMInfo holds basic VM information, like the name and ID type VMInfo struct { Name string ID uint UUID []byte XML string // States are the current states active on the host States []guest.VMState } // SecretInfo doesn't let you see the contents of secrets, but does let you see what secrets have // been defined in a simple format. type SecretInfo struct { UUID string XML string Type string } // StoragePoolInfo holds basic information on storage pools type StoragePoolInfo struct { Name string UUID []byte Type string XML string Active bool Persistent bool AutoStart bool State string Capacity uint64 Allocation uint64 Available uint64 // HAEnabled indicates if the storage pool has High Availability HAEnabled bool // Volumes defined in the storage pool Volumes []VolumeInfo } // VolumeInfo holds basic information about Volumes available in storage pools type VolumeInfo struct { Name string Key string Path string Type string Capacity uint64 Allocation uint64 XML string } // NetIfInfo holds basic information about available network interfaces (not their connections, the devices themselves) type NetIfInfo struct { Name string MacAddr string XML string } // NetworkInfo holds basic information about network connections type NetworkInfo struct { Name string UUID []byte XML string // NetIf is the network interface this connection is applied to NetIf NetIfInfo } // NodeInfo represents the basic HW info for a host node type NodeInfo struct { // livirt.NodeInfo section Model string Memory uint64 Cpus uint MHz uint Nodes uint32 Sockets uint32 Cores uint32 Threads uint32 } // SEVInfo provides information about AMD SEV support type SEVInfo struct { // livirt.NodeSEVParameters section SEVEnabled bool PDH string CertChain string CBitPos uint ReducedPhysBits uint MaxGuests uint MaxEsGuests uint CPU0ID string } // NodeMemoryInfo provides statistis about node memory usage from libvirt.NodeMemoryStats type NodeMemoryInfo struct { Total uint64 Free uint64 Buffers uint64 Cached uint64 } // ConnectHost creates a host connection wrapper that can be used regularly func ConnectHost(uri *URI, host string) (*Host, error) { h := &Host{ HostName: host, uri: uri, } if err := h.connect(); err != nil { return nil, err } h.close = make(chan struct{}) h.closeErr = make(chan error) h.getInfo() go func() { defer close(h.closeErr) <-h.close _, err := h.conn.Close() h.closeErr <- err }() return h, nil } // connect creates a host connection func (h *Host) connect() error { var err error h.conn, err = libvirt.NewConnect(h.uri.ConnectionString(h.HostName)) return err } // GetGuestByName returns a GuestVM instance that exists on the given host func (h *Host) GetGuestByName(name string) (*guest.VM, error) { g, err := guest.GetGuest(name, h.conn) if err == nil { return g, nil } lverr, ok := err.(libvirt.Error) if ok && lverr.Code == libvirt.ERR_INVALID_CONN { // try again after creating a new connection return guest.GetGuest(name, h.conn) } return nil, err } // Close triggers closing the host connection func (h *Host) Close() error { log.Println("Closing Host", h.HostName) close(h.close) return <-h.closeErr } // private methods that load the different informational parts func (h *Host) getInfo() { var wg = new(sync.WaitGroup) infoFuncs := []func(){ h.getDevicesInfo, // h.getDomainInfo, h.getIfaceInfo, h.getNetsInfo, h.getNodeInfo, // h.getSEVInfo, // h.getSecretsInfo, // h.getStoragePools, } for _, f := range infoFuncs { wg.Add(1) go func(wg *sync.WaitGroup) { defer wg.Done() f() }(wg) } wg.Wait() } func (h *Host) getStoragePools() { spools, err := h.conn.ListAllStoragePools(0) if err != nil { log.Println(err) } if len(spools) > 0 { h.StoragePoolList = make([]StoragePoolInfo, len(spools)) for i, s := range spools { if h.StoragePoolList[i].XML, err = s.GetXMLDesc(0); err != nil { log.Println(err) } if h.StoragePoolList[i].Name, err = s.GetName(); err != nil { log.Println(err) } if h.StoragePoolList[i].UUID, err = s.GetUUID(); err != nil { log.Println(err) } if h.StoragePoolList[i].Active, err = s.IsActive(); err != nil { log.Println(err) } if h.StoragePoolList[i].Persistent, err = s.IsPersistent(); err != nil { log.Println(err) } if h.StoragePoolList[i].AutoStart, err = s.GetAutostart(); err != nil { log.Println(err) } spInfo, err := s.GetInfo() if err != nil { log.Println(err) } h.StoragePoolList[i].State = storagepool.StoragePoolStateMap[spInfo.State] h.StoragePoolList[i].Capacity = spInfo.Capacity h.StoragePoolList[i].Allocation = spInfo.Allocation h.StoragePoolList[i].Available = spInfo.Available svols, err := s.ListAllStorageVolumes(0) if err != nil { log.Println(err) } if len(svols) > 0 { h.StoragePoolList[i].Volumes = make([]VolumeInfo, len(svols)) for j, sv := range svols { if h.StoragePoolList[i].Volumes[j].Name, err = sv.GetName(); err != nil { log.Println(err) } if h.StoragePoolList[i].Volumes[j].Key, err = sv.GetKey(); err != nil { log.Println(err) } if h.StoragePoolList[i].Volumes[j].Path, err = sv.GetPath(); err != nil { log.Println(err) } svInfo, err := sv.GetInfo() // Type, Capacity, Allocation if err != nil { log.Println(err) } h.StoragePoolList[i].Volumes[j].Type = storagevol.StorageVolTypeMap[svInfo.Type] h.StoragePoolList[i].Volumes[j].Capacity = svInfo.Capacity h.StoragePoolList[i].Volumes[j].Allocation = svInfo.Allocation if h.StoragePoolList[i].Volumes[j].XML, err = sv.GetXMLDesc(0); err != nil { log.Println(err) } sv.Free() } } s.Free() } } } func (h *Host) getSecretsInfo() { nsecrets, err := h.conn.ListAllSecrets(0) if err != nil { log.Println(err) } if len(nsecrets) > 0 { h.SecretList = make([]SecretInfo, len(nsecrets)) for i, s := range nsecrets { if h.SecretList[i].XML, err = s.GetXMLDesc(0); err != nil { log.Println(err) } stype, err := s.GetUsageType() if err != nil { log.Println(err) } h.SecretList[i].Type = secret.SecretUsageTypeMap[stype] s.Free() } } } func (h *Host) getNodeInfo() { var err error h.AvailableCPUTypes, err = h.conn.GetCPUModelNames("x86_64", 0) if err != nil { log.Println("Error getting cpu model names", err) } ni, err := h.conn.GetNodeInfo() if err != nil { log.Println(err) } h.HostInfo.Model = ni.Model h.HostInfo.Memory = ni.Memory h.HostInfo.Cpus = ni.Cpus h.HostInfo.MHz = ni.MHz h.HostInfo.Nodes = ni.Nodes h.HostInfo.Sockets = ni.Sockets h.HostInfo.Cores = ni.Cores h.HostInfo.Threads = ni.Threads h.SystemHostName, err = h.conn.GetHostname() if err != nil { log.Println(err) } if h.SystemHostName == "" { h.SystemHostName = h.HostName } h.LibVersion, err = h.conn.GetLibVersion() if err != nil { log.Println(err) } h.FreeMemory, err = h.conn.GetFreeMemory() if err != nil { log.Println(err) } mi, err := h.conn.GetMemoryStats(libvirt.NODE_MEMORY_STATS_ALL_CELLS, 0) if err != nil { log.Println(err) } h.NodeMemory.Total = mi.Total h.NodeMemory.Free = mi.Free h.NodeMemory.Buffers = mi.Buffers h.NodeMemory.Cached = mi.Cached h.StorageCapabilities, err = h.conn.GetStoragePoolCapabilities(0) if err != nil { log.Println(err) } h.SysInfo, err = h.conn.GetSysinfo(0) if err != nil { log.Println(err) } h.Alive, err = h.conn.IsAlive() if err != nil { log.Println(err) } h.Encrypted, err = h.conn.IsEncrypted() if err != nil { log.Println(err) } h.Secure, err = h.conn.IsSecure() if err != nil { log.Println(err) } } func (h *Host) getSEVInfo() { // getSEVInfo h.HostSEVInfo.SEVEnabled = true ns, err := h.conn.GetSEVInfo(0) if err != nil { log.Println(err) lverr, ok := err.(libvirt.Error) if ok { switch lverr.Code { case 84: log.Println("SEV functions not supported") h.HostSEVInfo.SEVEnabled = false default: log.Println("Error encountered", lverr.Error()) } } } if h.HostSEVInfo.SEVEnabled { h.HostSEVInfo.PDH = util.SetNotSet(ns.PDH, ns.PDHSet) h.HostSEVInfo.CertChain = util.SetNotSet(ns.CertChain, ns.CertChainSet) h.HostSEVInfo.CBitPos = ns.CBitPos h.HostSEVInfo.ReducedPhysBits = ns.ReducedPhysBits h.HostSEVInfo.MaxGuests = ns.MaxGuests h.HostSEVInfo.MaxEsGuests = ns.MaxEsGuests h.HostSEVInfo.CPU0ID = util.SetNotSet(ns.CPU0ID, ns.CPU0IDSet) } } func (h *Host) getDomainInfo() { // getDomainInfo doms, err := h.conn.ListAllDomains(0) if err != nil { log.Println(err) } if len(doms) > 0 { h.VMList = make([]VMInfo, len(doms)) for i, d := range doms { // Just going to log errors here, and free the dom after getting what we can if h.VMList[i].Name, err = d.GetName(); err != nil { log.Println(err) } if h.VMList[i].UUID, err = d.GetUUID(); err != nil { log.Println(err) } if h.VMList[i].ID, err = d.GetID(); err != nil { log.Println(err) } if h.VMList[i].XML, err = d.GetXMLDesc(0); err != nil { log.Println(err) } d.Free() } } } func (h *Host) getIfaceInfo() { // getIfaceInfo ifaces, err := h.conn.ListInterfaces() if err != nil { log.Println(err) } if len(ifaces) > 0 { h.NetIfFList = make([]NetIfInfo, len(ifaces)) for i, ni := range ifaces { h.NetIfFList[i].Name = ni iface, err := h.conn.LookupInterfaceByName(ni) if err != nil { log.Println(err) } if h.NetIfFList[i].MacAddr, err = iface.GetMACString(); err != nil { log.Println(err) } if h.NetIfFList[i].XML, err = iface.GetXMLDesc(0); err != nil { log.Println(err) } iface.Free() } } } func (h *Host) getNetsInfo() { // getNetsInfo nets, err := h.conn.ListNetworks() if err != nil { log.Println(err) } if len(nets) > 0 { h.NetworkList = make([]NetworkInfo, len(nets)) for i, netName := range nets { net, err := h.conn.LookupNetworkByName(netName) if err != nil { log.Println(err) } if h.NetworkList[i].Name, err = net.GetName(); err != nil { log.Println(err) } if h.NetworkList[i].UUID, err = net.GetUUID(); err != nil { log.Println(err) } if h.NetworkList[i].XML, err = net.GetXMLDesc(0); err != nil { log.Println(err) } net.Free() } } } func (h *Host) getDevicesInfo() { ndevs, err := h.conn.ListAllNodeDevices(0) if err != nil { log.Println(err) } if len(ndevs) > 0 { h.DeviceList = make([]DeviceInfo, len(ndevs)) for i, dev := range ndevs { if h.DeviceList[i].Name, err = dev.GetName(); err != nil { log.Println(err) } if h.DeviceList[i].Capabilities, err = dev.ListCaps(); err != nil { log.Println(err) } if h.DeviceList[i].XML, err = dev.GetXMLDesc(0); err != nil { log.Println(err) } dev.Free() } } }