// Copyright 2016 The go-libvirt Authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Package libvirt is a pure Go implementation of the libvirt RPC protocol. // For more information on the protocol, see https://libvirt.org/internals/l.html package libvirt import ( "bufio" "bytes" "encoding/json" "errors" "fmt" "net" "net/url" "sync" "github.com/davecgh/go-xdr/xdr2" "github.com/digitalocean/go-libvirt/internal/constants" ) // ErrEventsNotSupported is returned by Events() if event streams // are unsupported by either QEMU or libvirt. var ErrEventsNotSupported = errors.New("event monitor is not supported") // Libvirt implements LibVirt's remote procedure call protocol. type Libvirt struct { conn net.Conn r *bufio.Reader w *bufio.Writer // method callbacks cm sync.Mutex callbacks map[uint32]chan response // event listeners em sync.Mutex events map[uint32]chan *DomainEvent // next request serial number s uint32 } // Domain represents a domain as seen by libvirt. type Domain struct { Name string UUID [constants.UUIDSize]byte ID int } // DomainEvent represents a libvirt domain event. type DomainEvent struct { CallbackID uint32 Domain Domain Event string Seconds uint64 Microseconds uint32 Padding uint8 Details []byte } // Secret represents a secret managed by the libvirt daemon. type Secret struct { UUID [constants.UUIDSize]byte UsageType SecretUsageType UsageID string } // StoragePool represents a storage pool as seen by libvirt. type StoragePool struct { Name string UUID [constants.UUIDSize]byte } // qemuError represents a QEMU process error. type qemuError struct { Error struct { Class string `json:"class"` Description string `json:"desc"` } `json:"error"` } // DomainXMLFlags specifies options for dumping a domain's XML. type DomainXMLFlags uint32 // DomainAffectFlags specifies options for whether an operation affects the // running VM, or the persistent VM configuration on disk. See FlagDomain... // consts for values. type DomainAffectFlags uint32 // Consts used for flags // virDomainModificationImpact and virTypedParameterFlags values. These are // combined here because they are both used to set the same flags fields in the // libvirt API. const ( // FlagDomainAffectCurrent means affect the current domain state FlagDomainAffectCurrent DomainAffectFlags = 0 // FlagDomainAffectLive means affect the running domain state FlagDomainAffectLive = 1 << (iota - 1) // FlagDomainAffectConfig means affect the persistent domain state. FlagDomainAffectConfig // FlagTypedParamStringOkay tells the server that this client understands // TypedParamStrings. FlagTypedParamStringOkay ) // Consts relating to TypedParams: const ( // TypeParamInt is a C int. TypeParamInt = iota + 1 // TypeParamUInt is a C unsigned int. TypeParamUInt // TypeParamLLong is a C long long int. TypeParamLLong // TypeParamULLong is a C unsigned long long int. TypeParamULLong // TypeParamDouble is a C double. TypeParamDouble // TypeParamBoolean is a C char. TypeParamBoolean // TypeParamString is a C char*. TypeParamString // TypeParamLast is just an end-of-enum marker. TypeParamLast ) // TypedParam represents libvirt's virTypedParameter, which is used to pass // typed parameters to libvirt functions. This is defined as an interface, and // implemented by TypedParam... concrete types. type TypedParam interface { Field() string Value() interface{} } // TypedParamInt contains a 32-bit signed integer. type TypedParamInt struct { Fld string PType int32 Padding [4]byte Val int32 } // Field returns the field name, a string name for the parameter. func (tp *TypedParamInt) Field() string { return tp.Fld } // Value returns the value for the typed parameter, as an empty interface. func (tp *TypedParamInt) Value() interface{} { return tp.Val } // NewTypedParamInt returns a TypedParam encoding for an int. func NewTypedParamInt(name string, v int32) *TypedParamInt { // Truncate the field name if it's longer than the limit. if len(name) > constants.TypedParamFieldLength { name = name[:constants.TypedParamFieldLength] } tp := TypedParamInt{ Fld: name, PType: TypeParamInt, Val: v, } return &tp } // TypedParamULongLong contains a 64-bit unsigned integer. type TypedParamULongLong struct { Fld string PType int32 Val uint64 } // Field returns the field name, a string name for the parameter. func (tp *TypedParamULongLong) Field() string { return tp.Fld } // Value returns the value for the typed parameter, as an empty interface. func (tp *TypedParamULongLong) Value() interface{} { return tp.Val } // NewTypedParamULongLong returns a TypedParam encoding for an unsigned long long. func NewTypedParamULongLong(name string, v uint64) *TypedParamULongLong { // Truncate the field name if it's longer than the limit. if len(name) > constants.TypedParamFieldLength { name = name[:constants.TypedParamFieldLength] } tp := TypedParamULongLong{ Fld: name, PType: TypeParamULLong, Val: v, } return &tp } // TypedParamString contains a string parameter. type TypedParamString struct { Fld string PType int Val string } // Field returns the field name, a string name for the parameter. func (tp *TypedParamString) Field() string { return tp.Fld } // Value returns the value for the typed parameter, as an empty interface. func (tp *TypedParamString) Value() interface{} { return tp.Val } // NewTypedParamString returns a typed parameter containing the passed string. func NewTypedParamString(name string, v string) TypedParam { if len(name) > constants.TypedParamFieldLength { name = name[:constants.TypedParamFieldLength] } tp := TypedParamString{ Fld: name, PType: TypeParamString, Val: v, } return &tp } const ( // DomainXMLFlagSecure dumps XML with sensitive information included. DomainXMLFlagSecure DomainXMLFlags = 1 << iota // DomainXMLFlagInactive dumps XML with inactive domain information. DomainXMLFlagInactive // DomainXMLFlagUpdateCPU dumps XML with guest CPU requirements according to the host CPU. DomainXMLFlagUpdateCPU // DomainXMLFlagMigratable dumps XML suitable for migration. DomainXMLFlagMigratable ) // MigrateFlags specifies options when performing a migration. type MigrateFlags uint32 const ( // MigrateFlagLive performs a zero-downtime live migration. MigrateFlagLive MigrateFlags = 1 << iota // MigrateFlagPeerToPeer creates a direct source to destination control channel. MigrateFlagPeerToPeer // MigrateFlagTunneled tunnels migration data over the libvirtd connection. MigrateFlagTunneled // MigrateFlagPersistDestination will persist the VM on the destination host. MigrateFlagPersistDestination // MigrateFlagUndefineSource undefines the VM on the source host. MigrateFlagUndefineSource // MigrateFlagPaused will pause the remote side VM. MigrateFlagPaused // MigrateFlagNonSharedDisk migrate non-shared storage with full disk copy. MigrateFlagNonSharedDisk // MigrateFlagNonSharedIncremental migrate non-shared storage with incremental copy. MigrateFlagNonSharedIncremental // MigrateFlagChangeProtection prevents any changes to the domain configuration through the whole migration process. MigrateFlagChangeProtection // MigrateFlagUnsafe will force a migration even when it is considered unsafe. MigrateFlagUnsafe // MigrateFlagOffline is used to perform an offline migration. MigrateFlagOffline // MigrateFlagCompressed compresses data during migration. MigrateFlagCompressed // MigrateFlagAbortOnError will abort a migration on I/O errors encountered during migration. MigrateFlagAbortOnError // MigrateFlagAutoConverge forces convergence. MigrateFlagAutoConverge // MigrateFlagRDMAPinAll enables RDMA memory pinning. MigrateFlagRDMAPinAll ) // UndefineFlags specifies options available when undefining a domain. type UndefineFlags uint32 const ( // UndefineFlagManagedSave removes all domain managed save data. UndefineFlagManagedSave UndefineFlags = 1 << iota // UndefineFlagSnapshotsMetadata removes all domain snapshot metadata. UndefineFlagSnapshotsMetadata // UndefineFlagNVRAM removes all domain NVRAM files. UndefineFlagNVRAM ) // DomainDefineXMLFlags specifies options available when defining a domain. type DomainDefineXMLFlags uint32 const ( // DefineValidate validates the XML document against schema DefineValidate DomainDefineXMLFlags = 1 ) // DestroyFlags specifies options available when destroying a domain. type DestroyFlags uint32 const ( // DestroyFlagDefault default behavior, forcefully terminate the domain. DestroyFlagDefault DestroyFlags = 1 << iota // DestroyFlagGraceful only sends a SIGTERM no SIGKILL. DestroyFlagGraceful ) // ShutdownFlags specifies options available when shutting down a domain. type ShutdownFlags uint32 const ( // ShutdownAcpiPowerBtn - send ACPI event ShutdownAcpiPowerBtn ShutdownFlags = 1 << iota // ShutdownGuestAgent - use guest agent ShutdownGuestAgent // ShutdownInitctl - use initctl ShutdownInitctl // ShutdownSignal - use signal ShutdownSignal // ShutdownParavirt - use paravirt guest control ShutdownParavirt ) // DomainState specifies state of the domain type DomainState uint32 const ( // DomainStateNoState No state DomainStateNoState = iota // DomainStateRunning The domain is running DomainStateRunning // DomainStateBlocked The domain is blocked on resource DomainStateBlocked // DomainStatePaused The domain is paused by user DomainStatePaused // DomainStateShutdown The domain is being shut down DomainStateShutdown // DomainStateShutoff The domain is shut off DomainStateShutoff // DomainStateCrashed The domain is crashed DomainStateCrashed // DomainStatePMSuspended The domain is suspended by guest power management DomainStatePMSuspended // DomainStateLast This value will increase over time as new events are added to the libvirt // API. It reflects the last state supported by this version of the libvirt API. DomainStateLast ) // SecretUsageType specifies the usage for a libvirt secret. type SecretUsageType uint32 const ( // SecretUsageTypeNone specifies no usage. SecretUsageTypeNone SecretUsageType = iota // SecretUsageTypeVolume specifies a volume secret. SecretUsageTypeVolume // SecretUsageTypeCeph specifies secrets for ceph devices. SecretUsageTypeCeph // SecretUsageTypeISCSI specifies secrets for ISCSI devices. SecretUsageTypeISCSI ) // StoragePoolsFlags specifies storage pools to list. type StoragePoolsFlags uint32 // These flags come in groups; if all bits from a group are 0, // then that group is not used to filter results. const ( StoragePoolsFlagInactive = 1 << iota StoragePoolsFlagActive StoragePoolsFlagPersistent StoragePoolsFlagTransient StoragePoolsFlagAutostart StoragePoolsFlagNoAutostart // pools by type StoragePoolsFlagDir StoragePoolsFlagFS StoragePoolsFlagNETFS StoragePoolsFlagLogical StoragePoolsFlagDisk StoragePoolsFlagISCSI StoragePoolsFlagSCSI StoragePoolsFlagMPATH StoragePoolsFlagRBD StoragePoolsFlagSheepdog StoragePoolsFlagGluster StoragePoolsFlagZFS ) // DomainCreateFlags specify options for starting domains type DomainCreateFlags uint32 const ( // DomainCreateFlagPaused creates paused domain. DomainCreateFlagPaused = 1 << iota // DomainCreateFlagAutoDestroy destoy domain after libvirt connection closed. DomainCreateFlagAutoDestroy // DomainCreateFlagBypassCache avoid file system cache pollution. DomainCreateFlagBypassCache // DomainCreateFlagStartForceBoot boot, discarding any managed save DomainCreateFlagStartForceBoot // DomainCreateFlagStartValidate validate the XML document against schema DomainCreateFlagStartValidate ) // RebootFlags specifies domain reboot methods type RebootFlags uint32 const ( // RebootAcpiPowerBtn - send ACPI event RebootAcpiPowerBtn RebootFlags = 1 << iota // RebootGuestAgent - use guest agent RebootGuestAgent // RebootInitctl - use initctl RebootInitctl // RebootSignal - use signal RebootSignal // RebootParavirt - use paravirt guest control RebootParavirt ) // DomainMemoryStatTag specifies domain memory tags type DomainMemoryStatTag uint32 const ( // DomainMemoryStatTagSwapIn - The total amount of data read from swap space (in kB). DomainMemoryStatTagSwapIn DomainMemoryStatTag = iota // DomainMemoryStatTagSwapOut - The total amount of memory written out to swap space (in kB). DomainMemoryStatTagSwapOut // DomainMemoryStatTagMajorFault - Page faults occur when a process makes a valid access to virtual memory // that is not available. When servicing the page fault, if disk IO is // required, it is considered a major fault. // These are expressed as the number of faults that have occurred. DomainMemoryStatTagMajorFault // DomainMemoryStatTagMinorFault - If the page fault not require disk IO, it is a minor fault. DomainMemoryStatTagMinorFault // DomainMemoryStatTagUnused - The amount of memory left completely unused by the system (in kB). DomainMemoryStatTagUnused // DomainMemoryStatTagAvailable - The total amount of usable memory as seen by the domain (in kB). DomainMemoryStatTagAvailable // DomainMemoryStatTagActualBalloon - Current balloon value (in KB). DomainMemoryStatTagActualBalloon // DomainMemoryStatTagRss - Resident Set Size of the process running the domain (in KB). DomainMemoryStatTagRss // DomainMemoryStatTagUsable - How much the balloon can be inflated without pushing the guest system // to swap, corresponds to 'Available' in /proc/meminfo DomainMemoryStatTagUsable // DomainMemoryStatTagLastUpdate - Timestamp of the last update of statistics, in seconds. DomainMemoryStatTagLastUpdate // DomainMemoryStatTagNr - The number of statistics supported by this version of the interface. DomainMemoryStatTagNr ) // DomainMemoryStat specifies memory stats of the domain type DomainMemoryStat struct { Tag DomainMemoryStatTag Val uint64 } // Capabilities returns an XML document describing the host's capabilties. func (l *Libvirt) Capabilities() ([]byte, error) { resp, err := l.request(constants.ProcConnectGetCapabilties, constants.ProgramRemote, nil) if err != nil { return nil, err } r := <-resp if r.Status != StatusOK { return nil, decodeError(r.Payload) } dec := xdr.NewDecoder(bytes.NewReader(r.Payload)) caps, _, err := dec.DecodeString() return []byte(caps), err } // Connect establishes communication with the libvirt server. // The underlying libvirt socket connection must be previously established. func (l *Libvirt) Connect() error { return l.connect() } // Disconnect shuts down communication with the libvirt server // and closes the underlying net.Conn. func (l *Libvirt) Disconnect() error { // close event streams for id := range l.events { if err := l.removeStream(id); err != nil { return err } } // inform libvirt we're done if err := l.disconnect(); err != nil { return err } return l.conn.Close() } // Domains returns a list of all domains managed by libvirt. func (l *Libvirt) Domains() ([]Domain, error) { // these are the flags as passed by `virsh`, defined in: // src/remote/remote_protocol.x # remote_connect_list_all_domains_args req := struct { NeedResults uint32 Flags uint32 }{ NeedResults: 1, Flags: 3, } buf, err := encode(&req) if err != nil { return nil, err } resp, err := l.request(constants.ProcConnectListAllDomains, constants.ProgramRemote, &buf) if err != nil { return nil, err } r := <-resp if r.Status != StatusOK { return nil, decodeError(r.Payload) } result := struct { Domains []Domain Count uint32 }{} dec := xdr.NewDecoder(bytes.NewReader(r.Payload)) _, err = dec.Decode(&result) if err != nil { return nil, err } return result.Domains, nil } // DomainCreateWithFlags starts specified domain with flags func (l *Libvirt) DomainCreateWithFlags(dom string, flags DomainCreateFlags) error { d, err := l.lookup(dom) if err != nil { return err } req := struct { Domain Domain Flags DomainCreateFlags }{ Domain: *d, Flags: flags, } buf, err := encode(&req) if err != nil { return err } resp, err := l.request(constants.ProcDomainCreateWithFlags, constants.ProgramRemote, &buf) if err != nil { return err } r := <-resp if r.Status != StatusOK { return decodeError(r.Payload) } return nil } // DomainMemoryStats returns memory stats of the domain managed by libvirt. func (l *Libvirt) DomainMemoryStats(dom string) ([]DomainMemoryStat, error) { d, err := l.lookup(dom) if err != nil { return nil, err } req := struct { Domain Domain MaxStats uint32 Flags uint32 }{ Domain: *d, MaxStats: 8, Flags: 0, } buf, err := encode(&req) if err != nil { return nil, err } resp, err := l.request(constants.ProcDomainMemoryStats, constants.ProgramRemote, &buf) if err != nil { return nil, err } r := <-resp result := struct { DomainMemoryStats []DomainMemoryStat }{} dec := xdr.NewDecoder(bytes.NewReader(r.Payload)) _, err = dec.Decode(&result) if err != nil { return nil, err } return result.DomainMemoryStats, nil } // DomainState returns state of the domain managed by libvirt. func (l *Libvirt) DomainState(dom string) (DomainState, error) { d, err := l.lookup(dom) if err != nil { return DomainStateNoState, err } req := struct { Domain Domain Flags uint32 }{ Domain: *d, Flags: 0, } buf, err := encode(&req) if err != nil { return DomainStateNoState, err } resp, err := l.request(constants.ProcDomainGetState, constants.ProgramRemote, &buf) if err != nil { return DomainStateNoState, err } r := <-resp if r.Status != StatusOK { return DomainStateNoState, decodeError(r.Payload) } result := struct { State uint32 Reason uint32 }{} dec := xdr.NewDecoder(bytes.NewReader(r.Payload)) _, err = dec.Decode(&result) if err != nil { return DomainStateNoState, err } return DomainState(result.State), nil } // Events streams domain events. // If a problem is encountered setting up the event monitor connection // an error will be returned. Errors encountered during streaming will // cause the returned event channel to be closed. func (l *Libvirt) Events(dom string) (<-chan DomainEvent, error) { d, err := l.lookup(dom) if err != nil { return nil, err } payload := struct { Padding [4]byte Domain Domain Event [2]byte Flags [2]byte }{ Padding: [4]byte{0x0, 0x0, 0x1, 0x0}, Domain: *d, Event: [2]byte{0x0, 0x0}, Flags: [2]byte{0x0, 0x0}, } buf, err := encode(&payload) if err != nil { return nil, err } resp, err := l.request(constants.QEMUConnectDomainMonitorEventRegister, constants.ProgramQEMU, &buf) if err != nil { return nil, err } res := <-resp if res.Status != StatusOK { err = decodeError(res.Payload) if err == ErrUnsupported { return nil, ErrEventsNotSupported } return nil, decodeError(res.Payload) } dec := xdr.NewDecoder(bytes.NewReader(res.Payload)) cbID, _, err := dec.DecodeUint() if err != nil { return nil, err } stream := make(chan *DomainEvent) l.addStream(cbID, stream) c := make(chan DomainEvent) go func() { // process events for e := range stream { c <- *e } }() return c, nil } // Migrate synchronously migrates the domain specified by dom, e.g., // 'prod-lb-01', to the destination hypervisor specified by dest, e.g., // 'qemu+tcp://example.com/system'. The flags argument determines the // type of migration and how it will be performed. For more information // on available migration flags and their meaning, see MigrateFlag*. func (l *Libvirt) Migrate(dom string, dest string, flags MigrateFlags) error { _, err := url.Parse(dest) if err != nil { return err } d, err := l.lookup(dom) if err != nil { return err } // Two unknowns remain here , Libvirt specifies RemoteParameters // and CookieIn. In testing both values are always set to 0 by virsh // and the source does not provide clear definitions of their purpose. // For now, using the same zero'd values as done by virsh will be Good Enough. payload := struct { Domain Domain Padding [4]byte DestinationURI string RemoteParameters uint32 CookieIn uint32 Flags MigrateFlags }{ Domain: *d, Padding: [4]byte{0x0, 0x0, 0x0, 0x1}, DestinationURI: dest, RemoteParameters: 0, CookieIn: 0, Flags: flags, } buf, err := encode(&payload) if err != nil { return err } resp, err := l.request(constants.ProcMigratePerformParams, constants.ProgramRemote, &buf) if err != nil { return err } r := <-resp if r.Status != StatusOK { return decodeError(r.Payload) } return nil } // MigrateSetMaxSpeed set the maximum migration bandwidth (in MiB/s) for a // domain which is being migrated to another host. Specifying a negative value // results in an essentially unlimited value being provided to the hypervisor. func (l *Libvirt) MigrateSetMaxSpeed(dom string, speed int64) error { d, err := l.lookup(dom) if err != nil { return err } payload := struct { Padding [4]byte Domain Domain Bandwidth int64 Flags uint32 }{ Padding: [4]byte{0x0, 0x0, 0x1, 0x0}, Domain: *d, Bandwidth: speed, } buf, err := encode(&payload) if err != nil { return err } resp, err := l.request(constants.ProcDomainMigrateSetMaxSpeed, constants.ProgramRemote, &buf) if err != nil { return err } r := <-resp if r.Status != StatusOK { return decodeError(r.Payload) } return nil } // Run executes the given QAPI command against a domain's QEMU instance. // For a list of available QAPI commands, see: // http://git.qemu.org/?p=qemu.git;a=blob;f=qapi-schema.json;hb=HEAD func (l *Libvirt) Run(dom string, cmd []byte) ([]byte, error) { d, err := l.lookup(dom) if err != nil { return nil, err } payload := struct { Domain Domain Command []byte Flags uint32 }{ Domain: *d, Command: cmd, Flags: 0, } buf, err := encode(&payload) if err != nil { return nil, err } resp, err := l.request(constants.QEMUDomainMonitor, constants.ProgramQEMU, &buf) if err != nil { return nil, err } res := <-resp // check for libvirt errors if res.Status != StatusOK { return nil, decodeError(res.Payload) } // check for QEMU process errors if err = getQEMUError(res); err != nil { return nil, err } r := bytes.NewReader(res.Payload) dec := xdr.NewDecoder(r) data, _, err := dec.DecodeFixedOpaque(int32(r.Len())) if err != nil { return nil, err } // drop QMP control characters from start of line, and drop // any trailing NULL characters from the end return bytes.TrimRight(data[4:], "\x00"), nil } // Secrets returns all secrets managed by the libvirt daemon. func (l *Libvirt) Secrets() ([]Secret, error) { req := struct { NeedResults uint32 Flags uint32 }{ NeedResults: 1, Flags: 0, // unused per libvirt source, callers should pass 0 } buf, err := encode(&req) if err != nil { return nil, err } resp, err := l.request(constants.ProcConnectListAllSecrets, constants.ProgramRemote, &buf) if err != nil { return nil, err } r := <-resp if r.Status != StatusOK { return nil, decodeError(r.Payload) } result := struct { Secrets []Secret Count uint32 }{} dec := xdr.NewDecoder(bytes.NewReader(r.Payload)) _, err = dec.Decode(&result) if err != nil { return nil, err } return result.Secrets, nil } // StoragePool returns the storage pool associated with the provided name. // An error is returned if the requested storage pool is not found. func (l *Libvirt) StoragePool(name string) (*StoragePool, error) { req := struct { Name string }{ Name: name, } buf, err := encode(&req) if err != nil { return nil, err } resp, err := l.request(constants.ProcStoragePoolLookupByName, constants.ProgramRemote, &buf) if err != nil { return nil, err } r := <-resp if r.Status != StatusOK { return nil, decodeError(r.Payload) } result := struct { Pool StoragePool }{} dec := xdr.NewDecoder(bytes.NewReader(r.Payload)) _, err = dec.Decode(&result) if err != nil { return nil, err } return &result.Pool, nil } // StoragePoolRefresh refreshes the storage pool specified by name. func (l *Libvirt) StoragePoolRefresh(name string) error { pool, err := l.StoragePool(name) if err != nil { return err } req := struct { Pool StoragePool Flags uint32 }{ Pool: *pool, Flags: 0, // unused per libvirt source, callers should pass 0 } buf, err := encode(&req) if err != nil { return err } resp, err := l.request(constants.ProcStoragePoolRefresh, constants.ProgramRemote, &buf) if err != nil { return err } r := <-resp if r.Status != StatusOK { return decodeError(r.Payload) } return nil } // StoragePools returns a list of defined storage pools. Pools are filtered by // the provided flags. See StoragePools*. func (l *Libvirt) StoragePools(flags StoragePoolsFlags) ([]StoragePool, error) { req := struct { NeedResults uint32 Flags StoragePoolsFlags }{ NeedResults: 1, Flags: flags, } buf, err := encode(&req) if err != nil { return nil, err } resp, err := l.request(constants.ProcConnectListAllStoragePools, constants.ProgramRemote, &buf) if err != nil { return nil, err } r := <-resp if r.Status != StatusOK { return nil, decodeError(r.Payload) } result := struct { Pools []StoragePool Count uint32 }{} dec := xdr.NewDecoder(bytes.NewReader(r.Payload)) _, err = dec.Decode(&result) if err != nil { return nil, err } return result.Pools, nil } // Undefine undefines the domain specified by dom, e.g., 'prod-lb-01'. // The flags argument allows additional options to be specified such as // cleaning up snapshot metadata. For more information on available // flags, see UndefineFlag*. func (l *Libvirt) Undefine(dom string, flags UndefineFlags) error { d, err := l.lookup(dom) if err != nil { return err } payload := struct { Domain Domain Flags UndefineFlags }{ Domain: *d, Flags: flags, } buf, err := encode(&payload) if err != nil { return err } resp, err := l.request(constants.ProcDomainUndefineFlags, constants.ProgramRemote, &buf) if err != nil { return err } r := <-resp if r.Status != StatusOK { return decodeError(r.Payload) } return nil } // Destroy destroys the domain specified by dom, e.g., 'prod-lb-01'. // The flags argument allows additional options to be specified such as // allowing a graceful shutdown with SIGTERM than SIGKILL. // For more information on available flags, see DestroyFlag*. func (l *Libvirt) Destroy(dom string, flags DestroyFlags) error { d, err := l.lookup(dom) if err != nil { return err } payload := struct { Domain Domain Flags DestroyFlags }{ Domain: *d, Flags: flags, } buf, err := encode(&payload) if err != nil { return err } resp, err := l.request(constants.ProcDomainDestroyFlags, constants.ProgramRemote, &buf) if err != nil { return err } r := <-resp if r.Status != StatusOK { return decodeError(r.Payload) } return nil } // XML returns a domain's raw XML definition, akin to `virsh dumpxml `. // See DomainXMLFlag* for optional flags. func (l *Libvirt) XML(dom string, flags DomainXMLFlags) ([]byte, error) { d, err := l.lookup(dom) if err != nil { return nil, err } payload := struct { Domain Domain Flags DomainXMLFlags }{ Domain: *d, Flags: flags, } buf, err := encode(&payload) if err != nil { return nil, err } resp, err := l.request(constants.ProcDomainGetXMLDesc, constants.ProgramRemote, &buf) if err != nil { return nil, err } r := <-resp if r.Status != StatusOK { return nil, decodeError(r.Payload) } pl := bytes.NewReader(r.Payload) dec := xdr.NewDecoder(pl) s, _, err := dec.DecodeString() if err != nil { return nil, err } return []byte(s), nil } // DefineXML defines a domain, but does not start it. func (l *Libvirt) DefineXML(x []byte, flags DomainDefineXMLFlags) error { payload := struct { Domain []byte Flags DomainDefineXMLFlags }{ Domain: x, Flags: flags, } buf, err := encode(&payload) if err != nil { return err } resp, err := l.request(constants.ProcDomainDefineXMLFlags, constants.ProgramRemote, &buf) if err != nil { return err } r := <-resp if r.Status != StatusOK { return decodeError(r.Payload) } return nil } // Version returns the version of the libvirt daemon. func (l *Libvirt) Version() (string, error) { resp, err := l.request(constants.ProcConnectGetLibVersion, constants.ProgramRemote, nil) if err != nil { return "", err } r := <-resp if r.Status != StatusOK { return "", decodeError(r.Payload) } result := struct { Version uint64 }{} dec := xdr.NewDecoder(bytes.NewReader(r.Payload)) _, err = dec.Decode(&result) if err != nil { return "", err } // The version is provided as an int following this formula: // version * 1,000,000 + minor * 1000 + micro // See src/libvirt-host.c # virConnectGetLibVersion major := result.Version / 1000000 result.Version %= 1000000 minor := result.Version / 1000 result.Version %= 1000 micro := result.Version versionString := fmt.Sprintf("%d.%d.%d", major, minor, micro) return versionString, nil } // Shutdown shuts down a domain. Note that the guest OS may ignore the request. // If flags is set to 0 then the hypervisor will choose the method of shutdown it considers best. func (l *Libvirt) Shutdown(dom string, flags ShutdownFlags) error { d, err := l.lookup(dom) if err != nil { return err } payload := struct { Domain Domain Flags ShutdownFlags }{ Domain: *d, Flags: flags, } buf, err := encode(&payload) if err != nil { return err } resp, err := l.request(constants.ProcDomainShutdownFlags, constants.ProgramRemote, &buf) if err != nil { return err } r := <-resp if r.Status != StatusOK { return decodeError(r.Payload) } return nil } // Reboot reboots the domain. Note that the guest OS may ignore the request. // If flags is set to zero, then the hypervisor will choose the method of shutdown it considers best. func (l *Libvirt) Reboot(dom string, flags RebootFlags) error { d, err := l.lookup(dom) if err != nil { return err } payload := struct { Domain Domain Flags RebootFlags }{ Domain: *d, Flags: flags, } buf, err := encode(&payload) if err != nil { return err } resp, err := l.request(constants.ProcDomainReboot, constants.ProgramRemote, &buf) if err != nil { return err } r := <-resp if r.Status != StatusOK { return decodeError(r.Payload) } return nil } // Reset resets domain immediately without any guest OS shutdown func (l *Libvirt) Reset(dom string) error { d, err := l.lookup(dom) if err != nil { return err } payload := struct { Domain Domain Flags uint32 }{ Domain: *d, Flags: 0, } buf, err := encode(&payload) if err != nil { return err } resp, err := l.request(constants.ProcDomainReset, constants.ProgramRemote, &buf) if err != nil { return err } r := <-resp if r.Status != StatusOK { return decodeError(r.Payload) } return nil } // BlockLimit contains a name and value pair for a Get/SetBlockIOTune limit. The // Name field is the name of the limit (to see a list of the limits that can be // applied, execute the 'blkdeviotune' command on a VM in virsh). Callers can // use the QEMUBlockIO... constants below for the Name value. The Value field is // the limit to apply. type BlockLimit struct { Name string Value uint64 } // BlockIOTune-able values. These tunables are different for different // hypervisors; currently only the tunables for QEMU are defined here. These are // not necessarily the only possible values; different libvirt versions may add // or remove parameters from this list. const ( QEMUBlockIOGroupName = "group_name" QEMUBlockIOTotalBytesSec = "total_bytes_sec" QEMUBlockIOReadBytesSec = "read_bytes_sec" QEMUBlockIOWriteBytesSec = "write_bytes_sec" QEMUBlockIOTotalIOPSSec = "total_iops_sec" QEMUBlockIOReadIOPSSec = "read_iops_sec" QEMUBlockIOWriteIOPSSec = "write_iops_sec" QEMUBlockIOTotalBytesSecMax = "total_bytes_sec_max" QEMUBlockIOReadBytesSecMax = "read_bytes_sec_max" QEMUBlockIOWriteBytesSecMax = "write_bytes_sec_max" QEMUBlockIOTotalIOPSSecMax = "total_iops_sec_max" QEMUBlockIOReadIOPSSecMax = "read_iops_sec_max" QEMUBlockIOWriteIOPSSecMax = "write_iops_sec_max" QEMUBlockIOSizeIOPSSec = "size_iops_sec" QEMUBlockIOTotalBytesSecMaxLength = "total_bytes_sec_max_length" QEMUBlockIOReadBytesSecMaxLength = "read_bytes_sec_max_length" QEMUBlockIOWriteBytesSecMaxLength = "write_bytes_sec_max_length" QEMUBlockIOTotalIOPSSecMaxLength = "total_iops_sec_max_length" QEMUBlockIOReadIOPSSecMaxLength = "read_iops_sec_max_length" QEMUBlockIOWriteIOPSSecMaxLength = "write_iops_sec_max_length" ) // SetBlockIOTune changes the per-device block I/O tunables within a guest. // Parameters are the name of the VM, the name of the disk device to which the // limits should be applied, and 1 or more BlockLimit structs containing the // actual limits. // // The limits which can be applied here are enumerated in the QEMUBlockIO... // constants above, and you can also see the full list by executing the // 'blkdeviotune' command on a VM in virsh. // // Example usage: // SetBlockIOTune("vm-name", "vda", BlockLimit{libvirt.QEMUBlockIOWriteBytesSec, 1000000}) func (l *Libvirt) SetBlockIOTune(dom string, disk string, limits ...BlockLimit) error { d, err := l.lookup(dom) if err != nil { return err } // https://libvirt.org/html/libvirt-libvirt-domain.html#virDomainSetBlockIoTune payload := struct { Domain Domain Disk string Params []TypedParam Flags DomainAffectFlags }{ Domain: *d, Disk: disk, Flags: FlagDomainAffectLive, } for _, limit := range limits { tp := NewTypedParamULongLong(limit.Name, limit.Value) payload.Params = append(payload.Params, tp) } buf, err := encode(&payload) if err != nil { return err } resp, err := l.request(constants.ProcDomainSetBlockIOTune, constants.ProgramRemote, &buf) if err != nil { return err } r := <-resp if r.Status != StatusOK { return decodeError(r.Payload) } return nil } // GetBlockIOTune returns a slice containing the current block I/O tunables for // a disk. func (l *Libvirt) GetBlockIOTune(dom string, disk string) ([]BlockLimit, error) { d, err := l.lookup(dom) if err != nil { return nil, err } payload := struct { Domain Domain Disk []string ParamCount uint32 Flags DomainAffectFlags }{ Domain: *d, Disk: []string{disk}, ParamCount: 32, Flags: FlagTypedParamStringOkay, } buf, err := encode(&payload) if err != nil { return nil, err } resp, err := l.request(constants.ProcDomainGetBlockIOTune, constants.ProgramRemote, &buf) if err != nil { return nil, err } r := <-resp if r.Status != StatusOK { return nil, decodeError(r.Payload) } var limits []BlockLimit rdr := bytes.NewReader(r.Payload) dec := xdr.NewDecoder(rdr) // find out how many params were returned paramCount, _, err := dec.DecodeInt() if err != nil { return nil, err } // now decode each of the returned TypedParams. To do this we read the field // name and type, then use the type information to decode the value. for param := int32(0); param < paramCount; param++ { // Get the field name name, _, err := dec.DecodeString() if err != nil { return nil, err } // ...and the type ptype, _, err := dec.DecodeInt() if err != nil { return nil, err } // Now we can read the actual value. switch ptype { case TypeParamULLong: var val uint64 _, err = dec.Decode(&val) if err != nil { return nil, err } lim := BlockLimit{name, val} limits = append(limits, lim) case TypeParamString: var val string _, err = dec.Decode(&val) if err != nil { return nil, err } // This routine doesn't currently return strings. As of libvirt 3+, // there's one string here, `group_name`. } } return limits, nil } // lookup returns a domain as seen by libvirt. func (l *Libvirt) lookup(name string) (*Domain, error) { payload := struct { Name string }{name} buf, err := encode(&payload) if err != nil { return nil, err } resp, err := l.request(constants.ProcDomainLookupByName, constants.ProgramRemote, &buf) if err != nil { return nil, err } r := <-resp if r.Status != StatusOK { return nil, decodeError(r.Payload) } dec := xdr.NewDecoder(bytes.NewReader(r.Payload)) var d Domain _, err = dec.Decode(&d) if err != nil { return nil, err } return &d, nil } // getQEMUError checks the provided response for QEMU process errors. // If an error is found, it is extracted an returned, otherwise nil. func getQEMUError(r response) error { pl := bytes.NewReader(r.Payload) dec := xdr.NewDecoder(pl) s, _, err := dec.DecodeString() if err != nil { return err } var e qemuError if err = json.Unmarshal([]byte(s), &e); err != nil { return err } if e.Error.Description != "" { return errors.New(e.Error.Description) } return nil } // New configures a new Libvirt RPC connection. func New(conn net.Conn) *Libvirt { l := &Libvirt{ conn: conn, s: 0, r: bufio.NewReader(conn), w: bufio.NewWriter(conn), callbacks: make(map[uint32]chan response), events: make(map[uint32]chan *DomainEvent), } go l.listen() return l }