go-libzfs/zfs.go

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package zfs
// #include <stdlib.h>
// #include <libzfs.h>
// #include "common.h"
// #include "zpool.h"
// #include "zfs.h"
import "C"
import (
"errors"
"fmt"
"path"
"sort"
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"strings"
"time"
"unsafe"
)
const (
msgDatasetIsNil = "Dataset handle not initialized or its closed"
)
// DatasetProperties type is map of dataset or volume properties prop -> value
type DatasetProperties map[Prop]string
// DatasetType defines enum of dataset types
type DatasetType int32
const (
// DatasetTypeFilesystem - file system dataset
DatasetTypeFilesystem DatasetType = (1 << 0)
// DatasetTypeSnapshot - snapshot of dataset
DatasetTypeSnapshot = (1 << 1)
// DatasetTypeVolume - volume (virtual block device) dataset
DatasetTypeVolume = (1 << 2)
// DatasetTypePool - pool dataset
DatasetTypePool = (1 << 3)
// DatasetTypeBookmark - bookmark dataset
DatasetTypeBookmark = (1 << 4)
)
// HoldTag - user holds tags
type HoldTag struct {
Name string
Timestamp time.Time
}
// Dataset - ZFS dataset object
type Dataset struct {
list C.dataset_list_ptr
Type DatasetType
Properties map[Prop]Property
Children []Dataset
}
func (d *Dataset) openChildren() (err error) {
d.Children = make([]Dataset, 0, 5)
list := C.dataset_list_children(d.list)
for list != nil {
dataset := Dataset{list: list}
dataset.Type = DatasetType(C.dataset_type(d.list))
dataset.Properties = make(map[Prop]Property)
err = dataset.ReloadProperties()
if err != nil {
return
}
d.Children = append(d.Children, dataset)
list = C.dataset_next(list)
}
for ci := range d.Children {
if err = d.Children[ci].openChildren(); err != nil {
return
}
}
return
}
// DatasetOpenAll recursive get handles to all available datasets on system
// (file-systems, volumes or snapshots).
func DatasetOpenAll() (datasets []Dataset, err error) {
var dataset Dataset
dataset.list = C.dataset_list_root()
for dataset.list != nil {
dataset.Type = DatasetType(C.dataset_type(dataset.list))
err = dataset.ReloadProperties()
if err != nil {
return
}
datasets = append(datasets, dataset)
dataset.list = C.dataset_next(dataset.list)
}
for ci := range datasets {
if err = datasets[ci].openChildren(); err != nil {
return
}
}
return
}
// DatasetCloseAll close all datasets in slice and all of its recursive
// children datasets
func DatasetCloseAll(datasets []Dataset) {
for _, d := range datasets {
d.Close()
}
}
// DatasetOpen open dataset and all of its recursive children datasets
func DatasetOpen(path string) (d Dataset, err error) {
if d, err = DatasetOpenSingle(path); err != nil {
return
}
err = d.openChildren()
return
}
// DatasetOpenSingle open dataset without opening all of its recursive
// children datasets
func DatasetOpenSingle(path string) (d Dataset, err error) {
csPath := C.CString(path)
d.list = C.dataset_open(csPath)
C.free(unsafe.Pointer(csPath))
if d.list == nil || d.list.zh == nil {
err = LastError()
if err == nil {
err = fmt.Errorf("dataset not found")
}
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err = fmt.Errorf("%s - %s", err.Error(), path)
return
}
d.Type = DatasetType(C.dataset_type(d.list))
err = d.ReloadProperties()
if err != nil {
return
}
return
}
func datasetPropertiesTonvlist(props map[Prop]Property) (
cprops C.nvlist_ptr, err error) {
// convert properties to nvlist C type
cprops = C.new_property_nvlist()
if cprops == nil {
err = errors.New("Failed to allocate properties")
return
}
for prop, value := range props {
csValue := C.CString(value.Value)
r := C.property_nvlist_add(
cprops, C.zfs_prop_to_name(C.zfs_prop_t(prop)), csValue)
C.free(unsafe.Pointer(csValue))
if r != 0 {
err = errors.New("Failed to convert property")
return
}
}
return
}
// DatasetCreate create a new filesystem or volume on path representing
// pool/dataset or pool/parent/dataset
func DatasetCreate(path string, dtype DatasetType,
props map[Prop]Property) (d Dataset, err error) {
var cprops C.nvlist_ptr
if cprops, err = datasetPropertiesTonvlist(props); err != nil {
return
}
defer C.nvlist_free(cprops)
csPath := C.CString(path)
errcode := C.dataset_create(csPath, C.zfs_type_t(dtype), cprops)
C.free(unsafe.Pointer(csPath))
if errcode != 0 {
err = LastError()
return
}
return DatasetOpen(path)
}
// Close close dataset and all its recursive children datasets (close handle
// and cleanup dataset object/s from memory)
func (d *Dataset) Close() {
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// path, _ := d.Path()
Global.Mtx.Lock()
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C.dataset_list_close(d.list)
d.list = nil
Global.Mtx.Unlock()
for _, cd := range d.Children {
cd.Close()
}
}
// reOpen - close and open dataset. Not thread safe!
func (d *Dataset) reOpen() (err error) {
d.Close()
*d, err = DatasetOpen(d.Properties[DatasetPropName].Value)
return
}
// Destroy destroys the dataset. The caller must make sure that the filesystem
// isn't mounted, and that there are no active dependents. Set Defer argument
// to true to defer destruction for when dataset is not in use. Call Close() to
// cleanup memory.
func (d *Dataset) Destroy(Defer bool) (err error) {
if len(d.Children) > 0 {
path, e := d.Path()
if e != nil {
return
}
dsType, e := d.GetProperty(DatasetPropType)
if e != nil {
dsType.Value = err.Error() // just put error (why it didn't fetch property type)
}
err = errors.New("Cannot destroy dataset " + path +
": " + dsType.Value + " has children")
return
}
if d.list != nil {
if ec := C.dataset_destroy(d.list, booleanT(Defer)); ec != 0 {
err = LastError()
}
} else {
err = errors.New(msgDatasetIsNil)
}
return
}
// IsSnapshot - retrun true if datset is snapshot
func (d *Dataset) IsSnapshot() (ok bool) {
path := d.Properties[DatasetPropName].Value
ok = (d.Type == DatasetTypeSnapshot || strings.Contains(path, "@"))
return
}
// DestroyRecursive recursively destroy children of dataset and dataset.
func (d *Dataset) DestroyRecursive() (err error) {
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var path string
if path, err = d.Path(); err != nil {
return
}
if !strings.Contains(path, "@") { // not snapshot
if len(d.Children) > 0 {
for _, c := range d.Children {
if err = c.DestroyRecursive(); err != nil {
return
}
// close handle to destroyed child dataset
c.Close()
}
// clear closed children array
d.Children = make([]Dataset, 0)
}
err = d.Destroy(false)
} else {
var parent Dataset
tmp := strings.Split(path, "@")
ppath, snapname := tmp[0], tmp[1]
if parent, err = DatasetOpen(ppath); err != nil {
return
}
defer parent.Close()
if len(parent.Children) > 0 {
for _, c := range parent.Children {
if path, err = c.Path(); err != nil {
return
}
if strings.Contains(path, "@") {
continue // skip other snapshots
}
if c, err = DatasetOpen(path + "@" + snapname); err != nil {
continue
}
if err = c.DestroyRecursive(); err != nil {
c.Close()
return
}
c.Close()
}
}
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err = d.Destroy(false)
}
return
}
// Pool returns pool dataset belongs to
func (d *Dataset) Pool() (p Pool, err error) {
if d.list == nil {
err = errors.New(msgDatasetIsNil)
return
}
p.list = C.dataset_get_pool(d.list)
if p.list != nil && p.list.zph != nil {
err = p.ReloadProperties()
return
}
err = LastError()
return
}
// PoolName - return name of the pool
func (d *Dataset) PoolName() string {
path := d.Properties[DatasetPropName].Value
i := strings.Index(path, "/")
if i < 0 {
return path
}
return path[0:i]
}
// ReloadProperties re-read dataset's properties
func (d *Dataset) ReloadProperties() (err error) {
Global.Mtx.Lock()
defer Global.Mtx.Unlock()
if d.list == nil {
err = errors.New(msgDatasetIsNil)
return
}
d.Properties = make(map[Prop]Property)
C.zfs_refresh_properties(d.list.zh)
for prop := DatasetPropType; prop < DatasetNumProps; prop++ {
plist := C.read_dataset_property(d.list, C.int(prop))
if plist == nil {
continue
}
d.Properties[prop] = Property{Value: C.GoString(&(*plist).value[0]),
Source: C.GoString(&(*plist).source[0])}
C.free_properties(plist)
}
return
}
// GetProperty reload and return single specified property. This also reloads requested
// property in Properties map.
func (d *Dataset) GetProperty(p Prop) (prop Property, err error) {
Global.Mtx.Lock()
defer Global.Mtx.Unlock()
if d.list == nil {
err = errors.New(msgDatasetIsNil)
return
}
plist := C.read_dataset_property(d.list, C.int(p))
if plist == nil {
err = LastError()
return
}
defer C.free_properties(plist)
prop = Property{Value: C.GoString(&(*plist).value[0]),
Source: C.GoString(&(*plist).source[0])}
d.Properties[p] = prop
return
}
// GetUserProperty - lookup and return user propery
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func (d *Dataset) GetUserProperty(p string) (prop Property, err error) {
Global.Mtx.Lock()
defer Global.Mtx.Unlock()
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if d.list == nil {
err = errors.New(msgDatasetIsNil)
return
}
csp := C.CString(p)
defer C.free(unsafe.Pointer(csp))
plist := C.read_user_property(d.list, csp)
if plist == nil {
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err = LastError()
return
}
defer C.free_properties(plist)
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prop = Property{Value: C.GoString(&(*plist).value[0]),
Source: C.GoString(&(*plist).source[0])}
return
}
// SetProperty set ZFS dataset property to value. Not all properties can be set,
// some can be set only at creation time and some are read only.
// Always check if returned error and its description.
func (d *Dataset) SetProperty(p Prop, value string) (err error) {
Global.Mtx.Lock()
defer Global.Mtx.Unlock()
if d.list == nil {
err = errors.New(msgDatasetIsNil)
return
}
csValue := C.CString(value)
errcode := C.dataset_prop_set(d.list, C.zfs_prop_t(p), csValue)
C.free(unsafe.Pointer(csValue))
if errcode != 0 {
err = LastError()
return
}
// Update Properties member with change made
plist := C.read_dataset_property(d.list, C.int(p))
if plist == nil {
err = LastError()
return
}
defer C.free_properties(plist)
d.Properties[p] = Property{Value: C.GoString(&(*plist).value[0]),
Source: C.GoString(&(*plist).source[0])}
return
}
// SetUserProperty -
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func (d *Dataset) SetUserProperty(prop, value string) (err error) {
Global.Mtx.Lock()
defer Global.Mtx.Unlock()
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if d.list == nil {
err = errors.New(msgDatasetIsNil)
return
}
csValue := C.CString(value)
csProp := C.CString(prop)
errcode := C.dataset_user_prop_set(d.list, csProp, csValue)
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C.free(unsafe.Pointer(csValue))
C.free(unsafe.Pointer(csProp))
if errcode != 0 {
err = LastError()
}
return
}
// Clone - clones the dataset. The target must be of the same type as
// the source.
func (d *Dataset) Clone(target string, props map[Prop]Property) (rd Dataset, err error) {
var cprops C.nvlist_ptr
if d.list == nil {
err = errors.New(msgDatasetIsNil)
return
}
if cprops, err = datasetPropertiesTonvlist(props); err != nil {
return
}
defer C.nvlist_free(cprops)
csTarget := C.CString(target)
defer C.free(unsafe.Pointer(csTarget))
if errc := C.dataset_clone(d.list, csTarget, cprops); errc != 0 {
err = LastError()
return
}
rd, err = DatasetOpen(target)
return
}
// DatasetSnapshot create dataset snapshot. Set recur to true to snapshot child datasets.
func DatasetSnapshot(path string, recur bool, props map[Prop]Property) (rd Dataset, err error) {
var cprops C.nvlist_ptr
if cprops, err = datasetPropertiesTonvlist(props); err != nil {
return
}
defer C.nvlist_free(cprops)
csPath := C.CString(path)
defer C.free(unsafe.Pointer(csPath))
if errc := C.dataset_snapshot(csPath, booleanT(recur), cprops); errc != 0 {
err = LastError()
return
}
rd, err = DatasetOpen(path)
return
}
// Path return zfs dataset path/name
func (d *Dataset) Path() (path string, err error) {
if d.list == nil {
err = errors.New(msgDatasetIsNil)
return
}
name := C.dataset_get_name(d.list)
path = C.GoString(name)
return
}
// Rollback rollabck's dataset snapshot
func (d *Dataset) Rollback(snap *Dataset, force bool) (err error) {
if d.list == nil {
err = errors.New(msgDatasetIsNil)
return
}
if errc := C.dataset_rollback(d.list, snap.list, booleanT(force)); errc != 0 {
err = LastError()
return
}
d.ReloadProperties()
return
}
// Promote promotes dataset clone
func (d *Dataset) Promote() (err error) {
if d.list == nil {
err = errors.New(msgDatasetIsNil)
return
}
if errc := C.dataset_promote(d.list); errc != 0 {
err = LastError()
return
}
d.ReloadProperties()
return
}
// Rename dataset
func (d *Dataset) Rename(newName string, recur,
forceUnmount bool) (err error) {
if d.list == nil {
err = errors.New(msgDatasetIsNil)
return
}
csNewName := C.CString(newName)
defer C.free(unsafe.Pointer(csNewName))
if errc := C.dataset_rename(d.list, csNewName,
booleanT(recur), booleanT(forceUnmount)); errc != 0 {
err = LastError()
return
}
d.ReloadProperties()
return
}
// IsMounted checks to see if the mount is active. If the filesystem is mounted,
// sets in 'where' argument the current mountpoint, and returns true. Otherwise,
// returns false.
func (d *Dataset) IsMounted() (mounted bool, where string) {
if d.list == nil {
return
}
Global.Mtx.Lock()
defer Global.Mtx.Unlock()
mp := C.dataset_is_mounted(d.list)
// defer C.free(mp)
if mounted = (mp != nil); mounted {
where = C.GoString(mp)
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C.free(unsafe.Pointer(mp))
}
return
}
// Mount the given filesystem.
func (d *Dataset) Mount(options string, flags int) (err error) {
Global.Mtx.Lock()
defer Global.Mtx.Unlock()
if d.list == nil {
err = errors.New(msgDatasetIsNil)
return
}
csOptions := C.CString(options)
defer C.free(unsafe.Pointer(csOptions))
if ec := C.dataset_mount(d.list, csOptions, C.int(flags)); ec != 0 {
err = LastError()
}
return
}
// Unmount the given filesystem.
func (d *Dataset) Unmount(flags int) (err error) {
if d.list == nil {
err = errors.New(msgDatasetIsNil)
return
}
if ec := C.dataset_unmount(d.list, C.int(flags)); ec != 0 {
err = LastError()
}
return
}
// UnmountAll unmount this filesystem and any children inheriting the
// mountpoint property.
func (d *Dataset) UnmountAll(flags int) (err error) {
if d.list == nil {
err = errors.New(msgDatasetIsNil)
return
}
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// This is implemented recursive because zfs_unmountall() didn't work
if len(d.Children) > 0 {
for _, c := range d.Children {
if err = c.UnmountAll(flags); err != nil {
return
}
}
}
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return d.Unmount(flags)
}
// Hold - Adds a single reference, named with the tag argument, to the snapshot.
// Each snapshot has its own tag namespace, and tags must be unique within that space.
func (d *Dataset) Hold(flag string) (err error) {
var path string
var pd Dataset
if path, err = d.Path(); err != nil {
return
}
if !strings.Contains(path, "@") {
err = fmt.Errorf("'%s' is not a snapshot", path)
return
}
pd, err = DatasetOpenSingle(path[:strings.Index(path, "@")])
if err != nil {
return
}
defer pd.Close()
csSnapName := C.CString(path[strings.Index(path, "@")+1:])
defer C.free(unsafe.Pointer(csSnapName))
csFlag := C.CString(flag)
defer C.free(unsafe.Pointer(csFlag))
if 0 != C.zfs_hold(pd.list.zh, csSnapName, csFlag, booleanT(false), -1) {
err = LastError()
}
return
}
// Release - Removes a single reference, named with the tag argument, from the specified snapshot.
// The tag must already exist for each snapshot. If a hold exists on a snapshot, attempts to destroy
// that snapshot by using the zfs destroy command return EBUSY.
func (d *Dataset) Release(flag string) (err error) {
var path string
var pd Dataset
if path, err = d.Path(); err != nil {
return
}
if !strings.Contains(path, "@") {
err = fmt.Errorf("'%s' is not a snapshot", path)
return
}
pd, err = DatasetOpenSingle(path[:strings.Index(path, "@")])
if err != nil {
return
}
defer pd.Close()
csSnapName := C.CString(path[strings.Index(path, "@")+1:])
defer C.free(unsafe.Pointer(csSnapName))
csFlag := C.CString(flag)
defer C.free(unsafe.Pointer(csFlag))
if 0 != C.zfs_release(pd.list.zh, csSnapName, csFlag, booleanT(false)) {
err = LastError()
}
return
}
// Holds - Lists all existing user references for the given snapshot
func (d *Dataset) Holds() (tags []HoldTag, err error) {
var nvl *C.nvlist_t
var nvp *C.nvpair_t
var tu64 C.uint64_t
var path string
if path, err = d.Path(); err != nil {
return
}
if !strings.Contains(path, "@") {
err = fmt.Errorf("'%s' is not a snapshot", path)
return
}
if 0 != C.zfs_get_holds(d.list.zh, &nvl) {
err = LastError()
return
}
defer C.nvlist_free(nvl)
tags = make([]HoldTag, 0, 5)
for nvp = C.nvlist_next_nvpair(nvl, nvp); nvp != nil; {
tag := C.nvpair_name(nvp)
C.nvpair_value_uint64(nvp, &tu64)
tags = append(tags, HoldTag{
Name: C.GoString(tag),
Timestamp: time.Unix(int64(tu64), 0),
})
nvp = C.nvlist_next_nvpair(nvl, nvp)
}
return
}
// DatasetPropertyToName convert property to name
// ( returns built in string representation of property name).
// This is optional, you can represent each property with string
// name of choice.
func DatasetPropertyToName(p Prop) (name string) {
if p == DatasetNumProps {
return "numofprops"
}
prop := C.zfs_prop_t(p)
name = C.GoString(C.zfs_prop_to_name(prop))
return
}
// DestroyPromote - Same as DestroyRecursive() except it will not destroy
// any dependent clones, but promote them first.
// This function will navigate any dependency chain
// of cloned datasets using breadth first search to promote according and let
// you remove dataset regardless of its cloned dependencies.
// Note: that this function wan't work when you want to destroy snapshot this way.
// However it will destroy all snaphsot of destroyed dataset without dependencies,
// otherwise snapshot will move to promoted clone
func (d *Dataset) DestroyPromote() (err error) {
var snaps []Dataset
var clones []string
// We need to save list of child snapshots, to destroy them latter
// since they will be moved to promoted clone
var psnaps []string
if clones, err = d.Clones(); err != nil {
return
}
if len(clones) > 0 {
var cds Dataset
// For this to always work we need to promote youngest clone
// in terms of most recent origin snapshot or creation time if
// cloned from same snapshot
if cds, err = DatasetOpen(clones[0]); err != nil {
return
}
defer cds.Close()
// since promote will move the snapshots to promoted dataset
// we need to check and resolve possible name conflicts
if snaps, err = d.Snapshots(); err != nil {
return
}
for _, s := range snaps {
spath := s.Properties[DatasetPropName].Value
sname := spath[strings.Index(spath, "@"):]
// conflict and resolve
if ok, _ := cds.FindSnapshotName(sname); ok {
// snapshot with the same name already exist
volname := path.Base(spath[:strings.Index(spath, "@")])
sname = sname + "." + volname
if err = s.Rename(spath+"."+volname, false, true); err != nil {
return
}
}
psnaps = append(psnaps, sname)
}
if err = cds.Promote(); err != nil {
return
}
}
// destroy child datasets, since this works recursive
for _, cd := range d.Children {
if err = cd.DestroyPromote(); err != nil {
return
}
}
d.Children = make([]Dataset, 0)
if err = d.Destroy(false); err != nil {
return
}
// Load with new promoted snapshots
if len(clones) > 0 && len(psnaps) > 0 {
var cds Dataset
if cds, err = DatasetOpen(clones[0]); err != nil {
return
}
defer cds.Close()
// try to destroy (promoted) snapshots now
for _, sname := range psnaps {
if ok, snap := cds.FindSnapshotName(sname); ok {
snap.Destroy(false)
}
}
}
return
}
// Snapshots - filter and return all snapshots of dataset
func (d *Dataset) Snapshots() (snaps []Dataset, err error) {
for _, ch := range d.Children {
if !ch.IsSnapshot() {
continue
}
snaps = append(snaps, ch)
}
return
}
// FindSnapshot - returns true if given path is one of dataset snaphsots
func (d *Dataset) FindSnapshot(path string) (ok bool, snap Dataset) {
for _, ch := range d.Children {
if !ch.IsSnapshot() {
continue
}
if ok = (path == ch.Properties[DatasetPropName].Value); ok {
snap = ch
break
}
}
return
}
// FindSnapshotName - returns true and snapshot if given snapshot
// name eg. '@snap1' is one of dataset snaphsots
func (d *Dataset) FindSnapshotName(name string) (ok bool, snap Dataset) {
return d.FindSnapshot(d.Properties[DatasetPropName].Value + name)
}
// Clones - get list of all dataset paths cloned from this
// dataset or this snapshot
// List is sorted descedent by origin snapshot order
func (d *Dataset) Clones() (clones []string, err error) {
// Clones can only live on same pool
var root Dataset
var sortDesc []Dataset
if root, err = DatasetOpen(d.PoolName()); err != nil {
return
}
defer root.Close()
dIsSnapshot := d.IsSnapshot()
// USe breadth first search to find all clones
queue := make(chan Dataset, 1024)
defer close(queue) // This will close and cleanup all
queue <- root // start from the root element
for {
select {
case ds := <-queue: // pull from queue (breadth first search)
for _, ch := range ds.Children {
origin := ch.Properties[DatasetPropOrigin].Value
if len(origin) > 0 {
if dIsSnapshot && origin == d.Properties[DatasetPropName].Value {
// if this dataset is snaphot
ch.Properties[DatasetNumProps+1000] = d.Properties[DatasetPropCreateTXG]
sortDesc = append(sortDesc, ch)
} else {
// Check if origin of this dataset is one of snapshots
ok, snap := d.FindSnapshot(origin)
if !ok {
continue
}
ch.Properties[DatasetNumProps+1000] = snap.Properties[DatasetPropCreateTXG]
sortDesc = append(sortDesc, ch)
}
}
queue <- ch
}
default:
sort.Sort(clonesCreateDesc(sortDesc))
// This way we get clones ordered from most recent sanpshots first
for _, c := range sortDesc {
clones = append(clones, c.Properties[DatasetPropName].Value)
}
return
}
}
return
}