zrepl/zfs/datasetpath_visitor.go
Christian Schwarz 8ff83f2f1a [#342] endpoint: always create unencrypted placeholder filesystems
This "breaks" the use case of receiving an unencrypted send into an encrypted receiver by setting the receiver's `root_fs`'s `encryption=on`.
"breaks" in air-quotes because we have not yet released a version of
zrepl with encrypted send support.

We will bring back the featured outlined above in a future release.
See https://github.com/zrepl/zrepl/issues/342#issuecomment-657231818 and following.
2020-07-26 20:32:35 +02:00

133 lines
2.7 KiB
Go

package zfs
type DatasetPathForest struct {
roots []*datasetPathTree
}
func NewDatasetPathForest() *DatasetPathForest {
return &DatasetPathForest{
make([]*datasetPathTree, 0),
}
}
func (f *DatasetPathForest) Add(p *DatasetPath) {
if len(p.comps) <= 0 {
panic("dataset path too short. must have length > 0")
}
// Find its root
var root *datasetPathTree
for _, r := range f.roots {
if r.Add(p.comps) {
root = r
break
}
}
if root == nil {
root = newDatasetPathTree(p.comps)
f.roots = append(f.roots, root)
}
}
type DatasetPathVisit struct {
Path *DatasetPath
// If true, the dataset referenced by Path was not in the list of datasets to traverse
FilledIn bool
Parent *DatasetPathVisit
}
type DatasetPathsVisitor func(v *DatasetPathVisit) (visitChildTree bool)
// Traverse a list of DatasetPaths top down, i.e. given a set of datasets with same
// path prefix, those with shorter prefix are traversed first.
// If there are gaps, i.e. the intermediary component a/b between a and a/b/c,
// those gaps are still visited but the FilledIn property of the visit is set to true.
func (f *DatasetPathForest) WalkTopDown(visitor DatasetPathsVisitor) {
for _, r := range f.roots {
r.WalkTopDown(&DatasetPathVisit{
Path: &DatasetPath{nil},
FilledIn: true,
Parent: nil,
}, visitor)
}
}
/* PRIVATE IMPLEMENTATION */
type datasetPathTree struct {
Component string
FilledIn bool
Children []*datasetPathTree
}
func (t *datasetPathTree) Add(p []string) bool {
if len(p) == 0 {
return true
}
if p[0] == t.Component {
remainder := p[1:]
if len(remainder) == 0 {
t.FilledIn = false
return true
}
for _, c := range t.Children {
if c.Add(remainder) {
return true
}
}
t.Children = append(t.Children, newDatasetPathTree(remainder))
return true
} else {
return false
}
}
func (t *datasetPathTree) WalkTopDown(parent *DatasetPathVisit, visitor DatasetPathsVisitor) {
thisVisitPath := parent.Path.Copy()
thisVisitPath.Extend(&DatasetPath{[]string{t.Component}})
thisVisit := &DatasetPathVisit{
thisVisitPath,
t.FilledIn,
parent,
}
visitChildTree := visitor(thisVisit)
if visitChildTree {
for _, c := range t.Children {
c.WalkTopDown(thisVisit, visitor)
}
}
}
func newDatasetPathTree(initialComps []string) (t *datasetPathTree) {
t = &datasetPathTree{}
cur := t
for i, comp := range initialComps {
cur.Component = comp
cur.FilledIn = true
cur.Children = make([]*datasetPathTree, 0, 1)
if i == len(initialComps)-1 {
cur.FilledIn = false // last component is not filled in
break
}
child := &datasetPathTree{}
cur.Children = append(cur.Children, child)
cur = child
}
return t
}