frostfs-node/pkg/services/object/util/chain.go
Leonard Lyubich 1c30414a6c [#1454] Upgrade NeoFS SDK Go module with new IDs
Core changes:
 * avoid package-colliding variable naming
 * avoid using pointers to IDs where unnecessary
 * avoid using `idSDK` import alias pattern
 * use `EncodeToString` for protocol string calculation and `String` for
  printing

Signed-off-by: Leonard Lyubich <leonard@nspcc.ru>
2022-06-01 17:41:45 +03:00

174 lines
4.3 KiB
Go

package util
import (
"errors"
"fmt"
"github.com/nspcc-dev/neofs-sdk-go/object"
oid "github.com/nspcc-dev/neofs-sdk-go/object/id"
)
// HeadReceiver is an interface of entity that can receive
// object header or the information about the object relations.
type HeadReceiver interface {
// Head must return one of:
// * object header (*object.Object);
// * structured information about split-chain (*object.SplitInfo).
Head(id oid.Address) (interface{}, error)
}
// SplitMemberHandler is a handler of next split-chain element.
//
// If reverseDirection arg is true, then the traversal is done in reverse order.
// Stop boolean result provides the ability to interrupt the traversal.
type SplitMemberHandler func(member *object.Object, reverseDirection bool) (stop bool)
// IterateAllSplitLeaves is an iterator over all object split-tree leaves in direct order.
func IterateAllSplitLeaves(r HeadReceiver, addr oid.Address, h func(*object.Object)) error {
return IterateSplitLeaves(r, addr, func(leaf *object.Object) bool {
h(leaf)
return false
})
}
// IterateSplitLeaves is an iterator over object split-tree leaves in direct order.
//
// If member handler returns true, then the iterator aborts without error.
func IterateSplitLeaves(r HeadReceiver, addr oid.Address, h func(*object.Object) bool) error {
var (
reverse bool
leaves []*object.Object
)
if err := TraverseSplitChain(r, addr, func(member *object.Object, reverseDirection bool) (stop bool) {
reverse = reverseDirection
if reverse {
leaves = append(leaves, member)
return false
}
return h(member)
}); err != nil {
return err
}
for i := len(leaves) - 1; i >= 0; i-- {
if h(leaves[i]) {
break
}
}
return nil
}
// TraverseSplitChain is an iterator over object split-tree leaves.
//
// Traversal occurs in one of two directions, which depends on what pslit info was received:
// * in direct order for link part;
// * in reverse order for last part.
func TraverseSplitChain(r HeadReceiver, addr oid.Address, h SplitMemberHandler) error {
_, err := traverseSplitChain(r, addr, h)
return err
}
func traverseSplitChain(r HeadReceiver, addr oid.Address, h SplitMemberHandler) (bool, error) {
v, err := r.Head(addr)
if err != nil {
return false, err
}
cnr := addr.Container()
switch res := v.(type) {
default:
panic(fmt.Sprintf("unexpected result of %T: %T", r, v))
case *object.Object:
return h(res, false), nil
case *object.SplitInfo:
link, withLink := res.Link()
last, withLast := res.LastPart()
switch {
default:
return false, errors.New("lack of split information")
case withLink:
var addr oid.Address
addr.SetContainer(cnr)
addr.SetObject(link)
chain := make([]oid.ID, 0)
if _, err := traverseSplitChain(r, addr, func(member *object.Object, reverseDirection bool) (stop bool) {
children := member.Children()
if reverseDirection {
chain = append(children, chain...)
} else {
chain = append(chain, children...)
}
return false
}); err != nil {
return false, err
}
var reverseChain []*object.Object
for i := range chain {
addr.SetObject(chain[i])
if stop, err := traverseSplitChain(r, addr, func(member *object.Object, reverseDirection bool) (stop bool) {
if !reverseDirection {
return h(member, false)
}
reverseChain = append(reverseChain, member)
return false
}); err != nil || stop {
return stop, err
}
}
for i := len(reverseChain) - 1; i >= 0; i-- {
if h(reverseChain[i], false) {
return true, nil
}
}
case withLast:
var addr oid.Address
addr.SetContainer(cnr)
for last, withLast = res.LastPart(); withLast; {
addr.SetObject(last)
var directChain []*object.Object
if _, err := traverseSplitChain(r, addr, func(member *object.Object, reverseDirection bool) (stop bool) {
if reverseDirection {
last, withLast = member.PreviousID()
return h(member, true)
}
directChain = append(directChain, member)
return false
}); err != nil {
return false, err
}
for i := len(directChain) - 1; i >= 0; i-- {
if h(directChain[i], true) {
return true, nil
}
}
if len(directChain) > 0 {
last, withLast = directChain[len(directChain)-1].PreviousID()
}
}
}
}
return false, nil
}