frostfs-node/pkg/local_object_storage/pilorama/forest.go

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package pilorama
import (
"bytes"
"context"
"errors"
"fmt"
"sort"
"strings"
"git.frostfs.info/TrueCloudLab/frostfs-node/pkg/local_object_storage/shard/mode"
cid "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/container/id"
)
var errInvalidKeyFormat = errors.New("invalid format: key must be cid and treeID")
// memoryForest represents multiple replicating trees sharing a single storage.
type memoryForest struct {
// treeMap maps tree identifier (container ID + name) to the replicated log.
treeMap map[string]*memoryTree
}
var _ Forest = (*memoryForest)(nil)
// NewMemoryForest creates new empty forest.
// TODO: this function will eventually be removed and is here for debugging.
func NewMemoryForest() ForestStorage {
return &memoryForest{
treeMap: make(map[string]*memoryTree),
}
}
// TreeMove implements the Forest interface.
func (f *memoryForest) TreeMove(_ context.Context, d CIDDescriptor, treeID string, op *Move) (*Move, error) {
if !d.checkValid() {
return nil, ErrInvalidCIDDescriptor
}
fullID := d.CID.String() + "/" + treeID
s, ok := f.treeMap[fullID]
if !ok {
s = newMemoryTree()
f.treeMap[fullID] = s
}
op.Time = s.timestamp(d.Position, d.Size)
if op.Child == RootID {
op.Child = s.findSpareID()
}
lm := s.do(op)
s.operations = append(s.operations, lm)
return &lm.Move, nil
}
// TreeAddByPath implements the Forest interface.
func (f *memoryForest) TreeAddByPath(_ context.Context, d CIDDescriptor, treeID string, attr string, path []string, m []KeyValue) ([]Move, error) {
if !d.checkValid() {
return nil, ErrInvalidCIDDescriptor
}
if !isAttributeInternal(attr) {
return nil, ErrNotPathAttribute
}
fullID := d.CID.String() + "/" + treeID
s, ok := f.treeMap[fullID]
if !ok {
s = newMemoryTree()
f.treeMap[fullID] = s
}
i, node := s.getPathPrefix(attr, path)
lm := make([]Move, len(path)-i+1)
for j := i; j < len(path); j++ {
op := s.do(&Move{
Parent: node,
Meta: Meta{
Time: s.timestamp(d.Position, d.Size),
Items: []KeyValue{{Key: attr, Value: []byte(path[j])}},
},
Child: s.findSpareID(),
})
lm[j-i] = op.Move
node = op.Child
s.operations = append(s.operations, op)
}
mCopy := make([]KeyValue, len(m))
copy(mCopy, m)
op := s.do(&Move{
Parent: node,
Meta: Meta{
Time: s.timestamp(d.Position, d.Size),
Items: mCopy,
},
Child: s.findSpareID(),
})
s.operations = append(s.operations, op)
lm[len(lm)-1] = op.Move
return lm, nil
}
// TreeApply implements the Forest interface.
func (f *memoryForest) TreeApply(_ context.Context, cnr cid.ID, treeID string, op *Move, _ bool) error {
fullID := cnr.String() + "/" + treeID
s, ok := f.treeMap[fullID]
if !ok {
s = newMemoryTree()
f.treeMap[fullID] = s
}
return s.Apply(op)
}
func (f *memoryForest) Init() error {
return nil
}
func (f *memoryForest) Open(context.Context, mode.Mode) error {
return nil
}
func (f *memoryForest) SetMode(mode.Mode) error {
return nil
}
func (f *memoryForest) Close() error {
return nil
}
func (f *memoryForest) SetParentID(string) {}
// TreeGetByPath implements the Forest interface.
func (f *memoryForest) TreeGetByPath(_ context.Context, cid cid.ID, treeID string, attr string, path []string, latest bool) ([]Node, error) {
if !isAttributeInternal(attr) {
return nil, ErrNotPathAttribute
}
fullID := cid.String() + "/" + treeID
s, ok := f.treeMap[fullID]
if !ok {
return nil, ErrTreeNotFound
}
return s.getByPath(attr, path, latest), nil
}
// TreeGetMeta implements the Forest interface.
func (f *memoryForest) TreeGetMeta(_ context.Context, cid cid.ID, treeID string, nodeID Node) (Meta, Node, error) {
fullID := cid.String() + "/" + treeID
s, ok := f.treeMap[fullID]
if !ok {
return Meta{}, 0, ErrTreeNotFound
}
return s.infoMap[nodeID].Meta, s.infoMap[nodeID].Parent, nil
}
// TreeSortedByFilename implements the Forest interface.
func (f *memoryForest) TreeSortedByFilename(_ context.Context, cid cid.ID, treeID string, nodeIDs MultiNode, start *string, count int) ([]MultiNodeInfo, *string, error) {
fullID := cid.String() + "/" + treeID
s, ok := f.treeMap[fullID]
if !ok {
return nil, start, ErrTreeNotFound
}
if count == 0 {
return nil, start, nil
}
var res []NodeInfo
for _, nodeID := range nodeIDs {
children := s.tree.getChildren(nodeID)
for _, childID := range children {
var found bool
for _, kv := range s.infoMap[childID].Meta.Items {
if kv.Key == AttributeFilename {
found = true
break
}
}
if !found {
continue
}
res = append(res, NodeInfo{
ID: childID,
Meta: s.infoMap[childID].Meta,
ParentID: s.infoMap[childID].Parent,
})
}
}
if len(res) == 0 {
return nil, start, nil
}
sort.Slice(res, func(i, j int) bool {
return bytes.Compare(res[i].Meta.GetAttr(AttributeFilename), res[j].Meta.GetAttr(AttributeFilename)) == -1
})
r := mergeNodeInfos(res)
for i := range r {
if start == nil || string(findAttr(r[i].Meta, AttributeFilename)) > *start {
finish := i + count
if len(res) < finish {
finish = len(res)
}
last := string(findAttr(r[finish-1].Meta, AttributeFilename))
return r[i:finish], &last, nil
}
}
last := string(res[len(res)-1].Meta.GetAttr(AttributeFilename))
return nil, &last, nil
}
// TreeGetChildren implements the Forest interface.
func (f *memoryForest) TreeGetChildren(_ context.Context, cid cid.ID, treeID string, nodeID Node) ([]NodeInfo, error) {
fullID := cid.String() + "/" + treeID
s, ok := f.treeMap[fullID]
if !ok {
return nil, ErrTreeNotFound
}
children := s.tree.getChildren(nodeID)
res := make([]NodeInfo, 0, len(children))
for _, childID := range children {
res = append(res, NodeInfo{
ID: childID,
Meta: s.infoMap[childID].Meta,
ParentID: s.infoMap[childID].Parent,
})
}
return res, nil
}
// TreeGetOpLog implements the pilorama.Forest interface.
func (f *memoryForest) TreeGetOpLog(_ context.Context, cid cid.ID, treeID string, height uint64) (Move, error) {
fullID := cid.String() + "/" + treeID
s, ok := f.treeMap[fullID]
if !ok {
return Move{}, ErrTreeNotFound
}
n := sort.Search(len(s.operations), func(i int) bool {
return s.operations[i].Time >= height
})
if n == len(s.operations) {
return Move{}, nil
}
return s.operations[n].Move, nil
}
// TreeDrop implements the pilorama.Forest interface.
func (f *memoryForest) TreeDrop(_ context.Context, cid cid.ID, treeID string) error {
cidStr := cid.String()
if treeID == "" {
for k := range f.treeMap {
if strings.HasPrefix(k, cidStr) {
delete(f.treeMap, k)
}
}
} else {
fullID := cidStr + "/" + treeID
_, ok := f.treeMap[fullID]
if !ok {
return ErrTreeNotFound
}
delete(f.treeMap, fullID)
}
return nil
}
// TreeList implements the pilorama.Forest interface.
func (f *memoryForest) TreeList(_ context.Context, cid cid.ID) ([]string, error) {
var res []string
cidStr := cid.EncodeToString()
for k := range f.treeMap {
cidAndTree := strings.Split(k, "/")
if cidAndTree[0] != cidStr {
continue
}
res = append(res, cidAndTree[1])
}
return res, nil
}
func (f *memoryForest) TreeHeight(_ context.Context, cid cid.ID, treeID string) (uint64, error) {
fullID := cid.EncodeToString() + "/" + treeID
tree, ok := f.treeMap[fullID]
if !ok {
return 0, ErrTreeNotFound
}
return tree.operations[len(tree.operations)-1].Time, nil
}
// TreeExists implements the pilorama.Forest interface.
func (f *memoryForest) TreeExists(_ context.Context, cid cid.ID, treeID string) (bool, error) {
fullID := cid.EncodeToString() + "/" + treeID
_, ok := f.treeMap[fullID]
return ok, nil
}
// TreeUpdateLastSyncHeight implements the pilorama.Forest interface.
func (f *memoryForest) TreeUpdateLastSyncHeight(_ context.Context, cid cid.ID, treeID string, height uint64) error {
fullID := cid.EncodeToString() + "/" + treeID
t, ok := f.treeMap[fullID]
if !ok {
return ErrTreeNotFound
}
t.syncHeight = height
return nil
}
// TreeLastSyncHeight implements the pilorama.Forest interface.
func (f *memoryForest) TreeLastSyncHeight(_ context.Context, cid cid.ID, treeID string) (uint64, error) {
fullID := cid.EncodeToString() + "/" + treeID
t, ok := f.treeMap[fullID]
if !ok {
return 0, ErrTreeNotFound
}
return t.syncHeight, nil
}
// TreeListTrees implements Forest.
func (f *memoryForest) TreeListTrees(_ context.Context, prm TreeListTreesPrm) (*TreeListTreesResult, error) {
batchSize := prm.BatchSize
if batchSize <= 0 {
batchSize = treeListTreesBatchSizeDefault
}
tmpSlice := make([]string, 0, len(f.treeMap))
for k := range f.treeMap {
tmpSlice = append(tmpSlice, k)
}
sort.Strings(tmpSlice)
var idx int
if len(prm.NextPageToken) > 0 {
last := string(prm.NextPageToken)
idx, _ = sort.Find(len(tmpSlice), func(i int) int {
return -1 * strings.Compare(tmpSlice[i], last)
})
if idx == len(tmpSlice) {
return &TreeListTreesResult{}, nil
}
if tmpSlice[idx] == last {
idx++
}
}
var result TreeListTreesResult
for idx < len(tmpSlice) {
cidAndTree := strings.Split(tmpSlice[idx], "/")
if len(cidAndTree) != 2 {
return nil, errInvalidKeyFormat
}
var contID cid.ID
if err := contID.DecodeString(cidAndTree[0]); err != nil {
return nil, fmt.Errorf("invalid format: %w", err)
}
result.Items = append(result.Items, ContainerIDTreeID{
CID: contID,
TreeID: cidAndTree[1],
})
if len(result.Items) == batchSize {
result.NextPageToken = []byte(tmpSlice[idx])
break
}
idx++
}
return &result, nil
}
// TreeApplyStream implements ForestStorage.
func (f *memoryForest) TreeApplyStream(ctx context.Context, cnr cid.ID, treeID string, source <-chan *Move) error {
fullID := cnr.String() + "/" + treeID
s, ok := f.treeMap[fullID]
if !ok {
s = newMemoryTree()
f.treeMap[fullID] = s
}
for {
select {
case <-ctx.Done():
return ctx.Err()
case m, ok := <-source:
if !ok {
return nil
}
if e := s.Apply(m); e != nil {
return e
}
}
}
}