storj/storage/teststore/store.go
JT Olio f1641af802 storage: add monkit task to missing places (#2122)
* storage: add monkit task to missing places

Change-Id: I9e17a6b14f7c25bbf698eeecf32785e9add3f26e

* fix tests

Change-Id: Id078276fa3de61a28eb3d01d4e751732ecbb173f

* import order

Change-Id: I814e33755b9f10b5219af37cd828cd75eb3da1a4

* remove part of other commit

Change-Id: Idaa4c95cd65e97567fb466de49718db8203cfbe1
2019-06-05 16:23:10 +02:00

433 lines
9.7 KiB
Go

// Copyright (C) 2019 Storj Labs, Inc.
// See LICENSE for copying information.
package teststore
import (
"bytes"
"context"
"errors"
"sort"
"sync"
monkit "gopkg.in/spacemonkeygo/monkit.v2"
"storj.io/storj/storage"
)
var errInternal = errors.New("internal error")
var mon = monkit.Package()
// Client implements in-memory key value store
type Client struct {
mu sync.Mutex
Items []storage.ListItem
ForceError int
CallCount struct {
Get int
Put int
List int
GetAll int
ReverseList int
Delete int
Close int
Iterate int
}
version int
}
// New creates a new in-memory key-value store
func New() *Client { return &Client{} }
// indexOf finds index of key or where it could be inserted
func (store *Client) indexOf(key storage.Key) (int, bool) {
i := sort.Search(len(store.Items), func(k int) bool {
return !store.Items[k].Key.Less(key)
})
if i >= len(store.Items) {
return i, false
}
return i, store.Items[i].Key.Equal(key)
}
func (store *Client) locked() func() {
store.mu.Lock()
return store.mu.Unlock
}
func (store *Client) forcedError() bool {
if store.ForceError > 0 {
store.ForceError--
return true
}
return false
}
// Put adds a value to store
func (store *Client) Put(ctx context.Context, key storage.Key, value storage.Value) (err error) {
defer mon.Task()(&ctx)(&err)
defer store.locked()()
store.version++
store.CallCount.Put++
if store.forcedError() {
return errInternal
}
if key.IsZero() {
return storage.ErrEmptyKey.New("")
}
keyIndex, found := store.indexOf(key)
if found {
kv := &store.Items[keyIndex]
kv.Value = storage.CloneValue(value)
return nil
}
store.Items = append(store.Items, storage.ListItem{})
copy(store.Items[keyIndex+1:], store.Items[keyIndex:])
store.Items[keyIndex] = storage.ListItem{
Key: storage.CloneKey(key),
Value: storage.CloneValue(value),
}
return nil
}
// Get gets a value to store
func (store *Client) Get(ctx context.Context, key storage.Key) (_ storage.Value, err error) {
defer mon.Task()(&ctx)(&err)
defer store.locked()()
store.CallCount.Get++
if store.forcedError() {
return nil, errors.New("internal error")
}
if key.IsZero() {
return nil, storage.ErrEmptyKey.New("")
}
keyIndex, found := store.indexOf(key)
if !found {
return nil, storage.ErrKeyNotFound.New(key.String())
}
return storage.CloneValue(store.Items[keyIndex].Value), nil
}
// GetAll gets all values from the store
func (store *Client) GetAll(ctx context.Context, keys storage.Keys) (_ storage.Values, err error) {
defer mon.Task()(&ctx)(&err)
defer store.locked()()
store.CallCount.GetAll++
if len(keys) > storage.LookupLimit {
return nil, storage.ErrLimitExceeded
}
if store.forcedError() {
return nil, errors.New("internal error")
}
values := storage.Values{}
for _, key := range keys {
keyIndex, found := store.indexOf(key)
if !found {
values = append(values, nil)
continue
}
values = append(values, storage.CloneValue(store.Items[keyIndex].Value))
}
return values, nil
}
// Delete deletes key and the value
func (store *Client) Delete(ctx context.Context, key storage.Key) (err error) {
defer mon.Task()(&ctx)(&err)
defer store.locked()()
store.version++
store.CallCount.Delete++
if store.forcedError() {
return errInternal
}
if key.IsZero() {
return storage.ErrEmptyKey.New("")
}
keyIndex, found := store.indexOf(key)
if !found {
return storage.ErrKeyNotFound.New(key.String())
}
copy(store.Items[keyIndex:], store.Items[keyIndex+1:])
store.Items = store.Items[:len(store.Items)-1]
return nil
}
// List lists all keys starting from start and upto limit items
func (store *Client) List(ctx context.Context, first storage.Key, limit int) (_ storage.Keys, err error) {
defer mon.Task()(&ctx)(&err)
store.mu.Lock()
store.CallCount.List++
if store.forcedError() {
store.mu.Unlock()
return nil, errors.New("internal error")
}
store.mu.Unlock()
return storage.ListKeys(ctx, store, first, limit)
}
// Close closes the store
func (store *Client) Close() error {
defer store.locked()()
store.CallCount.Close++
if store.forcedError() {
return errInternal
}
return nil
}
// Iterate iterates over items based on opts
func (store *Client) Iterate(ctx context.Context, opts storage.IterateOptions, fn func(context.Context, storage.Iterator) error) (err error) {
defer mon.Task()(&ctx)(&err)
defer store.locked()()
store.CallCount.Iterate++
if store.forcedError() {
return errInternal
}
var cursor advancer
if !opts.Reverse {
cursor = &forward{newCursor(store)}
} else {
cursor = &backward{newCursor(store)}
}
cursor.PositionToFirst(opts.Prefix, opts.First)
var lastPrefix storage.Key
var wasPrefix bool
return fn(ctx, storage.IteratorFunc(
func(ctx context.Context, item *storage.ListItem) bool {
next, ok := cursor.Advance()
if !ok {
return false
}
if !opts.Recurse {
if wasPrefix && bytes.HasPrefix(next.Key, lastPrefix) {
next, ok = cursor.SkipPrefix(lastPrefix)
if !ok {
return false
}
wasPrefix = false
}
}
if !bytes.HasPrefix(next.Key, opts.Prefix) {
cursor.close()
return false
}
if !opts.Recurse {
if p := bytes.IndexByte([]byte(next.Key[len(opts.Prefix):]), storage.Delimiter); p >= 0 {
lastPrefix = append(lastPrefix[:0], next.Key[:len(opts.Prefix)+p+1]...)
item.Key = append(item.Key[:0], lastPrefix...)
item.Value = item.Value[:0]
item.IsPrefix = true
wasPrefix = true
return true
}
}
item.Key = append(item.Key[:0], next.Key...)
item.Value = append(item.Value[:0], next.Value...)
item.IsPrefix = false
return true
}))
}
type advancer interface {
close()
PositionToFirst(prefix, first storage.Key)
SkipPrefix(prefix storage.Key) (*storage.ListItem, bool)
Advance() (*storage.ListItem, bool)
}
type forward struct{ cursor }
func (cursor *forward) PositionToFirst(prefix, first storage.Key) {
if first.IsZero() || first.Less(prefix) {
cursor.positionForward(prefix)
} else {
cursor.positionForward(first)
}
}
func (cursor *forward) SkipPrefix(prefix storage.Key) (*storage.ListItem, bool) {
cursor.positionForward(storage.AfterPrefix(prefix))
return cursor.next()
}
func (cursor *forward) Advance() (*storage.ListItem, bool) {
return cursor.next()
}
type backward struct{ cursor }
func (cursor *backward) PositionToFirst(prefix, first storage.Key) {
if prefix.IsZero() {
// there's no prefix
if first.IsZero() {
// and no first item, so start from the end
cursor.positionLast()
} else {
// theres a first item, so try to position on that or one before that
cursor.positionBackward(first)
}
} else {
// there's a prefix
if first.IsZero() || storage.AfterPrefix(prefix).Less(first) {
// there's no first, or it's after our prefix
// storage.AfterPrefix("axxx/") is the next item after prefixes
// so we position to the item before
cursor.positionBefore(storage.AfterPrefix(prefix))
} else {
// otherwise try to position on first or one before that
cursor.positionBackward(first)
}
}
}
func (cursor *backward) SkipPrefix(prefix storage.Key) (*storage.ListItem, bool) {
cursor.positionBefore(prefix)
return cursor.prev()
}
func (cursor *backward) Advance() (*storage.ListItem, bool) {
return cursor.prev()
}
// cursor implements iterating over items with basic repositioning when the items change
type cursor struct {
store *Client
done bool
nextIndex int
version int
lastKey storage.Key
}
func newCursor(store *Client) cursor { return cursor{store: store} }
func (cursor *cursor) close() {
cursor.store = nil
cursor.done = true
}
// positionForward positions at key or the next item
func (cursor *cursor) positionForward(key storage.Key) {
store := cursor.store
cursor.version = store.version
cursor.nextIndex, _ = store.indexOf(key)
cursor.lastKey = storage.CloneKey(key)
}
// positionLast positions at the last item
func (cursor *cursor) positionLast() {
store := cursor.store
cursor.version = store.version
cursor.nextIndex = len(store.Items) - 1
cursor.lastKey = storage.NextKey(store.Items[cursor.nextIndex].Key)
}
// positionBefore positions before key
func (cursor *cursor) positionBefore(key storage.Key) {
store := cursor.store
cursor.version = store.version
cursor.nextIndex, _ = store.indexOf(key)
cursor.nextIndex--
cursor.lastKey = storage.CloneKey(key) // TODO: probably not the right
}
// positionBackward positions at key or before key
func (cursor *cursor) positionBackward(key storage.Key) {
store := cursor.store
cursor.version = store.version
var ok bool
cursor.nextIndex, ok = store.indexOf(key)
if !ok {
cursor.nextIndex--
}
cursor.lastKey = storage.CloneKey(key)
}
func (cursor *cursor) next() (*storage.ListItem, bool) {
store := cursor.store
if cursor.done {
return nil, false
}
if cursor.version != store.version {
cursor.version = store.version
var ok bool
cursor.nextIndex, ok = store.indexOf(cursor.lastKey)
if ok {
cursor.nextIndex++
}
}
if cursor.nextIndex >= len(store.Items) {
cursor.close()
return nil, false
}
item := &store.Items[cursor.nextIndex]
cursor.lastKey = item.Key
cursor.nextIndex++
return item, true
}
func (cursor *cursor) prev() (*storage.ListItem, bool) {
store := cursor.store
if cursor.done {
return nil, false
}
if cursor.version != store.version {
cursor.version = store.version
var ok bool
cursor.nextIndex, ok = store.indexOf(cursor.lastKey)
if !ok {
cursor.nextIndex--
}
}
if cursor.nextIndex >= len(store.Items) {
cursor.nextIndex = len(store.Items) - 1
}
if cursor.nextIndex < 0 {
cursor.close()
return nil, false
}
item := &store.Items[cursor.nextIndex]
cursor.lastKey = item.Key
cursor.nextIndex--
return item, true
}