frostfs-node/cmd/neofs-node/cache.go
Pavel Karpy 4f18893d9b [] node: Move common EACLSource interface to core pkg
Signed-off-by: Pavel Karpy <carpawell@nspcc.ru>
2022-09-13 10:33:50 +03:00

423 lines
10 KiB
Go

package main
import (
"sync"
"time"
lru "github.com/hashicorp/golang-lru"
"github.com/nspcc-dev/neofs-node/pkg/core/container"
"github.com/nspcc-dev/neofs-node/pkg/core/netmap"
cntClient "github.com/nspcc-dev/neofs-node/pkg/morph/client/container"
putsvc "github.com/nspcc-dev/neofs-node/pkg/services/object/put"
apistatus "github.com/nspcc-dev/neofs-sdk-go/client/status"
cid "github.com/nspcc-dev/neofs-sdk-go/container/id"
netmapSDK "github.com/nspcc-dev/neofs-sdk-go/netmap"
"github.com/nspcc-dev/neofs-sdk-go/user"
)
type netValueReader func(interface{}) (interface{}, error)
type valueWithTime struct {
v interface{}
t time.Time
// cached error in order to not repeat failed request for some time
e error
}
// entity that provides TTL cache interface.
type ttlNetCache struct {
ttl time.Duration
sz int
cache *lru.Cache
netRdr netValueReader
}
// complicates netValueReader with TTL caching mechanism.
func newNetworkTTLCache(sz int, ttl time.Duration, netRdr netValueReader) *ttlNetCache {
cache, err := lru.New(sz)
fatalOnErr(err)
return &ttlNetCache{
ttl: ttl,
sz: sz,
cache: cache,
netRdr: netRdr,
}
}
// reads value by the key.
//
// updates the value from the network on cache miss or by TTL.
//
// returned value should not be modified.
func (c *ttlNetCache) get(key interface{}) (interface{}, error) {
val, ok := c.cache.Peek(key)
if ok {
valWithTime := val.(*valueWithTime)
if time.Since(valWithTime.t) < c.ttl {
return valWithTime.v, valWithTime.e
}
c.cache.Remove(key)
}
val, err := c.netRdr(key)
c.set(key, val, err)
return val, err
}
func (c *ttlNetCache) set(k, v interface{}, e error) {
c.cache.Add(k, &valueWithTime{
v: v,
t: time.Now(),
e: e,
})
}
func (c *ttlNetCache) remove(key interface{}) {
c.cache.Remove(key)
}
// entity that provides LRU cache interface.
type lruNetCache struct {
cache *lru.Cache
netRdr netValueReader
}
// newNetworkLRUCache returns wrapper over netValueReader with LRU cache.
func newNetworkLRUCache(sz int, netRdr netValueReader) *lruNetCache {
cache, err := lru.New(sz)
fatalOnErr(err)
return &lruNetCache{
cache: cache,
netRdr: netRdr,
}
}
// reads value by the key.
//
// updates the value from the network on cache miss.
//
// returned value should not be modified.
func (c *lruNetCache) get(key interface{}) (interface{}, error) {
val, ok := c.cache.Get(key)
if ok {
return val, nil
}
val, err := c.netRdr(key)
if err != nil {
return nil, err
}
c.cache.Add(key, val)
return val, nil
}
// wrapper over TTL cache of values read from the network
// that implements container storage.
type ttlContainerStorage ttlNetCache
func newCachedContainerStorage(v container.Source, ttl time.Duration) *ttlContainerStorage {
const containerCacheSize = 100
lruCnrCache := newNetworkTTLCache(containerCacheSize, ttl, func(key interface{}) (interface{}, error) {
var id cid.ID
err := id.DecodeString(key.(string))
if err != nil {
return nil, err
}
return v.Get(id)
})
return (*ttlContainerStorage)(lruCnrCache)
}
func (s *ttlContainerStorage) handleRemoval(cnr cid.ID) {
(*ttlNetCache)(s).set(cnr.EncodeToString(), nil, apistatus.ContainerNotFound{})
}
// Get returns container value from the cache. If value is missing in the cache
// or expired, then it returns value from side chain and updates the cache.
func (s *ttlContainerStorage) Get(cnr cid.ID) (*container.Container, error) {
val, err := (*ttlNetCache)(s).get(cnr.EncodeToString())
if err != nil {
return nil, err
}
return val.(*container.Container), nil
}
type ttlEACLStorage ttlNetCache
func newCachedEACLStorage(v container.EACLSource, ttl time.Duration) *ttlEACLStorage {
const eaclCacheSize = 100
lruCnrCache := newNetworkTTLCache(eaclCacheSize, ttl, func(key interface{}) (interface{}, error) {
var id cid.ID
err := id.DecodeString(key.(string))
if err != nil {
return nil, err
}
return v.GetEACL(id)
})
return (*ttlEACLStorage)(lruCnrCache)
}
// GetEACL returns eACL value from the cache. If value is missing in the cache
// or expired, then it returns value from side chain and updates cache.
func (s *ttlEACLStorage) GetEACL(cnr cid.ID) (*container.EACL, error) {
val, err := (*ttlNetCache)(s).get(cnr.EncodeToString())
if err != nil {
return nil, err
}
return val.(*container.EACL), nil
}
// InvalidateEACL removes cached eACL value.
func (s *ttlEACLStorage) InvalidateEACL(cnr cid.ID) {
(*ttlNetCache)(s).remove(cnr.EncodeToString())
}
type lruNetmapSource struct {
netState netmap.State
cache *lruNetCache
}
func newCachedNetmapStorage(s netmap.State, v netmap.Source) netmap.Source {
const netmapCacheSize = 10
lruNetmapCache := newNetworkLRUCache(netmapCacheSize, func(key interface{}) (interface{}, error) {
return v.GetNetMapByEpoch(key.(uint64))
})
return &lruNetmapSource{
netState: s,
cache: lruNetmapCache,
}
}
func (s *lruNetmapSource) GetNetMap(diff uint64) (*netmapSDK.NetMap, error) {
return s.getNetMapByEpoch(s.netState.CurrentEpoch() - diff)
}
func (s *lruNetmapSource) GetNetMapByEpoch(epoch uint64) (*netmapSDK.NetMap, error) {
return s.getNetMapByEpoch(epoch)
}
func (s *lruNetmapSource) getNetMapByEpoch(epoch uint64) (*netmapSDK.NetMap, error) {
val, err := s.cache.get(epoch)
if err != nil {
return nil, err
}
return val.(*netmapSDK.NetMap), nil
}
func (s *lruNetmapSource) Epoch() (uint64, error) {
return s.netState.CurrentEpoch(), nil
}
// wrapper over TTL cache of values read from the network
// that implements container lister.
type ttlContainerLister ttlNetCache
// value type for ttlNetCache used by ttlContainerLister.
type cacheItemContainerList struct {
// protects list from concurrent add/remove ops
mtx sync.RWMutex
// actual list of containers owner by the particular user
list []cid.ID
}
func newCachedContainerLister(c *cntClient.Client, ttl time.Duration) *ttlContainerLister {
const containerListerCacheSize = 100
lruCnrListerCache := newNetworkTTLCache(containerListerCacheSize, ttl, func(key interface{}) (interface{}, error) {
var (
id *user.ID
strID = key.(string)
)
if strID != "" {
id = new(user.ID)
err := id.DecodeString(strID)
if err != nil {
return nil, err
}
}
list, err := c.List(id)
if err != nil {
return nil, err
}
return &cacheItemContainerList{
list: list,
}, nil
})
return (*ttlContainerLister)(lruCnrListerCache)
}
// List returns list of container IDs from the cache. If list is missing in the
// cache or expired, then it returns container IDs from side chain and updates
// the cache.
func (s *ttlContainerLister) List(id *user.ID) ([]cid.ID, error) {
var str string
if id != nil {
str = id.EncodeToString()
}
val, err := (*ttlNetCache)(s).get(str)
if err != nil {
return nil, err
}
// panic on typecast below is OK since developer must be careful,
// runtime can do nothing with wrong type occurrence
item := val.(*cacheItemContainerList)
item.mtx.RLock()
res := make([]cid.ID, len(item.list))
copy(res, item.list)
item.mtx.RUnlock()
return res, nil
}
// updates cached list of owner's containers: cnr is added if flag is true, otherwise it's removed.
// Concurrent calls can lead to some races:
// - two parallel additions to missing owner's cache can lead to only one container to be cached
// - async cache value eviction can lead to idle addition
//
// All described race cases aren't critical since cache values expire anyway, we just try
// to increase cache actuality w/o huge overhead on synchronization.
func (s *ttlContainerLister) update(owner user.ID, cnr cid.ID, add bool) {
strOwner := owner.EncodeToString()
val, ok := (*ttlNetCache)(s).cache.Get(strOwner)
if !ok {
// we could cache the single cnr but in this case we will disperse
// with the Sidechain a lot
return
}
// panic on typecast below is OK since developer must be careful,
// runtime can do nothing with wrong type occurrence
item := val.(*valueWithTime).v.(*cacheItemContainerList)
item.mtx.Lock()
{
found := false
for i := range item.list {
if found = item.list[i].Equals(cnr); found {
if !add {
item.list = append(item.list[:i], item.list[i+1:]...)
// if list became empty we don't remove the value from the cache
// since empty list is a correct value, and we don't want to insta
// re-request it from the Sidechain
}
break
}
}
if add && !found {
item.list = append(item.list, cnr)
}
}
item.mtx.Unlock()
}
type cachedIRFetcher ttlNetCache
func newCachedIRFetcher(f interface{ InnerRingKeys() ([][]byte, error) }) *cachedIRFetcher {
const (
irFetcherCacheSize = 1 // we intend to store only one value
// Without the cache in the testnet we can see several hundred simultaneous
// requests (neofs-node #1278), so limiting the request rate solves the issue.
//
// Exact request rate doesn't really matter because Inner Ring list update
// happens extremely rare, but there is no side chain events for that as
// for now (neofs-contract v0.15.0 notary disabled env) to monitor it.
irFetcherCacheTTL = 30 * time.Second
)
irFetcherCache := newNetworkTTLCache(irFetcherCacheSize, irFetcherCacheTTL,
func(key interface{}) (interface{}, error) {
return f.InnerRingKeys()
},
)
return (*cachedIRFetcher)(irFetcherCache)
}
// InnerRingKeys returns cached list of Inner Ring keys. If keys are missing in
// the cache or expired, then it returns keys from side chain and updates
// the cache.
func (f *cachedIRFetcher) InnerRingKeys() ([][]byte, error) {
val, err := (*ttlNetCache)(f).get("")
if err != nil {
return nil, err
}
return val.([][]byte), nil
}
type ttlMaxObjectSizeCache struct {
mtx sync.RWMutex
lastUpdated time.Time
lastSize uint64
src putsvc.MaxSizeSource
}
func newCachedMaxObjectSizeSource(src putsvc.MaxSizeSource) putsvc.MaxSizeSource {
return &ttlMaxObjectSizeCache{
src: src,
}
}
func (c *ttlMaxObjectSizeCache) MaxObjectSize() uint64 {
const ttl = time.Second * 30
c.mtx.RLock()
prevUpdated := c.lastUpdated
size := c.lastSize
c.mtx.RUnlock()
if time.Since(prevUpdated) < ttl {
return size
}
c.mtx.Lock()
size = c.lastSize
if !c.lastUpdated.After(prevUpdated) {
size = c.src.MaxObjectSize()
c.lastSize = size
c.lastUpdated = time.Now()
}
c.mtx.Unlock()
return size
}