150 lines
3.3 KiB
Go
150 lines
3.3 KiB
Go
package loadstorage
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import (
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"sort"
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"sync"
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loadcontroller "github.com/nspcc-dev/neofs-node/pkg/services/container/announcement/load/controller"
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"github.com/nspcc-dev/neofs-sdk-go/container"
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)
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type usedSpaceEstimations struct {
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announcement container.UsedSpaceAnnouncement
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sizes []uint64
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}
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type storageKey struct {
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epoch uint64
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cid string
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}
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// Storage represents in-memory storage of
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// UsedSpaceAnnouncement values.
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//
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// The write operation has the usual behavior - to save
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// the next number of used container space for a specific epoch.
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// All values related to one key (epoch, container ID) are stored
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// as a list.
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//
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// Storage also provides an iterator interface, into the handler
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// of which the final score is passed, built on all values saved
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// at the time of the call. Currently the only possible estimation
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// formula is used - the average between 10th and 90th percentile.
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//
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// For correct operation, Storage must be created
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// using the constructor (New) based on the required parameters
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// and optional components. After successful creation,
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// Storage is immediately ready to work through API.
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type Storage struct {
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mtx sync.RWMutex
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mItems map[storageKey]*usedSpaceEstimations
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}
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// Prm groups the required parameters of the Storage's constructor.
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//
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// The component is not parameterizable at the moment.
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type Prm struct{}
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// New creates a new instance of the Storage.
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//
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// The created Storage does not require additional
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// initialization and is completely ready for work.
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func New(_ Prm) *Storage {
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return &Storage{
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mItems: make(map[storageKey]*usedSpaceEstimations),
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}
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}
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// Put appends the next value of the occupied container space for the epoch
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// to the list of already saved values.
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//
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// Always returns nil error.
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func (s *Storage) Put(a container.UsedSpaceAnnouncement) error {
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s.mtx.Lock()
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{
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key := storageKey{
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epoch: a.Epoch(),
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cid: a.ContainerID().String(),
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}
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estimations, ok := s.mItems[key]
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if !ok {
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estimations = &usedSpaceEstimations{
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announcement: a,
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sizes: make([]uint64, 0, 1),
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}
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s.mItems[key] = estimations
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}
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estimations.sizes = append(estimations.sizes, a.UsedSpace())
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}
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s.mtx.Unlock()
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return nil
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}
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func (s *Storage) Close() error {
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return nil
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}
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// Iterate goes through all the lists with the key (container ID, epoch),
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// calculates the final grade for all values, and passes it to the handler.
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//
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// Final grade is the average between 10th and 90th percentiles.
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func (s *Storage) Iterate(f loadcontroller.UsedSpaceFilter, h loadcontroller.UsedSpaceHandler) (err error) {
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s.mtx.RLock()
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{
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for _, v := range s.mItems {
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if f(v.announcement) {
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// calculate estimation based on 90th percentile
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v.announcement.SetUsedSpace(finalEstimation(v.sizes))
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if err = h(v.announcement); err != nil {
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break
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}
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}
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}
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}
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s.mtx.RUnlock()
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return
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}
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func finalEstimation(vals []uint64) uint64 {
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sort.Slice(vals, func(i, j int) bool {
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return vals[i] < vals[j]
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})
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const (
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lowerRank = 10
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upperRank = 90
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)
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if len(vals) >= lowerRank {
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lowerInd := percentile(lowerRank, vals)
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upperInd := percentile(upperRank, vals)
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vals = vals[lowerInd:upperInd]
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}
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sum := uint64(0)
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for i := range vals {
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sum += vals[i]
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}
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return sum / uint64(len(vals))
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}
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func percentile(rank int, vals []uint64) int {
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p := len(vals) * rank / 100
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return p
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}
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