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frostfs-sdk-go/object/transformer/transformer.go
Evgenii Stratonikov 25588ee3be [#19] transformer: Do not allocate intermeate slice for hashers 
```
name                 old time/op    new time/op    delta
Transformer/small-8    73.7µs ±15%    72.4µs ±16%    ~     (p=0.604 n=10+9)
Transformer/big-8       1.36s ± 4%     1.36s ± 8%    ~     (p=0.579 n=10+10)

name                 old alloc/op   new alloc/op   delta
Transformer/small-8    7.67kB ± 0%    7.57kB ± 0%  -1.36%  (p=0.000 n=10+10)
Transformer/big-8      49.0kB ± 0%    48.3kB ± 0%  -1.48%  (p=0.000 n=10+10)

name                 old allocs/op  new allocs/op  delta
Transformer/small-8       101 ± 0%        98 ± 0%  -2.97%  (p=0.000 n=10+10)
Transformer/big-8         609 ± 0%       591 ± 1%  -3.00%  (p=0.000 n=10+9)
```

Signed-off-by: Evgenii Stratonikov <e.stratonikov@yadro.com>
2023-03-15 05:39:09 +00:00

298 lines
7.1 KiB
Go
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package transformer
import (
"crypto/ecdsa"
"crypto/sha256"
"fmt"
"github.com/TrueCloudLab/frostfs-sdk-go/checksum"
"github.com/TrueCloudLab/frostfs-sdk-go/object"
oid "github.com/TrueCloudLab/frostfs-sdk-go/object/id"
"github.com/TrueCloudLab/frostfs-sdk-go/session"
"github.com/TrueCloudLab/frostfs-sdk-go/version"
"github.com/TrueCloudLab/tzhash/tz"
)
type payloadSizeLimiter struct {
Params
written, writtenCurrent uint64
current, parent *object.Object
currentHashers, parentHashers []payloadChecksumHasher
previous []oid.ID
splitID *object.SplitID
parAttrs []object.Attribute
}
type Params struct {
Key *ecdsa.PrivateKey
NextTarget ObjectTarget
SessionToken *session.Object
NetworkState EpochSource
MaxSize uint64
WithoutHomomorphicHash bool
}
// NewPayloadSizeLimiter returns ObjectTarget instance that restricts payload length
// of the writing object and writes generated objects to targets from initializer.
//
// Calculates and adds homomorphic hash to resulting objects only if withoutHomomorphicHash
// is false.
//
// Objects w/ payload size less or equal than max size remain untouched.
func NewPayloadSizeLimiter(p Params) ObjectTarget {
return &payloadSizeLimiter{
Params: p,
splitID: object.NewSplitID(),
}
}
func (s *payloadSizeLimiter) WriteHeader(hdr *object.Object) error {
s.current = fromObject(hdr)
s.initialize()
return nil
}
func (s *payloadSizeLimiter) Write(p []byte) (int, error) {
if err := s.writeChunk(p); err != nil {
return 0, err
}
return len(p), nil
}
func (s *payloadSizeLimiter) Close() (*AccessIdentifiers, error) {
return s.release(true)
}
func (s *payloadSizeLimiter) initialize() {
s.current = fromObject(s.current)
// if it is an object after the 1st
if ln := len(s.previous); ln > 0 {
// initialize parent object once (after 1st object)
if ln == 1 {
s.parent = fromObject(s.current)
s.parentHashers = append(s.parentHashers[:0], s.currentHashers...)
// return source attributes
s.parent.SetAttributes(s.parAttrs...)
}
// set previous object to the last previous identifier
s.current.SetPreviousID(s.previous[ln-1])
}
s.initializeCurrent()
}
func fromObject(obj *object.Object) *object.Object {
cnr, _ := obj.ContainerID()
res := object.New()
res.SetContainerID(cnr)
res.SetOwnerID(obj.OwnerID())
res.SetAttributes(obj.Attributes()...)
res.SetType(obj.Type())
// obj.SetSplitID creates splitHeader but we don't need to do it in case
// of small objects, so we should make nil check.
if obj.SplitID() != nil {
res.SetSplitID(obj.SplitID())
}
return res
}
func (s *payloadSizeLimiter) initializeCurrent() {
// create payload hashers
s.writtenCurrent = 0
s.initPayloadHashers()
}
func (s *payloadSizeLimiter) initPayloadHashers() {
s.currentHashers = append(s.currentHashers[:0], payloadChecksumHasher{
hasher: sha256.New(),
typ: checksum.SHA256,
})
if !s.WithoutHomomorphicHash {
s.currentHashers = append(s.currentHashers, payloadChecksumHasher{
hasher: tz.New(),
typ: checksum.TZ,
})
}
}
func (s *payloadSizeLimiter) release(finalize bool) (*AccessIdentifiers, error) {
// Arg finalize is true only when called from Close method.
// We finalize parent and generate linking objects only if it is more
// than 1 object in split-chain.
withParent := finalize && len(s.previous) > 0
if withParent {
for i := range s.parentHashers {
s.parentHashers[i].writeChecksum(s.parent)
}
s.parent.SetPayloadSize(s.written)
s.current.SetParent(s.parent)
}
// release current object
for i := range s.currentHashers {
s.currentHashers[i].writeChecksum(s.current)
}
curEpoch := s.NetworkState.CurrentEpoch()
ver := version.Current()
s.current.SetVersion(&ver)
s.current.SetPayloadSize(s.writtenCurrent)
s.current.SetSessionToken(s.SessionToken)
s.current.SetCreationEpoch(curEpoch)
var (
parID *oid.ID
parHdr *object.Object
)
if par := s.current.Parent(); par != nil && par.Signature() == nil {
rawPar := object.NewFromV2(par.ToV2())
rawPar.SetSessionToken(s.SessionToken)
rawPar.SetCreationEpoch(curEpoch)
if err := object.SetIDWithSignature(*s.Key, rawPar); err != nil {
return nil, fmt.Errorf("could not finalize parent object: %w", err)
}
id, _ := rawPar.ID()
parID = &id
parHdr = rawPar
s.current.SetParent(parHdr)
}
if err := object.SetIDWithSignature(*s.Key, s.current); err != nil {
return nil, fmt.Errorf("could not finalize object: %w", err)
}
if err := s.NextTarget.WriteHeader(s.current); err != nil {
return nil, fmt.Errorf("could not write header to next target: %w", err)
}
if _, err := s.NextTarget.Close(); err != nil {
return nil, fmt.Errorf("could not close next target: %w", err)
}
id, _ := s.current.ID()
ids := &AccessIdentifiers{
ParentID: parID,
SelfID: id,
ParentHeader: parHdr,
}
// save identifier of the released object
s.previous = append(s.previous, ids.SelfID)
if withParent {
// generate and release linking object
s.initializeLinking(ids.ParentHeader)
s.initializeCurrent()
if _, err := s.release(false); err != nil {
return nil, fmt.Errorf("could not release linking object: %w", err)
}
}
return ids, nil
}
func (s *payloadSizeLimiter) initializeLinking(parHdr *object.Object) {
s.current = fromObject(s.current)
s.current.SetParent(parHdr)
s.current.SetChildren(s.previous...)
s.current.SetSplitID(s.splitID)
}
func (s *payloadSizeLimiter) writeChunk(chunk []byte) error {
for {
// statement is true if the previous write of bytes reached exactly the boundary.
if s.written > 0 && s.written%s.MaxSize == 0 {
if s.written == s.MaxSize {
s.prepareFirstChild()
}
// we need to release current object
if _, err := s.release(false); err != nil {
return fmt.Errorf("could not release object: %w", err)
}
// initialize another object
s.initialize()
}
var (
ln = uint64(len(chunk))
cut = ln
leftToEdge = s.MaxSize - s.written%s.MaxSize
)
// write bytes no further than the boundary of the current object
if ln > leftToEdge {
cut = leftToEdge
}
if err := s.writeHashes(chunk[:cut]); err != nil {
return fmt.Errorf("could not write chunk to target: %w", err)
}
// increase written bytes counter
s.writtenCurrent += cut
s.written += cut
if cut == ln {
return nil
}
// if there are more bytes in buffer we call method again to start filling another object
chunk = chunk[cut:]
}
}
func (s *payloadSizeLimiter) writeHashes(chunk []byte) error {
_, err := s.NextTarget.Write(chunk)
if err != nil {
return err
}
// The `Write` method of `hash.Hash` never returns an error.
for i := range s.currentHashers {
_, _ = s.currentHashers[i].hasher.Write(chunk)
}
for i := range s.parentHashers {
_, _ = s.parentHashers[i].hasher.Write(chunk)
}
return nil
}
func (s *payloadSizeLimiter) prepareFirstChild() {
// initialize split header with split ID on first object in chain
s.current.InitRelations()
s.current.SetSplitID(s.splitID)
// cut source attributes
s.parAttrs = s.current.Attributes()
s.current.SetAttributes()
// attributes will be added to parent in detachParent
}
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