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frostfs-node/pkg/services/object/get/exec.go
Leonard Lyubich b3708fc530 [#957] services/object: Refactor usage of NeoFS API client 
The client needs of the Object service are limited and change not often.
Interface changes of the client library should not affect the operation of
various service packages, if they do not change their requirements for
the provided functionality. To localize the use of the base client and
facilitate further support, an auxiliary package is implemented that will
only be used by the Object service.

Signed-off-by: Leonard Lyubich <leonard@nspcc.ru>
2021-11-03 18:30:09 +03:00

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package getsvc
import (
"context"
"crypto/ecdsa"
"errors"
cid "github.com/nspcc-dev/neofs-api-go/pkg/container/id"
objectSDK "github.com/nspcc-dev/neofs-api-go/pkg/object"
clientcore "github.com/nspcc-dev/neofs-node/pkg/core/client"
"github.com/nspcc-dev/neofs-node/pkg/core/object"
"github.com/nspcc-dev/neofs-node/pkg/services/object_manager/placement"
"github.com/nspcc-dev/neofs-node/pkg/util/logger"
"go.uber.org/zap"
)
type statusError struct {
status int
err error
}
type execCtx struct {
svc *Service
ctx context.Context
prm RangePrm
statusError
infoSplit *objectSDK.SplitInfo
log *logger.Logger
collectedObject *object.Object
curOff uint64
head bool
curProcEpoch uint64
}
type execOption func(*execCtx)
const (
statusUndefined int = iota
statusOK
statusINHUMED
statusVIRTUAL
statusOutOfRange
)
func headOnly() execOption {
return func(c *execCtx) {
c.head = true
}
}
func withPayloadRange(r *objectSDK.Range) execOption {
return func(c *execCtx) {
c.prm.rng = r
}
}
func (exec *execCtx) setLogger(l *logger.Logger) {
req := "GET"
if exec.headOnly() {
req = "HEAD"
} else if exec.ctxRange() != nil {
req = "GET_RANGE"
}
exec.log = l.With(
zap.String("request", req),
zap.Stringer("address", exec.address()),
zap.Bool("raw", exec.isRaw()),
zap.Bool("local", exec.isLocal()),
zap.Bool("with session", exec.prm.common.SessionToken() != nil),
zap.Bool("with bearer", exec.prm.common.BearerToken() != nil),
)
}
func (exec execCtx) context() context.Context {
return exec.ctx
}
func (exec execCtx) isLocal() bool {
return exec.prm.common.LocalOnly()
}
func (exec execCtx) isRaw() bool {
return exec.prm.raw
}
func (exec execCtx) address() *objectSDK.Address {
return exec.prm.addr
}
func (exec execCtx) isChild(obj *object.Object) bool {
par := obj.GetParent()
return par != nil && equalAddresses(exec.address(), par.Address())
}
func (exec execCtx) key() (*ecdsa.PrivateKey, error) {
return exec.svc.keyStore.GetKey(exec.prm.common.SessionToken())
}
func (exec *execCtx) canAssemble() bool {
return exec.svc.assembly && !exec.isRaw() && !exec.headOnly()
}
func (exec *execCtx) splitInfo() *objectSDK.SplitInfo {
return exec.infoSplit
}
func (exec *execCtx) containerID() *cid.ID {
return exec.address().ContainerID()
}
func (exec *execCtx) ctxRange() *objectSDK.Range {
return exec.prm.rng
}
func (exec *execCtx) headOnly() bool {
return exec.head
}
func (exec *execCtx) netmapEpoch() uint64 {
return exec.prm.common.NetmapEpoch()
}
func (exec *execCtx) netmapLookupDepth() uint64 {
return exec.prm.common.NetmapLookupDepth()
}
func (exec *execCtx) initEpoch() bool {
exec.curProcEpoch = exec.netmapEpoch()
if exec.curProcEpoch > 0 {
return true
}
e, err := exec.svc.currentEpochReceiver.currentEpoch()
switch {
default:
exec.status = statusUndefined
exec.err = err
exec.log.Debug("could not get current epoch number",
zap.String("error", err.Error()),
)
return false
case err == nil:
exec.curProcEpoch = e
return true
}
}
func (exec *execCtx) generateTraverser(addr *objectSDK.Address) (*placement.Traverser, bool) {
t, err := exec.svc.traverserGenerator.GenerateTraverser(addr, exec.curProcEpoch)
switch {
default:
exec.status = statusUndefined
exec.err = err
exec.log.Debug("could not generate container traverser",
zap.String("error", err.Error()),
)
return nil, false
case err == nil:
return t, true
}
}
func (exec *execCtx) getChild(id *objectSDK.ID, rng *objectSDK.Range, withHdr bool) (*object.Object, bool) {
w := NewSimpleObjectWriter()
p := exec.prm
p.common = p.common.WithLocalOnly(false)
p.objWriter = w
p.SetRange(rng)
addr := objectSDK.NewAddress()
addr.SetContainerID(exec.address().ContainerID())
addr.SetObjectID(id)
p.addr = addr
exec.statusError = exec.svc.get(exec.context(), p.commonPrm, withPayloadRange(rng))
child := w.Object()
ok := exec.status == statusOK
if ok && withHdr && !exec.isChild(child) {
exec.status = statusUndefined
exec.err = errors.New("wrong child header")
exec.log.Debug("parent address in child object differs")
}
return child, ok
}
func (exec *execCtx) headChild(id *objectSDK.ID) (*object.Object, bool) {
childAddr := objectSDK.NewAddress()
childAddr.SetContainerID(exec.containerID())
childAddr.SetObjectID(id)
p := exec.prm
p.common = p.common.WithLocalOnly(false)
p.addr = childAddr
prm := HeadPrm{
commonPrm: p.commonPrm,
}
w := NewSimpleObjectWriter()
prm.SetHeaderWriter(w)
err := exec.svc.Head(exec.context(), prm)
switch {
default:
exec.status = statusUndefined
exec.err = err
exec.log.Debug("could not get child object header",
zap.Stringer("child ID", id),
zap.String("error", err.Error()),
)
return nil, false
case err == nil:
child := w.Object()
if child.ParentID() != nil && !exec.isChild(child) {
exec.status = statusUndefined
exec.log.Debug("parent address in child object differs")
} else {
exec.status = statusOK
exec.err = nil
}
return child, true
}
}
func (exec execCtx) remoteClient(info clientcore.NodeInfo) (getClient, bool) {
c, err := exec.svc.clientCache.get(info)
switch {
default:
exec.status = statusUndefined
exec.err = err
exec.log.Debug("could not construct remote node client")
case err == nil:
return c, true
}
return nil, false
}
func mergeSplitInfo(dst, src *objectSDK.SplitInfo) {
if last := src.LastPart(); last != nil {
dst.SetLastPart(last)
}
if link := src.Link(); link != nil {
dst.SetLink(link)
}
if splitID := src.SplitID(); splitID != nil {
dst.SetSplitID(splitID)
}
}
func (exec *execCtx) writeCollectedHeader() bool {
if exec.ctxRange() != nil {
return true
}
err := exec.prm.objWriter.WriteHeader(
object.NewRawFromObject(exec.collectedObject).CutPayload().Object(),
)
switch {
default:
exec.status = statusUndefined
exec.err = err
exec.log.Debug("could not write header",
zap.String("error", err.Error()),
)
case err == nil:
exec.status = statusOK
exec.err = nil
}
return exec.status == statusOK
}
func (exec *execCtx) writeObjectPayload(obj *object.Object) bool {
if exec.headOnly() {
return true
}
err := exec.prm.objWriter.WriteChunk(obj.Payload())
switch {
default:
exec.status = statusUndefined
exec.err = err
exec.log.Debug("could not write payload chunk",
zap.String("error", err.Error()),
)
case err == nil:
exec.status = statusOK
exec.err = nil
}
return err == nil
}
func (exec *execCtx) writeCollectedObject() {
if ok := exec.writeCollectedHeader(); ok {
exec.writeObjectPayload(exec.collectedObject)
}
}
// isForwardingEnabled returns true if common execution
// parameters has request forwarding closure set.
func (exec execCtx) isForwardingEnabled() bool {
return exec.prm.forwarder != nil
}
// disableForwarding removes request forwarding closure from common
// parameters, so it won't be inherited in new execution contexts.
func (exec *execCtx) disableForwarding() {
exec.prm.SetRequestForwarder(nil)
}
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