frostfs-sdk-go/audit/result.go

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package audit
import (
"github.com/nspcc-dev/neofs-api-go/v2/audit"
"github.com/nspcc-dev/neofs-api-go/v2/refs"
cid "github.com/nspcc-dev/neofs-sdk-go/container/id"
oid "github.com/nspcc-dev/neofs-sdk-go/object/id"
"github.com/nspcc-dev/neofs-sdk-go/version"
)
// Result represents v2-compatible data audit result.
type Result audit.DataAuditResult
// NewFromV2 wraps v2 DataAuditResult message to Result.
//
// Nil audit.DataAuditResult converts to nil.
func NewResultFromV2(aV2 *audit.DataAuditResult) *Result {
return (*Result)(aV2)
}
// New creates and initializes blank Result.
//
// Defaults:
// - version: version.Current();
// - complete: false;
// - cid: nil;
// - pubKey: nil;
// - passSG, failSG: nil;
// - failNodes, passNodes: nil;
// - hit, miss, fail: 0;
// - requests, retries: 0;
// - auditEpoch: 0.
func NewResult() *Result {
r := NewResultFromV2(new(audit.DataAuditResult))
r.SetVersion(version.Current())
return r
}
// ToV2 converts Result to v2 DataAuditResult message.
//
// Nil Result converts to nil.
func (r *Result) ToV2() *audit.DataAuditResult {
return (*audit.DataAuditResult)(r)
}
// Marshal marshals Result into a protobuf binary form.
func (r *Result) Marshal() ([]byte, error) {
return (*audit.DataAuditResult)(r).StableMarshal(nil), nil
}
// Unmarshal unmarshals protobuf binary representation of Result.
func (r *Result) Unmarshal(data []byte) error {
return (*audit.DataAuditResult)(r).Unmarshal(data)
}
// MarshalJSON encodes Result to protobuf JSON format.
func (r *Result) MarshalJSON() ([]byte, error) {
return (*audit.DataAuditResult)(r).MarshalJSON()
}
// UnmarshalJSON decodes Result from protobuf JSON format.
func (r *Result) UnmarshalJSON(data []byte) error {
return (*audit.DataAuditResult)(r).UnmarshalJSON(data)
}
// Version returns Data Audit structure version.
func (r *Result) Version() *version.Version {
return version.NewFromV2(
(*audit.DataAuditResult)(r).GetVersion())
}
// SetVersion sets Data Audit structure version.
func (r *Result) SetVersion(v *version.Version) {
(*audit.DataAuditResult)(r).SetVersion(v.ToV2())
}
// AuditEpoch returns epoch number when the Data Audit was conducted.
func (r *Result) AuditEpoch() uint64 {
return (*audit.DataAuditResult)(r).GetAuditEpoch()
}
// SetAuditEpoch sets epoch number when the Data Audit was conducted.
func (r *Result) SetAuditEpoch(epoch uint64) {
(*audit.DataAuditResult)(r).SetAuditEpoch(epoch)
}
// ContainerID returns container under audit.
func (r *Result) ContainerID() *cid.ID {
return cid.NewFromV2(
(*audit.DataAuditResult)(r).GetContainerID())
}
// SetContainerID sets container under audit.
func (r *Result) SetContainerID(id *cid.ID) {
(*audit.DataAuditResult)(r).SetContainerID(id.ToV2())
}
// PublicKey returns public key of the auditing InnerRing node in a binary format.
func (r *Result) PublicKey() []byte {
return (*audit.DataAuditResult)(r).GetPublicKey()
}
// SetPublicKey sets public key of the auditing InnerRing node in a binary format.
func (r *Result) SetPublicKey(key []byte) {
(*audit.DataAuditResult)(r).SetPublicKey(key)
}
// Complete returns completion state of audit result.
func (r *Result) Complete() bool {
return (*audit.DataAuditResult)(r).GetComplete()
}
// SetComplete sets completion state of audit result.
func (r *Result) SetComplete(v bool) {
(*audit.DataAuditResult)(r).SetComplete(v)
}
// Requests returns number of requests made by PoR audit check to get
// all headers of the objects inside storage groups.
func (r *Result) Requests() uint32 {
return (*audit.DataAuditResult)(r).GetRequests()
}
// SetRequests sets number of requests made by PoR audit check to get
// all headers of the objects inside storage groups.
func (r *Result) SetRequests(v uint32) {
(*audit.DataAuditResult)(r).SetRequests(v)
}
// Retries returns number of retries made by PoR audit check to get
// all headers of the objects inside storage groups.
func (r *Result) Retries() uint32 {
return (*audit.DataAuditResult)(r).GetRetries()
}
// SetRetries sets number of retries made by PoR audit check to get
// all headers of the objects inside storage groups.
func (r *Result) SetRetries(v uint32) {
(*audit.DataAuditResult)(r).SetRetries(v)
}
// PassSG returns list of Storage Groups that passed audit PoR stage.
func (r *Result) PassSG() []oid.ID {
mV2 := (*audit.DataAuditResult)(r).
GetPassSG()
if mV2 == nil {
return nil
}
m := make([]oid.ID, len(mV2))
for i := range mV2 {
m[i] = *oid.NewIDFromV2(&mV2[i])
}
return m
}
// SetPassSG sets list of Storage Groups that passed audit PoR stage.
func (r *Result) SetPassSG(list []oid.ID) {
mV2 := (*audit.DataAuditResult)(r).
GetPassSG()
if list == nil {
mV2 = nil
} else {
ln := len(list)
if cap(mV2) >= ln {
mV2 = mV2[:0]
} else {
mV2 = make([]refs.ObjectID, ln)
}
for i := 0; i < ln; i++ {
mV2[i] = *list[i].ToV2()
}
}
(*audit.DataAuditResult)(r).SetPassSG(mV2)
}
// FailSG returns list of Storage Groups that failed audit PoR stage.
func (r *Result) FailSG() []oid.ID {
mV2 := (*audit.DataAuditResult)(r).
GetFailSG()
if mV2 == nil {
return nil
}
m := make([]oid.ID, len(mV2))
for i := range mV2 {
m[i] = *oid.NewIDFromV2(&mV2[i])
}
return m
}
// SetFailSG sets list of Storage Groups that failed audit PoR stage.
func (r *Result) SetFailSG(list []oid.ID) {
mV2 := (*audit.DataAuditResult)(r).
GetFailSG()
if list == nil {
mV2 = nil
} else {
ln := len(list)
if cap(mV2) >= ln {
mV2 = mV2[:0]
} else {
mV2 = make([]refs.ObjectID, ln)
}
for i := 0; i < ln; i++ {
mV2[i] = *list[i].ToV2()
}
}
(*audit.DataAuditResult)(r).SetFailSG(mV2)
}
// Hit returns number of sampled objects under audit placed
// in an optimal way according to the containers placement policy
// when checking PoP.
func (r *Result) Hit() uint32 {
return (*audit.DataAuditResult)(r).GetHit()
}
// SetHit sets number of sampled objects under audit placed
// in an optimal way according to the containers placement policy
// when checking PoP.
func (r *Result) SetHit(hit uint32) {
(*audit.DataAuditResult)(r).SetHit(hit)
}
// Miss returns number of sampled objects under audit placed
// in suboptimal way according to the containers placement policy,
// but still at a satisfactory level when checking PoP.
func (r *Result) Miss() uint32 {
return (*audit.DataAuditResult)(r).GetMiss()
}
// SetMiss sets number of sampled objects under audit placed
// in suboptimal way according to the containers placement policy,
// but still at a satisfactory level when checking PoP.
func (r *Result) SetMiss(miss uint32) {
(*audit.DataAuditResult)(r).SetMiss(miss)
}
// Fail returns number of sampled objects under audit stored
// in a way not confirming placement policy or not found at all
// when checking PoP.
func (r *Result) Fail() uint32 {
return (*audit.DataAuditResult)(r).GetFail()
}
// SetFail sets number of sampled objects under audit stored
// in a way not confirming placement policy or not found at all
// when checking PoP.
func (r *Result) SetFail(fail uint32) {
(*audit.DataAuditResult)(r).SetFail(fail)
}
// PassNodes returns list of storage node public keys that
// passed at least one PDP.
func (r *Result) PassNodes() [][]byte {
return (*audit.DataAuditResult)(r).GetPassNodes()
}
// SetPassNodes sets list of storage node public keys that
// passed at least one PDP.
func (r *Result) SetPassNodes(list [][]byte) {
(*audit.DataAuditResult)(r).SetPassNodes(list)
}
// FailNodes returns list of storage node public keys that
// failed at least one PDP.
func (r *Result) FailNodes() [][]byte {
return (*audit.DataAuditResult)(r).GetFailNodes()
}
// SetFailNodes sets list of storage node public keys that
// failed at least one PDP.
func (r *Result) SetFailNodes(list [][]byte) {
(*audit.DataAuditResult)(r).SetFailNodes(list)
}