package container import ( "crypto/sha256" "github.com/google/uuid" "github.com/nspcc-dev/neofs-api-go/pkg" "github.com/nspcc-dev/neofs-api-go/pkg/netmap" "github.com/nspcc-dev/neofs-api-go/pkg/owner" "github.com/nspcc-dev/neofs-api-go/pkg/token" "github.com/nspcc-dev/neofs-api-go/v2/container" ) type Container struct { v2 container.Container token *token.SessionToken sig *pkg.Signature } func New(opts ...NewOption) *Container { cnrOptions := defaultContainerOptions() for i := range opts { opts[i].apply(&cnrOptions) } cnr := new(Container) cnr.SetNonceUUID(cnrOptions.nonce) cnr.SetBasicACL(cnrOptions.acl) if cnrOptions.owner != nil { cnr.SetOwnerID(cnrOptions.owner) } if cnrOptions.policy != nil { cnr.SetPlacementPolicy(cnrOptions.policy) } cnr.SetAttributes(cnrOptions.attributes) return cnr } func (c *Container) ToV2() *container.Container { return &c.v2 } // NewVerifiedFromV2 constructs Container from NeoFS API V2 Container message. // // Does not perform if message meets NeoFS API V2 specification. To do this // use NewVerifiedFromV2 constructor. func NewContainerFromV2(c *container.Container) *Container { cnr := new(Container) if c != nil { cnr.v2 = *c } return cnr } // CalculateID calculates container identifier // based on its structure. func CalculateID(c *Container) *ID { data, err := c.ToV2().StableMarshal(nil) if err != nil { panic(err) } id := NewID() id.SetSHA256(sha256.Sum256(data)) return id } func (c *Container) Version() *pkg.Version { return pkg.NewVersionFromV2(c.v2.GetVersion()) } func (c *Container) SetVersion(v *pkg.Version) { c.v2.SetVersion(v.ToV2()) } func (c *Container) OwnerID() *owner.ID { return owner.NewIDFromV2(c.v2.GetOwnerID()) } func (c *Container) SetOwnerID(v *owner.ID) { c.v2.SetOwnerID(v.ToV2()) } // Nonce returns container nonce in a binary format. // // Returns nil if container nonce is not a valid UUID. // // Deprecated: use NonceUUID instead. func (c *Container) Nonce() []byte { uid, err := c.NonceUUID() if err == nil { data, _ := uid.MarshalBinary() return data } return nil } // SetNonce sets container nonce in a binary format. // // If slice length is less than UUID size, than // value is padded with a sequence of zeros. // If slice length is more than UUID size, than // value is cut. // // Deprecated: use SetNonceUUID instead. func (c *Container) SetNonce(v []byte) { u := uuid.UUID{} copy(u[:], v) c.v2.SetNonce(u[:]) } // Returns container nonce in UUID format. // // Returns error if container nonce is not a valid UUID. func (c *Container) NonceUUID() (uuid.UUID, error) { return uuid.FromBytes(c.v2.GetNonce()) } // SetNonceUUID sets container nonce as UUID. func (c *Container) SetNonceUUID(v uuid.UUID) { data, _ := v.MarshalBinary() c.v2.SetNonce(data) } func (c *Container) BasicACL() uint32 { return c.v2.GetBasicACL() } func (c *Container) SetBasicACL(v uint32) { c.v2.SetBasicACL(v) } func (c *Container) Attributes() Attributes { return NewAttributesFromV2(c.v2.GetAttributes()) } func (c *Container) SetAttributes(v Attributes) { c.v2.SetAttributes(v.ToV2()) } func (c *Container) PlacementPolicy() *netmap.PlacementPolicy { return netmap.NewPlacementPolicyFromV2(c.v2.GetPlacementPolicy()) } func (c *Container) SetPlacementPolicy(v *netmap.PlacementPolicy) { c.v2.SetPlacementPolicy(v.ToV2()) } // SessionToken returns token of the session within // which container was created. func (c Container) SessionToken() *token.SessionToken { return c.token } // SetSessionToken sets token of the session within // which container was created. func (c *Container) SetSessionToken(t *token.SessionToken) { c.token = t } // Signature returns signature of the marshaled container. func (c Container) Signature() *pkg.Signature { return c.sig } // SetSignature sets signature of the marshaled container. func (c *Container) SetSignature(sig *pkg.Signature) { c.sig = sig } // Marshal marshals Container into a protobuf binary form. // // Buffer is allocated when the argument is empty. // Otherwise, the first buffer is used. func (c *Container) Marshal(b ...[]byte) ([]byte, error) { var buf []byte if len(b) > 0 { buf = b[0] } return c.v2. StableMarshal(buf) } // Unmarshal unmarshals protobuf binary representation of Container. func (c *Container) Unmarshal(data []byte) error { return c.v2. Unmarshal(data) } // MarshalJSON encodes Container to protobuf JSON format. func (c *Container) MarshalJSON() ([]byte, error) { return c.v2. MarshalJSON() } // UnmarshalJSON decodes Container from protobuf JSON format. func (c *Container) UnmarshalJSON(data []byte) error { return c.v2. UnmarshalJSON(data) }