package eacl
import (
"crypto/ecdsa"
v2acl "github.com/nspcc-dev/neofs-api-go/v2/acl"
crypto "github.com/nspcc-dev/neofs-crypto"
)
// Target is a group of request senders to match EACL. Defined by role enum
// and set of public keys.
//
// Target is compatible with v2 acl.EACLRecord.Target message.
type Target struct {
role Role
keys [][]byte
}
func ecdsaKeysToPtrs(keys []ecdsa.PublicKey) []*ecdsa.PublicKey {
keysPtr := make([]*ecdsa.PublicKey, len(keys))
for i := range keys {
keysPtr[i] = &keys[i]
}
return keysPtr
}
// SetKeys sets list of ECDSA public keys to identify target subject.
//
// Deprecated: use SetTargetECDSAKeys instead.
func (t *Target) SetKeys(keys ...ecdsa.PublicKey) {
SetTargetECDSAKeys(t, ecdsaKeysToPtrs(keys)...)
}
// Keys returns list of ECDSA public keys to identify target subject.
// If some key has a different format, it is ignored.
//
// Deprecated: use TargetECDSAKeys instead.
func (t *Target) Keys() []ecdsa.PublicKey {
keysPtr := TargetECDSAKeys(t)
keys := make([]ecdsa.PublicKey, 0, len(keysPtr))
for i := range keysPtr {
if keysPtr[i] != nil {
keys = append(keys, *keysPtr[i])
}
}
return keys
}
// BinaryKeys returns list of public keys to identify
// target subject in a binary format.
func (t *Target) BinaryKeys() [][]byte {
return t.keys
}
// SetBinaryKeys sets list of binary public keys to identify
// target subject.
func (t *Target) SetBinaryKeys(keys [][]byte) {
t.keys = keys
}
// SetTargetECDSAKeys converts ECDSA public keys to a binary
// format and stores them in Target.
func SetTargetECDSAKeys(t *Target, keys ...*ecdsa.PublicKey) {
binKeys := t.BinaryKeys()
ln := len(keys)
if cap(binKeys) >= ln {
binKeys = binKeys[:0]
} else {
binKeys = make([][]byte, 0, ln)
}
for i := 0; i < ln; i++ {
binKeys = append(binKeys, crypto.MarshalPublicKey(keys[i]))
}
t.SetBinaryKeys(binKeys)
}
// TargetECDSAKeys interprets binary public keys of Target
// as ECDSA public keys. If any key has a different format,
// the corresponding element will be nil.
func TargetECDSAKeys(t *Target) []*ecdsa.PublicKey {
binKeys := t.BinaryKeys()
ln := len(binKeys)
keys := make([]*ecdsa.PublicKey, ln)
for i := 0; i < ln; i++ {
keys[i] = crypto.UnmarshalPublicKey(binKeys[i])
}
return keys
}
// SetRole sets target subject's role class.
func (t *Target) SetRole(r Role) {
t.role = r
}
// Role returns target subject's role class.
func (t Target) Role() Role {
return t.role
}
// ToV2 converts Target to v2 acl.EACLRecord.Target message.
func (t *Target) ToV2() *v2acl.Target {
target := new(v2acl.Target)
target.SetRole(t.role.ToV2())
target.SetKeys(t.keys)
return target
}
// NewTarget creates, initializes and returns blank Target instance.
func NewTarget() *Target {
return NewTargetFromV2(new(v2acl.Target))
}
// NewTargetFromV2 converts v2 acl.EACLRecord.Target message to Target.
func NewTargetFromV2(target *v2acl.Target) *Target {
t := new(Target)
if target == nil {
return t
}
t.role = RoleFromV2(target.GetRole())
t.keys = target.GetKeys()
return t
}
// Marshal marshals Target into a protobuf binary form.
//
// Buffer is allocated when the argument is empty.
// Otherwise, the first buffer is used.
func (t *Target) Marshal(b ...[]byte) ([]byte, error) {
var buf []byte
if len(b) > 0 {
buf = b[0]
}
return t.ToV2().
StableMarshal(buf)
}
// Unmarshal unmarshals protobuf binary representation of Target.
func (t *Target) Unmarshal(data []byte) error {
fV2 := new(v2acl.Target)
if err := fV2.Unmarshal(data); err != nil {
return err
}
*t = *NewTargetFromV2(fV2)
return nil
}
// MarshalJSON encodes Target to protobuf JSON format.
func (t *Target) MarshalJSON() ([]byte, error) {
return t.ToV2().
MarshalJSON()
}
// UnmarshalJSON decodes Target from protobuf JSON format.
func (t *Target) UnmarshalJSON(data []byte) error {
tV2 := new(v2acl.Target)
if err := tV2.UnmarshalJSON(data); err != nil {
return err
}
*t = *NewTargetFromV2(tV2)
return nil
}