package acl import ( "crypto/ecdsa" "crypto/elliptic" "errors" "fmt" "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/core/container" "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/core/netmap" "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/local_object_storage/engine" eaclV2 "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/services/object/acl/eacl/v2" v2 "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/services/object/acl/v2" bearerSDK "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/bearer" "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/client" "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/container/acl" cid "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/container/id" frostfsecdsa "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/crypto/ecdsa" eaclSDK "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/eacl" "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/user" "github.com/nspcc-dev/neo-go/pkg/crypto/keys" ) // CheckerPrm groups parameters for Checker // constructor. type CheckerPrm struct { eaclSrc container.EACLSource validator *eaclSDK.Validator localStorage *engine.StorageEngine state netmap.State } func (c *CheckerPrm) SetEACLSource(v container.EACLSource) *CheckerPrm { c.eaclSrc = v return c } func (c *CheckerPrm) SetValidator(v *eaclSDK.Validator) *CheckerPrm { c.validator = v return c } func (c *CheckerPrm) SetLocalStorage(v *engine.StorageEngine) *CheckerPrm { c.localStorage = v return c } func (c *CheckerPrm) SetNetmapState(v netmap.State) *CheckerPrm { c.state = v return c } // Checker implements v2.ACLChecker interfaces and provides // ACL/eACL validation functionality. type Checker struct { eaclSrc container.EACLSource validator *eaclSDK.Validator localStorage *engine.StorageEngine state netmap.State } // Various EACL check errors. var ( errEACLDeniedByRule = errors.New("denied by rule") errBearerExpired = errors.New("bearer token has expired") errBearerInvalidSignature = errors.New("bearer token has invalid signature") errBearerInvalidContainerID = errors.New("bearer token was created for another container") errBearerNotSignedByOwner = errors.New("bearer token is not signed by the container owner") errBearerInvalidOwner = errors.New("bearer token owner differs from the request sender") ) // NewChecker creates Checker. // Panics if at least one of the parameter is nil. func NewChecker(prm *CheckerPrm) *Checker { panicOnNil := func(fieldName string, field any) { if field == nil { panic(fmt.Sprintf("incorrect field %s (%T): %v", fieldName, field, field)) } } panicOnNil("EACLSource", prm.eaclSrc) panicOnNil("EACLValidator", prm.validator) panicOnNil("LocalStorageEngine", prm.localStorage) panicOnNil("NetmapState", prm.state) return &Checker{ eaclSrc: prm.eaclSrc, validator: prm.validator, localStorage: prm.localStorage, state: prm.state, } } // CheckBasicACL is a main check function for basic ACL. func (c *Checker) CheckBasicACL(info v2.RequestInfo) bool { // check basic ACL permissions return info.BasicACL().IsOpAllowed(info.Operation(), info.RequestRole()) } // StickyBitCheck validates owner field in the request if sticky bit is enabled. func (c *Checker) StickyBitCheck(info v2.RequestInfo, owner user.ID) bool { // According to FrostFS specification sticky bit has no effect on system nodes // for correct intra-container work with objects (in particular, replication). if info.RequestRole() == acl.RoleContainer { return true } if !info.BasicACL().Sticky() { return true } if len(info.SenderKey()) == 0 { return false } requestSenderKey := unmarshalPublicKey(info.SenderKey()) return isOwnerFromKey(owner, requestSenderKey) } // CheckEACL is a main check function for extended ACL. func (c *Checker) CheckEACL(msg any, reqInfo v2.RequestInfo) error { basicACL := reqInfo.BasicACL() if !basicACL.Extendable() { return nil } // if bearer token is not allowed, then ignore it if !basicACL.AllowedBearerRules(reqInfo.Operation()) { reqInfo.CleanBearer() } var table eaclSDK.Table cnr := reqInfo.ContainerID() bearerTok := reqInfo.Bearer() if bearerTok == nil { eaclInfo, err := c.eaclSrc.GetEACL(cnr) if err != nil { if client.IsErrEACLNotFound(err) { return nil } return err } table = *eaclInfo.Value } else { table = bearerTok.EACLTable() } // if bearer token is not present, isValidBearer returns true if err := isValidBearer(reqInfo, c.state); err != nil { return err } hdrSrc, err := c.getHeaderSource(cnr, msg, reqInfo) if err != nil { return err } eaclRole := getRole(reqInfo) action, _ := c.validator.CalculateAction(new(eaclSDK.ValidationUnit). WithRole(eaclRole). WithOperation(eaclSDK.Operation(reqInfo.Operation())). WithContainerID(&cnr). WithSenderKey(reqInfo.SenderKey()). WithHeaderSource(hdrSrc). WithEACLTable(&table), ) if action != eaclSDK.ActionAllow { return errEACLDeniedByRule } return nil } func getRole(reqInfo v2.RequestInfo) eaclSDK.Role { var eaclRole eaclSDK.Role switch op := reqInfo.RequestRole(); op { default: eaclRole = eaclSDK.Role(op) case acl.RoleOwner: eaclRole = eaclSDK.RoleUser case acl.RoleInnerRing, acl.RoleContainer: eaclRole = eaclSDK.RoleSystem case acl.RoleOthers: eaclRole = eaclSDK.RoleOthers } return eaclRole } func (c *Checker) getHeaderSource(cnr cid.ID, msg any, reqInfo v2.RequestInfo) (eaclSDK.TypedHeaderSource, error) { hdrSrcOpts := make([]eaclV2.Option, 0, 3) hdrSrcOpts = append(hdrSrcOpts, eaclV2.WithLocalObjectStorage(c.localStorage), eaclV2.WithCID(cnr), eaclV2.WithOID(reqInfo.ObjectID()), ) if req, ok := msg.(eaclV2.Request); ok { hdrSrcOpts = append(hdrSrcOpts, eaclV2.WithServiceRequest(req)) } else { hdrSrcOpts = append(hdrSrcOpts, eaclV2.WithServiceResponse( msg.(eaclV2.Response), reqInfo.Request().(eaclV2.Request), ), ) } hdrSrc, err := eaclV2.NewMessageHeaderSource(hdrSrcOpts...) if err != nil { return nil, fmt.Errorf("can't parse headers: %w", err) } return hdrSrc, nil } // isValidBearer checks whether bearer token was correctly signed by authorized // entity. This method might be defined on whole ACL service because it will // require fetching current epoch to check lifetime. func isValidBearer(reqInfo v2.RequestInfo, st netmap.State) error { ownerCnr := reqInfo.ContainerOwner() token := reqInfo.Bearer() // 0. Check if bearer token is present in reqInfo. if token == nil { return nil } // 1. First check token lifetime. Simplest verification. if token.InvalidAt(st.CurrentEpoch()) { return errBearerExpired } // 2. Then check if bearer token is signed correctly. if !token.VerifySignature() { return errBearerInvalidSignature } // 3. Then check if container is either empty or equal to the container in the request. cnr, isSet := token.EACLTable().CID() if isSet && !cnr.Equals(reqInfo.ContainerID()) { return errBearerInvalidContainerID } // 4. Then check if container owner signed this token. if !bearerSDK.ResolveIssuer(*token).Equals(ownerCnr) { // TODO: #767 in this case we can issue all owner keys from frostfs.id and check once again return errBearerNotSignedByOwner } // 5. Then check if request sender has rights to use this token. var keySender frostfsecdsa.PublicKey err := keySender.Decode(reqInfo.SenderKey()) if err != nil { return fmt.Errorf("decode sender public key: %w", err) } var usrSender user.ID user.IDFromKey(&usrSender, ecdsa.PublicKey(keySender)) if !token.AssertUser(usrSender) { // TODO: #767 in this case we can issue all owner keys from frostfs.id and check once again return errBearerInvalidOwner } return nil } func isOwnerFromKey(id user.ID, key *keys.PublicKey) bool { if key == nil { return false } var id2 user.ID user.IDFromKey(&id2, (ecdsa.PublicKey)(*key)) return id.Equals(id2) } func unmarshalPublicKey(bs []byte) *keys.PublicKey { pub, err := keys.NewPublicKeyFromBytes(bs, elliptic.P256()) if err != nil { return nil } return pub }