frostfs-node/pkg/services/object/acl/acl.go

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package acl
import (
"crypto/ecdsa"
"crypto/elliptic"
"errors"
"fmt"
"github.com/nspcc-dev/neo-go/pkg/crypto/keys"
"github.com/nspcc-dev/neofs-node/pkg/core/container"
"github.com/nspcc-dev/neofs-node/pkg/core/netmap"
"github.com/nspcc-dev/neofs-node/pkg/local_object_storage/engine"
"github.com/nspcc-dev/neofs-node/pkg/services/object/acl/eacl"
eaclV2 "github.com/nspcc-dev/neofs-node/pkg/services/object/acl/eacl/v2"
v2 "github.com/nspcc-dev/neofs-node/pkg/services/object/acl/v2"
eaclSDK "github.com/nspcc-dev/neofs-sdk-go/eacl"
addressSDK "github.com/nspcc-dev/neofs-sdk-go/object/address"
"github.com/nspcc-dev/neofs-sdk-go/owner"
bearerSDK "github.com/nspcc-dev/neofs-sdk-go/token"
)
// CheckerPrm groups parameters for Checker
// constructor.
type CheckerPrm struct {
eaclSrc eacl.Source
validator *eaclSDK.Validator
localStorage *engine.StorageEngine
state netmap.State
}
func (c *CheckerPrm) SetEACLSource(v eacl.Source) *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 eacl.Source
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")
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 interface{}) {
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
var checkFn func(eaclSDK.Operation) bool
switch info.RequestRole() {
case eaclSDK.RoleUser:
checkFn = basicACLHelper(info.BasicACL()).UserAllowed
case eaclSDK.RoleSystem:
checkFn = basicACLHelper(info.BasicACL()).SystemAllowed
if info.IsInnerRing() {
checkFn = basicACLHelper(info.BasicACL()).InnerRingAllowed
}
case eaclSDK.RoleOthers:
checkFn = basicACLHelper(info.BasicACL()).OthersAllowed
default:
// log there
return false
}
return checkFn(info.Operation())
}
// StickyBitCheck validates owner field in the request if sticky bit is enabled.
func (c *Checker) StickyBitCheck(info v2.RequestInfo, owner *owner.ID) bool {
// According to NeoFS specification sticky bit has no effect on system nodes
// for correct intra-container work with objects (in particular, replication).
if info.RequestRole() == eaclSDK.RoleSystem {
return true
}
if !basicACLHelper(info.BasicACL()).Sticky() {
return true
}
if owner == nil || 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 interface{}, reqInfo v2.RequestInfo) error {
if basicACLHelper(reqInfo.BasicACL()).Final() {
return nil
}
// if bearer token is not allowed, then ignore it
if !basicACLHelper(reqInfo.BasicACL()).BearerAllowed(reqInfo.Operation()) {
reqInfo.CleanBearer()
}
var (
table *eaclSDK.Table
err error
)
if reqInfo.Bearer().Empty() {
table, err = c.eaclSrc.GetEACL(reqInfo.ContainerID())
if err != nil {
if errors.Is(err, container.ErrEACLNotFound) {
return nil
}
return err
}
} else {
table = reqInfo.Bearer().EACLTable()
}
// if bearer token is not present, isValidBearer returns true
if err := isValidBearer(reqInfo, c.state); err != nil {
return err
}
hdrSrcOpts := make([]eaclV2.Option, 0, 3)
addr := addressSDK.NewAddress()
addr.SetContainerID(reqInfo.ContainerID())
addr.SetObjectID(reqInfo.ObjectID())
hdrSrcOpts = append(hdrSrcOpts,
eaclV2.WithLocalObjectStorage(c.localStorage),
eaclV2.WithAddress(addr),
)
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),
),
)
}
action := c.validator.CalculateAction(new(eaclSDK.ValidationUnit).
WithRole(reqInfo.RequestRole()).
WithOperation(reqInfo.Operation()).
WithContainerID(reqInfo.ContainerID()).
WithSenderKey(reqInfo.SenderKey()).
WithHeaderSource(
eaclV2.NewMessageHeaderSource(hdrSrcOpts...),
).
WithEACLTable(table),
)
if action != eaclSDK.ActionAllow {
return errEACLDeniedByRule
}
return 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 {
token := reqInfo.Bearer()
// 0. Check if bearer token is present in reqInfo. It might be non nil
// empty structure.
if token == nil || token.Empty() {
return nil
}
// 1. First check token lifetime. Simplest verification.
if !isValidLifetime(token, st.CurrentEpoch()) {
return errBearerExpired
}
// 2. Then check if bearer token is signed correctly.
if err := token.VerifySignature(); err != nil {
return errBearerInvalidSignature
}
// 3. Then check if container owner signed this token.
tokenIssuerKey := unmarshalPublicKey(token.Signature().Key())
if !isOwnerFromKey(reqInfo.ContainerOwner(), tokenIssuerKey) {
// TODO: #767 in this case we can issue all owner keys from neofs.id and check once again
return errBearerNotSignedByOwner
}
// 4. Then check if request sender has rights to use this token.
tokenOwnerField := token.OwnerID()
if tokenOwnerField != nil { // see bearer token owner field description
requestSenderKey := unmarshalPublicKey(reqInfo.SenderKey())
if !isOwnerFromKey(tokenOwnerField, requestSenderKey) {
// TODO: #767 in this case we can issue all owner keys from neofs.id and check once again
return errBearerInvalidOwner
}
}
return nil
}
func isValidLifetime(t *bearerSDK.BearerToken, epoch uint64) bool {
// The "exp" (expiration time) claim identifies the expiration time on
// or after which the JWT MUST NOT be accepted for processing.
// The "nbf" (not before) claim identifies the time before which the JWT
// MUST NOT be accepted for processing
// RFC 7519 sections 4.1.4, 4.1.5
return epoch >= t.NotBeforeTime() && epoch <= t.Expiration()
}
func isOwnerFromKey(id *owner.ID, key *keys.PublicKey) bool {
if id == nil || key == nil {
return false
}
return id.Equal(owner.NewIDFromPublicKey((*ecdsa.PublicKey)(key)))
}
func unmarshalPublicKey(bs []byte) *keys.PublicKey {
pub, err := keys.NewPublicKeyFromBytes(bs, elliptic.P256())
if err != nil {
return nil
}
return pub
}