Files
QSfera/Server/vendor/github.com/nats-io/jwt/v2/account_claims.go
T
Курнат Андрей 2315f25754 Initial QSfera import
2026-06-07 10:20:04 +03:00

486 lines
16 KiB
Go

/*
* Copyright 2018-2024 The NATS Authors
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package jwt
import (
"errors"
"fmt"
"sort"
"time"
"github.com/nats-io/nkeys"
)
// NoLimit is used to indicate a limit field is unlimited in value.
const (
NoLimit = -1
AnyAccount = "*"
)
type AccountLimits struct {
Imports int64 `json:"imports,omitempty"` // Max number of imports
Exports int64 `json:"exports,omitempty"` // Max number of exports
WildcardExports bool `json:"wildcards,omitempty"` // Are wildcards allowed in exports
DisallowBearer bool `json:"disallow_bearer,omitempty"` // User JWT can't be bearer token
Conn int64 `json:"conn,omitempty"` // Max number of active connections
LeafNodeConn int64 `json:"leaf,omitempty"` // Max number of active leaf node connections
}
// IsUnlimited returns true if all limits are unlimited
func (a *AccountLimits) IsUnlimited() bool {
return *a == AccountLimits{NoLimit, NoLimit, true, false, NoLimit, NoLimit}
}
type NatsLimits struct {
Subs int64 `json:"subs,omitempty"` // Max number of subscriptions
Data int64 `json:"data,omitempty"` // Max number of bytes
Payload int64 `json:"payload,omitempty"` // Max message payload
}
// IsUnlimited returns true if all limits are unlimited
func (n *NatsLimits) IsUnlimited() bool {
return *n == NatsLimits{NoLimit, NoLimit, NoLimit}
}
type JetStreamLimits struct {
MemoryStorage int64 `json:"mem_storage,omitempty"` // Max number of bytes stored in memory across all streams. (0 means disabled)
DiskStorage int64 `json:"disk_storage,omitempty"` // Max number of bytes stored on disk across all streams. (0 means disabled)
Streams int64 `json:"streams,omitempty"` // Max number of streams
Consumer int64 `json:"consumer,omitempty"` // Max number of consumers
MaxAckPending int64 `json:"max_ack_pending,omitempty"` // Max ack pending of a Stream
MemoryMaxStreamBytes int64 `json:"mem_max_stream_bytes,omitempty"` // Max bytes a memory backed stream can have. (0 means disabled/unlimited)
DiskMaxStreamBytes int64 `json:"disk_max_stream_bytes,omitempty"` // Max bytes a disk backed stream can have. (0 means disabled/unlimited)
MaxBytesRequired bool `json:"max_bytes_required,omitempty"` // Max bytes required by all Streams
}
// IsUnlimited returns true if all limits are unlimited
func (j *JetStreamLimits) IsUnlimited() bool {
lim := *j
// workaround in case NoLimit was used instead of 0
if lim.MemoryMaxStreamBytes < 0 {
lim.MemoryMaxStreamBytes = 0
}
if lim.DiskMaxStreamBytes < 0 {
lim.DiskMaxStreamBytes = 0
}
if lim.MaxAckPending < 0 {
lim.MaxAckPending = 0
}
return lim == JetStreamLimits{NoLimit, NoLimit, NoLimit, NoLimit, 0, 0, 0, false}
}
type JetStreamTieredLimits map[string]JetStreamLimits
// OperatorLimits are used to limit access by an account
type OperatorLimits struct {
NatsLimits
AccountLimits
JetStreamLimits
JetStreamTieredLimits `json:"tiered_limits,omitempty"`
}
// IsJSEnabled returns if this account claim has JS enabled either through a tier or the non tiered limits.
func (o *OperatorLimits) IsJSEnabled() bool {
if len(o.JetStreamTieredLimits) > 0 {
for _, l := range o.JetStreamTieredLimits {
if l.MemoryStorage != 0 || l.DiskStorage != 0 {
return true
}
}
return false
}
l := o.JetStreamLimits
return l.MemoryStorage != 0 || l.DiskStorage != 0
}
// IsEmpty returns true if all limits are 0/false/empty.
func (o *OperatorLimits) IsEmpty() bool {
return o.NatsLimits == NatsLimits{} &&
o.AccountLimits == AccountLimits{} &&
o.JetStreamLimits == JetStreamLimits{} &&
len(o.JetStreamTieredLimits) == 0
}
// IsUnlimited returns true if all limits are unlimited
func (o *OperatorLimits) IsUnlimited() bool {
return o.AccountLimits.IsUnlimited() && o.NatsLimits.IsUnlimited() &&
o.JetStreamLimits.IsUnlimited() && len(o.JetStreamTieredLimits) == 0
}
// Validate checks that the operator limits contain valid values
func (o *OperatorLimits) Validate(vr *ValidationResults) {
// negative values mean unlimited, so all numbers are valid
if len(o.JetStreamTieredLimits) > 0 {
if (o.JetStreamLimits != JetStreamLimits{}) {
vr.AddError("JetStream Limits and tiered JetStream Limits are mutually exclusive")
}
if _, ok := o.JetStreamTieredLimits[""]; ok {
vr.AddError(`Tiered JetStream Limits can not contain a blank "" tier name`)
}
}
}
// WeightedMapping for publishes
type WeightedMapping struct {
Subject Subject `json:"subject"`
Weight uint8 `json:"weight,omitempty"`
Cluster string `json:"cluster,omitempty"`
}
func (m *WeightedMapping) GetWeight() uint8 {
if m.Weight == 0 {
return 100
}
return m.Weight
}
type Mapping map[Subject][]WeightedMapping
func (m *Mapping) Validate(vr *ValidationResults) {
for ubFrom, wm := range (map[Subject][]WeightedMapping)(*m) {
ubFrom.Validate(vr)
perCluster := make(map[string]uint32)
total := uint32(0)
for _, e := range wm {
e.Subject.Validate(vr)
if e.GetWeight() > 100 {
vr.AddError("Mapping %q has a weight %d that exceeds 100", ubFrom, e.GetWeight())
}
if e.Cluster != "" {
t := perCluster[e.Cluster]
t += uint32(e.GetWeight())
perCluster[e.Cluster] = t
if t > 100 {
vr.AddError("Mapping %q in cluster %q exceeds 100%% among all of it's weighted to mappings", ubFrom, e.Cluster)
}
} else {
total += uint32(e.GetWeight())
}
}
if total > 100 {
vr.AddError("Mapping %q exceeds 100%% among all of it's weighted to mappings", ubFrom)
}
}
}
func (a *Account) AddMapping(sub Subject, to ...WeightedMapping) {
a.Mappings[sub] = to
}
// ExternalAuthorization enables external authorization for account users.
// AuthUsers are those users specified to bypass the authorization callout and should be used for the authorization service itself.
// AllowedAccounts specifies which accounts, if any, that the authorization service can bind an authorized user to.
// The authorization response, a user JWT, will still need to be signed by the correct account.
// If optional XKey is specified, that is the public xkey (x25519) and the server will encrypt the request such that only the
// holder of the private key can decrypt. The auth service can also optionally encrypt the response back to the server using it's
// public xkey which will be in the authorization request.
type ExternalAuthorization struct {
AuthUsers StringList `json:"auth_users,omitempty"`
AllowedAccounts StringList `json:"allowed_accounts,omitempty"`
XKey string `json:"xkey,omitempty"`
}
func (ac *ExternalAuthorization) IsEnabled() bool {
return len(ac.AuthUsers) > 0
}
// HasExternalAuthorization helper function to determine if external authorization is enabled.
func (a *Account) HasExternalAuthorization() bool {
return a.Authorization.IsEnabled()
}
// EnableExternalAuthorization helper function to setup external authorization.
func (a *Account) EnableExternalAuthorization(users ...string) {
a.Authorization.AuthUsers.Add(users...)
}
func (ac *ExternalAuthorization) Validate(vr *ValidationResults) {
if len(ac.AllowedAccounts) > 0 && len(ac.AuthUsers) == 0 {
vr.AddError("External authorization cannot have accounts without users specified")
}
// Make sure users are all valid user nkeys.
// Make sure allowed accounts are all valid account nkeys.
for _, u := range ac.AuthUsers {
if !nkeys.IsValidPublicUserKey(u) {
vr.AddError("AuthUser %q is not a valid user public key", u)
}
}
for _, a := range ac.AllowedAccounts {
if a == AnyAccount && len(ac.AllowedAccounts) > 1 {
vr.AddError("AllowedAccounts can only be a list of accounts or %q", AnyAccount)
continue
} else if a == AnyAccount {
continue
} else if !nkeys.IsValidPublicAccountKey(a) {
vr.AddError("Account %q is not a valid account public key", a)
}
}
if ac.XKey != "" && !nkeys.IsValidPublicCurveKey(ac.XKey) {
vr.AddError("XKey %q is not a valid public xkey", ac.XKey)
}
}
const (
ClusterTrafficSystem = "system"
ClusterTrafficOwner = "owner"
)
type ClusterTraffic string
func (ct ClusterTraffic) Valid() error {
if ct == "" || ct == ClusterTrafficSystem || ct == ClusterTrafficOwner {
return nil
}
return fmt.Errorf("unknown cluster traffic option: %q", ct)
}
// Account holds account specific claims data
type Account struct {
Imports Imports `json:"imports,omitempty"`
Exports Exports `json:"exports,omitempty"`
Limits OperatorLimits `json:"limits,omitempty"`
SigningKeys SigningKeys `json:"signing_keys,omitempty"`
Revocations RevocationList `json:"revocations,omitempty"`
DefaultPermissions Permissions `json:"default_permissions,omitempty"`
Mappings Mapping `json:"mappings,omitempty"`
Authorization ExternalAuthorization `json:"authorization,omitempty"`
Trace *MsgTrace `json:"trace,omitempty"`
ClusterTraffic ClusterTraffic `json:"cluster_traffic,omitempty"`
Info
GenericFields
}
// MsgTrace holds distributed message tracing configuration
type MsgTrace struct {
// Destination is the subject the server will send message traces to
// if the inbound message contains the "traceparent" header and has
// its sampled field indicating that the trace should be triggered.
Destination Subject `json:"dest,omitempty"`
// Sampling is used to set the probability sampling, that is, the
// server will get a random number between 1 and 100 and trigger
// the trace if the number is lower than this Sampling value.
// The valid range is [1..100]. If the value is not set Validate()
// will set the value to 100.
Sampling int `json:"sampling,omitempty"`
}
// Validate checks if the account is valid, based on the wrapper
func (a *Account) Validate(acct *AccountClaims, vr *ValidationResults) {
a.Imports.Validate(acct.Subject, vr)
a.Exports.Validate(vr)
a.Limits.Validate(vr)
a.DefaultPermissions.Validate(vr)
a.Mappings.Validate(vr)
a.Authorization.Validate(vr)
if a.Trace != nil {
tvr := CreateValidationResults()
a.Trace.Destination.Validate(tvr)
if !tvr.IsEmpty() {
vr.AddError("the account Trace.Destination %s", tvr.Issues[0].Description)
}
if a.Trace.Destination.HasWildCards() {
vr.AddError("the account Trace.Destination subject %q is not a valid publish subject", a.Trace.Destination)
}
if a.Trace.Sampling < 0 || a.Trace.Sampling > 100 {
vr.AddError("the account Trace.Sampling value '%d' is not valid, should be in the range [1..100]", a.Trace.Sampling)
} else if a.Trace.Sampling == 0 {
a.Trace.Sampling = 100
}
}
if !a.Limits.IsEmpty() && a.Limits.Imports >= 0 && int64(len(a.Imports)) > a.Limits.Imports {
vr.AddError("the account contains more imports than allowed by the operator")
}
// Check Imports and Exports for limit violations.
if a.Limits.Imports != NoLimit {
if int64(len(a.Imports)) > a.Limits.Imports {
vr.AddError("the account contains more imports than allowed by the operator")
}
}
if a.Limits.Exports != NoLimit {
if int64(len(a.Exports)) > a.Limits.Exports {
vr.AddError("the account contains more exports than allowed by the operator")
}
// Check for wildcard restrictions
if !a.Limits.WildcardExports {
for _, ex := range a.Exports {
if ex.Subject.HasWildCards() {
vr.AddError("the account contains wildcard exports that are not allowed by the operator")
}
}
}
}
a.SigningKeys.Validate(vr)
a.Info.Validate(vr)
if err := a.ClusterTraffic.Valid(); err != nil {
vr.AddError("%s", err.Error())
}
}
// AccountClaims defines the body of an account JWT
type AccountClaims struct {
ClaimsData
Account `json:"nats,omitempty"`
}
// NewAccountClaims creates a new account JWT
func NewAccountClaims(subject string) *AccountClaims {
if subject == "" {
return nil
}
c := &AccountClaims{}
c.SigningKeys = make(SigningKeys)
// Set to unlimited to start. We do it this way so we get compiler
// errors if we add to the OperatorLimits.
c.Limits = OperatorLimits{
NatsLimits{NoLimit, NoLimit, NoLimit},
AccountLimits{NoLimit, NoLimit, true, false, NoLimit, NoLimit},
JetStreamLimits{0, 0, 0, 0, 0, 0, 0, false},
JetStreamTieredLimits{},
}
c.Subject = subject
c.Mappings = Mapping{}
return c
}
// Encode converts account claims into a JWT string
func (a *AccountClaims) Encode(pair nkeys.KeyPair) (string, error) {
return a.EncodeWithSigner(pair, nil)
}
func (a *AccountClaims) EncodeWithSigner(pair nkeys.KeyPair, fn SignFn) (string, error) {
if !nkeys.IsValidPublicAccountKey(a.Subject) {
return "", errors.New("expected subject to be account public key")
}
sort.Sort(a.Exports)
sort.Sort(a.Imports)
a.Type = AccountClaim
return a.ClaimsData.encode(pair, a, fn)
}
// DecodeAccountClaims decodes account claims from a JWT string
func DecodeAccountClaims(token string) (*AccountClaims, error) {
claims, err := Decode(token)
if err != nil {
return nil, err
}
ac, ok := claims.(*AccountClaims)
if !ok {
return nil, errors.New("not account claim")
}
return ac, nil
}
func (a *AccountClaims) String() string {
return a.ClaimsData.String(a)
}
// Payload pulls the accounts specific payload out of the claims
func (a *AccountClaims) Payload() interface{} {
return &a.Account
}
// Validate checks the accounts contents
func (a *AccountClaims) Validate(vr *ValidationResults) {
a.ClaimsData.Validate(vr)
a.Account.Validate(a, vr)
if nkeys.IsValidPublicAccountKey(a.ClaimsData.Issuer) {
if !a.Limits.IsEmpty() {
vr.AddWarning("self-signed account JWTs shouldn't contain operator limits")
}
}
}
func (a *AccountClaims) ClaimType() ClaimType {
return a.Type
}
func (a *AccountClaims) updateVersion() {
a.GenericFields.Version = libVersion
}
// ExpectedPrefixes defines the types that can encode an account jwt, account and operator
func (a *AccountClaims) ExpectedPrefixes() []nkeys.PrefixByte {
return []nkeys.PrefixByte{nkeys.PrefixByteAccount, nkeys.PrefixByteOperator}
}
// Claims returns the accounts claims data
func (a *AccountClaims) Claims() *ClaimsData {
return &a.ClaimsData
}
func (a *AccountClaims) GetTags() TagList {
return a.Account.Tags
}
// DidSign checks the claims against the account's public key and its signing keys
func (a *AccountClaims) DidSign(c Claims) bool {
if c != nil {
issuer := c.Claims().Issuer
if issuer == a.Subject {
return true
}
uc, ok := c.(*UserClaims)
if ok && uc.IssuerAccount == a.Subject {
return a.SigningKeys.Contains(issuer)
}
at, ok := c.(*ActivationClaims)
if ok && at.IssuerAccount == a.Subject {
return a.SigningKeys.Contains(issuer)
}
}
return false
}
// Revoke enters a revocation by public key using time.Now().
func (a *AccountClaims) Revoke(pubKey string) {
a.RevokeAt(pubKey, time.Now())
}
// RevokeAt enters a revocation by public key and timestamp into this account
// This will revoke all jwt issued for pubKey, prior to timestamp
// If there is already a revocation for this public key that is newer, it is kept.
// The value is expected to be a public key or "*" (means all public keys)
func (a *AccountClaims) RevokeAt(pubKey string, timestamp time.Time) {
if a.Revocations == nil {
a.Revocations = RevocationList{}
}
a.Revocations.Revoke(pubKey, timestamp)
}
// ClearRevocation removes any revocation for the public key
func (a *AccountClaims) ClearRevocation(pubKey string) {
a.Revocations.ClearRevocation(pubKey)
}
// isRevoked checks if the public key is in the revoked list with a timestamp later than the one passed in.
// Generally this method is called with the subject and issue time of the jwt to be tested.
// DO NOT pass time.Now(), it will not produce a stable/expected response.
func (a *AccountClaims) isRevoked(pubKey string, claimIssuedAt time.Time) bool {
return a.Revocations.IsRevoked(pubKey, claimIssuedAt)
}
// IsClaimRevoked checks if the account revoked the claim passed in.
// Invalid claims (nil, no Subject or IssuedAt) will return true.
func (a *AccountClaims) IsClaimRevoked(claim *UserClaims) bool {
if claim == nil || claim.IssuedAt == 0 || claim.Subject == "" {
return true
}
return a.isRevoked(claim.Subject, time.Unix(claim.IssuedAt, 0))
}