tile38/vendor/github.com/nats-io/jwt/account_claims.go

/*
 * Copyright 2018-2019 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"
	"sort"
	"time"

	"github.com/nats-io/nkeys"
)

// NoLimit is used to indicate a limit field is unlimited in value.
const NoLimit = -1

// OperatorLimits are used to limit access by an account
type OperatorLimits struct {
	Subs            int64 `json:"subs,omitempty"`      // Max number of subscriptions
	Conn            int64 `json:"conn,omitempty"`      // Max number of active connections
	LeafNodeConn    int64 `json:"leaf,omitempty"`      // Max number of active leaf node connections
	Imports         int64 `json:"imports,omitempty"`   // Max number of imports
	Exports         int64 `json:"exports,omitempty"`   // Max number of exports
	Data            int64 `json:"data,omitempty"`      // Max number of bytes
	Payload         int64 `json:"payload,omitempty"`   // Max message payload
	WildcardExports bool  `json:"wildcards,omitempty"` // Are wildcards allowed in exports
}

// IsEmpty returns true if all of the limits are 0/false.
func (o *OperatorLimits) IsEmpty() bool {
	return *o == OperatorLimits{}
}

// IsUnlimited returns true if all limits are
func (o *OperatorLimits) IsUnlimited() bool {
	return *o == OperatorLimits{NoLimit, NoLimit, NoLimit, NoLimit, NoLimit, NoLimit, NoLimit, true}
}

// Validate checks that the operator limits contain valid values
func (o *OperatorLimits) Validate(vr *ValidationResults) {
	// negative values mean unlimited, so all numbers are valid
}

// Account holds account specific claims data
type Account struct {
	Imports     Imports        `json:"imports,omitempty"`
	Exports     Exports        `json:"exports,omitempty"`
	Identities  []Identity     `json:"identity,omitempty"`
	Limits      OperatorLimits `json:"limits,omitempty"`
	SigningKeys StringList     `json:"signing_keys,omitempty"`
	Revocations RevocationList `json:"revocations,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)

	for _, i := range a.Identities {
		i.Validate(vr)
	}

	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")
				}
			}
		}
	}

	for _, k := range a.SigningKeys {
		if !nkeys.IsValidPublicAccountKey(k) {
			vr.AddError("%s is not an account public key", k)
		}
	}
}

// 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{}
	// Set to unlimited to start. We do it this way so we get compiler
	// errors if we add to the OperatorLimits.
	c.Limits = OperatorLimits{NoLimit, NoLimit, NoLimit, NoLimit, NoLimit, NoLimit, NoLimit, true}
	c.Subject = subject
	return c
}

// Encode converts account claims into a JWT string
func (a *AccountClaims) Encode(pair nkeys.KeyPair) (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.ClaimsData.Type = AccountClaim
	return a.ClaimsData.Encode(pair, a)
}

// DecodeAccountClaims decodes account claims from a JWT string
func DecodeAccountClaims(token string) (*AccountClaims, error) {
	v := AccountClaims{}
	if err := Decode(token, &v); err != nil {
		return nil, err
	}
	return &v, 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 len(a.Identities) > 0 {
			vr.AddWarning("self-signed account JWTs shouldn't contain identity proofs")
		}
		if !a.Limits.IsEmpty() {
			vr.AddWarning("self-signed account JWTs shouldn't contain operator limits")
		}
	}
}

// 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
}

// DidSign checks the claims against the account's public key and its signing keys
func (a *AccountClaims) DidSign(op Claims) bool {
	if op != nil {
		issuer := op.Claims().Issuer
		if issuer == a.Subject {
			return true
		}
		return a.SigningKeys.Contains(issuer)
	}
	return false
}

// Revoke enters a revocation by publickey 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.
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)
}

// IsRevokedAt 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) IsRevokedAt(pubKey string, timestamp time.Time) bool {
	return a.Revocations.IsRevoked(pubKey, timestamp)
}

// IsRevoked does not perform a valid check. Use IsRevokedAt instead.
func (a *AccountClaims) IsRevoked(_ string) bool {
	return true
}

// 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.Revocations.IsRevoked(claim.Subject, time.Unix(claim.IssuedAt, 0))
}
Various updates - Updated all dependencies - Updated geoindex Box api 2021-02-04 00:30:55 +03:00			`/*`
			`* Copyright 2018-2019 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"`
			`"sort"`
			`"time"`

			`"github.com/nats-io/nkeys"`
			`)`

			`// NoLimit is used to indicate a limit field is unlimited in value.`
			`const NoLimit = -1`

			`// OperatorLimits are used to limit access by an account`
			`type OperatorLimits struct {`
			Subs int64 `json:"subs,omitempty"` // Max number of subscriptions
			Conn int64 `json:"conn,omitempty"` // Max number of active connections
			LeafNodeConn int64 `json:"leaf,omitempty"` // Max number of active leaf node connections
			Imports int64 `json:"imports,omitempty"` // Max number of imports
			Exports int64 `json:"exports,omitempty"` // Max number of exports
			Data int64 `json:"data,omitempty"` // Max number of bytes
			Payload int64 `json:"payload,omitempty"` // Max message payload
			WildcardExports bool `json:"wildcards,omitempty"` // Are wildcards allowed in exports
			`}`

			`// IsEmpty returns true if all of the limits are 0/false.`
			`func (o *OperatorLimits) IsEmpty() bool {`
			`return *o == OperatorLimits{}`
			`}`

			`// IsUnlimited returns true if all limits are`
			`func (o *OperatorLimits) IsUnlimited() bool {`
			`return *o == OperatorLimits{NoLimit, NoLimit, NoLimit, NoLimit, NoLimit, NoLimit, NoLimit, true}`
			`}`

			`// Validate checks that the operator limits contain valid values`
			`func (o OperatorLimits) Validate(vr ValidationResults) {`
			`// negative values mean unlimited, so all numbers are valid`
			`}`

			`// Account holds account specific claims data`
			`type Account struct {`
			Imports Imports `json:"imports,omitempty"`
			Exports Exports `json:"exports,omitempty"`
			Identities []Identity `json:"identity,omitempty"`
			Limits OperatorLimits `json:"limits,omitempty"`
			SigningKeys StringList `json:"signing_keys,omitempty"`
			Revocations RevocationList `json:"revocations,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)`

			`for _, i := range a.Identities {`
			`i.Validate(vr)`
			`}`

			`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")`
			`}`
			`}`
			`}`
			`}`

			`for _, k := range a.SigningKeys {`
			`if !nkeys.IsValidPublicAccountKey(k) {`
			`vr.AddError("%s is not an account public key", k)`
			`}`
			`}`
			`}`

			`// 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{}`
			`// Set to unlimited to start. We do it this way so we get compiler`
			`// errors if we add to the OperatorLimits.`
			`c.Limits = OperatorLimits{NoLimit, NoLimit, NoLimit, NoLimit, NoLimit, NoLimit, NoLimit, true}`
			`c.Subject = subject`
			`return c`
			`}`

			`// Encode converts account claims into a JWT string`
			`func (a *AccountClaims) Encode(pair nkeys.KeyPair) (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.ClaimsData.Type = AccountClaim`
			`return a.ClaimsData.Encode(pair, a)`
			`}`

			`// DecodeAccountClaims decodes account claims from a JWT string`
			`func DecodeAccountClaims(token string) (*AccountClaims, error) {`
			`v := AccountClaims{}`
			`if err := Decode(token, &v); err != nil {`
			`return nil, err`
			`}`
			`return &v, 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 len(a.Identities) > 0 {`
			`vr.AddWarning("self-signed account JWTs shouldn't contain identity proofs")`
			`}`
			`if !a.Limits.IsEmpty() {`
			`vr.AddWarning("self-signed account JWTs shouldn't contain operator limits")`
			`}`
			`}`
			`}`

			`// 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`
			`}`

			`// DidSign checks the claims against the account's public key and its signing keys`
			`func (a *AccountClaims) DidSign(op Claims) bool {`
			`if op != nil {`
			`issuer := op.Claims().Issuer`
			`if issuer == a.Subject {`
			`return true`
			`}`
			`return a.SigningKeys.Contains(issuer)`
			`}`
			`return false`
			`}`

			`// Revoke enters a revocation by publickey 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.`
			`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)`
			`}`

			`// IsRevokedAt 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) IsRevokedAt(pubKey string, timestamp time.Time) bool {`
			`return a.Revocations.IsRevoked(pubKey, timestamp)`
			`}`

			`// IsRevoked does not perform a valid check. Use IsRevokedAt instead.`
			`func (a *AccountClaims) IsRevoked(_ string) bool {`
			`return true`
			`}`

			`// 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.Revocations.IsRevoked(claim.Subject, time.Unix(claim.IssuedAt, 0))`
			`}`