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consul/agent/token/store.go

290 lines
8.1 KiB

package token
import (
"sync"
"crypto/subtle"
)
type TokenSource bool
const (
TokenSourceConfig TokenSource = false
TokenSourceAPI TokenSource = true
)
type TokenKind int
const (
TokenKindAgent TokenKind = iota
TokenKindAgentMaster
TokenKindUser
TokenKindReplication
)
type watcher struct {
kind TokenKind
ch chan<- struct{}
}
// Notifier holds the channel used to notify a watcher
// of token updates as well as some internal tracking
// information to allow for deregistering the notifier.
type Notifier struct {
id int
Ch <-chan struct{}
}
// Store is used to hold the special ACL tokens used by Consul agents. It is
// designed to update the tokens on the fly, so the token store itself should be
// plumbed around and used to get tokens at runtime, don't save the resulting
// tokens.
type Store struct {
// l synchronizes access to the token store.
l sync.RWMutex
// userToken is passed along for requests when the user didn't supply a
// token, and may be left blank to use the anonymous token. This will
// also be used for agent operations if the agent token isn't set.
userToken string
// userTokenSource indicates where this token originated from
userTokenSource TokenSource
// agentToken is used for internal agent operations like self-registering
// with the catalog and anti-entropy, but should never be used for
// user-initiated operations.
agentToken string
// agentTokenSource indicates where this token originated from
agentTokenSource TokenSource
// agentMasterToken is a special token that's only used locally for
// access to the /v1/agent utility operations if the servers aren't
// available.
agentMasterToken string
// agentMasterTokenSource indicates where this token originated from
agentMasterTokenSource TokenSource
// replicationToken is a special token that's used by servers to
// replicate data from the primary datacenter.
replicationToken string
// replicationTokenSource indicates where this token originated from
replicationTokenSource TokenSource
watchers map[int]watcher
watcherIndex int
// enterpriseTokens contains tokens only used in consul-enterprise
enterpriseTokens
}
// Notify will set up a watch for when tokens of the desired kind is changed
func (t *Store) Notify(kind TokenKind) Notifier {
// buffering ensures that notifications aren't missed if the watcher
// isn't already in a select and that our notifications don't
// block returning from the Update* methods.
ch := make(chan struct{}, 1)
w := watcher{
kind: kind,
ch: ch,
}
t.l.Lock()
defer t.l.Unlock()
if t.watchers == nil {
t.watchers = make(map[int]watcher)
}
// we specifically want to avoid the zero-value to prevent accidental stop-notification requests
t.watcherIndex += 1
t.watchers[t.watcherIndex] = w
return Notifier{id: t.watcherIndex, Ch: ch}
}
// StopNotify stops the token store from sending notifications to the specified notifiers chan
func (t *Store) StopNotify(n Notifier) {
t.l.Lock()
defer t.l.Unlock()
delete(t.watchers, n.id)
}
// anyKindAllowed returns true if any of the kinds in the `check` list are
// set to be allowed in the `allowed` map.
//
// Note: this is mostly just a convenience to simplify the code in
// sendNotificationLocked and prevent more nested looping with breaks/continues
// and other state tracking.
func anyKindAllowed(allowed TokenKind, check []TokenKind) bool {
for _, kind := range check {
if allowed == kind {
return true
}
}
return false
}
// sendNotificationLocked will iterate through all watchers and notify them that a
// token they are watching has been updated.
//
// NOTE: this function explicitly does not attempt to send the kind or new token value
// along through the channel. With that approach watchers could potentially miss updates
// if the buffered chan fills up. Instead with this approach we just notify that any
// token they care about has been udpated and its up to the caller to retrieve the
// new value (after receiving from the chan). With this approach its entirely possible
// for the watcher to be notified twice before actually retrieving the token after the first
// read from the chan. This is better behavior than missing events. It can cause some
// churn temporarily but in common cases its not expected that these tokens would be updated
// frequently enough to cause this to happen.
func (t *Store) sendNotificationLocked(kinds ...TokenKind) {
for _, watcher := range t.watchers {
if !anyKindAllowed(watcher.kind, kinds) {
// ignore this watcher as it doesn't want events for these kinds of token
continue
}
select {
case watcher.ch <- struct{}{}:
default:
// its already pending a notification
}
}
}
// UpdateUserToken replaces the current user token in the store.
// Returns true if it was changed.
func (t *Store) UpdateUserToken(token string, source TokenSource) bool {
t.l.Lock()
changed := (t.userToken != token || t.userTokenSource != source)
t.userToken = token
t.userTokenSource = source
if changed {
t.sendNotificationLocked(TokenKindUser)
}
t.l.Unlock()
return changed
}
// UpdateAgentToken replaces the current agent token in the store.
// Returns true if it was changed.
func (t *Store) UpdateAgentToken(token string, source TokenSource) bool {
t.l.Lock()
changed := (t.agentToken != token || t.agentTokenSource != source)
t.agentToken = token
t.agentTokenSource = source
if changed {
t.sendNotificationLocked(TokenKindAgent)
}
t.l.Unlock()
return changed
}
// UpdateAgentMasterToken replaces the current agent master token in the store.
// Returns true if it was changed.
func (t *Store) UpdateAgentMasterToken(token string, source TokenSource) bool {
t.l.Lock()
changed := (t.agentMasterToken != token || t.agentMasterTokenSource != source)
t.agentMasterToken = token
t.agentMasterTokenSource = source
if changed {
t.sendNotificationLocked(TokenKindAgentMaster)
}
t.l.Unlock()
return changed
}
// UpdateReplicationToken replaces the current replication token in the store.
// Returns true if it was changed.
func (t *Store) UpdateReplicationToken(token string, source TokenSource) bool {
t.l.Lock()
changed := (t.replicationToken != token || t.replicationTokenSource != source)
t.replicationToken = token
t.replicationTokenSource = source
if changed {
t.sendNotificationLocked(TokenKindReplication)
}
t.l.Unlock()
return changed
}
// UserToken returns the best token to use for user operations.
func (t *Store) UserToken() string {
t.l.RLock()
defer t.l.RUnlock()
return t.userToken
}
// AgentToken returns the best token to use for internal agent operations.
func (t *Store) AgentToken() string {
t.l.RLock()
defer t.l.RUnlock()
if tok := t.enterpriseAgentToken(); tok != "" {
return tok
}
if t.agentToken != "" {
return t.agentToken
}
return t.userToken
}
func (t *Store) AgentMasterToken() string {
t.l.RLock()
defer t.l.RUnlock()
return t.agentMasterToken
}
// ReplicationToken returns the replication token.
func (t *Store) ReplicationToken() string {
t.l.RLock()
defer t.l.RUnlock()
return t.replicationToken
}
// UserToken returns the best token to use for user operations.
func (t *Store) UserTokenAndSource() (string, TokenSource) {
t.l.RLock()
defer t.l.RUnlock()
return t.userToken, t.userTokenSource
}
// AgentToken returns the best token to use for internal agent operations.
func (t *Store) AgentTokenAndSource() (string, TokenSource) {
t.l.RLock()
defer t.l.RUnlock()
return t.agentToken, t.agentTokenSource
}
func (t *Store) AgentMasterTokenAndSource() (string, TokenSource) {
t.l.RLock()
defer t.l.RUnlock()
return t.agentMasterToken, t.agentMasterTokenSource
}
// ReplicationToken returns the replication token.
func (t *Store) ReplicationTokenAndSource() (string, TokenSource) {
t.l.RLock()
defer t.l.RUnlock()
return t.replicationToken, t.replicationTokenSource
}
// IsAgentMasterToken checks to see if a given token is the agent master token.
// This will never match an empty token for safety.
func (t *Store) IsAgentMasterToken(token string) bool {
t.l.RLock()
defer t.l.RUnlock()
return (token != "") && (subtle.ConstantTimeCompare([]byte(token), []byte(t.agentMasterToken)) == 1)
}