Beispiel #1
0
// standaloneTLSTicketKeyRotation governs over the array of TLS ticket keys used to de/crypt TLS tickets.
// It periodically sets a new ticket key as the first one, used to encrypt (and decrypt),
// pushing any old ticket keys to the back, where they are considered for decryption only.
//
// Lack of entropy for the very first ticket key results in the feature being disabled (as does Go),
// later lack of entropy temporarily disables ticket key rotation.
// Old ticket keys are still phased out, though.
//
// Stops the ticker when returning.
func standaloneTLSTicketKeyRotation(c *tls.Config, ticker *time.Ticker, exitChan chan struct{}) {
	defer ticker.Stop()

	// The entire page should be marked as sticky, but Go cannot do that
	// without resorting to syscall#Mlock. And, we don't have madvise (for NODUMP), too. ☹
	keys := make([][32]byte, 1, NumTickets)

	rng := c.Rand
	if rng == nil {
		rng = rand.Reader
	}
	if _, err := io.ReadFull(rng, keys[0][:]); err != nil {
		c.SessionTicketsDisabled = true // bail if we don't have the entropy for the first one
		return
	}
	c.SessionTicketKey = keys[0] // SetSessionTicketKeys doesn't set a 'tls.keysAlreadySet'
	c.SetSessionTicketKeys(setSessionTicketKeysTestHook(keys))

	for {
		select {
		case _, isOpen := <-exitChan:
			if !isOpen {
				return
			}
		case <-ticker.C:
			rng = c.Rand // could've changed since the start
			if rng == nil {
				rng = rand.Reader
			}
			var newTicketKey [32]byte
			_, err := io.ReadFull(rng, newTicketKey[:])

			if len(keys) < NumTickets {
				keys = append(keys, keys[0]) // manipulates the internal length
			}
			for idx := len(keys) - 1; idx >= 1; idx-- {
				keys[idx] = keys[idx-1] // yes, this makes copies
			}

			if err == nil {
				keys[0] = newTicketKey
			}
			// pushes the last key out, doesn't matter that we don't have a new one
			c.SetSessionTicketKeys(setSessionTicketKeysTestHook(keys))
		}
	}
}