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failback.go
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failback.go
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package rdns
import (
"expvar"
"sync"
"time"
"github.com/miekg/dns"
"github.com/sirupsen/logrus"
)
// FailBack is a resolver group that queries the same resolver unless that
// returns a failure in which case the request is retried on the next one for
// up to N times (with N the number of resolvers in the group). If the last
// resolver fails, the first one in the list becomes the active one. After the
// reset timer expired without any further failures, the first resolver becomes
// active again. This group prefers the resolvers in the order they were added
// but fails over as necessary with regular retry of the higher-priority ones.
type FailBack struct {
id string
resolvers []Resolver
mu sync.RWMutex
failCh chan struct{} // signal the timer to reset on failure
active int
opt FailBackOptions
metrics *FailRouterMetrics
}
// FailBackOptions contain group-specific options.
type FailBackOptions struct {
// Switch back to the first resolver in the group after no further failures
// for this amount of time. Default 1 minute.
ResetAfter time.Duration
// Determines if a SERVFAIL returned by a resolver should be considered an
// error response and trigger a failover.
ServfailError bool
}
var _ Resolver = &FailBack{}
type FailRouterMetrics struct {
RouterMetrics
// Failover count
failover *expvar.Int
}
func NewFailRouterMetrics(id string, available int) *FailRouterMetrics {
avail := getVarInt("router", id, "available")
avail.Set(int64(available))
return &FailRouterMetrics{
RouterMetrics: RouterMetrics{
route: getVarMap("router", id, "route"),
failure: getVarMap("router", id, "failure"),
available: avail,
},
failover: getVarInt("router", id, "failover"),
}
}
// NewFailBack returns a new instance of a failover resolver group.
func NewFailBack(id string, opt FailBackOptions, resolvers ...Resolver) *FailBack {
if opt.ResetAfter == 0 {
opt.ResetAfter = time.Minute
}
return &FailBack{
id: id,
resolvers: resolvers,
opt: opt,
metrics: NewFailRouterMetrics(id, len(resolvers)),
}
}
// Resolve a DNS query using a failover resolver group that switches to the next
// resolver on error.
func (r *FailBack) Resolve(q *dns.Msg, ci ClientInfo) (*dns.Msg, error) {
log := logger(r.id, q, ci)
var (
err error
a *dns.Msg
)
for i := 0; i < len(r.resolvers); i++ {
resolver, active := r.current()
log.WithField("resolver", resolver.String()).Debug("forwarding query to resolver")
r.metrics.route.Add(resolver.String(), 1)
a, err = resolver.Resolve(q, ci)
if err == nil && r.isSuccessResponse(a) { // Return immediately if successful
return a, err
}
log.WithField("resolver", resolver.String()).WithError(err).Debug("resolver returned failure")
r.metrics.failure.Add(resolver.String(), 1)
r.errorFrom(active)
}
return a, err
}
func (r *FailBack) String() string {
return r.id
}
// Thread-safe method to return the currently active resolver.
func (r *FailBack) current() (Resolver, int) {
r.mu.RLock()
defer r.mu.RUnlock()
return r.resolvers[r.active], r.active
}
// Fail over to the next available resolver after receiving an error from i (the active). We
// need i to know which store returned the error as there could be failures from concurrent
// requests. Another request could have initiated the failover already. So ignore if i is not
// (no longer) the active store.
func (r *FailBack) errorFrom(i int) {
r.mu.Lock()
defer r.mu.Unlock()
if i != r.active {
return
}
if r.failCh == nil { // lazy start the reset timer
r.failCh = r.startResetTimer()
}
r.active = (r.active + 1) % len(r.resolvers)
Log.WithFields(logrus.Fields{
"id": r.id,
"resolver": r.resolvers[r.active].String(),
}).Debug("failing over to resolver")
r.metrics.failover.Add(1)
r.metrics.available.Add(-1)
r.failCh <- struct{}{} // signal the timer to wait some more before switching back
}
// Set active=0 regularly after the reset timer has expired without further failures. Any failure,
// as signalled by the channel resets the timer again.
func (r *FailBack) startResetTimer() chan struct{} {
failCh := make(chan struct{}, 1)
go func() {
timer := time.NewTimer(r.opt.ResetAfter)
for {
select {
case <-failCh:
if !timer.Stop() {
<-timer.C
}
case <-timer.C:
r.mu.Lock()
r.active = 0
Log.WithField("resolver", r.resolvers[r.active].String()).Debug("failing back to resolver")
r.mu.Unlock()
r.metrics.available.Add(1)
// we just reset to the first resolver, let's wait for another failure before running again
<-failCh
}
timer.Reset(r.opt.ResetAfter)
}
}()
return failCh
}
// Returns true is the response is considered successful given the options.
func (r *FailBack) isSuccessResponse(a *dns.Msg) bool {
return a == nil || !(r.opt.ServfailError && a.Rcode == dns.RcodeServerFailure)
}