9fb266aebe
Fix transferring the zone from a master and the matching of notifies to source and dst IP addresses. Add `upstream` keyword as well, because it is needed for the same reasons as in the *file* middlware. Add some dire warning about upstream in the readme of both middlewares. Out of band testing, hidden by net build tag was added. Integration testing still needs to be setup.
189 lines
4.2 KiB
Go
189 lines
4.2 KiB
Go
package file
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import (
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"fmt"
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"net"
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"path"
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"strings"
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"sync"
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"github.com/coredns/coredns/middleware/file/tree"
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"github.com/coredns/coredns/middleware/proxy"
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"github.com/coredns/coredns/request"
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"github.com/miekg/dns"
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)
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// Zone defines a structure that contains all data related to a DNS zone.
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type Zone struct {
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origin string
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origLen int
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file string
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*tree.Tree
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Apex Apex
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TransferTo []string
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StartupOnce sync.Once
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TransferFrom []string
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Expired *bool
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NoReload bool
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reloadMu sync.RWMutex
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ReloadShutdown chan bool
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Proxy proxy.Proxy // Proxy for looking up names during the resolution process
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}
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// Apex contains the apex records of a zone: SOA, NS and their potential signatures.
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type Apex struct {
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SOA *dns.SOA
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NS []dns.RR
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SIGSOA []dns.RR
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SIGNS []dns.RR
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}
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// NewZone returns a new zone.
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func NewZone(name, file string) *Zone {
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z := &Zone{
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origin: dns.Fqdn(name),
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origLen: dns.CountLabel(dns.Fqdn(name)),
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file: path.Clean(file),
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Tree: &tree.Tree{},
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Expired: new(bool),
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ReloadShutdown: make(chan bool),
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}
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*z.Expired = false
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return z
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}
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func (z *Zone) Copy() *Zone {
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z1 := NewZone(z.origin, z.file)
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z1.TransferTo = z.TransferTo
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z1.TransferFrom = z.TransferFrom
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z1.Expired = z.Expired
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z1.Apex = z.Apex
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return z1
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}
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// Insert inserts r into z.
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func (z *Zone) Insert(r dns.RR) error {
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r.Header().Name = strings.ToLower(r.Header().Name)
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switch h := r.Header().Rrtype; h {
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case dns.TypeNS:
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r.(*dns.NS).Ns = strings.ToLower(r.(*dns.NS).Ns)
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if r.Header().Name == z.origin {
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z.Apex.NS = append(z.Apex.NS, r)
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return nil
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}
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case dns.TypeSOA:
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r.(*dns.SOA).Ns = strings.ToLower(r.(*dns.SOA).Ns)
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r.(*dns.SOA).Mbox = strings.ToLower(r.(*dns.SOA).Mbox)
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z.Apex.SOA = r.(*dns.SOA)
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return nil
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case dns.TypeNSEC3, dns.TypeNSEC3PARAM:
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return fmt.Errorf("NSEC3 zone is not supported, dropping RR: %s for zone: %s", r.Header().Name, z.origin)
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case dns.TypeRRSIG:
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x := r.(*dns.RRSIG)
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switch x.TypeCovered {
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case dns.TypeSOA:
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z.Apex.SIGSOA = append(z.Apex.SIGSOA, x)
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return nil
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case dns.TypeNS:
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if r.Header().Name == z.origin {
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z.Apex.SIGNS = append(z.Apex.SIGNS, x)
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return nil
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}
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}
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case dns.TypeCNAME:
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r.(*dns.CNAME).Target = strings.ToLower(r.(*dns.CNAME).Target)
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case dns.TypeMX:
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r.(*dns.MX).Mx = strings.ToLower(r.(*dns.MX).Mx)
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case dns.TypeSRV:
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r.(*dns.SRV).Target = strings.ToLower(r.(*dns.SRV).Target)
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}
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z.Tree.Insert(r)
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return nil
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}
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// Delete deletes r from z.
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func (z *Zone) Delete(r dns.RR) { z.Tree.Delete(r) }
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// TransferAllowed checks if incoming request for transferring the zone is allowed according to the ACLs.
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func (z *Zone) TransferAllowed(state request.Request) bool {
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for _, t := range z.TransferTo {
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if t == "*" {
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return true
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}
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// If remote IP matches we accept.
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remote := state.IP()
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to, _, err := net.SplitHostPort(t)
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if err != nil {
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continue
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}
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if to == remote {
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return true
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}
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}
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// TODO(miek): future matching against IP/CIDR notations
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return false
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}
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// All returns all records from the zone, the first record will be the SOA record,
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// otionally followed by all RRSIG(SOA)s.
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func (z *Zone) All() []dns.RR {
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if !z.NoReload {
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z.reloadMu.RLock()
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defer z.reloadMu.RUnlock()
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}
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records := []dns.RR{}
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allNodes := z.Tree.All()
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for _, a := range allNodes {
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records = append(records, a.All()...)
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}
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if len(z.Apex.SIGNS) > 0 {
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records = append(z.Apex.SIGNS, records...)
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}
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records = append(z.Apex.NS, records...)
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if len(z.Apex.SIGSOA) > 0 {
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records = append(z.Apex.SIGSOA, records...)
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}
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return append([]dns.RR{z.Apex.SOA}, records...)
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}
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// Print prints the zone's tree to stdout.
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func (z *Zone) Print() {
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z.Tree.Print()
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}
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// NameFromRight returns the labels from the right, staring with the
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// origin and then i labels extra. When we are overshooting the name
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// the returned boolean is set to true.
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func (z *Zone) nameFromRight(qname string, i int) (string, bool) {
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if i <= 0 {
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return z.origin, false
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}
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for j := 1; j <= z.origLen; j++ {
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if _, shot := dns.PrevLabel(qname, j); shot {
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return qname, shot
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}
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}
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k := 0
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shot := false
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for j := 1; j <= i; j++ {
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k, shot = dns.PrevLabel(qname, j+z.origLen)
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if shot {
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return qname, shot
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}
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}
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return qname[k:], false
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}
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