Ryan Malloy
0f28127284
Major architectural pivot per the user's "RFC 2136 mechanism for the existing zonefiles, not a new in-memory thing" framing. The plugin no longer maintains its own in-memory state OR serves any queries -- both of those are now the auto plugin's job, reading the same zone files. The plugin's sole responsibility is now: receive TSIG-authed UPDATE messages, edit the matching zones/<zone>.zone file, bump the SOA serial in CalVer (YYYYMMDDNN) form, and optionally auto-commit to git. What changed: - DELETED: store.go (in-memory recordStore), store_test.go (12 tests), plugin_test.go (10 ServeDNS query tests), old update_test.go. - NEW: zonefile.go -- file-backed authority for one zone. loadRRs via miekg/dns zone parser; mutation helpers (lookupIn/nameExistsIn/ removeRRsetFrom/removeRRFrom/removeNameFrom/addRRTo) on []dns.RR slices; bumpSerial with CalVer semantics + NN exhaustion handling; writeAtomic via temp-file rename; commit shells to `git add && git commit` with configurable author. - NEW: zonefile_test.go -- 17 tests covering load/lookup/mutate/bump/ write paths. - REWRITTEN: plugin.go -- ServeDNS is now thin: UPDATE → TSIG → handler; everything else → Next. No synthetic SOA/NS, no query serving. - REWRITTEN: update.go -- handleUpdate now opens the zoneFile, loads, applies (with prereq checks against the loaded RRs), bumps serial, writes, commits. Detects no-op updates to avoid spurious file writes. - REWRITTEN: setup.go -- new directives: `zones-dir` (required), `auto-commit` (default true), `git-author <name> <email>`. Dropped `nameserver` and `persist`. Validates each declared zone has a file on disk via os.Stat before CoreDNS finishes starting. - REWRITTEN: setup_test.go -- 17 cases for the new grammar. - REWRITTEN: update_test.go -- 11 cases using real temp zone files via t.TempDir(). Total: 30 tests passing, 0 failures. Next: Phase 2c (custom CoreDNS image, deploy, smoke test with nsupdate).
282 lines
8.5 KiB
Go
282 lines
8.5 KiB
Go
package rfc2136
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import (
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"fmt"
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"strings"
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"time"
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"github.com/miekg/dns"
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)
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// handleUpdate implements the RFC 2136 UPDATE opcode against the
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// on-disk zone file.
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//
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// Sequence per UPDATE message:
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// 1. Validate the Zone section (RFC 2136 §2.3): must be exactly one
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// SOA-typed record whose name is a zone we manage.
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// 2. Acquire the zone file's mutex.
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// 3. Load the file's RRs into memory.
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// 4. Check each prerequisite (§3.2) against the loaded RRs. First
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// failure short-circuits with the spec's rcode.
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// 5. Apply each update RR (§3.4.2) to the in-memory slice.
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// 6. Bump the SOA serial (CalVer YYYYMMDDNN).
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// 7. Atomic write to disk (temp file + rename).
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// 8. Optionally `git add && git commit` for audit trail.
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//
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// Steps 3-7 happen under the zone-file mutex. If 8 fails we log but
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// don't roll back (the on-disk state is authoritative; lost commits
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// can be re-staged via `git add` later).
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func (p *RFC2136) handleUpdate(w dns.ResponseWriter, r *dns.Msg) (int, error) {
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resp := new(dns.Msg)
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resp.SetReply(r)
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// 1. Validate the Zone section.
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if len(r.Question) != 1 {
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log.Debugf("UPDATE rejected: expected 1 Zone record, got %d", len(r.Question))
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return p.updateResp(w, resp, dns.RcodeFormatError)
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}
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zoneQ := r.Question[0]
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if zoneQ.Qtype != dns.TypeSOA {
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log.Debugf("UPDATE rejected: Zone section type=%d, want SOA", zoneQ.Qtype)
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return p.updateResp(w, resp, dns.RcodeFormatError)
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}
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zone := p.findZone(zoneQ.Name)
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if zone == "" {
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log.Debugf("UPDATE rejected: zone %q not authoritative", zoneQ.Name)
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return p.updateResp(w, resp, dns.RcodeNotAuth)
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}
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zf, ok := p.zones[zone]
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if !ok {
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log.Errorf("UPDATE rejected: no zone file handle for %q (setup bug?)", zone)
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return p.updateResp(w, resp, dns.RcodeServerFailure)
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}
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zf.mu.Lock()
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defer zf.mu.Unlock()
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// 3. Load the current zone contents.
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rrs, err := zf.loadRRs()
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if err != nil {
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log.Errorf("UPDATE failed: %v", err)
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return p.updateResp(w, resp, dns.RcodeServerFailure)
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}
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// 4. Check prerequisites.
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for _, rr := range r.Answer {
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rcode := checkPrereq(zone, rrs, rr)
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if rcode != dns.RcodeSuccess {
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log.Debugf("UPDATE prereq failed: %s → rcode=%d", rr.String(), rcode)
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return p.updateResp(w, resp, rcode)
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}
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}
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// 5. Apply updates. Build a fresh RR slice rather than mutating in
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// place — that way a partial application can't leave the slice in
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// a half-modified state if an early update fails.
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updated := rrs
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changed := false
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for _, rr := range r.Ns {
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next, rcode, modified := applyUpdate(zone, p.TTL, updated, rr)
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if rcode != dns.RcodeSuccess {
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return p.updateResp(w, resp, rcode)
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}
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updated = next
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if modified {
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changed = true
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}
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}
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if !changed {
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// UPDATE was a valid no-op (e.g. only contained adds for RRs
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// that were already present, deduped away). Return NOERROR
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// without rewriting the file.
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return p.updateResp(w, resp, dns.RcodeSuccess)
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}
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// 6. Bump SOA serial.
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now := time.Now()
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if err := bumpSerial(updated, now); err != nil {
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log.Errorf("UPDATE failed: %v", err)
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return p.updateResp(w, resp, dns.RcodeServerFailure)
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}
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// 7. Atomic write.
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if err := zf.writeAtomic(updated, now); err != nil {
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log.Errorf("UPDATE write failed: %v", err)
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return p.updateResp(w, resp, dns.RcodeServerFailure)
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}
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// 8. Auto-commit. Failure to commit isn't fatal to the UPDATE —
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// the on-disk state is authoritative — but we log loudly.
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msg := summarizeUpdate(zone, r.Ns)
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if err := zf.commit(msg); err != nil {
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log.Warningf("git auto-commit failed: %v", err)
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}
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log.Infof("UPDATE applied: zone=%s prereqs=%d updates=%d msg=%q",
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zone, len(r.Answer), len(r.Ns), msg)
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return p.updateResp(w, resp, dns.RcodeSuccess)
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}
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// updateResp writes the response and returns the rcode/err pair for ServeDNS.
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func (p *RFC2136) updateResp(w dns.ResponseWriter, resp *dns.Msg, rcode int) (int, error) {
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resp.Rcode = rcode
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_ = w.WriteMsg(resp)
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return rcode, nil
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}
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// findZone returns the longest matching configured zone for qname, or
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// "" if qname is outside all configured zones.
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func (p *RFC2136) findZone(qname string) string {
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qname = canon(qname)
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var best string
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for _, z := range p.Zones {
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if qname == z || strings.HasSuffix(qname, "."+z) {
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if len(z) > len(best) {
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best = z
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}
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}
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}
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return best
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}
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// checkPrereq evaluates one record from the Prerequisite section
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// against the loaded RR slice. Returns dns.RcodeSuccess if satisfied,
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// or the spec rcode otherwise (§3.2).
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func checkPrereq(zone string, rrs []dns.RR, rr dns.RR) int {
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hdr := rr.Header()
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name := canon(hdr.Name)
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if !inZone(name, zone) {
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return dns.RcodeNotZone
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}
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switch hdr.Class {
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case dns.ClassANY:
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if hdr.Rrtype == dns.TypeANY {
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if !nameExistsIn(rrs, name) {
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return dns.RcodeNameError
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}
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return dns.RcodeSuccess
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}
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if len(lookupIn(rrs, name, hdr.Rrtype)) == 0 {
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return dns.RcodeNXRrset
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}
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return dns.RcodeSuccess
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case dns.ClassNONE:
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if hdr.Rrtype == dns.TypeANY {
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if nameExistsIn(rrs, name) {
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return dns.RcodeYXDomain
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}
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return dns.RcodeSuccess
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}
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if len(lookupIn(rrs, name, hdr.Rrtype)) > 0 {
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return dns.RcodeYXRrset
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}
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return dns.RcodeSuccess
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default:
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// CLASS = zone class with rdata. Exact value-match prereqs
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// (§3.2.5). Not used by Caddy/caddy-dns/rfc2136; treating as
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// satisfied for now. v2 can implement value-prereq if a real
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// caller needs it.
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log.Debugf("prereq with rdata-match semantics not implemented; treating as satisfied")
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return dns.RcodeSuccess
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}
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}
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// applyUpdate handles one record in the Update section per §3.4.2.
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// Returns the (possibly mutated) RR slice, an rcode (Success unless
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// the update was rejected), and a flag indicating whether the slice
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// was actually modified (to avoid no-op file rewrites).
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func applyUpdate(zone string, defaultTTL uint32, rrs []dns.RR, rr dns.RR) ([]dns.RR, int, bool) {
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hdr := rr.Header()
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name := canon(hdr.Name)
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if !inZone(name, zone) {
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return rrs, dns.RcodeNotZone, false
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}
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switch hdr.Class {
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case dns.ClassANY:
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if hdr.Rrtype == dns.TypeANY {
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// Wipe the whole name. Refuse apex wipes — that would
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// destroy SOA + NS bedrock.
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if isApex(name, zone) {
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log.Debugf("apex wipe refused: %s", name)
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return rrs, dns.RcodeRefused, false
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}
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before := len(rrs)
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rrs = removeNameFrom(rrs, name)
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return rrs, dns.RcodeSuccess, len(rrs) != before
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}
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// Apex SOA/NS removal refused for the same reason.
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if isApex(name, zone) && (hdr.Rrtype == dns.TypeSOA || hdr.Rrtype == dns.TypeNS) {
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log.Debugf("apex %s removal refused", dns.TypeToString[hdr.Rrtype])
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return rrs, dns.RcodeRefused, false
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}
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before := len(rrs)
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rrs = removeRRsetFrom(rrs, name, hdr.Rrtype)
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return rrs, dns.RcodeSuccess, len(rrs) != before
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case dns.ClassNONE:
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// Refuse to delete apex SOA/NS by exact-RR match.
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if isApex(name, zone) && (hdr.Rrtype == dns.TypeSOA || hdr.Rrtype == dns.TypeNS) {
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return rrs, dns.RcodeRefused, false
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}
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before := len(rrs)
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rrs = removeRRFrom(rrs, rr)
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return rrs, dns.RcodeSuccess, len(rrs) != before
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default:
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// Apex SOA/NS adds refused — those are managed by the zone-file
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// owner, not by dynamic updates.
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if isApex(name, zone) && (hdr.Rrtype == dns.TypeSOA || hdr.Rrtype == dns.TypeNS) {
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log.Debugf("apex %s add refused", dns.TypeToString[hdr.Rrtype])
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return rrs, dns.RcodeRefused, false
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}
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if hdr.Ttl == 0 {
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hdr.Ttl = defaultTTL
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}
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before := len(rrs)
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rrs = addRRTo(rrs, rr)
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return rrs, dns.RcodeSuccess, len(rrs) != before
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}
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}
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// summarizeUpdate produces a one-line commit message describing the
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// UPDATE for git history.
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func summarizeUpdate(zone string, updates []dns.RR) string {
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if len(updates) == 1 {
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return fmt.Sprintf("rfc2136 %s: %s", zone, oneLineOp(updates[0]))
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}
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return fmt.Sprintf("rfc2136 %s: %d operations", zone, len(updates))
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}
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// oneLineOp returns a short human-readable description of a single
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// update RR for inclusion in commit messages.
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func oneLineOp(rr dns.RR) string {
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hdr := rr.Header()
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name := strings.TrimSuffix(canon(hdr.Name), ".")
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ttype := dns.TypeToString[hdr.Rrtype]
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switch hdr.Class {
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case dns.ClassANY:
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if hdr.Rrtype == dns.TypeANY {
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return fmt.Sprintf("delete all %s", name)
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}
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return fmt.Sprintf("delete %s %s", ttype, name)
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case dns.ClassNONE:
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return fmt.Sprintf("delete-rr %s %s", ttype, name)
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default:
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return fmt.Sprintf("add %s %s", ttype, name)
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}
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}
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// inZone reports whether name is within zone.
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func inZone(name, zone string) bool {
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return name == zone || strings.HasSuffix(name, "."+zone)
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}
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// isApex reports whether name IS the zone's apex.
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func isApex(name, zone string) bool {
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return name == zone
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}
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