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open-consul/agent/dns.go
Frank Schröder 69a088ca85 New config parser, HCL support, multiple bind addrs (#3480) 
* new config parser for agent

This patch implements a new config parser for the consul agent which
makes the following changes to the previous implementation:

 * add HCL support
 * all configuration fragments in tests and for default config are
   expressed as HCL fragments
 * HCL fragments can be provided on the command line so that they
   can eventually replace the command line flags.
 * HCL/JSON fragments are parsed into a temporary Config structure
   which can be merged using reflection (all values are pointers).
   The existing merge logic of overwrite for values and append
   for slices has been preserved.
 * A single builder process generates a typed runtime configuration
   for the agent.

The new implementation is more strict and fails in the builder process
if no valid runtime configuration can be generated. Therefore,
additional validations in other parts of the code should be removed.

The builder also pre-computes all required network addresses so that no
address/port magic should be required where the configuration is used
and should therefore be removed.

* Upgrade github.com/hashicorp/hcl to support int64

* improve error messages

* fix directory permission test

* Fix rtt test

* Fix ForceLeave test

* Skip performance test for now until we know what to do

* Update github.com/hashicorp/memberlist to update log prefix

* Make memberlist use the default logger

* improve config error handling

* do not fail on non-existing data-dir

* experiment with non-uniform timeouts to get a handle on stalled leader elections

* Run tests for packages separately to eliminate the spurious port conflicts

* refactor private address detection and unify approach for ipv4 and ipv6.

Fixes #2825

* do not allow unix sockets for DNS

* improve bind and advertise addr error handling

* go through builder using test coverage

* minimal update to the docs

* more coverage tests fixed

* more tests

* fix makefile

* cleanup

* fix port conflicts with external port server 'porter'

* stop test server on error

* do not run api test that change global ENV concurrently with the other tests

* Run remaining api tests concurrently

* no need for retry with the port number service

* monkey patch race condition in go-sockaddr until we understand why that fails

* monkey patch hcl decoder race condidtion until we understand why that fails

* monkey patch spurious errors in strings.EqualFold from here

* add test for hcl decoder race condition. Run with go test -parallel 128

* Increase timeout again

* cleanup

* don't log port allocations by default

* use base command arg parsing to format help output properly

* handle -dc deprecation case in Build

* switch autopilot.max_trailing_logs to int

* remove duplicate test case

* remove unused methods

* remove comments about flag/config value inconsistencies

* switch got and want around since the error message was misleading.

* Removes a stray debug log.

* Removes a stray newline in imports.

* Fixes TestACL_Version8.

* Runs go fmt.

* Adds a default case for unknown address types.

* Reoders and reformats some imports.

* Adds some comments and fixes typos.

* Reorders imports.

* add unix socket support for dns later

* drop all deprecated flags and arguments

* fix wrong field name

* remove stray node-id file

* drop unnecessary patch section in test

* drop duplicate test

* add test for LeaveOnTerm and SkipLeaveOnInt in client mode

* drop "bla" and add clarifying comment for the test

* split up tests to support enterprise/non-enterprise tests

* drop raft multiplier and derive values during build phase

* sanitize runtime config reflectively and add test

* detect invalid config fields

* fix tests with invalid config fields

* use different values for wan sanitiziation test

* drop recursor in favor of recursors

* allow dns_config.udp_answer_limit to be zero

* make sure tests run on machines with multiple ips

* Fix failing tests in a few more places by providing a bind address in the test

* Gets rid of skipped TestAgent_CheckPerformanceSettings and adds case for builder.

* Add porter to server_test.go to make tests there less flaky

* go fmt
2017-09-25 11:40:42 -07:00

1102 lines
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package agent
import (
"encoding/hex"
"fmt"
"log"
"net"
"strings"
"sync/atomic"
"time"
"regexp"
"github.com/armon/go-metrics"
"github.com/hashicorp/consul/agent/config"
"github.com/hashicorp/consul/agent/consul"
"github.com/hashicorp/consul/agent/structs"
"github.com/hashicorp/consul/lib"
"github.com/miekg/dns"
)
const (
// UDP can fit ~25 A records in a 512B response, and ~14 AAAA
// records. Limit further to prevent unintentional configuration
// abuse that would have a negative effect on application response
// times.
maxUDPAnswerLimit = 8
maxRecurseRecords = 5
// Increment a counter when requests staler than this are served
staleCounterThreshold = 5 * time.Second
defaultMaxUDPSize = 512
)
var InvalidDnsRe = regexp.MustCompile(`[^A-Za-z0-9\\-]+`)
type dnsConfig struct {
AllowStale bool
Datacenter string
EnableTruncate bool
MaxStale time.Duration
NodeName string
NodeTTL time.Duration
OnlyPassing bool
RecursorTimeout time.Duration
SegmentName string
ServiceTTL map[string]time.Duration
UDPAnswerLimit int
}
// DNSServer is used to wrap an Agent and expose various
// service discovery endpoints using a DNS interface.
type DNSServer struct {
*dns.Server
agent *Agent
config *dnsConfig
domain string
recursors []string
logger *log.Logger
// disableCompression is the config.DisableCompression flag that can
// be safely changed at runtime. It always contains a bool and is
// initialized with the value from config.DisableCompression.
disableCompression atomic.Value
}
func NewDNSServer(a *Agent) (*DNSServer, error) {
var recursors []string
for _, r := range a.config.DNSRecursors {
ra, err := recursorAddr(r)
if err != nil {
return nil, fmt.Errorf("Invalid recursor address: %v", err)
}
recursors = append(recursors, ra)
}
// Make sure domain is FQDN, make it case insensitive for ServeMux
domain := dns.Fqdn(strings.ToLower(a.config.DNSDomain))
dnscfg := GetDNSConfig(a.config)
srv := &DNSServer{
agent: a,
config: dnscfg,
domain: domain,
logger: a.logger,
recursors: recursors,
}
srv.disableCompression.Store(a.config.DNSDisableCompression)
return srv, nil
}
func GetDNSConfig(conf *config.RuntimeConfig) *dnsConfig {
return &dnsConfig{
AllowStale: conf.DNSAllowStale,
Datacenter: conf.Datacenter,
EnableTruncate: conf.DNSEnableTruncate,
MaxStale: conf.DNSMaxStale,
NodeName: conf.NodeName,
NodeTTL: conf.DNSNodeTTL,
OnlyPassing: conf.DNSOnlyPassing,
RecursorTimeout: conf.DNSRecursorTimeout,
SegmentName: conf.SegmentName,
ServiceTTL: conf.DNSServiceTTL,
UDPAnswerLimit: conf.DNSUDPAnswerLimit,
}
}
func (s *DNSServer) ListenAndServe(network, addr string, notif func()) error {
mux := dns.NewServeMux()
mux.HandleFunc("arpa.", s.handlePtr)
mux.HandleFunc(s.domain, s.handleQuery)
if len(s.recursors) > 0 {
mux.HandleFunc(".", s.handleRecurse)
}
s.Server = &dns.Server{
Addr: addr,
Net: network,
Handler: mux,
NotifyStartedFunc: notif,
}
if network == "udp" {
s.UDPSize = 65535
}
return s.Server.ListenAndServe()
}
// recursorAddr is used to add a port to the recursor if omitted.
func recursorAddr(recursor string) (string, error) {
// Add the port if none
START:
_, _, err := net.SplitHostPort(recursor)
if ae, ok := err.(*net.AddrError); ok && ae.Err == "missing port in address" {
recursor = fmt.Sprintf("%s:%d", recursor, 53)
goto START
}
if err != nil {
return "", err
}
// Get the address
addr, err := net.ResolveTCPAddr("tcp", recursor)
if err != nil {
return "", err
}
// Return string
return addr.String(), nil
}
// handlePtr is used to handle "reverse" DNS queries
func (d *DNSServer) handlePtr(resp dns.ResponseWriter, req *dns.Msg) {
q := req.Question[0]
defer func(s time.Time) {
metrics.MeasureSinceWithLabels([]string{"consul", "dns", "ptr_query"}, s,
[]metrics.Label{{Name: "node", Value: d.agent.config.NodeName}})
d.logger.Printf("[DEBUG] dns: request for %v (%v) from client %s (%s)",
q, time.Now().Sub(s), resp.RemoteAddr().String(),
resp.RemoteAddr().Network())
}(time.Now())
// Setup the message response
m := new(dns.Msg)
m.SetReply(req)
m.Compress = !d.disableCompression.Load().(bool)
m.Authoritative = true
m.RecursionAvailable = (len(d.recursors) > 0)
// Only add the SOA if requested
if req.Question[0].Qtype == dns.TypeSOA {
d.addSOA(m)
}
datacenter := d.agent.config.Datacenter
// Get the QName without the domain suffix
qName := strings.ToLower(dns.Fqdn(req.Question[0].Name))
args := structs.DCSpecificRequest{
Datacenter: datacenter,
QueryOptions: structs.QueryOptions{
Token: d.agent.tokens.UserToken(),
AllowStale: d.config.AllowStale,
},
}
var out structs.IndexedNodes
// TODO: Replace ListNodes with an internal RPC that can do the filter
// server side to avoid transferring the entire node list.
if err := d.agent.RPC("Catalog.ListNodes", &args, &out); err == nil {
for _, n := range out.Nodes {
arpa, _ := dns.ReverseAddr(n.Address)
if arpa == qName {
ptr := &dns.PTR{
Hdr: dns.RR_Header{Name: q.Name, Rrtype: dns.TypePTR, Class: dns.ClassINET, Ttl: 0},
Ptr: fmt.Sprintf("%s.node.%s.%s", n.Node, datacenter, d.domain),
}
m.Answer = append(m.Answer, ptr)
break
}
}
}
// nothing found locally, recurse
if len(m.Answer) == 0 {
d.handleRecurse(resp, req)
return
}
// Enable EDNS if enabled
if edns := req.IsEdns0(); edns != nil {
m.SetEdns0(edns.UDPSize(), false)
}
// Write out the complete response
if err := resp.WriteMsg(m); err != nil {
d.logger.Printf("[WARN] dns: failed to respond: %v", err)
}
}
// handleQuery is used to handle DNS queries in the configured domain
func (d *DNSServer) handleQuery(resp dns.ResponseWriter, req *dns.Msg) {
q := req.Question[0]
defer func(s time.Time) {
metrics.MeasureSinceWithLabels([]string{"consul", "dns", "domain_query"}, s,
[]metrics.Label{{Name: "node", Value: d.agent.config.NodeName}})
d.logger.Printf("[DEBUG] dns: request for %v (%v) from client %s (%s)",
q, time.Now().Sub(s), resp.RemoteAddr().String(),
resp.RemoteAddr().Network())
}(time.Now())
// Switch to TCP if the client is
network := "udp"
if _, ok := resp.RemoteAddr().(*net.TCPAddr); ok {
network = "tcp"
}
// Setup the message response
m := new(dns.Msg)
m.SetReply(req)
m.Compress = !d.disableCompression.Load().(bool)
m.Authoritative = true
m.RecursionAvailable = (len(d.recursors) > 0)
switch req.Question[0].Qtype {
case dns.TypeSOA:
ns, glue := d.nameservers(req.IsEdns0() != nil)
m.Answer = append(m.Answer, d.soa())
m.Ns = append(m.Ns, ns...)
m.Extra = append(m.Extra, glue...)
m.SetRcode(req, dns.RcodeSuccess)
case dns.TypeNS:
ns, glue := d.nameservers(req.IsEdns0() != nil)
m.Answer = ns
m.Extra = glue
m.SetRcode(req, dns.RcodeSuccess)
case dns.TypeAXFR:
m.SetRcode(req, dns.RcodeNotImplemented)
default:
d.dispatch(network, req, m)
}
// Handle EDNS
if edns := req.IsEdns0(); edns != nil {
m.SetEdns0(edns.UDPSize(), false)
}
// Write out the complete response
if err := resp.WriteMsg(m); err != nil {
d.logger.Printf("[WARN] dns: failed to respond: %v", err)
}
}
func (d *DNSServer) soa() *dns.SOA {
return &dns.SOA{
Hdr: dns.RR_Header{
Name: d.domain,
Rrtype: dns.TypeSOA,
Class: dns.ClassINET,
Ttl: 0,
},
Ns: "ns." + d.domain,
Serial: uint32(time.Now().Unix()),
// todo(fs): make these configurable
Mbox: "hostmaster." + d.domain,
Refresh: 3600,
Retry: 600,
Expire: 86400,
Minttl: 0,
}
}
// addSOA is used to add an SOA record to a message for the given domain
func (d *DNSServer) addSOA(msg *dns.Msg) {
msg.Ns = append(msg.Ns, d.soa())
}
// nameservers returns the names and ip addresses of up to three random servers
// in the current cluster which serve as authoritative name servers for zone.
func (d *DNSServer) nameservers(edns bool) (ns []dns.RR, extra []dns.RR) {
out, err := d.lookupServiceNodes(d.agent.config.Datacenter, structs.ConsulServiceName, "")
if err != nil {
d.logger.Printf("[WARN] dns: Unable to get list of servers: %s", err)
return nil, nil
}
if len(out.Nodes) == 0 {
d.logger.Printf("[WARN] dns: no servers found")
return
}
// shuffle the nodes to randomize the output
out.Nodes.Shuffle()
for _, o := range out.Nodes {
name, addr, dc := o.Node.Node, o.Node.Address, o.Node.Datacenter
if InvalidDnsRe.MatchString(name) {
d.logger.Printf("[WARN] dns: Skipping invalid node %q for NS records", name)
continue
}
fqdn := name + ".node." + dc + "." + d.domain
fqdn = dns.Fqdn(strings.ToLower(fqdn))
// NS record
nsrr := &dns.NS{
Hdr: dns.RR_Header{
Name: d.domain,
Rrtype: dns.TypeNS,
Class: dns.ClassINET,
Ttl: uint32(d.config.NodeTTL / time.Second),
},
Ns: fqdn,
}
ns = append(ns, nsrr)
glue := d.formatNodeRecord(addr, fqdn, dns.TypeANY, d.config.NodeTTL, edns)
extra = append(extra, glue...)
// don't provide more than 3 servers
if len(ns) >= 3 {
return
}
}
return
}
// dispatch is used to parse a request and invoke the correct handler
func (d *DNSServer) dispatch(network string, req, resp *dns.Msg) {
// By default the query is in the default datacenter
datacenter := d.agent.config.Datacenter
// Get the QName without the domain suffix
qName := strings.ToLower(dns.Fqdn(req.Question[0].Name))
qName = strings.TrimSuffix(qName, d.domain)
// Split into the label parts
labels := dns.SplitDomainName(qName)
// The last label is either "node", "service", "query", "_<protocol>", or a datacenter name
PARSE:
n := len(labels)
if n == 0 {
goto INVALID
}
// If this is a SRV query the "service" label is optional, we add it back to use the
// existing code-path.
if req.Question[0].Qtype == dns.TypeSRV && strings.HasPrefix(labels[n-1], "_") {
labels = append(labels, "service")
n = n + 1
}
switch labels[n-1] {
case "service":
if n == 1 {
goto INVALID
}
// Support RFC 2782 style syntax
if n == 3 && strings.HasPrefix(labels[n-2], "_") && strings.HasPrefix(labels[n-3], "_") {
// Grab the tag since we make nuke it if it's tcp
tag := labels[n-2][1:]
// Treat _name._tcp.service.consul as a default, no need to filter on that tag
if tag == "tcp" {
tag = ""
}
// _name._tag.service.consul
d.serviceLookup(network, datacenter, labels[n-3][1:], tag, req, resp)
// Consul 0.3 and prior format for SRV queries
} else {
// Support "." in the label, re-join all the parts
tag := ""
if n >= 3 {
tag = strings.Join(labels[:n-2], ".")
}
// tag[.tag].name.service.consul
d.serviceLookup(network, datacenter, labels[n-2], tag, req, resp)
}
case "node":
if n == 1 {
goto INVALID
}
// Allow a "." in the node name, just join all the parts
node := strings.Join(labels[:n-1], ".")
d.nodeLookup(network, datacenter, node, req, resp)
case "query":
if n == 1 {
goto INVALID
}
// Allow a "." in the query name, just join all the parts.
query := strings.Join(labels[:n-1], ".")
d.preparedQueryLookup(network, datacenter, query, req, resp)
case "addr":
if n != 2 {
goto INVALID
}
switch len(labels[0]) / 2 {
// IPv4
case 4:
ip, err := hex.DecodeString(labels[0])
if err != nil {
goto INVALID
}
resp.Answer = append(resp.Answer, &dns.A{
Hdr: dns.RR_Header{
Name: qName + d.domain,
Rrtype: dns.TypeA,
Class: dns.ClassINET,
Ttl: uint32(d.config.NodeTTL / time.Second),
},
A: ip,
})
// IPv6
case 16:
ip, err := hex.DecodeString(labels[0])
if err != nil {
goto INVALID
}
resp.Answer = append(resp.Answer, &dns.AAAA{
Hdr: dns.RR_Header{
Name: qName + d.domain,
Rrtype: dns.TypeAAAA,
Class: dns.ClassINET,
Ttl: uint32(d.config.NodeTTL / time.Second),
},
AAAA: ip,
})
}
default:
// Store the DC, and re-parse
datacenter = labels[n-1]
labels = labels[:n-1]
goto PARSE
}
return
INVALID:
d.logger.Printf("[WARN] dns: QName invalid: %s", qName)
d.addSOA(resp)
resp.SetRcode(req, dns.RcodeNameError)
}
// nodeLookup is used to handle a node query
func (d *DNSServer) nodeLookup(network, datacenter, node string, req, resp *dns.Msg) {
// Only handle ANY, A and AAAA type requests
qType := req.Question[0].Qtype
if qType != dns.TypeANY && qType != dns.TypeA && qType != dns.TypeAAAA {
return
}
// Make an RPC request
args := structs.NodeSpecificRequest{
Datacenter: datacenter,
Node: node,
QueryOptions: structs.QueryOptions{
Token: d.agent.tokens.UserToken(),
AllowStale: d.config.AllowStale,
},
}
var out structs.IndexedNodeServices
RPC:
if err := d.agent.RPC("Catalog.NodeServices", &args, &out); err != nil {
d.logger.Printf("[ERR] dns: rpc error: %v", err)
resp.SetRcode(req, dns.RcodeServerFailure)
return
}
// Verify that request is not too stale, redo the request
if args.AllowStale {
if out.LastContact > d.config.MaxStale {
args.AllowStale = false
d.logger.Printf("[WARN] dns: Query results too stale, re-requesting")
goto RPC
} else if out.LastContact > staleCounterThreshold {
metrics.IncrCounter([]string{"consul", "dns", "stale_queries"}, 1)
}
}
// If we have no address, return not found!
if out.NodeServices == nil {
d.addSOA(resp)
resp.SetRcode(req, dns.RcodeNameError)
return
}
// Add the node record
n := out.NodeServices.Node
edns := req.IsEdns0() != nil
addr := d.agent.TranslateAddress(datacenter, n.Address, n.TaggedAddresses)
records := d.formatNodeRecord(addr, req.Question[0].Name, qType, d.config.NodeTTL, edns)
if records != nil {
resp.Answer = append(resp.Answer, records...)
}
}
// formatNodeRecord takes a Node and returns an A, AAAA, or CNAME record
func (d *DNSServer) formatNodeRecord(addr, qName string, qType uint16, ttl time.Duration, edns bool) (records []dns.RR) {
// Parse the IP
ip := net.ParseIP(addr)
var ipv4 net.IP
if ip != nil {
ipv4 = ip.To4()
}
switch {
case ipv4 != nil && (qType == dns.TypeANY || qType == dns.TypeA):
return []dns.RR{&dns.A{
Hdr: dns.RR_Header{
Name: qName,
Rrtype: dns.TypeA,
Class: dns.ClassINET,
Ttl: uint32(ttl / time.Second),
},
A: ip,
}}
case ip != nil && ipv4 == nil && (qType == dns.TypeANY || qType == dns.TypeAAAA):
return []dns.RR{&dns.AAAA{
Hdr: dns.RR_Header{
Name: qName,
Rrtype: dns.TypeAAAA,
Class: dns.ClassINET,
Ttl: uint32(ttl / time.Second),
},
AAAA: ip,
}}
case ip == nil && (qType == dns.TypeANY || qType == dns.TypeCNAME ||
qType == dns.TypeA || qType == dns.TypeAAAA):
// Get the CNAME
cnRec := &dns.CNAME{
Hdr: dns.RR_Header{
Name: qName,
Rrtype: dns.TypeCNAME,
Class: dns.ClassINET,
Ttl: uint32(ttl / time.Second),
},
Target: dns.Fqdn(addr),
}
records = append(records, cnRec)
// Recurse
more := d.resolveCNAME(cnRec.Target)
extra := 0
MORE_REC:
for _, rr := range more {
switch rr.Header().Rrtype {
case dns.TypeCNAME, dns.TypeA, dns.TypeAAAA:
records = append(records, rr)
extra++
if extra == maxRecurseRecords && !edns {
break MORE_REC
}
}
}
}
return records
}
// indexRRs populates a map which indexes a given list of RRs by name. NOTE that
// the names are all squashed to lower case so we can perform case-insensitive
// lookups; the RRs are not modified.
func indexRRs(rrs []dns.RR, index map[string]dns.RR) {
for _, rr := range rrs {
name := strings.ToLower(rr.Header().Name)
if _, ok := index[name]; !ok {
index[name] = rr
}
}
}
// syncExtra takes a DNS response message and sets the extra data to the most
// minimal set needed to cover the answer data. A pre-made index of RRs is given
// so that can be re-used between calls. This assumes that the extra data is
// only used to provide info for SRV records. If that's not the case, then this
// will wipe out any additional data.
func syncExtra(index map[string]dns.RR, resp *dns.Msg) {
extra := make([]dns.RR, 0, len(resp.Answer))
resolved := make(map[string]struct{}, len(resp.Answer))
for _, ansRR := range resp.Answer {
srv, ok := ansRR.(*dns.SRV)
if !ok {
continue
}
// Note that we always use lower case when using the index so
// that compares are not case-sensitive. We don't alter the actual
// RRs we add into the extra section, however.
target := strings.ToLower(srv.Target)
RESOLVE:
if _, ok := resolved[target]; ok {
continue
}
resolved[target] = struct{}{}
extraRR, ok := index[target]
if ok {
extra = append(extra, extraRR)
if cname, ok := extraRR.(*dns.CNAME); ok {
target = strings.ToLower(cname.Target)
goto RESOLVE
}
}
}
resp.Extra = extra
}
// trimUDPResponse makes sure a UDP response is not longer than allowed by RFC
// 1035. Enforce an arbitrary limit that can be further ratcheted down by
// config, and then make sure the response doesn't exceed 512 bytes. Any extra
// records will be trimmed along with answers.
func trimUDPResponse(req, resp *dns.Msg, udpAnswerLimit int) (trimmed bool) {
numAnswers := len(resp.Answer)
hasExtra := len(resp.Extra) > 0
maxSize := defaultMaxUDPSize
// Update to the maximum edns size
if edns := req.IsEdns0(); edns != nil {
if size := edns.UDPSize(); size > uint16(maxSize) {
maxSize = int(size)
}
}
// We avoid some function calls and allocations by only handling the
// extra data when necessary.
var index map[string]dns.RR
if hasExtra {
index = make(map[string]dns.RR, len(resp.Extra))
indexRRs(resp.Extra, index)
}
// This cuts UDP responses to a useful but limited number of responses.
maxAnswers := lib.MinInt(maxUDPAnswerLimit, udpAnswerLimit)
if maxSize == defaultMaxUDPSize && numAnswers > maxAnswers {
resp.Answer = resp.Answer[:maxAnswers]
if hasExtra {
syncExtra(index, resp)
}
}
// This enforces the given limit on the number bytes. The default is 512 as
// per the RFC, but EDNS0 allows for the user to specify larger sizes. Note
// that we temporarily switch to uncompressed so that we limit to a response
// that will not exceed 512 bytes uncompressed, which is more conservative and
// will allow our responses to be compliant even if some downstream server
// uncompresses them.
compress := resp.Compress
resp.Compress = false
for len(resp.Answer) > 0 && resp.Len() > maxSize {
resp.Answer = resp.Answer[:len(resp.Answer)-1]
if hasExtra {
syncExtra(index, resp)
}
}
resp.Compress = compress
return len(resp.Answer) < numAnswers
}
// lookupServiceNodes returns nodes with a given service.
func (d *DNSServer) lookupServiceNodes(datacenter, service, tag string) (structs.IndexedCheckServiceNodes, error) {
args := structs.ServiceSpecificRequest{
Datacenter: datacenter,
ServiceName: service,
ServiceTag: tag,
TagFilter: tag != "",
QueryOptions: structs.QueryOptions{
Token: d.agent.tokens.UserToken(),
AllowStale: d.config.AllowStale,
},
}
var out structs.IndexedCheckServiceNodes
if err := d.agent.RPC("Health.ServiceNodes", &args, &out); err != nil {
return structs.IndexedCheckServiceNodes{}, err
}
if args.AllowStale && out.LastContact > staleCounterThreshold {
metrics.IncrCounter([]string{"consul", "dns", "stale_queries"}, 1)
}
// redo the request the response was too stale
if args.AllowStale && out.LastContact > d.config.MaxStale {
args.AllowStale = false
d.logger.Printf("[WARN] dns: Query results too stale, re-requesting")
if err := d.agent.RPC("Health.ServiceNodes", &args, &out); err != nil {
return structs.IndexedCheckServiceNodes{}, err
}
}
// Filter out any service nodes due to health checks
out.Nodes = out.Nodes.Filter(d.config.OnlyPassing)
return out, nil
}
// serviceLookup is used to handle a service query
func (d *DNSServer) serviceLookup(network, datacenter, service, tag string, req, resp *dns.Msg) {
out, err := d.lookupServiceNodes(datacenter, service, tag)
if err != nil {
d.logger.Printf("[ERR] dns: rpc error: %v", err)
resp.SetRcode(req, dns.RcodeServerFailure)
return
}
// If we have no nodes, return not found!
if len(out.Nodes) == 0 {
d.addSOA(resp)
resp.SetRcode(req, dns.RcodeNameError)
return
}
// Perform a random shuffle
out.Nodes.Shuffle()
// Determine the TTL
var ttl time.Duration
if d.config.ServiceTTL != nil {
var ok bool
ttl, ok = d.config.ServiceTTL[service]
if !ok {
ttl = d.config.ServiceTTL["*"]
}
}
// Add various responses depending on the request
qType := req.Question[0].Qtype
if qType == dns.TypeSRV {
d.serviceSRVRecords(datacenter, out.Nodes, req, resp, ttl)
} else {
d.serviceNodeRecords(datacenter, out.Nodes, req, resp, ttl)
}
// If the network is not TCP, restrict the number of responses
if network != "tcp" {
wasTrimmed := trimUDPResponse(req, resp, d.config.UDPAnswerLimit)
// Flag that there are more records to return in the UDP response
if wasTrimmed && d.config.EnableTruncate {
resp.Truncated = true
}
}
// If the answer is empty and the response isn't truncated, return not found
if len(resp.Answer) == 0 && !resp.Truncated {
d.addSOA(resp)
return
}
}
// preparedQueryLookup is used to handle a prepared query.
func (d *DNSServer) preparedQueryLookup(network, datacenter, query string, req, resp *dns.Msg) {
// Execute the prepared query.
args := structs.PreparedQueryExecuteRequest{
Datacenter: datacenter,
QueryIDOrName: query,
QueryOptions: structs.QueryOptions{
Token: d.agent.tokens.UserToken(),
AllowStale: d.config.AllowStale,
},
// Always pass the local agent through. In the DNS interface, there
// is no provision for passing additional query parameters, so we
// send the local agent's data through to allow distance sorting
// relative to ourself on the server side.
Agent: structs.QuerySource{
Datacenter: d.agent.config.Datacenter,
Segment: d.agent.config.SegmentName,
Node: d.agent.config.NodeName,
},
}
// TODO (slackpad) - What's a safe limit we can set here? It seems like
// with dup filtering done at this level we need to get everything to
// match the previous behavior. We can optimize by pushing more filtering
// into the query execution, but for now I think we need to get the full
// response. We could also choose a large arbitrary number that will
// likely work in practice, like 10*maxUDPAnswerLimit which should help
// reduce bandwidth if there are thousands of nodes available.
var out structs.PreparedQueryExecuteResponse
RPC:
if err := d.agent.RPC("PreparedQuery.Execute", &args, &out); err != nil {
// If they give a bogus query name, treat that as a name error,
// not a full on server error. We have to use a string compare
// here since the RPC layer loses the type information.
if err.Error() == consul.ErrQueryNotFound.Error() {
d.addSOA(resp)
resp.SetRcode(req, dns.RcodeNameError)
return
}
d.logger.Printf("[ERR] dns: rpc error: %v", err)
resp.SetRcode(req, dns.RcodeServerFailure)
return
}
// Verify that request is not too stale, redo the request.
if args.AllowStale {
if out.LastContact > d.config.MaxStale {
args.AllowStale = false
d.logger.Printf("[WARN] dns: Query results too stale, re-requesting")
goto RPC
} else if out.LastContact > staleCounterThreshold {
metrics.IncrCounter([]string{"consul", "dns", "stale_queries"}, 1)
}
}
// Determine the TTL. The parse should never fail since we vet it when
// the query is created, but we check anyway. If the query didn't
// specify a TTL then we will try to use the agent's service-specific
// TTL configs.
var ttl time.Duration
if out.DNS.TTL != "" {
var err error
ttl, err = time.ParseDuration(out.DNS.TTL)
if err != nil {
d.logger.Printf("[WARN] dns: Failed to parse TTL '%s' for prepared query '%s', ignoring", out.DNS.TTL, query)
}
} else if d.config.ServiceTTL != nil {
var ok bool
ttl, ok = d.config.ServiceTTL[out.Service]
if !ok {
ttl = d.config.ServiceTTL["*"]
}
}
// If we have no nodes, return not found!
if len(out.Nodes) == 0 {
d.addSOA(resp)
resp.SetRcode(req, dns.RcodeNameError)
return
}
// Add various responses depending on the request.
qType := req.Question[0].Qtype
if qType == dns.TypeSRV {
d.serviceSRVRecords(out.Datacenter, out.Nodes, req, resp, ttl)
} else {
d.serviceNodeRecords(out.Datacenter, out.Nodes, req, resp, ttl)
}
// If the network is not TCP, restrict the number of responses.
if network != "tcp" {
wasTrimmed := trimUDPResponse(req, resp, d.config.UDPAnswerLimit)
// Flag that there are more records to return in the UDP response
if wasTrimmed && d.config.EnableTruncate {
resp.Truncated = true
}
}
// If the answer is empty and the response isn't truncated, return not found
if len(resp.Answer) == 0 && !resp.Truncated {
d.addSOA(resp)
return
}
}
// serviceNodeRecords is used to add the node records for a service lookup
func (d *DNSServer) serviceNodeRecords(dc string, nodes structs.CheckServiceNodes, req, resp *dns.Msg, ttl time.Duration) {
qName := req.Question[0].Name
qType := req.Question[0].Qtype
handled := make(map[string]struct{})
edns := req.IsEdns0() != nil
for _, node := range nodes {
// Start with the translated address but use the service address,
// if specified.
addr := d.agent.TranslateAddress(dc, node.Node.Address, node.Node.TaggedAddresses)
if node.Service.Address != "" {
addr = node.Service.Address
}
// If the service address is a CNAME for the service we are looking
// for then use the node address.
if qName == strings.TrimSuffix(addr, ".")+"." {
addr = node.Node.Address
}
// Avoid duplicate entries, possible if a node has
// the same service on multiple ports, etc.
if _, ok := handled[addr]; ok {
continue
}
handled[addr] = struct{}{}
// Add the node record
records := d.formatNodeRecord(addr, qName, qType, ttl, edns)
if records != nil {
resp.Answer = append(resp.Answer, records...)
}
}
}
// serviceARecords is used to add the SRV records for a service lookup
func (d *DNSServer) serviceSRVRecords(dc string, nodes structs.CheckServiceNodes, req, resp *dns.Msg, ttl time.Duration) {
handled := make(map[string]struct{})
edns := req.IsEdns0() != nil
for _, node := range nodes {
// Avoid duplicate entries, possible if a node has
// the same service the same port, etc.
tuple := fmt.Sprintf("%s:%s:%d", node.Node.Node, node.Service.Address, node.Service.Port)
if _, ok := handled[tuple]; ok {
continue
}
handled[tuple] = struct{}{}
// Add the SRV record
srvRec := &dns.SRV{
Hdr: dns.RR_Header{
Name: req.Question[0].Name,
Rrtype: dns.TypeSRV,
Class: dns.ClassINET,
Ttl: uint32(ttl / time.Second),
},
Priority: 1,
Weight: 1,
Port: uint16(node.Service.Port),
Target: fmt.Sprintf("%s.node.%s.%s", node.Node.Node, dc, d.domain),
}
resp.Answer = append(resp.Answer, srvRec)
// Start with the translated address but use the service address,
// if specified.
addr := d.agent.TranslateAddress(dc, node.Node.Address, node.Node.TaggedAddresses)
if node.Service.Address != "" {
addr = node.Service.Address
}
// Add the extra record
records := d.formatNodeRecord(addr, srvRec.Target, dns.TypeANY, ttl, edns)
if len(records) > 0 {
// Use the node address if it doesn't differ from the service address
if addr == node.Node.Address {
resp.Extra = append(resp.Extra, records...)
} else {
// If it differs from the service address, give a special response in the
// 'addr.consul' domain with the service IP encoded in it. We have to do
// this because we can't put an IP in the target field of an SRV record.
switch record := records[0].(type) {
// IPv4
case *dns.A:
addr := hex.EncodeToString(record.A)
// Take the last 8 chars (4 bytes) of the encoded address to avoid junk bytes
srvRec.Target = fmt.Sprintf("%s.addr.%s.%s", addr[len(addr)-(net.IPv4len*2):], dc, d.domain)
record.Hdr.Name = srvRec.Target
resp.Extra = append(resp.Extra, record)
// IPv6
case *dns.AAAA:
srvRec.Target = fmt.Sprintf("%s.addr.%s.%s", hex.EncodeToString(record.AAAA), dc, d.domain)
record.Hdr.Name = srvRec.Target
resp.Extra = append(resp.Extra, record)
// Something else (probably a CNAME; just add the records).
default:
resp.Extra = append(resp.Extra, records...)
}
}
}
}
}
// handleRecurse is used to handle recursive DNS queries
func (d *DNSServer) handleRecurse(resp dns.ResponseWriter, req *dns.Msg) {
q := req.Question[0]
network := "udp"
defer func(s time.Time) {
d.logger.Printf("[DEBUG] dns: request for %v (%s) (%v) from client %s (%s)",
q, network, time.Now().Sub(s), resp.RemoteAddr().String(),
resp.RemoteAddr().Network())
}(time.Now())
// Switch to TCP if the client is
if _, ok := resp.RemoteAddr().(*net.TCPAddr); ok {
network = "tcp"
}
// Recursively resolve
c := &dns.Client{Net: network, Timeout: d.config.RecursorTimeout}
var r *dns.Msg
var rtt time.Duration
var err error
for _, recursor := range d.recursors {
r, rtt, err = c.Exchange(req, recursor)
if err == nil || err == dns.ErrTruncated {
// Compress the response; we don't know if the incoming
// response was compressed or not, so by not compressing
// we might generate an invalid packet on the way out.
r.Compress = !d.disableCompression.Load().(bool)
// Forward the response
d.logger.Printf("[DEBUG] dns: recurse RTT for %v (%v)", q, rtt)
if err := resp.WriteMsg(r); err != nil {
d.logger.Printf("[WARN] dns: failed to respond: %v", err)
}
return
}
d.logger.Printf("[ERR] dns: recurse failed: %v", err)
}
// If all resolvers fail, return a SERVFAIL message
d.logger.Printf("[ERR] dns: all resolvers failed for %v from client %s (%s)",
q, resp.RemoteAddr().String(), resp.RemoteAddr().Network())
m := &dns.Msg{}
m.SetReply(req)
m.Compress = !d.disableCompression.Load().(bool)
m.RecursionAvailable = true
m.SetRcode(req, dns.RcodeServerFailure)
if edns := req.IsEdns0(); edns != nil {
m.SetEdns0(edns.UDPSize(), false)
}
resp.WriteMsg(m)
}
// resolveCNAME is used to recursively resolve CNAME records
func (d *DNSServer) resolveCNAME(name string) []dns.RR {
// If the CNAME record points to a Consul address, resolve it internally
// Convert query to lowercase because DNS is case insensitive; d.domain is
// already converted
if strings.HasSuffix(strings.ToLower(name), "."+d.domain) {
req := &dns.Msg{}
resp := &dns.Msg{}
req.SetQuestion(name, dns.TypeANY)
d.dispatch("udp", req, resp)
return resp.Answer
}
// Do nothing if we don't have a recursor
if len(d.recursors) == 0 {
return nil
}
// Ask for any A records
m := new(dns.Msg)
m.SetQuestion(name, dns.TypeA)
// Make a DNS lookup request
c := &dns.Client{Net: "udp", Timeout: d.config.RecursorTimeout}
var r *dns.Msg
var rtt time.Duration
var err error
for _, recursor := range d.recursors {
r, rtt, err = c.Exchange(m, recursor)
if err == nil {
d.logger.Printf("[DEBUG] dns: cname recurse RTT for %v (%v)", name, rtt)
return r.Answer
}
d.logger.Printf("[ERR] dns: cname recurse failed for %v: %v", name, err)
}
d.logger.Printf("[ERR] dns: all resolvers failed for %v", name)
return nil
}
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