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consul/agent/dns/discovery_results_fetcher.go

347 lines
11 KiB

// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: BUSL-1.1
package dns
import (
"encoding/hex"
"net"
"strings"
"github.com/miekg/dns"
"github.com/hashicorp/go-hclog"
"github.com/hashicorp/consul/acl"
"github.com/hashicorp/consul/agent/discovery"
"github.com/hashicorp/consul/agent/structs"
"github.com/hashicorp/consul/internal/dnsutil"
)
// discoveryResultsFetcher is a facade for the DNS router to formulate
// and execute discovery queries.
type discoveryResultsFetcher struct{}
// getQueryOptions is a struct to hold the options for getQueryResults method.
type getQueryOptions struct {
req *dns.Msg
reqCtx Context
qName string
remoteAddress net.Addr
processor DiscoveryQueryProcessor
logger hclog.Logger
domain string
altDomain string
}
// getQueryResults returns a discovery.Result from a DNS message.
func (d discoveryResultsFetcher) getQueryResults(opts *getQueryOptions) ([]*discovery.Result, *discovery.Query, error) {
reqType := parseRequestType(opts.req)
switch reqType {
case requestTypeConsul:
// This is a special case of discovery.QueryByName where we know that we need to query the consul service
// regardless of the question name.
query := &discovery.Query{
QueryType: discovery.QueryTypeService,
QueryPayload: discovery.QueryPayload{
Name: structs.ConsulServiceName,
Tenancy: discovery.QueryTenancy{
// We specify the partition here so that in the case we are a client agent in a non-default partition.
// We don't want the query processors default partition to be used.
// This is a small hack because for V1 CE, this is not the correct default partition name, but we
// need to add something to disambiguate the empty field.
Partition: acl.DefaultPartitionName, //NOTE: note this won't work if we ever have V2 client agents
},
Limit: 3,
},
}
results, err := opts.processor.QueryByName(query, discovery.Context{Token: opts.reqCtx.Token})
return results, query, err
case requestTypeName:
query, err := buildQueryFromDNSMessage(opts.req, opts.reqCtx, opts.domain, opts.altDomain, opts.remoteAddress)
if err != nil {
opts.logger.Error("error building discovery query from DNS request", "error", err)
return nil, query, err
}
results, err := opts.processor.QueryByName(query, discovery.Context{Token: opts.reqCtx.Token})
if getErrorFromECSNotGlobalError(err) != nil {
opts.logger.Error("error processing discovery query", "error", err)
return nil, query, err
}
return results, query, err
case requestTypeIP:
ip := dnsutil.IPFromARPA(opts.qName)
if ip == nil {
opts.logger.Error("error building IP from DNS request", "name", opts.qName)
return nil, nil, errNameNotFound
}
results, err := opts.processor.QueryByIP(ip, discovery.Context{Token: opts.reqCtx.Token})
return results, nil, err
case requestTypeAddress:
results, err := buildAddressResults(opts.req)
if err != nil {
opts.logger.Error("error processing discovery query", "error", err)
return nil, nil, err
}
return results, nil, nil
}
opts.logger.Error("error parsing discovery query type", "requestType", reqType)
return nil, nil, errInvalidQuestion
}
// buildQueryFromDNSMessage returns a discovery.Query from a DNS message.
func buildQueryFromDNSMessage(req *dns.Msg, reqCtx Context, domain, altDomain string,
remoteAddress net.Addr) (*discovery.Query, error) {
queryType, queryParts, querySuffixes := getQueryTypePartsAndSuffixesFromDNSMessage(req, domain, altDomain)
queryTenancy, err := getQueryTenancy(reqCtx, queryType, querySuffixes)
if err != nil {
return nil, err
}
name, tag := getQueryNameAndTagFromParts(queryType, queryParts)
portName := parsePort(queryParts)
switch {
case queryType == discovery.QueryTypeWorkload && req.Question[0].Qtype == dns.TypeSRV:
// Currently we do not support SRV records for workloads
return nil, errNotImplemented
case queryType == discovery.QueryTypeInvalid, name == "":
return nil, errInvalidQuestion
}
return &discovery.Query{
QueryType: queryType,
QueryPayload: discovery.QueryPayload{
Name: name,
Tenancy: queryTenancy,
Tag: tag,
PortName: portName,
SourceIP: getSourceIP(req, queryType, remoteAddress),
},
}, nil
}
// buildAddressResults returns a discovery.Result from a DNS request for addr. records.
func buildAddressResults(req *dns.Msg) ([]*discovery.Result, error) {
domain := dns.CanonicalName(req.Question[0].Name)
labels := dns.SplitDomainName(domain)
hexadecimal := labels[0]
if len(hexadecimal)/2 != 4 && len(hexadecimal)/2 != 16 {
return nil, errNameNotFound
}
var ip net.IP
ip, err := hex.DecodeString(hexadecimal)
if err != nil {
return nil, errNameNotFound
}
return []*discovery.Result{
{
Node: &discovery.Location{
Address: ip.String(),
},
Type: discovery.ResultTypeNode, // We choose node by convention since we do not know the origin of the IP
},
}, nil
}
// getQueryNameAndTagFromParts returns the query name and tag from the query parts that are taken from the original dns question.
func getQueryNameAndTagFromParts(queryType discovery.QueryType, queryParts []string) (string, string) {
n := len(queryParts)
if n == 0 {
return "", ""
}
switch queryType {
case discovery.QueryTypeService:
// Support RFC 2782 style syntax
if n == 2 && strings.HasPrefix(queryParts[1], "_") && strings.HasPrefix(queryParts[0], "_") {
// Grab the tag since we make nuke it if it's tcp
tag := queryParts[1][1:]
// Treat _name._tcp.service.consul as a default, no need to filter on that tag
if tag == "tcp" {
tag = ""
}
name := queryParts[0][1:]
// _name._tag.service.consul
return name, tag
}
return queryParts[n-1], ""
case discovery.QueryTypePreparedQuery:
name := ""
// If the first and last DNS query parts begin with _, this is an RFC 2782 style SRV lookup.
// This allows for prepared query names to include "." (for backwards compatibility).
// Otherwise, this is a standard prepared query lookup.
if n >= 2 && strings.HasPrefix(queryParts[0], "_") && strings.HasPrefix(queryParts[n-1], "_") {
// The last DNS query part is the protocol field (ignored).
// All prior parts are the prepared query name or ID.
name = strings.Join(queryParts[:n-1], ".")
// Strip leading underscore
name = name[1:]
} else {
// Allow a "." in the query name, just join all the parts.
name = strings.Join(queryParts, ".")
}
return name, ""
}
return queryParts[n-1], ""
}
// getQueryTenancy returns a discovery.QueryTenancy from a DNS message.
func getQueryTenancy(reqCtx Context, queryType discovery.QueryType, querySuffixes []string) (discovery.QueryTenancy, error) {
labels, ok := parseLabels(querySuffixes)
if !ok {
return discovery.QueryTenancy{}, errNameNotFound
}
// If we don't have an explicit partition in the request, try the first fallback
// which was supplied in the request context. The agent's partition will be used as the last fallback
// later in the query processor.
if labels.Partition == "" {
labels.Partition = reqCtx.DefaultPartition
}
// If we have a sameness group, we can return early without further data massage.
if labels.SamenessGroup != "" {
return discovery.QueryTenancy{
Namespace: labels.Namespace,
Partition: labels.Partition,
SamenessGroup: labels.SamenessGroup,
Datacenter: reqCtx.DefaultDatacenter,
}, nil
}
if queryType == discovery.QueryTypeVirtual {
if labels.Peer == "" {
// If the peer name was not explicitly defined, fall back to the ambiguously-parsed version.
labels.Peer = labels.PeerOrDatacenter
}
}
return discovery.QueryTenancy{
Namespace: labels.Namespace,
Partition: labels.Partition,
Peer: labels.Peer,
Datacenter: getEffectiveDatacenter(labels, reqCtx.DefaultDatacenter),
}, nil
}
// getEffectiveDatacenter returns the effective datacenter from the parsed labels.
func getEffectiveDatacenter(labels *parsedLabels, defaultDC string) string {
switch {
case labels.Datacenter != "":
return labels.Datacenter
case labels.PeerOrDatacenter != "" && labels.Peer != labels.PeerOrDatacenter:
return labels.PeerOrDatacenter
}
return defaultDC
}
// getQueryTypePartsAndSuffixesFromDNSMessage returns the query type, the parts, and suffixes of the query name.
func getQueryTypePartsAndSuffixesFromDNSMessage(req *dns.Msg, domain, altDomain string) (queryType discovery.QueryType, parts []string, suffixes []string) {
// Get the QName without the domain suffix
// TODO (v2-dns): we will also need to handle the "failover" and "no-failover" suffixes here.
// They come AFTER the domain. See `stripAnyFailoverSuffix` in router.go
qName := trimDomainFromQuestionName(req.Question[0].Name, domain, altDomain)
// Split into the label parts
labels := dns.SplitDomainName(qName)
done := false
for i := len(labels) - 1; i >= 0 && !done; i-- {
queryType = getQueryTypeFromLabels(labels[i])
switch queryType {
case discovery.QueryTypeService, discovery.QueryTypeWorkload,
discovery.QueryTypeConnect, discovery.QueryTypeVirtual, discovery.QueryTypeIngress,
discovery.QueryTypeNode, discovery.QueryTypePreparedQuery:
parts = labels[:i]
suffixes = labels[i+1:]
done = true
case discovery.QueryTypeInvalid:
fallthrough
default:
// 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[i], "_") {
queryType = discovery.QueryTypeService
parts = labels[:i+1]
suffixes = labels[i+1:]
done = true
}
}
}
return queryType, parts, suffixes
}
// trimDomainFromQuestionName returns the question name without the domain suffix.
func trimDomainFromQuestionName(questionName, domain, altDomain string) string {
qName := dns.CanonicalName(questionName)
longer := domain
shorter := altDomain
if len(shorter) > len(longer) {
longer, shorter = shorter, longer
}
if strings.HasSuffix(qName, "."+strings.TrimLeft(longer, ".")) {
return strings.TrimSuffix(qName, longer)
}
return strings.TrimSuffix(qName, shorter)
}
// getQueryTypeFromLabels returns the query type from the labels.
func getQueryTypeFromLabels(label string) discovery.QueryType {
switch label {
case "service":
return discovery.QueryTypeService
case "connect":
return discovery.QueryTypeConnect
case "virtual":
return discovery.QueryTypeVirtual
case "ingress":
return discovery.QueryTypeIngress
case "node":
return discovery.QueryTypeNode
case "query":
return discovery.QueryTypePreparedQuery
case "workload":
return discovery.QueryTypeWorkload
default:
return discovery.QueryTypeInvalid
}
}
// getSourceIP returns the source IP from the dns request.
func getSourceIP(req *dns.Msg, queryType discovery.QueryType, remoteAddr net.Addr) (sourceIP net.IP) {
if queryType == discovery.QueryTypePreparedQuery {
subnet := ednsSubnetForRequest(req)
if subnet != nil {
sourceIP = subnet.Address
} else {
switch v := remoteAddr.(type) {
case *net.UDPAddr:
sourceIP = v.IP
case *net.TCPAddr:
sourceIP = v.IP
case *net.IPAddr:
sourceIP = v.IP
}
}
}
return sourceIP
}