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// Copyright (c) HashiCorp, Inc.
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// SPDX-License-Identifier: BUSL-1.1
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package structs
import (
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"encoding/json"
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"fmt"
"math"
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"net/http"
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"regexp"
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"sort"
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"strconv"
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"strings"
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"time"
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"github.com/hashicorp/go-bexpr"
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"github.com/hashicorp/go-multierror"
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"github.com/mitchellh/copystructure"
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"github.com/mitchellh/hashstructure"
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"github.com/hashicorp/consul/acl"
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"github.com/hashicorp/consul/agent/cache"
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"github.com/hashicorp/consul/lib"
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"github.com/hashicorp/consul/lib/maps"
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)
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const (
// Names of Envoy's LB policies
LBPolicyMaglev = "maglev"
LBPolicyRingHash = "ring_hash"
LBPolicyRandom = "random"
LBPolicyLeastRequest = "least_request"
LBPolicyRoundRobin = "round_robin"
// Names of Envoy's LB policies
HashPolicyCookie = "cookie"
HashPolicyHeader = "header"
HashPolicyQueryParam = "query_parameter"
)
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var (
validLBPolicies = map [ string ] bool {
"" : true ,
LBPolicyRandom : true ,
LBPolicyRoundRobin : true ,
LBPolicyLeastRequest : true ,
LBPolicyRingHash : true ,
LBPolicyMaglev : true ,
}
validHashPolicies = map [ string ] bool {
HashPolicyHeader : true ,
HashPolicyCookie : true ,
HashPolicyQueryParam : true ,
}
)
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// ServiceRouterConfigEntry defines L7 (e.g. http) routing rules for a named
// service exposed in Connect.
//
// This config entry represents the topmost part of the discovery chain. Only
// one router config will be used per resolved discovery chain and is not
// otherwise discovered recursively (unlike splitter and resolver config
// entries).
//
// Router config entries will be restricted to only services that define their
// protocol as http-based (in centralized configuration).
type ServiceRouterConfigEntry struct {
Kind string
Name string
// Routes is the list of routes to consider when processing L7 requests.
// The first rule to match in the list is terminal and stops further
// evaluation.
//
// Traffic that fails to match any of the provided routes will be routed to
// the default service.
Routes [ ] ServiceRoute
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Meta map [ string ] string ` json:",omitempty" `
acl . EnterpriseMeta ` hcl:",squash" mapstructure:",squash" `
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RaftIndex
}
func ( e * ServiceRouterConfigEntry ) GetKind ( ) string {
return ServiceRouter
}
func ( e * ServiceRouterConfigEntry ) GetName ( ) string {
if e == nil {
return ""
}
return e . Name
}
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func ( e * ServiceRouterConfigEntry ) GetMeta ( ) map [ string ] string {
if e == nil {
return nil
}
return e . Meta
}
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func ( e * ServiceRouterConfigEntry ) Normalize ( ) error {
if e == nil {
return fmt . Errorf ( "config entry is nil" )
}
e . Kind = ServiceRouter
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e . EnterpriseMeta . Normalize ( )
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for _ , route := range e . Routes {
if route . Match == nil || route . Match . HTTP == nil {
continue
}
httpMatch := route . Match . HTTP
for j := 0 ; j < len ( httpMatch . Methods ) ; j ++ {
httpMatch . Methods [ j ] = strings . ToUpper ( httpMatch . Methods [ j ] )
}
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if route . Destination != nil && route . Destination . Namespace == "" {
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route . Destination . Namespace = e . EnterpriseMeta . NamespaceOrEmpty ( )
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}
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if route . Destination != nil && route . Destination . Partition == "" {
route . Destination . Partition = e . EnterpriseMeta . PartitionOrEmpty ( )
}
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}
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return nil
}
func ( e * ServiceRouterConfigEntry ) Validate ( ) error {
if e . Name == "" {
return fmt . Errorf ( "Name is required" )
}
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if err := validateConfigEntryMeta ( e . Meta ) ; err != nil {
return err
}
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// Technically you can have no explicit routes at all where just the
// catch-all is configured for you, but at that point maybe you should just
// delete it so it will default?
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for i , route := range e . Routes {
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eligibleForPrefixRewrite := false
if route . Match != nil && route . Match . HTTP != nil {
pathParts := 0
if route . Match . HTTP . PathExact != "" {
eligibleForPrefixRewrite = true
pathParts ++
if ! strings . HasPrefix ( route . Match . HTTP . PathExact , "/" ) {
return fmt . Errorf ( "Route[%d] PathExact doesn't start with '/': %q" , i , route . Match . HTTP . PathExact )
}
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}
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if route . Match . HTTP . PathPrefix != "" {
eligibleForPrefixRewrite = true
pathParts ++
if ! strings . HasPrefix ( route . Match . HTTP . PathPrefix , "/" ) {
return fmt . Errorf ( "Route[%d] PathPrefix doesn't start with '/': %q" , i , route . Match . HTTP . PathPrefix )
}
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}
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if route . Match . HTTP . PathRegex != "" {
pathParts ++
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}
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if pathParts > 1 {
return fmt . Errorf ( "Route[%d] should only contain at most one of PathExact, PathPrefix, or PathRegex" , i )
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}
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for j , hdr := range route . Match . HTTP . Header {
if hdr . Name == "" {
return fmt . Errorf ( "Route[%d] Header[%d] missing required Name field" , i , j )
}
hdrParts := 0
if hdr . Present {
hdrParts ++
}
if hdr . Exact != "" {
hdrParts ++
}
if hdr . Regex != "" {
hdrParts ++
}
if hdr . Prefix != "" {
hdrParts ++
}
if hdr . Suffix != "" {
hdrParts ++
}
if hdrParts != 1 {
return fmt . Errorf ( "Route[%d] Header[%d] should only contain one of Present, Exact, Prefix, Suffix, or Regex" , i , j )
}
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}
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for j , qm := range route . Match . HTTP . QueryParam {
if qm . Name == "" {
return fmt . Errorf ( "Route[%d] QueryParam[%d] missing required Name field" , i , j )
}
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qmParts := 0
if qm . Present {
qmParts ++
}
if qm . Exact != "" {
qmParts ++
}
if qm . Regex != "" {
qmParts ++
}
if qmParts != 1 {
return fmt . Errorf ( "Route[%d] QueryParam[%d] should only contain one of Present, Exact, or Regex" , i , j )
}
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}
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if len ( route . Match . HTTP . Methods ) > 0 {
found := make ( map [ string ] struct { } )
for _ , m := range route . Match . HTTP . Methods {
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if ! isValidHTTPMethod ( m ) {
return fmt . Errorf ( "Route[%d] Methods contains an invalid method %q" , i , m )
}
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if _ , ok := found [ m ] ; ok {
return fmt . Errorf ( "Route[%d] Methods contains %q more than once" , i , m )
}
found [ m ] = struct { } { }
}
}
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}
if route . Destination != nil {
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if route . Destination . PrefixRewrite != "" && ! eligibleForPrefixRewrite {
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return fmt . Errorf ( "Route[%d] cannot make use of PrefixRewrite without configuring either PathExact or PathPrefix" , i )
}
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for _ , r := range route . Destination . RetryOn {
if ! isValidRetryCondition ( r ) {
return fmt . Errorf ( "Route[%d] contains an invalid retry condition: %q" , i , r )
}
}
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}
}
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return nil
}
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func isValidHTTPMethod ( method string ) bool {
switch method {
case http . MethodGet ,
http . MethodHead ,
http . MethodPost ,
http . MethodPut ,
http . MethodPatch ,
http . MethodDelete ,
http . MethodConnect ,
http . MethodOptions ,
http . MethodTrace :
return true
default :
return false
}
}
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func isValidRetryCondition ( retryOn string ) bool {
switch retryOn {
case "5xx" ,
"gateway-error" ,
"reset" ,
"connect-failure" ,
"envoy-ratelimited" ,
"retriable-4xx" ,
"refused-stream" ,
"cancelled" ,
"deadline-exceeded" ,
"internal" ,
"resource-exhausted" ,
"unavailable" :
return true
default :
return false
}
}
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func ( e * ServiceRouterConfigEntry ) CanRead ( authz acl . Authorizer ) error {
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return canReadDiscoveryChain ( e , authz )
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}
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func ( e * ServiceRouterConfigEntry ) CanWrite ( authz acl . Authorizer ) error {
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return canWriteDiscoveryChain ( e , authz )
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}
func ( e * ServiceRouterConfigEntry ) GetRaftIndex ( ) * RaftIndex {
if e == nil {
return & RaftIndex { }
}
return & e . RaftIndex
}
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func ( e * ServiceRouterConfigEntry ) ListRelatedServices ( ) [ ] ServiceID {
found := make ( map [ ServiceID ] struct { } )
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// We always inject a default catch-all route to the same service as the router.
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svcID := NewServiceID ( e . Name , & e . EnterpriseMeta )
found [ svcID ] = struct { } { }
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for _ , route := range e . Routes {
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if route . Destination != nil {
destID := NewServiceID ( defaultIfEmpty ( route . Destination . Service , e . Name ) , route . Destination . GetEnterpriseMeta ( & e . EnterpriseMeta ) )
if destID != svcID {
found [ destID ] = struct { } { }
}
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}
}
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if len ( found ) == 0 {
return nil
}
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out := make ( [ ] ServiceID , 0 , len ( found ) )
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for svc := range found {
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out = append ( out , svc )
}
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sort . Slice ( out , func ( i , j int ) bool {
return out [ i ] . EnterpriseMeta . LessThan ( & out [ j ] . EnterpriseMeta ) ||
out [ i ] . ID < out [ j ] . ID
} )
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return out
}
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func ( e * ServiceRouterConfigEntry ) GetEnterpriseMeta ( ) * acl . EnterpriseMeta {
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if e == nil {
return nil
}
return & e . EnterpriseMeta
}
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// ServiceRoute is a single routing rule that routes traffic to the destination
// when the match criteria applies.
type ServiceRoute struct {
Match * ServiceRouteMatch ` json:",omitempty" `
Destination * ServiceRouteDestination ` json:",omitempty" `
}
// ServiceRouteMatch is a set of criteria that can match incoming L7 requests.
type ServiceRouteMatch struct {
HTTP * ServiceRouteHTTPMatch ` json:",omitempty" `
// If we have non-http match criteria for other protocols in the future
// (gRPC, redis, etc) they can go here.
}
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func ( m * ServiceRouteMatch ) IsEmpty ( ) bool {
return m . HTTP == nil || m . HTTP . IsEmpty ( )
}
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// ServiceRouteHTTPMatch is a set of http-specific match criteria.
type ServiceRouteHTTPMatch struct {
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PathExact string ` json:",omitempty" alias:"path_exact" `
PathPrefix string ` json:",omitempty" alias:"path_prefix" `
PathRegex string ` json:",omitempty" alias:"path_regex" `
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Header [ ] ServiceRouteHTTPMatchHeader ` json:",omitempty" `
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QueryParam [ ] ServiceRouteHTTPMatchQueryParam ` json:",omitempty" alias:"query_param" `
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Methods [ ] string ` json:",omitempty" `
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}
func ( m * ServiceRouteHTTPMatch ) IsEmpty ( ) bool {
return m . PathExact == "" &&
m . PathPrefix == "" &&
m . PathRegex == "" &&
len ( m . Header ) == 0 &&
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len ( m . QueryParam ) == 0 &&
len ( m . Methods ) == 0
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}
type ServiceRouteHTTPMatchHeader struct {
Name string
Present bool ` json:",omitempty" `
Exact string ` json:",omitempty" `
Prefix string ` json:",omitempty" `
Suffix string ` json:",omitempty" `
Regex string ` json:",omitempty" `
Invert bool ` json:",omitempty" `
}
type ServiceRouteHTTPMatchQueryParam struct {
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Name string
Present bool ` json:",omitempty" `
Exact string ` json:",omitempty" `
Regex string ` json:",omitempty" `
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}
// ServiceRouteDestination describes how to proxy the actual matching request
// to a service.
type ServiceRouteDestination struct {
// Service is the service to resolve instead of the default service. If
// empty then the default discovery chain service name is used.
Service string ` json:",omitempty" `
// ServiceSubset is a named subset of the given service to resolve instead
// of one defined as that service's DefaultSubset. If empty the default
// subset is used.
//
// If this field is specified then this route is ineligible for further
// splitting.
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ServiceSubset string ` json:",omitempty" alias:"service_subset" `
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// Namespace is the namespace to resolve the service from instead of the
// current namespace. If empty the current namespace is assumed.
//
// If this field is specified then this route is ineligible for further
// splitting.
Namespace string ` json:",omitempty" `
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// Partition is the partition to resolve the service from instead of the
// current partition. If empty the current partition is assumed.
//
// If this field is specified then this route is ineligible for further
// splitting.
Partition string ` json:",omitempty" `
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// PrefixRewrite allows for the proxied request to have its matching path
// prefix modified before being sent to the destination. Described more
// below in the envoy implementation section.
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PrefixRewrite string ` json:",omitempty" alias:"prefix_rewrite" `
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// RequestTimeout is the total amount of time permitted for the entire
// downstream request (and retries) to be processed.
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RequestTimeout time . Duration ` json:",omitempty" alias:"request_timeout" `
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// IdleTimeout is The total amount of time permitted for the request stream
// to be idle
IdleTimeout time . Duration ` json:",omitempty" alias:"idle_timeout" `
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// NumRetries is the number of times to retry the request when a retryable
// result occurs. This seems fairly proxy agnostic.
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NumRetries uint32 ` json:",omitempty" alias:"num_retries" `
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// RetryOnConnectFailure allows for connection failure errors to trigger a
// retry. This should be expressible in other proxies as it's just a layer
// 4 failure bubbling up to layer 7.
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RetryOnConnectFailure bool ` json:",omitempty" alias:"retry_on_connect_failure" `
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// RetryOn allows setting envoy specific conditions when a request should
// be automatically retried.
RetryOn [ ] string ` json:",omitempty" alias:"retry_on" `
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// RetryOnStatusCodes is a flat list of http response status codes that are
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// eligible for retry. This again should be feasible in any reasonable proxy.
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RetryOnStatusCodes [ ] uint32 ` json:",omitempty" alias:"retry_on_status_codes" `
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// Allow HTTP header manipulation to be configured.
RequestHeaders * HTTPHeaderModifiers ` json:",omitempty" alias:"request_headers" `
ResponseHeaders * HTTPHeaderModifiers ` json:",omitempty" alias:"response_headers" `
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}
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func ( e * ServiceRouteDestination ) MarshalJSON ( ) ( [ ] byte , error ) {
type Alias ServiceRouteDestination
exported := & struct {
RequestTimeout string ` json:",omitempty" `
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IdleTimeout string ` json:",omitempty" `
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* Alias
} {
RequestTimeout : e . RequestTimeout . String ( ) ,
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IdleTimeout : e . IdleTimeout . String ( ) ,
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Alias : ( * Alias ) ( e ) ,
}
if e . RequestTimeout == 0 {
exported . RequestTimeout = ""
}
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if e . IdleTimeout == 0 {
exported . IdleTimeout = ""
}
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return json . Marshal ( exported )
}
func ( e * ServiceRouteDestination ) UnmarshalJSON ( data [ ] byte ) error {
type Alias ServiceRouteDestination
aux := & struct {
RequestTimeout string
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IdleTimeout string
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* Alias
} {
Alias : ( * Alias ) ( e ) ,
}
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if err := lib . UnmarshalJSON ( data , & aux ) ; err != nil {
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return err
}
var err error
if aux . RequestTimeout != "" {
if e . RequestTimeout , err = time . ParseDuration ( aux . RequestTimeout ) ; err != nil {
return err
}
}
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if aux . IdleTimeout != "" {
if e . IdleTimeout , err = time . ParseDuration ( aux . IdleTimeout ) ; err != nil {
return err
}
}
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return nil
}
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func ( d * ServiceRouteDestination ) HasRetryFeatures ( ) bool {
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return d . NumRetries > 0 || d . RetryOnConnectFailure || len ( d . RetryOnStatusCodes ) > 0 || len ( d . RetryOn ) > 0
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}
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// ServiceSplitterConfigEntry defines how incoming requests are split across
// different subsets of a single service (like during staged canary rollouts),
// or perhaps across different services (like during a v2 rewrite or other type
// of codebase migration).
//
// This config entry represents the next hop of the discovery chain after
// routing. If no splitter config is defined the chain assumes 100% of traffic
// goes to the default service and discovery continues on to the resolution
// hop.
//
// Splitter configs are recursively collected while walking the discovery
// chain.
//
// Splitter config entries will be restricted to only services that define
// their protocol as http-based (in centralized configuration).
type ServiceSplitterConfigEntry struct {
Kind string
Name string
// Splits is the configurations for the details of the traffic splitting.
//
// The sum of weights across all splits must add up to 100.
//
// If the split is within epsilon of 100 then the remainder is attributed
// to the FIRST split.
Splits [ ] ServiceSplit
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Meta map [ string ] string ` json:",omitempty" `
acl . EnterpriseMeta ` hcl:",squash" mapstructure:",squash" `
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RaftIndex
}
func ( e * ServiceSplitterConfigEntry ) GetKind ( ) string {
return ServiceSplitter
}
func ( e * ServiceSplitterConfigEntry ) GetName ( ) string {
if e == nil {
return ""
}
return e . Name
}
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func ( e * ServiceSplitterConfigEntry ) GetMeta ( ) map [ string ] string {
if e == nil {
return nil
}
return e . Meta
}
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func ( e * ServiceSplitterConfigEntry ) Normalize ( ) error {
if e == nil {
return fmt . Errorf ( "config entry is nil" )
}
e . Kind = ServiceSplitter
// This slightly massages inputs to enforce that the smallest representable
// weight is 1/10000 or .01%
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e . EnterpriseMeta . Normalize ( )
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if len ( e . Splits ) > 0 {
for i , split := range e . Splits {
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if split . Namespace == "" {
split . Namespace = e . EnterpriseMeta . NamespaceOrDefault ( )
}
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e . Splits [ i ] . Weight = NormalizeServiceSplitWeight ( split . Weight )
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}
}
return nil
}
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func NormalizeServiceSplitWeight ( weight float32 ) float32 {
weightScaled := scaleWeight ( weight )
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return float32 ( weightScaled ) / 100.0
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}
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func ( e * ServiceSplitterConfigEntry ) Validate ( ) error {
if e . Name == "" {
return fmt . Errorf ( "Name is required" )
}
if len ( e . Splits ) == 0 {
return fmt . Errorf ( "no splits configured" )
}
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if err := validateConfigEntryMeta ( e . Meta ) ; err != nil {
return err
}
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const maxScaledWeight = 100 * 100
copyAsKey := func ( s ServiceSplit ) ServiceSplit {
s . Weight = 0
return s
}
// Make sure we didn't refer to the same thing twice.
found := make ( map [ ServiceSplit ] struct { } )
for _ , split := range e . Splits {
splitKey := copyAsKey ( split )
if splitKey . Service == "" {
splitKey . Service = e . Name
}
if _ , ok := found [ splitKey ] ; ok {
return fmt . Errorf (
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"split destination occurs more than once: service=%q, subset=%q, namespace=%q, partition=%q" ,
splitKey . Service , splitKey . ServiceSubset , splitKey . Namespace , splitKey . Partition ,
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)
}
found [ splitKey ] = struct { } { }
}
sumScaled := 0
for _ , split := range e . Splits {
sumScaled += scaleWeight ( split . Weight )
}
if sumScaled != maxScaledWeight {
return fmt . Errorf ( "the sum of all split weights must be 100, not %f" , float32 ( sumScaled ) / 100 )
}
return nil
}
// scaleWeight assumes the input is a value between 0 and 100 representing
// shares out of a percentile range. The function will convert to a unit
// representing 0.01% units in the same manner as you may convert $0.98 to 98
// cents.
func scaleWeight ( v float32 ) int {
return int ( math . Round ( float64 ( v * 100.0 ) ) )
}
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func ( e * ServiceSplitterConfigEntry ) CanRead ( authz acl . Authorizer ) error {
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return canReadDiscoveryChain ( e , authz )
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}
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func ( e * ServiceSplitterConfigEntry ) CanWrite ( authz acl . Authorizer ) error {
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return canWriteDiscoveryChain ( e , authz )
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}
func ( e * ServiceSplitterConfigEntry ) GetRaftIndex ( ) * RaftIndex {
if e == nil {
return & RaftIndex { }
}
return & e . RaftIndex
}
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func ( e * ServiceSplitterConfigEntry ) GetEnterpriseMeta ( ) * acl . EnterpriseMeta {
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if e == nil {
return nil
}
return & e . EnterpriseMeta
}
func ( e * ServiceSplitterConfigEntry ) ListRelatedServices ( ) [ ] ServiceID {
found := make ( map [ ServiceID ] struct { } )
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svcID := NewServiceID ( e . Name , & e . EnterpriseMeta )
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for _ , split := range e . Splits {
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splitID := NewServiceID ( defaultIfEmpty ( split . Service , e . Name ) , split . GetEnterpriseMeta ( & e . EnterpriseMeta ) )
if splitID != svcID {
found [ splitID ] = struct { } { }
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}
}
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if len ( found ) == 0 {
return nil
}
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out := make ( [ ] ServiceID , 0 , len ( found ) )
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for svc := range found {
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out = append ( out , svc )
}
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sort . Slice ( out , func ( i , j int ) bool {
return out [ i ] . EnterpriseMeta . LessThan ( & out [ j ] . EnterpriseMeta ) ||
out [ i ] . ID < out [ j ] . ID
} )
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return out
}
// ServiceSplit defines how much traffic to send to which set of service
// instances during a traffic split.
type ServiceSplit struct {
// A value between 0 and 100 reflecting what portion of traffic should be
// directed to this split.
//
// The smallest representable weight is 1/10000 or .01%
//
// If the split is within epsilon of 100 then the remainder is attributed
// to the FIRST split.
Weight float32
// Service is the service to resolve instead of the default (optional).
Service string ` json:",omitempty" `
// ServiceSubset is a named subset of the given service to resolve instead
// of one defined as that service's DefaultSubset. If empty the default
// subset is used (optional).
//
// If this field is specified then this route is ineligible for further
// splitting.
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ServiceSubset string ` json:",omitempty" alias:"service_subset" `
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// Namespace is the namespace to resolve the service from instead of the
// current namespace. If empty the current namespace is assumed (optional).
//
// If this field is specified then this route is ineligible for further
// splitting.
Namespace string ` json:",omitempty" `
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// Partition is the partition to resolve the service from instead of the
// current partition. If empty the current partition is assumed (optional).
//
// If this field is specified then this route is ineligible for further
// splitting.
Partition string ` json:",omitempty" `
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// NOTE: Any configuration added to Splits that needs to be passed to the
// proxy needs special handling MergeParent below.
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// Allow HTTP header manipulation to be configured.
RequestHeaders * HTTPHeaderModifiers ` json:",omitempty" alias:"request_headers" `
ResponseHeaders * HTTPHeaderModifiers ` json:",omitempty" alias:"response_headers" `
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}
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// MergeParent is called by the discovery chain compiler when a split directs to
// another splitter. We refer to the first ServiceSplit as the parent and the
// ServiceSplits of the second splitter as its children. The parent ends up
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// "flattened" by the compiler, i.e. replaced with its children recursively with
// the weights modified as necessary.
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//
// Since the parent is never included in the output, any request processing
// config attached to it (e.g. header manipulation) would be lost and not take
// affect when splitters direct to other splitters. To avoid that, we define a
// MergeParent operation which is called by the compiler on each child split
// during flattening. It must merge any request processing configuration from
// the passed parent into the child such that the end result is equivalent to a
// request first passing through the parent and then the child. Response
// handling must occur as if the request first passed through the through the
// child to the parent.
//
// MergeDefaults leaves both s and parent unchanged and returns a deep copy to
// avoid confusing issues where config changes after being compiled.
func ( s * ServiceSplit ) MergeParent ( parent * ServiceSplit ) ( * ServiceSplit , error ) {
if s == nil && parent == nil {
return nil , nil
}
var err error
var copy ServiceSplit
if s == nil {
copy = * parent
copy . RequestHeaders , err = parent . RequestHeaders . Clone ( )
if err != nil {
return nil , err
}
copy . ResponseHeaders , err = parent . ResponseHeaders . Clone ( )
if err != nil {
return nil , err
}
return & copy , nil
} else {
copy = * s
}
var parentReq * HTTPHeaderModifiers
if parent != nil {
parentReq = parent . RequestHeaders
}
// Merge any request handling from parent _unless_ it's overridden by us.
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copy . RequestHeaders , err = MergeHTTPHeaderModifiers ( parentReq , s . RequestHeaders )
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if err != nil {
return nil , err
}
var parentResp * HTTPHeaderModifiers
if parent != nil {
parentResp = parent . ResponseHeaders
}
// Merge any response handling. Note that we allow parent to override this
// time since responses flow the other way so the unflattened behavior would
// be that the parent processing happens _after_ ours potentially overriding
// it.
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copy . ResponseHeaders , err = MergeHTTPHeaderModifiers ( s . ResponseHeaders , parentResp )
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if err != nil {
return nil , err
}
return & copy , nil
}
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// ServiceResolverConfigEntry defines which instances of a service should
// satisfy discovery requests for a given named service.
//
// This config entry represents the next hop of the discovery chain after
// splitting. If no resolver config is defined the chain assumes 100% of
// traffic goes to the healthy instances of the default service in the current
// datacenter+namespace and discovery terminates.
//
// Resolver configs are recursively collected while walking the chain.
//
// Resolver config entries will be valid for services defined with any protocol
// (in centralized configuration).
type ServiceResolverConfigEntry struct {
Kind string
Name string
// DefaultSubset is the subset to use when no explicit subset is
// requested. If empty the unnamed subset is used.
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DefaultSubset string ` json:",omitempty" alias:"default_subset" `
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// Subsets is a map of subset name to subset definition for all
// usable named subsets of this service. The map key is the name
// of the subset and all names must be valid DNS subdomain elements
// so they can be used in SNI FQDN headers for the Connect Gateways
// feature.
//
// This may be empty, in which case only the unnamed default subset
// will be usable.
Subsets map [ string ] ServiceResolverSubset ` json:",omitempty" `
// Redirect is a service/subset/datacenter/namespace to resolve
// instead of the requested service (optional).
//
// When configured, all occurrences of this resolver in any discovery
// chain evaluation will be substituted for the supplied redirect
// EXCEPT when the redirect has already been applied.
//
// When substituting the supplied redirect into the discovery chain
// all other fields beside Kind/Name/Redirect will be ignored.
Redirect * ServiceResolverRedirect ` json:",omitempty" `
// Failover controls when and how to reroute traffic to an alternate pool
// of service instances.
//
// The map is keyed by the service subset it applies to, and the special
// string "*" is a wildcard that applies to any subset not otherwise
// specified here.
Failover map [ string ] ServiceResolverFailover ` json:",omitempty" `
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// PrioritizeByLocality controls whether the locality of services within the
// local partition will be used to prioritize connectivity.
PrioritizeByLocality * ServiceResolverPrioritizeByLocality ` json:",omitempty" alias:"prioritize_by_locality" `
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// ConnectTimeout is the timeout for establishing new network connections
// to this service.
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ConnectTimeout time . Duration ` json:",omitempty" alias:"connect_timeout" `
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// RequestTimeout is the timeout for an HTTP request to complete before
// the connection is automatically terminated. If unspecified, defaults
// to 15 seconds.
RequestTimeout time . Duration ` json:",omitempty" alias:"request_timeout" `
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// LoadBalancer determines the load balancing policy and configuration for services
// issuing requests to this upstream service.
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LoadBalancer * LoadBalancer ` json:",omitempty" alias:"load_balancer" `
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Meta map [ string ] string ` json:",omitempty" `
acl . EnterpriseMeta ` hcl:",squash" mapstructure:",squash" `
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RaftIndex
}
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func ( e * ServiceResolverConfigEntry ) RelatedPeers ( ) [ ] string {
peers := make ( map [ string ] struct { } )
if r := e . Redirect ; r != nil && r . Peer != "" {
peers [ r . Peer ] = struct { } { }
}
if e . Failover != nil {
for _ , f := range e . Failover {
for _ , t := range f . Targets {
if t . Peer != "" {
peers [ t . Peer ] = struct { } { }
}
}
}
}
return maps . SliceOfKeys ( peers )
}
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func ( e * ServiceResolverConfigEntry ) MarshalJSON ( ) ( [ ] byte , error ) {
type Alias ServiceResolverConfigEntry
exported := & struct {
ConnectTimeout string ` json:",omitempty" `
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RequestTimeout string ` json:",omitempty" `
2019-08-19 20:31:05 +00:00
* Alias
} {
ConnectTimeout : e . ConnectTimeout . String ( ) ,
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RequestTimeout : e . RequestTimeout . String ( ) ,
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Alias : ( * Alias ) ( e ) ,
}
if e . ConnectTimeout == 0 {
exported . ConnectTimeout = ""
}
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if e . RequestTimeout == 0 {
exported . RequestTimeout = ""
}
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return json . Marshal ( exported )
}
func ( e * ServiceResolverConfigEntry ) UnmarshalJSON ( data [ ] byte ) error {
type Alias ServiceResolverConfigEntry
aux := & struct {
ConnectTimeout string
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RequestTimeout string
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* Alias
} {
Alias : ( * Alias ) ( e ) ,
}
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var err error
if err = lib . UnmarshalJSON ( data , & aux ) ; err != nil {
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return err
}
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var merr * multierror . Error
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if aux . ConnectTimeout != "" {
if e . ConnectTimeout , err = time . ParseDuration ( aux . ConnectTimeout ) ; err != nil {
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merr = multierror . Append ( merr , err )
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}
}
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if aux . RequestTimeout != "" {
if e . RequestTimeout , err = time . ParseDuration ( aux . RequestTimeout ) ; err != nil {
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merr = multierror . Append ( merr , err )
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}
}
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return merr . ErrorOrNil ( )
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}
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func ( e * ServiceResolverConfigEntry ) SubsetExists ( name string ) bool {
if name == "" {
return true
}
if len ( e . Subsets ) == 0 {
return false
}
_ , ok := e . Subsets [ name ]
return ok
}
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func ( e * ServiceResolverConfigEntry ) IsDefault ( ) bool {
return e . DefaultSubset == "" &&
len ( e . Subsets ) == 0 &&
e . Redirect == nil &&
len ( e . Failover ) == 0 &&
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e . ConnectTimeout == 0 &&
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e . RequestTimeout == 0 &&
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e . LoadBalancer == nil &&
e . PrioritizeByLocality == nil
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}
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func ( e * ServiceResolverConfigEntry ) GetKind ( ) string {
return ServiceResolver
}
func ( e * ServiceResolverConfigEntry ) GetName ( ) string {
if e == nil {
return ""
}
return e . Name
}
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func ( e * ServiceResolverConfigEntry ) GetMeta ( ) map [ string ] string {
if e == nil {
return nil
}
return e . Meta
}
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func ( e * ServiceResolverConfigEntry ) Normalize ( ) error {
if e == nil {
return fmt . Errorf ( "config entry is nil" )
}
e . Kind = ServiceResolver
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e . EnterpriseMeta . Normalize ( )
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return nil
}
func ( e * ServiceResolverConfigEntry ) Validate ( ) error {
if e . Name == "" {
return fmt . Errorf ( "Name is required" )
}
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if err := validateConfigEntryMeta ( e . Meta ) ; err != nil {
return err
}
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if len ( e . Subsets ) > 0 {
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for name , subset := range e . Subsets {
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if name == "" {
return fmt . Errorf ( "Subset defined with empty name" )
}
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if err := validateServiceSubset ( name ) ; err != nil {
return fmt . Errorf ( "Subset %q is invalid: %v" , name , err )
}
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if subset . Filter != "" {
if _ , err := bexpr . CreateEvaluator ( subset . Filter , nil ) ; err != nil {
return fmt . Errorf ( "Filter for subset %q is not a valid expression: %v" , name , err )
}
}
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}
}
isSubset := func ( subset string ) bool {
if len ( e . Subsets ) > 0 {
_ , ok := e . Subsets [ subset ]
return ok
}
return false
}
if e . DefaultSubset != "" && ! isSubset ( e . DefaultSubset ) {
return fmt . Errorf ( "DefaultSubset %q is not a valid subset" , e . DefaultSubset )
}
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if err := e . PrioritizeByLocality . validate ( ) ; err != nil {
return err
}
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if e . Redirect != nil {
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if ! e . InDefaultPartition ( ) && e . Redirect . Datacenter != "" {
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return fmt . Errorf ( "Cross-datacenter redirect is only supported in the default partition" )
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}
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if acl . PartitionOrDefault ( e . Redirect . Partition ) != e . PartitionOrDefault ( ) && e . Redirect . Datacenter != "" {
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return fmt . Errorf ( "Cross-datacenter and cross-partition redirect is not supported" )
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}
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r := e . Redirect
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if err := r . ValidateEnterprise ( ) ; err != nil {
return fmt . Errorf ( "Redirect: %s" , err . Error ( ) )
}
2019-07-01 20:23:36 +00:00
if len ( e . Failover ) > 0 {
return fmt . Errorf ( "Redirect and Failover cannot both be set" )
}
// TODO(rb): prevent subsets and default subsets from being defined?
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if r . isEmpty ( ) {
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return fmt . Errorf ( "Redirect is empty" )
}
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switch {
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case r . SamenessGroup != "" && r . ServiceSubset != "" :
return fmt . Errorf ( "Redirect.SamenessGroup cannot be set with Redirect.ServiceSubset" )
case r . SamenessGroup != "" && r . Partition != "" :
return fmt . Errorf ( "Redirect.Partition cannot be set with Redirect.SamenessGroup" )
case r . SamenessGroup != "" && r . Datacenter != "" :
return fmt . Errorf ( "Redirect.SamenessGroup cannot be set with Redirect.Datacenter" )
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case r . Peer != "" && r . ServiceSubset != "" :
return fmt . Errorf ( "Redirect.Peer cannot be set with Redirect.ServiceSubset" )
case r . Peer != "" && r . Partition != "" :
return fmt . Errorf ( "Redirect.Partition cannot be set with Redirect.Peer" )
case r . Peer != "" && r . Datacenter != "" :
return fmt . Errorf ( "Redirect.Peer cannot be set with Redirect.Datacenter" )
case r . Service == "" :
2019-06-27 17:37:43 +00:00
if r . ServiceSubset != "" {
return fmt . Errorf ( "Redirect.ServiceSubset defined without Redirect.Service" )
}
if r . Namespace != "" {
return fmt . Errorf ( "Redirect.Namespace defined without Redirect.Service" )
}
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if r . Partition != "" {
return fmt . Errorf ( "Redirect.Partition defined without Redirect.Service" )
}
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if r . Peer != "" {
return fmt . Errorf ( "Redirect.Peer defined without Redirect.Service" )
}
case r . ServiceSubset != "" && ( r . Service == "" || r . Service == e . Name ) :
if ! isSubset ( r . ServiceSubset ) {
return fmt . Errorf ( "Redirect.ServiceSubset %q is not a valid subset of %q" , r . ServiceSubset , e . Name )
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}
}
}
if len ( e . Failover ) > 0 {
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for subset , f := range e . Failover {
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if ! e . InDefaultPartition ( ) && len ( f . Datacenters ) != 0 {
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return fmt . Errorf ( "Cross-datacenter failover is only supported in the default partition" )
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}
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errorPrefix := fmt . Sprintf ( "Bad Failover[%q]: " , subset )
if err := f . ValidateEnterprise ( ) ; err != nil {
return fmt . Errorf ( errorPrefix + err . Error ( ) )
}
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if subset != "*" && ! isSubset ( subset ) {
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return fmt . Errorf ( errorPrefix + "not a valid subset subset" )
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}
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if f . isEmpty ( ) {
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return fmt . Errorf ( errorPrefix + "one of Service, ServiceSubset, Namespace, Targets, SamenessGroup, or Datacenters is required" )
2019-06-27 17:37:43 +00:00
}
2023-03-03 16:12:38 +00:00
if err := f . Policy . ValidateEnterprise ( ) ; err != nil {
return fmt . Errorf ( "Bad Failover[%q]: %s" , subset , err )
}
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if err := f . Policy . validate ( ) ; err != nil {
return fmt . Errorf ( "Bad Failover[%q]: %w" , subset , err )
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}
2019-06-27 17:37:43 +00:00
if f . ServiceSubset != "" {
if f . Service == "" || f . Service == e . Name {
if ! isSubset ( f . ServiceSubset ) {
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return fmt . Errorf ( "%sServiceSubset %q is not a valid subset of %q" , errorPrefix , f . ServiceSubset , f . Service )
}
}
}
2023-03-17 14:48:06 +00:00
if f . SamenessGroup != "" {
switch {
case len ( f . Datacenters ) > 0 :
return fmt . Errorf ( "Bad Failover[%q]: SamenessGroup cannot be set with Datacenters" , subset )
case f . ServiceSubset != "" :
return fmt . Errorf ( "Bad Failover[%q]: SamenessGroup cannot be set with ServiceSubset" , subset )
case len ( f . Targets ) > 0 :
return fmt . Errorf ( "Bad Failover[%q]: SamenessGroup cannot be set with Targets" , subset )
}
}
2022-08-15 13:20:25 +00:00
if len ( f . Datacenters ) != 0 && len ( f . Targets ) != 0 {
return fmt . Errorf ( "Bad Failover[%q]: Targets cannot be set with Datacenters" , subset )
}
if f . ServiceSubset != "" && len ( f . Targets ) != 0 {
return fmt . Errorf ( "Bad Failover[%q]: Targets cannot be set with ServiceSubset" , subset )
}
if f . Service != "" && len ( f . Targets ) != 0 {
return fmt . Errorf ( "Bad Failover[%q]: Targets cannot be set with Service" , subset )
}
for i , target := range f . Targets {
errorPrefix := fmt . Sprintf ( "Bad Failover[%q].Targets[%d]: " , subset , i )
if err := target . ValidateEnterprise ( ) ; err != nil {
return fmt . Errorf ( errorPrefix + err . Error ( ) )
}
switch {
case target . Peer != "" && target . ServiceSubset != "" :
return fmt . Errorf ( errorPrefix + "Peer cannot be set with ServiceSubset" )
case target . Peer != "" && target . Partition != "" :
return fmt . Errorf ( errorPrefix + "Partition cannot be set with Peer" )
case target . Peer != "" && target . Datacenter != "" :
return fmt . Errorf ( errorPrefix + "Peer cannot be set with Datacenter" )
case target . Partition != "" && target . Datacenter != "" :
return fmt . Errorf ( errorPrefix + "Partition cannot be set with Datacenter" )
case target . ServiceSubset != "" && ( target . Service == "" || target . Service == e . Name ) :
if ! isSubset ( target . ServiceSubset ) {
return fmt . Errorf ( "%sServiceSubset %q is not a valid subset of %q" , errorPrefix , target . ServiceSubset , e . Name )
2019-06-27 17:37:43 +00:00
}
}
}
for _ , dc := range f . Datacenters {
if dc == "" {
return fmt . Errorf ( "Bad Failover[%q].Datacenters: found empty datacenter" , subset )
}
}
}
}
if e . ConnectTimeout < 0 {
return fmt . Errorf ( "Bad ConnectTimeout '%s', must be >= 0" , e . ConnectTimeout )
}
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if e . RequestTimeout < 0 {
return fmt . Errorf ( "Bad RequestTimeout '%s', must be >= 0" , e . RequestTimeout )
}
2020-09-11 15:21:43 +00:00
if e . LoadBalancer != nil {
lb := e . LoadBalancer
2020-08-23 00:05:09 +00:00
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if ok := validLBPolicies [ lb . Policy ] ; ! ok {
return fmt . Errorf ( "Bad LoadBalancer policy: %q is not supported" , lb . Policy )
2020-09-02 15:10:50 +00:00
}
2020-08-23 00:05:09 +00:00
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if lb . Policy != LBPolicyRingHash && lb . RingHashConfig != nil {
2020-09-02 15:10:50 +00:00
return fmt . Errorf ( "Bad LoadBalancer configuration. " +
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"RingHashConfig specified for incompatible load balancing policy %q" , lb . Policy )
2020-08-23 00:05:09 +00:00
}
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if lb . Policy != LBPolicyLeastRequest && lb . LeastRequestConfig != nil {
2020-09-02 15:10:50 +00:00
return fmt . Errorf ( "Bad LoadBalancer configuration. " +
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"LeastRequestConfig specified for incompatible load balancing policy %q" , lb . Policy )
2020-08-23 00:05:09 +00:00
}
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if ! lb . IsHashBased ( ) && len ( lb . HashPolicies ) > 0 {
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return fmt . Errorf ( "Bad LoadBalancer configuration: " +
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"HashPolicies specified for non-hash-based Policy: %q" , lb . Policy )
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}
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for i , hp := range lb . HashPolicies {
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if ok := validHashPolicies [ hp . Field ] ; hp . Field != "" && ! ok {
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return fmt . Errorf ( "Bad LoadBalancer HashPolicy[%d]: %q is not a supported field" , i , hp . Field )
}
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if hp . SourceIP && hp . Field != "" {
return fmt . Errorf ( "Bad LoadBalancer HashPolicy[%d]: " +
"A single hash policy cannot hash both a source address and a %q" , i , hp . Field )
}
if hp . SourceIP && hp . FieldValue != "" {
return fmt . Errorf ( "Bad LoadBalancer HashPolicy[%d]: " +
"A FieldValue cannot be specified when hashing SourceIP" , i )
}
if hp . Field != "" && hp . FieldValue == "" {
return fmt . Errorf ( "Bad LoadBalancer HashPolicy[%d]: Field %q was specified without a FieldValue" , i , hp . Field )
}
if hp . FieldValue != "" && hp . Field == "" {
return fmt . Errorf ( "Bad LoadBalancer HashPolicy[%d]: FieldValue requires a Field to apply to" , i )
}
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if hp . CookieConfig != nil {
if hp . Field != HashPolicyCookie {
return fmt . Errorf ( "Bad LoadBalancer HashPolicy[%d]: cookie_config provided for %q" , i , hp . Field )
}
if hp . CookieConfig . Session && hp . CookieConfig . TTL != 0 * time . Second {
return fmt . Errorf ( "Bad LoadBalancer HashPolicy[%d]: a session cookie cannot have an associated TTL" , i )
}
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}
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}
}
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return nil
}
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func ( e * ServiceResolverConfigEntry ) CanRead ( authz acl . Authorizer ) error {
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return canReadDiscoveryChain ( e , authz )
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}
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func ( e * ServiceResolverConfigEntry ) CanWrite ( authz acl . Authorizer ) error {
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return canWriteDiscoveryChain ( e , authz )
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}
func ( e * ServiceResolverConfigEntry ) GetRaftIndex ( ) * RaftIndex {
if e == nil {
return & RaftIndex { }
}
return & e . RaftIndex
}
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func ( e * ServiceResolverConfigEntry ) GetEnterpriseMeta ( ) * acl . EnterpriseMeta {
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if e == nil {
return nil
}
return & e . EnterpriseMeta
}
func ( e * ServiceResolverConfigEntry ) ListRelatedServices ( ) [ ] ServiceID {
found := make ( map [ ServiceID ] struct { } )
2019-06-27 17:37:43 +00:00
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svcID := NewServiceID ( e . Name , & e . EnterpriseMeta )
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if e . Redirect != nil {
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redirectID := NewServiceID ( defaultIfEmpty ( e . Redirect . Service , e . Name ) , e . Redirect . GetEnterpriseMeta ( & e . EnterpriseMeta ) )
if redirectID != svcID {
found [ redirectID ] = struct { } { }
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}
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2019-06-27 17:37:43 +00:00
}
if len ( e . Failover ) > 0 {
for _ , failover := range e . Failover {
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if len ( failover . Targets ) == 0 {
failoverID := NewServiceID ( defaultIfEmpty ( failover . Service , e . Name ) , failover . GetEnterpriseMeta ( & e . EnterpriseMeta ) )
if failoverID != svcID {
found [ failoverID ] = struct { } { }
}
continue
}
for _ , target := range failover . Targets {
// We can't know about related services on cluster peers.
if target . Peer != "" {
continue
}
failoverID := NewServiceID ( defaultIfEmpty ( target . Service , e . Name ) , target . GetEnterpriseMeta ( failover . GetEnterpriseMeta ( & e . EnterpriseMeta ) ) )
if failoverID != svcID {
found [ failoverID ] = struct { } { }
}
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}
}
}
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if len ( found ) == 0 {
return nil
}
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out := make ( [ ] ServiceID , 0 , len ( found ) )
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for svc := range found {
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out = append ( out , svc )
}
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sort . Slice ( out , func ( i , j int ) bool {
return out [ i ] . EnterpriseMeta . LessThan ( & out [ j ] . EnterpriseMeta ) ||
out [ i ] . ID < out [ j ] . ID
} )
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return out
}
// ServiceResolverSubset defines a way to select a portion of the Consul
// catalog during service discovery. Anything that affects the ultimate catalog
// query performed OR post-processing on the results of that sort of query
// should be defined here.
type ServiceResolverSubset struct {
// Filter specifies the go-bexpr filter expression to be used for selecting
// instances of the requested service.
Filter string ` json:",omitempty" `
// OnlyPassing - Specifies the behavior of the resolver's health check
// filtering. If this is set to false, the results will include instances
// with checks in the passing as well as the warning states. If this is set
// to true, only instances with checks in the passing state will be
// returned. (behaves identically to the similarly named field on prepared
// queries).
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OnlyPassing bool ` json:",omitempty" alias:"only_passing" `
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}
type ServiceResolverRedirect struct {
// Service is a service to resolve instead of the current service
// (optional).
Service string ` json:",omitempty" `
// ServiceSubset is a named subset of the given service to resolve instead
// of one defined as that service's DefaultSubset If empty the default
// subset is used (optional).
//
// If this is specified at least one of Service, Datacenter, or Namespace
// should be configured.
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ServiceSubset string ` json:",omitempty" alias:"service_subset" `
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// Namespace is the namespace to resolve the service from instead of the
// current one (optional).
Namespace string ` json:",omitempty" `
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// Partition is the partition to resolve the service from instead of the
// current one (optional).
Partition string ` json:",omitempty" `
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// Datacenter is the datacenter to resolve the service from instead of the
// current one (optional).
Datacenter string ` json:",omitempty" `
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// Peer is the name of the cluster peer to resolve the service from instead
// of the current one (optional).
Peer string ` json:",omitempty" `
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// SamenessGroup is the name of the sameness group to resolve the service from instead
// of the local partition.
SamenessGroup string ` json:",omitempty" `
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}
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// ToSamenessDiscoveryTargetOpts returns the options required for sameness failover and redirects.
// These operations should preserve the service name and namespace.
func ( r * ServiceResolverConfigEntry ) ToSamenessDiscoveryTargetOpts ( ) DiscoveryTargetOpts {
return DiscoveryTargetOpts {
Service : r . Name ,
Namespace : r . NamespaceOrDefault ( ) ,
Partition : r . PartitionOrDefault ( ) ,
}
}
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func ( r * ServiceResolverRedirect ) ToDiscoveryTargetOpts ( ) DiscoveryTargetOpts {
return DiscoveryTargetOpts {
Service : r . Service ,
ServiceSubset : r . ServiceSubset ,
Namespace : r . Namespace ,
Partition : r . Partition ,
Datacenter : r . Datacenter ,
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Peer : r . Peer ,
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}
}
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func ( r * ServiceResolverRedirect ) isEmpty ( ) bool {
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return r . Service == "" &&
r . ServiceSubset == "" &&
r . Namespace == "" &&
r . Partition == "" &&
r . Datacenter == "" &&
r . Peer == "" &&
r . SamenessGroup == ""
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}
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// There are some restrictions on what is allowed in here:
//
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// - Service, ServiceSubset, Namespace, Datacenters, and Targets cannot all be
// empty at once. When Targets is defined, the other fields should not be
// populated.
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type ServiceResolverFailover struct {
// Service is the service to resolve instead of the default as the failover
// group of instances (optional).
//
// This is a DESTINATION during failover.
Service string ` json:",omitempty" `
// ServiceSubset is the named subset of the requested service to resolve as
// the failover group of instances. If empty the default subset for the
// requested service is used (optional).
//
// This is a DESTINATION during failover.
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ServiceSubset string ` json:",omitempty" alias:"service_subset" `
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// Namespace is the namespace to resolve the requested service from to form
// the failover group of instances. If empty the current namespace is used
// (optional).
//
// This is a DESTINATION during failover.
Namespace string ` json:",omitempty" `
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// Datacenters is a fixed list of datacenters to try. We never try a
// datacenter multiple times, so those are subtracted from this list before
// proceeding.
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//
// This is a DESTINATION during failover.
Datacenters [ ] string ` json:",omitempty" `
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// Targets specifies a fixed list of failover targets to try. We never try a
// target multiple times, so those are subtracted from this list before
// proceeding.
//
// This is a DESTINATION during failover.
Targets [ ] ServiceResolverFailoverTarget ` json:",omitempty" `
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// Policy specifies the exact mechanism used for failover.
Policy * ServiceResolverFailoverPolicy ` json:",omitempty" `
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// SamenessGroup specifies the sameness group to failover to.
SamenessGroup string ` json:",omitempty" `
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}
func ( f * ServiceResolverFailover ) ToDiscoveryTargetOpts ( ) DiscoveryTargetOpts {
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return DiscoveryTargetOpts {
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Service : f . Service ,
ServiceSubset : f . ServiceSubset ,
Namespace : f . Namespace ,
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}
}
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func ( f * ServiceResolverFailover ) isEmpty ( ) bool {
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return f . Service == "" &&
f . ServiceSubset == "" &&
f . Namespace == "" &&
len ( f . Datacenters ) == 0 &&
len ( f . Targets ) == 0 &&
f . SamenessGroup == ""
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}
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type ServiceResolverFailoverPolicy struct {
// Mode specifies the type of failover that will be performed. Valid values are
// "sequential", "" (equivalent to "sequential") and "order-by-locality".
Mode string ` json:",omitempty" `
Regions [ ] string ` json:",omitempty" `
}
func ( fp * ServiceResolverFailoverPolicy ) validate ( ) error {
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if fp == nil {
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return nil
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}
switch fp . Mode {
case "" :
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case "sequential" :
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case "order-by-locality" :
default :
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return fmt . Errorf ( "Failover-policy mode must be one of '', 'sequential', or 'order-by-locality'" )
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}
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return nil
}
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type ServiceResolverPrioritizeByLocality struct {
// Mode specifies the type of prioritization that will be performed
// when selecting nodes in the local partition.
// Valid values are: "" (default "none"), "none", and "failover".
Mode string ` json:",omitempty" `
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}
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type ServiceResolverFailoverTarget struct {
// Service specifies the name of the service to try during failover.
Service string ` json:",omitempty" `
// ServiceSubset specifies the service subset to try during failover.
ServiceSubset string ` json:",omitempty" alias:"service_subset" `
// Partition specifies the partition to try during failover.
Partition string ` json:",omitempty" `
// Namespace specifies the namespace to try during failover.
Namespace string ` json:",omitempty" `
// Datacenter specifies the datacenter to try during failover.
Datacenter string ` json:",omitempty" `
// Peer specifies the name of the cluster peer to try during failover.
Peer string ` json:",omitempty" `
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}
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func ( t * ServiceResolverFailoverTarget ) ToDiscoveryTargetOpts ( ) DiscoveryTargetOpts {
return DiscoveryTargetOpts {
Service : t . Service ,
ServiceSubset : t . ServiceSubset ,
Namespace : t . Namespace ,
Partition : t . Partition ,
Datacenter : t . Datacenter ,
Peer : t . Peer ,
}
}
2020-08-23 00:05:09 +00:00
// LoadBalancer determines the load balancing policy and configuration for services
// issuing requests to this upstream service.
type LoadBalancer struct {
// Policy is the load balancing policy used to select a host
Policy string ` json:",omitempty" `
// RingHashConfig contains configuration for the "ring_hash" policy type
2020-09-02 15:10:50 +00:00
RingHashConfig * RingHashConfig ` json:",omitempty" alias:"ring_hash_config" `
2020-08-23 00:05:09 +00:00
// LeastRequestConfig contains configuration for the "least_request" policy type
2020-09-02 15:10:50 +00:00
LeastRequestConfig * LeastRequestConfig ` json:",omitempty" alias:"least_request_config" `
2020-08-23 00:05:09 +00:00
// HashPolicies is a list of hash policies to use for hashing load balancing algorithms.
// Hash policies are evaluated individually and combined such that identical lists
// result in the same hash.
// If no hash policies are present, or none are successfully evaluated,
// then a random backend host will be selected.
HashPolicies [ ] HashPolicy ` json:",omitempty" alias:"hash_policies" `
}
// RingHashConfig contains configuration for the "ring_hash" policy type
type RingHashConfig struct {
2020-08-28 20:46:13 +00:00
// MinimumRingSize determines the minimum number of entries in the hash ring
2020-08-23 00:05:09 +00:00
MinimumRingSize uint64 ` json:",omitempty" alias:"minimum_ring_size" `
2020-08-28 20:46:13 +00:00
// MaximumRingSize determines the maximum number of entries in the hash ring
2020-08-23 00:05:09 +00:00
MaximumRingSize uint64 ` json:",omitempty" alias:"maximum_ring_size" `
}
// LeastRequestConfig contains configuration for the "least_request" policy type
type LeastRequestConfig struct {
// ChoiceCount determines the number of random healthy hosts from which to select the one with the least requests.
ChoiceCount uint32 ` json:",omitempty" alias:"choice_count" `
}
2020-09-02 15:10:50 +00:00
// HashPolicy defines which attributes will be hashed by hash-based LB algorithms
2020-08-23 00:05:09 +00:00
type HashPolicy struct {
// Field is the attribute type to hash on.
// Must be one of "header","cookie", or "query_parameter".
// Cannot be specified along with SourceIP.
Field string ` json:",omitempty" `
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// FieldValue is the value to hash.
2020-08-23 00:05:09 +00:00
// ie. header name, cookie name, URL query parameter name
// Cannot be specified along with SourceIP.
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FieldValue string ` json:",omitempty" alias:"field_value" `
// CookieConfig contains configuration for the "cookie" hash policy type.
CookieConfig * CookieConfig ` json:",omitempty" alias:"cookie_config" `
2020-08-23 00:05:09 +00:00
2020-09-02 15:10:50 +00:00
// SourceIP determines whether the hash should be of the source IP rather than of a field and field value.
// Cannot be specified along with Field or FieldValue.
SourceIP bool ` json:",omitempty" alias:"source_ip" `
2020-08-23 00:05:09 +00:00
// Terminal will short circuit the computation of the hash when multiple hash policies are present.
// If a hash is computed when a Terminal policy is evaluated,
// then that hash will be used and subsequent hash policies will be ignored.
Terminal bool ` json:",omitempty" `
}
2020-09-02 15:10:50 +00:00
// CookieConfig contains configuration for the "cookie" hash policy type.
// This is specified to have Envoy generate a cookie for a client on its first request.
type CookieConfig struct {
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// Generates a session cookie with no expiration.
Session bool ` json:",omitempty" `
// TTL for generated cookies. Cannot be specified for session cookies.
2020-09-02 15:10:50 +00:00
TTL time . Duration ` json:",omitempty" `
// The path to set for the cookie
Path string ` json:",omitempty" `
}
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func ( lb * LoadBalancer ) IsHashBased ( ) bool {
if lb == nil {
2020-09-02 15:10:50 +00:00
return false
}
2020-09-11 15:21:43 +00:00
switch lb . Policy {
2020-09-02 15:10:50 +00:00
case LBPolicyMaglev , LBPolicyRingHash :
return true
default :
return false
}
}
2019-06-27 17:37:43 +00:00
type discoveryChainConfigEntry interface {
ConfigEntry
// ListRelatedServices returns a list of other names of services referenced
// in this config entry.
2020-01-24 15:04:58 +00:00
ListRelatedServices ( ) [ ] ServiceID
2019-06-27 17:37:43 +00:00
}
2022-03-11 21:45:51 +00:00
func canReadDiscoveryChain ( entry discoveryChainConfigEntry , authz acl . Authorizer ) error {
2020-01-24 15:04:58 +00:00
var authzContext acl . AuthorizerContext
entry . GetEnterpriseMeta ( ) . FillAuthzContext ( & authzContext )
2022-03-11 21:45:51 +00:00
return authz . ToAllowAuthorizer ( ) . ServiceReadAllowed ( entry . GetName ( ) , & authzContext )
2019-06-27 18:38:21 +00:00
}
2019-06-27 17:37:43 +00:00
2022-03-11 21:45:51 +00:00
func canWriteDiscoveryChain ( entry discoveryChainConfigEntry , authz acl . Authorizer ) error {
2020-02-06 15:52:25 +00:00
entryID := NewServiceID ( entry . GetName ( ) , entry . GetEnterpriseMeta ( ) )
2020-01-24 15:04:58 +00:00
var authzContext acl . AuthorizerContext
2020-02-06 15:52:25 +00:00
entryID . FillAuthzContext ( & authzContext )
2020-01-24 15:04:58 +00:00
2019-06-27 17:37:43 +00:00
name := entry . GetName ( )
2022-03-11 21:45:51 +00:00
if err := authz . ToAllowAuthorizer ( ) . ServiceWriteAllowed ( name , & authzContext ) ; err != nil {
return err
2019-06-27 17:37:43 +00:00
}
for _ , svc := range entry . ListRelatedServices ( ) {
2020-02-06 15:52:25 +00:00
if entryID == svc {
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continue
}
2019-06-27 18:38:21 +00:00
2020-01-24 15:04:58 +00:00
svc . FillAuthzContext ( & authzContext )
2019-06-27 18:38:21 +00:00
// You only need read on related services to redirect traffic flow for
// your own service.
2022-03-11 21:45:51 +00:00
if err := authz . ToAllowAuthorizer ( ) . ServiceReadAllowed ( svc . ID , & authzContext ) ; err != nil {
return err
2019-06-27 17:37:43 +00:00
}
}
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return nil
2019-06-27 17:37:43 +00:00
}
2019-07-02 03:10:51 +00:00
// DiscoveryChainRequest is used when requesting the discovery chain for a
// service.
type DiscoveryChainRequest struct {
2019-08-02 03:03:34 +00:00
Name string
EvaluateInDatacenter string
EvaluateInNamespace string
2021-08-20 16:57:45 +00:00
EvaluateInPartition string
2019-07-02 03:10:51 +00:00
2019-08-02 03:03:34 +00:00
// OverrideMeshGateway allows for the mesh gateway setting to be overridden
// for any resolver in the compiled chain.
OverrideMeshGateway MeshGatewayConfig
// OverrideProtocol allows for the final protocol for the chain to be
// altered.
//
// - If the chain ordinarily would be TCP and an L7 protocol is passed here
// the chain will not include Routers or Splitters.
//
// - If the chain ordinarily would be L7 and TCP is passed here the chain
// will not include Routers or Splitters.
OverrideProtocol string
// OverrideConnectTimeout allows for the ConnectTimeout setting to be
// overridden for any resolver in the compiled chain.
OverrideConnectTimeout time . Duration
Datacenter string // where to route the RPC
2019-07-02 03:10:51 +00:00
QueryOptions
}
func ( r * DiscoveryChainRequest ) RequestDatacenter ( ) string {
return r . Datacenter
}
func ( r * DiscoveryChainRequest ) CacheInfo ( ) cache . RequestInfo {
info := cache . RequestInfo {
Token : r . Token ,
Datacenter : r . Datacenter ,
MinIndex : r . MinQueryIndex ,
Timeout : r . MaxQueryTime ,
MaxAge : r . MaxAge ,
MustRevalidate : r . MustRevalidate ,
}
v , err := hashstructure . Hash ( struct {
2019-08-02 03:03:34 +00:00
Name string
EvaluateInDatacenter string
EvaluateInNamespace string
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EvaluateInPartition string
2019-08-02 03:03:34 +00:00
OverrideMeshGateway MeshGatewayConfig
OverrideProtocol string
OverrideConnectTimeout time . Duration
2021-05-31 21:22:16 +00:00
Filter string
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} {
2019-08-02 03:03:34 +00:00
Name : r . Name ,
EvaluateInDatacenter : r . EvaluateInDatacenter ,
EvaluateInNamespace : r . EvaluateInNamespace ,
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EvaluateInPartition : r . EvaluateInPartition ,
2019-08-02 03:03:34 +00:00
OverrideMeshGateway : r . OverrideMeshGateway ,
OverrideProtocol : r . OverrideProtocol ,
OverrideConnectTimeout : r . OverrideConnectTimeout ,
2021-05-31 21:22:16 +00:00
Filter : r . QueryOptions . Filter ,
2019-07-02 03:10:51 +00:00
} , nil )
if err == nil {
// If there is an error, we don't set the key. A blank key forces
// no cache for this request so the request is forwarded directly
// to the server.
info . Key = strconv . FormatUint ( v , 10 )
}
return info
}
type DiscoveryChainResponse struct {
2019-08-02 20:34:54 +00:00
Chain * CompiledDiscoveryChain
2019-07-02 03:10:51 +00:00
QueryMeta
}
2019-07-01 20:23:36 +00:00
type ConfigEntryGraphError struct {
// one of Message or Err should be set
Message string
Err error
}
func ( e * ConfigEntryGraphError ) Error ( ) string {
if e . Err != nil {
return e . Err . Error ( )
}
return e . Message
}
2019-07-24 01:50:23 +00:00
var (
validServiceSubset = regexp . MustCompile ( ` ^[a-z0-9]([a-z0-9-]*[a-z0-9])?$ ` )
serviceSubsetMaxLength = 63
)
// validateServiceSubset checks if the provided name can be used as an service
// subset. Because these are used in SNI headers they must a DNS label per
// RFC-1035/RFC-1123.
func validateServiceSubset ( subset string ) error {
if subset == "" || len ( subset ) > serviceSubsetMaxLength {
return fmt . Errorf ( "must be non-empty and 63 characters or fewer" )
}
if ! validServiceSubset . MatchString ( subset ) {
return fmt . Errorf ( "must be 63 characters or fewer, begin or end with lower case alphanumeric characters, and contain lower case alphanumeric characters or '-' in between" )
}
return nil
}
2020-02-06 15:52:25 +00:00
func defaultIfEmpty ( val , defaultVal string ) string {
if val != "" {
return val
}
return defaultVal
}
2020-08-27 17:20:58 +00:00
func IsProtocolHTTPLike ( protocol string ) bool {
switch protocol {
case "http" , "http2" , "grpc" :
return true
default :
return false
}
}
2021-07-13 11:13:18 +00:00
// HTTPHeaderModifiers is a set of rules for HTTP header modification that
// should be performed by proxies as the request passes through them. It can
// operate on either request or response headers depending on the context in
// which it is used.
type HTTPHeaderModifiers struct {
// Add is a set of name -> value pairs that should be appended to the request
// or response (i.e. allowing duplicates if the same header already exists).
Add map [ string ] string ` json:",omitempty" `
// Set is a set of name -> value pairs that should be added to the request or
// response, overwriting any existing header values of the same name.
Set map [ string ] string ` json:",omitempty" `
// Remove is the set of header names that should be stripped from the request
// or response.
Remove [ ] string ` json:",omitempty" `
}
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func ( m * HTTPHeaderModifiers ) IsZero ( ) bool {
if m == nil {
return true
}
return len ( m . Add ) == 0 && len ( m . Set ) == 0 && len ( m . Remove ) == 0
}
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func ( m * HTTPHeaderModifiers ) Validate ( protocol string ) error {
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if m . IsZero ( ) {
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return nil
}
if ! IsProtocolHTTPLike ( protocol ) {
// Non nil but context is not an httpish protocol
return fmt . Errorf ( "only valid for http, http2 and grpc protocols" )
}
return nil
}
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// Clone returns a deep-copy of m unless m is nil
func ( m * HTTPHeaderModifiers ) Clone ( ) ( * HTTPHeaderModifiers , error ) {
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if m == nil {
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return nil , nil
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}
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cpy , err := copystructure . Copy ( m )
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if err != nil {
return nil , err
}
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m = cpy . ( * HTTPHeaderModifiers )
return m , nil
}
// MergeHTTPHeaderModifiers takes a base HTTPHeaderModifiers and merges in field
// defined in overrides. Precedence is given to the overrides field if there is
// a collision. The resulting object is returned leaving both base and overrides
// unchanged. The `Add` field in override also replaces same-named keys of base
// since we have no way to express multiple adds to the same key. We could
// change that, but it makes the config syntax more complex for a huge edgecase.
func MergeHTTPHeaderModifiers ( base , overrides * HTTPHeaderModifiers ) ( * HTTPHeaderModifiers , error ) {
if base . IsZero ( ) {
return overrides . Clone ( )
}
merged , err := base . Clone ( )
if err != nil {
return nil , err
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}
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if overrides . IsZero ( ) {
return merged , nil
}
for k , v := range overrides . Add {
merged . Add [ k ] = v
}
for k , v := range overrides . Set {
merged . Set [ k ] = v
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}
// Deduplicate removes.
removed := make ( map [ string ] struct { } )
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for _ , k := range merged . Remove {
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removed [ k ] = struct { } { }
}
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for _ , k := range overrides . Remove {
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if _ , ok := removed [ k ] ; ! ok {
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merged . Remove = append ( merged . Remove , k )
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}
}
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return merged , nil
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}