mirror of https://github.com/hashicorp/consul
1249 lines
44 KiB
Go
1249 lines
44 KiB
Go
// Copyright (c) HashiCorp, Inc.
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// SPDX-License-Identifier: BUSL-1.1
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package proxycfg
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import (
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"context"
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"fmt"
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"sort"
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"strings"
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"github.com/hashicorp/consul/acl"
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"github.com/hashicorp/consul/agent/connect"
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"github.com/hashicorp/consul/agent/consul/discoverychain"
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"github.com/hashicorp/consul/agent/proxycfg/internal/watch"
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"github.com/hashicorp/consul/agent/structs"
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"github.com/hashicorp/consul/agent/xds/config"
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"github.com/hashicorp/consul/lib"
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"github.com/hashicorp/consul/proto/private/pbpeering"
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"github.com/hashicorp/go-hclog"
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)
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// TODO(ingress): Can we think of a better for this bag of data?
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// A shared data structure that contains information about discovered upstreams
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type ConfigSnapshotUpstreams struct {
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Leaf *structs.IssuedCert
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MeshConfig *structs.MeshConfigEntry
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MeshConfigSet bool
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// DiscoveryChain is a map of UpstreamID -> CompiledDiscoveryChain's, and
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// is used to determine what services could be targeted by this upstream.
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// We then instantiate watches for those targets.
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DiscoveryChain map[UpstreamID]*structs.CompiledDiscoveryChain
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// WatchedDiscoveryChains is a map of UpstreamID -> CancelFunc's
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// in order to cancel any watches when the proxy's configuration is
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// changed. Ingress gateways and transparent proxies need this because
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// discovery chain watches are added and removed through the lifecycle
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// of a single proxycfg state instance.
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WatchedDiscoveryChains map[UpstreamID]context.CancelFunc
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// WatchedUpstreams is a map of UpstreamID -> (map of TargetID ->
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// CancelFunc's) in order to cancel any watches when the configuration is
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// changed.
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WatchedUpstreams map[UpstreamID]map[string]context.CancelFunc
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// WatchedUpstreamEndpoints is a map of UpstreamID -> (map of
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// TargetID -> CheckServiceNodes) and is used to determine the backing
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// endpoints of an upstream.
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WatchedUpstreamEndpoints map[UpstreamID]map[string]structs.CheckServiceNodes
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// UpstreamPeerTrustBundles is a map of (PeerName -> PeeringTrustBundle).
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// It is used to store trust bundles for upstream TLS transport sockets.
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UpstreamPeerTrustBundles watch.Map[PeerName, *pbpeering.PeeringTrustBundle]
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// WatchedGateways is a map of UpstreamID -> (map of GatewayKey.String() ->
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// CancelFunc) in order to cancel watches for mesh gateways
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WatchedGateways map[UpstreamID]map[string]context.CancelFunc
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// WatchedGatewayEndpoints is a map of UpstreamID -> (map of
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// GatewayKey.String() -> CheckServiceNodes) and is used to determine the
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// backing endpoints of a mesh gateway.
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WatchedGatewayEndpoints map[UpstreamID]map[string]structs.CheckServiceNodes
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// WatchedLocalGWEndpoints is used to store the backing endpoints of
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// a local mesh gateway. Currently, this is used by peered upstreams
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// configured with local mesh gateway mode so that they can watch for
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// gateway endpoints.
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//
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// Note that the string form of GatewayKey is used as the key so empty
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// fields can be normalized in CE.
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// GatewayKey.String() -> structs.CheckServiceNodes
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WatchedLocalGWEndpoints watch.Map[string, structs.CheckServiceNodes]
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// UpstreamConfig is a map to an upstream's configuration.
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UpstreamConfig map[UpstreamID]*structs.Upstream
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// PassthroughEndpoints is a map of: UpstreamID -> (map of TargetID ->
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// (set of IP addresses)). It contains the upstream endpoints that
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// can be dialed directly by a transparent proxy.
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PassthroughUpstreams map[UpstreamID]map[string]map[string]struct{}
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// PassthroughIndices is a map of: address -> indexedTarget.
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// It is used to track the modify index associated with a passthrough address.
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// Tracking this index helps break ties when a single address is shared by
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// more than one upstream due to a race.
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PassthroughIndices map[string]indexedTarget
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// IntentionUpstreams is a set of upstreams inferred from intentions.
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//
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// This list only applies to proxies registered in 'transparent' mode.
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IntentionUpstreams map[UpstreamID]struct{}
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// PeeredUpstreams is a set of all upstream targets in a local partition.
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//
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// This list only applies to proxies registered in 'transparent' mode.
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PeeredUpstreams map[UpstreamID]struct{}
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// PeerUpstreamEndpoints is a map of UpstreamID -> (set of IP addresses)
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// and used to determine the backing endpoints of an upstream in another
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// peer.
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PeerUpstreamEndpoints watch.Map[UpstreamID, structs.CheckServiceNodes]
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PeerUpstreamEndpointsUseHostnames map[UpstreamID]struct{}
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}
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// indexedTarget is used to associate the Raft modify index of a resource
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// with the corresponding upstream target.
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type indexedTarget struct {
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upstreamID UpstreamID
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targetID string
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idx uint64
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}
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type GatewayKey struct {
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Datacenter string
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Partition string
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}
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func (k GatewayKey) String() string {
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resp := k.Datacenter
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if !acl.IsDefaultPartition(k.Partition) {
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resp = k.Partition + "." + resp
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}
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return resp
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}
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func (k GatewayKey) IsEmpty() bool {
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return k.Partition == "" && k.Datacenter == ""
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}
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func (k GatewayKey) Matches(dc, partition string) bool {
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return acl.EqualPartitions(k.Partition, partition) && k.Datacenter == dc
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}
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func gatewayKeyFromString(s string) GatewayKey {
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split := strings.SplitN(s, ".", 2)
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if len(split) == 1 {
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return GatewayKey{Datacenter: split[0], Partition: acl.DefaultPartitionName}
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}
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return GatewayKey{Partition: split[0], Datacenter: split[1]}
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}
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type configSnapshotConnectProxy struct {
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ConfigSnapshotUpstreams
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InboundPeerTrustBundlesSet bool
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InboundPeerTrustBundles []*pbpeering.PeeringTrustBundle
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WatchedServiceChecks map[structs.ServiceID][]structs.CheckType // TODO: missing garbage collection
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PreparedQueryEndpoints map[UpstreamID]structs.CheckServiceNodes // DEPRECATED:see:WatchedUpstreamEndpoints
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// NOTE: Intentions stores a list of lists as returned by the Intentions
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// Match RPC. So far we only use the first list as the list of matching
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// intentions.
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Intentions structs.SimplifiedIntentions
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IntentionsSet bool
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DestinationsUpstream watch.Map[UpstreamID, *structs.ServiceConfigEntry]
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DestinationGateways watch.Map[UpstreamID, structs.CheckServiceNodes]
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}
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// isEmpty is a test helper
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func (c *configSnapshotConnectProxy) isEmpty() bool {
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if c == nil {
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return true
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}
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return c.Leaf == nil &&
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!c.IntentionsSet &&
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len(c.DiscoveryChain) == 0 &&
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len(c.WatchedDiscoveryChains) == 0 &&
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len(c.WatchedUpstreams) == 0 &&
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len(c.WatchedUpstreamEndpoints) == 0 &&
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c.UpstreamPeerTrustBundles.Len() == 0 &&
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len(c.WatchedGateways) == 0 &&
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len(c.WatchedGatewayEndpoints) == 0 &&
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len(c.WatchedServiceChecks) == 0 &&
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len(c.PreparedQueryEndpoints) == 0 &&
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len(c.UpstreamConfig) == 0 &&
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len(c.PassthroughUpstreams) == 0 &&
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len(c.IntentionUpstreams) == 0 &&
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c.DestinationGateways.Len() == 0 &&
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c.DestinationsUpstream.Len() == 0 &&
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len(c.PeeredUpstreams) == 0 &&
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!c.InboundPeerTrustBundlesSet &&
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!c.MeshConfigSet &&
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c.PeerUpstreamEndpoints.Len() == 0 &&
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len(c.PeerUpstreamEndpointsUseHostnames) == 0
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}
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func (c *configSnapshotConnectProxy) IsImplicitUpstream(uid UpstreamID) bool {
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_, intentionImplicit := c.IntentionUpstreams[uid]
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_, peeringImplicit := c.PeeredUpstreams[uid]
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return intentionImplicit || peeringImplicit
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}
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func (c *configSnapshotConnectProxy) GetUpstream(uid UpstreamID, entMeta *acl.EnterpriseMeta) (*structs.Upstream, bool) {
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upstream, found := c.UpstreamConfig[uid]
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// We should fallback to the wildcard defaults generated from service-defaults + proxy-defaults
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// whenever we don't find the upstream config.
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if !found {
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wildcardUID := NewWildcardUID(entMeta)
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upstream = c.UpstreamConfig[wildcardUID]
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}
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explicit := upstream != nil && upstream.HasLocalPortOrSocket()
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implicit := c.IsImplicitUpstream(uid)
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return upstream, !implicit && !explicit
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}
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type configSnapshotTerminatingGateway struct {
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MeshConfig *structs.MeshConfigEntry
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MeshConfigSet bool
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// WatchedServices is a map of service name to a cancel function. This cancel
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// function is tied to the watch of linked service instances for the given
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// id. If the linked services watch would indicate the removal of
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// a service altogether we then cancel watching that service for its endpoints.
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WatchedServices map[structs.ServiceName]context.CancelFunc
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// WatchedIntentions is a map of service name to a cancel function.
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// This cancel function is tied to the watch of intentions for linked services.
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// As with WatchedServices, intention watches will be cancelled when services
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// are no longer linked to the gateway.
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WatchedIntentions map[structs.ServiceName]context.CancelFunc
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// NOTE: Intentions stores a map of list of lists as returned by the Intentions
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// Match RPC. So far we only use the first list as the list of matching
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// intentions.
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//
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// A key being present implies that we have gotten at least one watch reply for the
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// service. This is logically the same as ConnectProxy.IntentionsSet==true
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Intentions map[structs.ServiceName]structs.SimplifiedIntentions
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// WatchedLeaves is a map of ServiceName to a cancel function.
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// This cancel function is tied to the watch of leaf certs for linked services.
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// As with WatchedServices, leaf watches will be cancelled when services
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// are no longer linked to the gateway.
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WatchedLeaves map[structs.ServiceName]context.CancelFunc
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// ServiceLeaves is a map of ServiceName to a leaf cert.
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// Terminating gateways will present different certificates depending
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// on the service that the caller is trying to reach.
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ServiceLeaves map[structs.ServiceName]*structs.IssuedCert
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// WatchedConfigs is a map of ServiceName to a cancel function. This cancel
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// function is tied to the watch of service configs for linked services. As
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// with WatchedServices, service config watches will be cancelled when
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// services are no longer linked to the gateway.
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WatchedConfigs map[structs.ServiceName]context.CancelFunc
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// ServiceConfigs is a map of service name to the resolved service config
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// for that service.
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ServiceConfigs map[structs.ServiceName]*structs.ServiceConfigResponse
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// WatchedResolvers is a map of ServiceName to a cancel function.
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// This cancel function is tied to the watch of resolvers for linked services.
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// As with WatchedServices, resolver watches will be cancelled when services
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// are no longer linked to the gateway.
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WatchedResolvers map[structs.ServiceName]context.CancelFunc
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// ServiceResolvers is a map of service name to an associated
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// service-resolver config entry for that service.
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ServiceResolvers map[structs.ServiceName]*structs.ServiceResolverConfigEntry
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ServiceResolversSet map[structs.ServiceName]bool
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// ServiceGroups is a map of service name to the service instances of that
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// service in the local datacenter.
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ServiceGroups map[structs.ServiceName]structs.CheckServiceNodes
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// GatewayServices is a map of service name to the config entry association
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// between the gateway and a service. TLS configuration stored here is
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// used for TLS origination from the gateway to the linked service.
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// This map does not include GatewayServices that represent Endpoints to external
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// destinations.
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GatewayServices map[structs.ServiceName]structs.GatewayService
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// DestinationServices is a map of service name to GatewayServices that represent
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// a destination to an external destination of the service mesh.
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DestinationServices map[structs.ServiceName]structs.GatewayService
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// HostnameServices is a map of service name to service instances with a hostname as the address.
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// If hostnames are configured they must be provided to Envoy via CDS not EDS.
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HostnameServices map[structs.ServiceName]structs.CheckServiceNodes
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// WatchedInboundPeerTrustBundles is a map of service name to a cancel function. This cancel
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// function is tied to the watch of the inbound peer trust bundles for the gateway.
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WatchedInboundPeerTrustBundles map[structs.ServiceName]context.CancelFunc
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// InboundPeerTrustBundles is a map of service name to a list of peering trust bundles.
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// These bundles are used to configure RBAC policies for inbound filter chains on the gateway
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// from services that are in a cluster-peered datacenter.
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InboundPeerTrustBundles map[structs.ServiceName][]*pbpeering.PeeringTrustBundle
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}
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// ValidServices returns the list of service keys that have enough data to be emitted.
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func (c *configSnapshotTerminatingGateway) ValidServices() []structs.ServiceName {
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out := make([]structs.ServiceName, 0, len(c.ServiceGroups))
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for svc := range c.ServiceGroups {
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// It only counts if ALL of our watches have come back (with data or not).
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// Skip the service if we don't know if there is a resolver or not.
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if _, ok := c.ServiceResolversSet[svc]; !ok {
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continue
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}
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// Skip the service if we don't have a cert to present for mTLS.
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if cert, ok := c.ServiceLeaves[svc]; !ok || cert == nil {
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continue
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}
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// Skip the service if we haven't gotten our intentions yet.
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if _, intentionsSet := c.Intentions[svc]; !intentionsSet {
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continue
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}
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// Skip the service if we haven't gotten our service config yet to know
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// the protocol.
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if _, ok := c.ServiceConfigs[svc]; !ok {
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continue
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}
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out = append(out, svc)
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}
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return out
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}
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// ValidDestinations returns the list of service keys (that represent exclusively endpoints) that have enough data to be emitted.
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func (c *configSnapshotTerminatingGateway) ValidDestinations() []structs.ServiceName {
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out := make([]structs.ServiceName, 0, len(c.DestinationServices))
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for svc := range c.DestinationServices {
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// It only counts if ALL of our watches have come back (with data or not).
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// Skip the service if we don't have a cert to present for mTLS.
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if cert, ok := c.ServiceLeaves[svc]; !ok || cert == nil {
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continue
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}
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// Skip the service if we haven't gotten our intentions yet.
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if _, intentionsSet := c.Intentions[svc]; !intentionsSet {
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continue
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}
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// Skip the service if we haven't gotten our service config yet to know
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// the protocol.
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if conf, ok := c.ServiceConfigs[svc]; !ok || len(conf.Destination.Addresses) == 0 {
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continue
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}
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out = append(out, svc)
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}
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return out
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}
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// isEmpty is a test helper
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func (c *configSnapshotTerminatingGateway) isEmpty() bool {
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if c == nil {
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return true
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}
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return len(c.ServiceLeaves) == 0 &&
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len(c.WatchedLeaves) == 0 &&
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len(c.WatchedIntentions) == 0 &&
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len(c.Intentions) == 0 &&
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len(c.ServiceGroups) == 0 &&
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len(c.WatchedServices) == 0 &&
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len(c.ServiceResolvers) == 0 &&
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len(c.ServiceResolversSet) == 0 &&
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len(c.WatchedResolvers) == 0 &&
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len(c.ServiceConfigs) == 0 &&
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len(c.WatchedConfigs) == 0 &&
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len(c.GatewayServices) == 0 &&
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len(c.DestinationServices) == 0 &&
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len(c.HostnameServices) == 0 &&
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!c.MeshConfigSet
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}
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type PeerServersValue struct {
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Addresses []structs.ServiceAddress
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Index uint64
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UseCDS bool
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}
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type PeeringServiceValue struct {
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Nodes structs.CheckServiceNodes
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UseCDS bool
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}
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type configSnapshotMeshGateway struct {
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// WatchedServices is a map of service name to a cancel function. This cancel
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// function is tied to the watch of connect enabled services for the given
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// id. If the main datacenter services watch would indicate the removal of
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// a service altogether we then cancel watching that service for its
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// connect endpoints.
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WatchedServices map[structs.ServiceName]context.CancelFunc
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// WatchedServicesSet indicates that the watch on the datacenters services
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// has completed. Even when there are no connect services, this being set
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// (and the Connect roots being available) will be enough for the config
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// snapshot to be considered valid. In the case of Envoy, this allows it to
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// start its listeners even when no services would be proxied and allow its
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// health check to pass.
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WatchedServicesSet bool
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// WatchedGateways is a map of GatewayKeys to a cancel function.
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// This cancel function is tied to the watch of mesh-gateway services in
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// that datacenter/partition.
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WatchedGateways map[string]context.CancelFunc
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// ServiceGroups is a map of service name to the service instances of that
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// service in the local datacenter.
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ServiceGroups map[structs.ServiceName]structs.CheckServiceNodes
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// PeeringServices is a map of peer name -> (map of
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// service name -> CheckServiceNodes) and is used to determine the backing
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// endpoints of a service on a peer.
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PeeringServices map[string]map[structs.ServiceName]PeeringServiceValue
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// WatchedPeeringServices is a map of peer name -> (map of service name ->
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// cancel function) and is used to track watches on services within a peer.
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WatchedPeeringServices map[string]map[structs.ServiceName]context.CancelFunc
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// WatchedPeers is a map of peer name -> cancel functions. It is used to
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// track watches on peers.
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WatchedPeers map[string]context.CancelFunc
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// ServiceResolvers is a map of service name to an associated
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// service-resolver config entry for that service.
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ServiceResolvers map[structs.ServiceName]*structs.ServiceResolverConfigEntry
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// GatewayGroups is a map of datacenter names to services of kind
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// mesh-gateway in that datacenter.
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GatewayGroups map[string]structs.CheckServiceNodes
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// FedStateGateways is a map of datacenter names to mesh gateways in that
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// datacenter.
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FedStateGateways map[string]structs.CheckServiceNodes
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// WatchedLocalServers is a map of (structs.ConsulServiceName -> structs.CheckServiceNodes)`
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// Mesh gateways can spin up watches for local servers both for
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// WAN federation and for peering. This map ensures we only have one
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// watch at a time.
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WatchedLocalServers watch.Map[string, structs.CheckServiceNodes]
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// HostnameDatacenters is a map of datacenters to mesh gateway instances with a hostname as the address.
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// If hostnames are configured they must be provided to Envoy via CDS not EDS.
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HostnameDatacenters map[string]structs.CheckServiceNodes
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// ExportedServicesSlice is a sorted slice of services that are exported to
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// connected peers.
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ExportedServicesSlice []structs.ServiceName
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// ExportedServicesWithPeers is a map of exported service name to a sorted
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// slice of peers that they are exported to.
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ExportedServicesWithPeers map[structs.ServiceName][]string
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// ExportedServicesSet indicates that the watch on the list of
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// peer-exported services has completed at least once.
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ExportedServicesSet bool
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// DiscoveryChain is a map of the peer-exported service names to their
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// local compiled discovery chain. This will be populated regardless of
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// L4/L7 status of the chain.
|
|
DiscoveryChain map[structs.ServiceName]*structs.CompiledDiscoveryChain
|
|
|
|
// WatchedDiscoveryChains is a map of peer-exported service names to a
|
|
// cancel function.
|
|
WatchedDiscoveryChains map[structs.ServiceName]context.CancelFunc
|
|
|
|
// MeshConfig is the mesh config entry that should be used for services
|
|
// fronted by this mesh gateway.
|
|
MeshConfig *structs.MeshConfigEntry
|
|
|
|
// MeshConfigSet indicates that the watch on the mesh config entry has
|
|
// completed at least once.
|
|
MeshConfigSet bool
|
|
|
|
// Leaf is the leaf cert to be used by this mesh gateway.
|
|
Leaf *structs.IssuedCert
|
|
|
|
// LeafCertWatchCancel is a CancelFunc to use when refreshing this gateway's
|
|
// leaf cert watch with different parameters.
|
|
LeafCertWatchCancel context.CancelFunc
|
|
|
|
// PeerServers is the map of peering server names to their addresses.
|
|
PeerServers map[string]PeerServersValue
|
|
|
|
// PeerServersWatchCancel is a CancelFunc to use when resetting the watch
|
|
// on all peerings as it is enabled/disabled.
|
|
PeerServersWatchCancel context.CancelFunc
|
|
|
|
// PeeringTrustBundles is the list of trust bundles for peers where
|
|
// services have been exported to using this mesh gateway.
|
|
PeeringTrustBundles []*pbpeering.PeeringTrustBundle
|
|
|
|
// PeeringTrustBundlesSet indicates that the watch on the peer trust
|
|
// bundles has completed at least once.
|
|
PeeringTrustBundlesSet bool
|
|
}
|
|
|
|
// MeshGatewayValidExportedServices ensures that the following data is present
|
|
// if it exists for a service before it returns that in the set of services to
|
|
// expose.
|
|
//
|
|
// - peering info
|
|
// - discovery chain
|
|
func (c *ConfigSnapshot) MeshGatewayValidExportedServices() []structs.ServiceName {
|
|
out := make([]structs.ServiceName, 0, len(c.MeshGateway.ExportedServicesSlice))
|
|
for _, svc := range c.MeshGateway.ExportedServicesSlice {
|
|
if _, ok := c.MeshGateway.ExportedServicesWithPeers[svc]; !ok {
|
|
continue // not possible
|
|
}
|
|
|
|
if _, ok := c.MeshGateway.ServiceGroups[svc]; !ok {
|
|
continue // unregistered services
|
|
}
|
|
|
|
chain, ok := c.MeshGateway.DiscoveryChain[svc]
|
|
if !ok {
|
|
continue // ignore; not ready
|
|
}
|
|
|
|
if structs.IsProtocolHTTPLike(chain.Protocol) {
|
|
if c.MeshGateway.Leaf == nil {
|
|
continue // ignore; not ready
|
|
}
|
|
}
|
|
out = append(out, svc)
|
|
}
|
|
return out
|
|
}
|
|
|
|
func (c *ConfigSnapshot) GetMeshGatewayEndpoints(key GatewayKey) structs.CheckServiceNodes {
|
|
// Mesh gateways in remote DCs are discovered in two ways:
|
|
//
|
|
// 1. Via an Internal.ServiceDump RPC in the remote DC (GatewayGroups).
|
|
// 2. In the federation state that is replicated from the primary DC (FedStateGateways).
|
|
//
|
|
// We determine which set to use based on whichever contains the highest
|
|
// raft ModifyIndex (and is therefore most up-to-date).
|
|
//
|
|
// Previously, GatewayGroups was always given presedence over FedStateGateways
|
|
// but this was problematic when using mesh gateways for WAN federation.
|
|
//
|
|
// Consider the following example:
|
|
//
|
|
// - Primary and Secondary DCs are WAN Federated via local mesh gateways.
|
|
//
|
|
// - Secondary DC's mesh gateway is running on an ephemeral compute instance
|
|
// and is abruptly terminated and rescheduled with a *new IP address*.
|
|
//
|
|
// - Primary DC's mesh gateway is no longer able to connect to the Secondary
|
|
// DC as its proxy is configured with the old IP address. Therefore any RPC
|
|
// from the Primary to the Secondary DC will fail (including the one to
|
|
// discover the gateway's new IP address).
|
|
//
|
|
// - Secondary DC performs its regular anti-entropy of federation state data
|
|
// to the Primary DC (this succeeds as there is still connectivity in this
|
|
// direction).
|
|
//
|
|
// - At this point the Primary DC's mesh gateway should observe the new IP
|
|
// address and reconfigure its proxy, however as we always prioritised
|
|
// GatewayGroups this didn't happen and the connection remained severed.
|
|
maxModifyIndex := func(vals structs.CheckServiceNodes) uint64 {
|
|
var max uint64
|
|
for _, v := range vals {
|
|
if i := v.Service.RaftIndex.ModifyIndex; i > max {
|
|
max = i
|
|
}
|
|
}
|
|
return max
|
|
}
|
|
|
|
endpoints := c.MeshGateway.GatewayGroups[key.String()]
|
|
fedStateEndpoints := c.MeshGateway.FedStateGateways[key.String()]
|
|
|
|
if maxModifyIndex(fedStateEndpoints) > maxModifyIndex(endpoints) {
|
|
return fedStateEndpoints
|
|
}
|
|
return endpoints
|
|
}
|
|
|
|
func (c *configSnapshotMeshGateway) IsServiceExported(svc structs.ServiceName) bool {
|
|
if c == nil || len(c.ExportedServicesWithPeers) == 0 {
|
|
return false
|
|
}
|
|
|
|
_, ok := c.ExportedServicesWithPeers[svc]
|
|
return ok
|
|
}
|
|
|
|
func (c *configSnapshotMeshGateway) GatewayKeys() []GatewayKey {
|
|
sz1, sz2 := len(c.GatewayGroups), len(c.FedStateGateways)
|
|
|
|
sz := sz1
|
|
if sz2 > sz1 {
|
|
sz = sz2
|
|
}
|
|
|
|
keys := make([]GatewayKey, 0, sz)
|
|
for key := range c.FedStateGateways {
|
|
keys = append(keys, gatewayKeyFromString(key))
|
|
}
|
|
for key := range c.GatewayGroups {
|
|
gk := gatewayKeyFromString(key)
|
|
if _, ok := c.FedStateGateways[gk.Datacenter]; !ok {
|
|
keys = append(keys, gk)
|
|
}
|
|
}
|
|
|
|
// Always sort the results to ensure we generate deterministic things over
|
|
// xDS, such as mesh-gateway listener filter chains.
|
|
sort.Slice(keys, func(i, j int) bool {
|
|
if keys[i].Datacenter != keys[j].Datacenter {
|
|
return keys[i].Datacenter < keys[j].Datacenter
|
|
}
|
|
return keys[i].Partition < keys[j].Partition
|
|
})
|
|
return keys
|
|
}
|
|
|
|
// isEmpty is a test helper
|
|
func (c *configSnapshotMeshGateway) isEmpty() bool {
|
|
if c == nil {
|
|
return true
|
|
}
|
|
return len(c.WatchedServices) == 0 &&
|
|
!c.WatchedServicesSet &&
|
|
len(c.WatchedGateways) == 0 &&
|
|
len(c.ServiceGroups) == 0 &&
|
|
len(c.ServiceResolvers) == 0 &&
|
|
len(c.GatewayGroups) == 0 &&
|
|
len(c.FedStateGateways) == 0 &&
|
|
len(c.HostnameDatacenters) == 0 &&
|
|
c.WatchedLocalServers.Len() == 0 &&
|
|
c.isEmptyPeering()
|
|
}
|
|
|
|
// isEmptyPeering is a test helper
|
|
func (c *configSnapshotMeshGateway) isEmptyPeering() bool {
|
|
if c == nil {
|
|
return true
|
|
}
|
|
|
|
return len(c.ExportedServicesSlice) == 0 &&
|
|
len(c.ExportedServicesWithPeers) == 0 &&
|
|
!c.ExportedServicesSet &&
|
|
len(c.DiscoveryChain) == 0 &&
|
|
len(c.WatchedDiscoveryChains) == 0 &&
|
|
!c.MeshConfigSet &&
|
|
c.LeafCertWatchCancel == nil &&
|
|
c.Leaf == nil &&
|
|
len(c.PeeringTrustBundles) == 0 &&
|
|
!c.PeeringTrustBundlesSet
|
|
}
|
|
|
|
type upstreamIDSet map[UpstreamID]struct{}
|
|
|
|
func (u upstreamIDSet) add(uid UpstreamID) {
|
|
u[uid] = struct{}{}
|
|
}
|
|
|
|
type routeUpstreamSet map[structs.ResourceReference]upstreamIDSet
|
|
|
|
func (r routeUpstreamSet) hasUpstream(uid UpstreamID) bool {
|
|
for _, set := range r {
|
|
if _, ok := set[uid]; ok {
|
|
return true
|
|
}
|
|
}
|
|
return false
|
|
}
|
|
|
|
func (r routeUpstreamSet) set(route structs.ResourceReference, set upstreamIDSet) {
|
|
r[route] = set
|
|
}
|
|
|
|
func (r routeUpstreamSet) delete(route structs.ResourceReference) {
|
|
delete(r, route)
|
|
}
|
|
|
|
type (
|
|
listenerUpstreamMap map[APIGatewayListenerKey]structs.Upstreams
|
|
listenerRouteUpstreams map[structs.ResourceReference]listenerUpstreamMap
|
|
)
|
|
|
|
func (l listenerRouteUpstreams) set(route structs.ResourceReference, listener APIGatewayListenerKey, upstreams structs.Upstreams) {
|
|
if _, ok := l[route]; !ok {
|
|
l[route] = make(listenerUpstreamMap)
|
|
}
|
|
l[route][listener] = upstreams
|
|
}
|
|
|
|
func (l listenerRouteUpstreams) delete(route structs.ResourceReference) {
|
|
delete(l, route)
|
|
}
|
|
|
|
func (l listenerRouteUpstreams) toUpstreams() map[IngressListenerKey]structs.Upstreams {
|
|
listeners := make(map[IngressListenerKey]structs.Upstreams, len(l))
|
|
for _, listenerMap := range l {
|
|
for listener, set := range listenerMap {
|
|
listeners[listener] = append(listeners[listener], set...)
|
|
}
|
|
}
|
|
return listeners
|
|
}
|
|
|
|
type configSnapshotAPIGateway struct {
|
|
ConfigSnapshotUpstreams
|
|
|
|
TLSConfig structs.GatewayTLSConfig
|
|
|
|
// GatewayConfigLoaded is used to determine if we have received the initial
|
|
// api-gateway config entry yet.
|
|
GatewayConfigLoaded bool
|
|
GatewayConfig *structs.APIGatewayConfigEntry
|
|
|
|
// BoundGatewayConfigLoaded is used to determine if we have received the initial
|
|
// bound-api-gateway config entry yet.
|
|
BoundGatewayConfigLoaded bool
|
|
BoundGatewayConfig *structs.BoundAPIGatewayConfigEntry
|
|
|
|
// LeafCertWatchCancel is a CancelFunc to use when refreshing this gateway's
|
|
// leaf cert watch with different parameters.
|
|
// LeafCertWatchCancel context.CancelFunc
|
|
|
|
// Upstreams is a list of upstreams this ingress gateway should serve traffic
|
|
// to. This is constructed from the ingress-gateway config entry, and uses
|
|
// the GatewayServices RPC to retrieve them.
|
|
// TODO Determine if this is updated "for free" or not. If not, we might need
|
|
// to do some work to populate it in handlerAPIGateway
|
|
Upstreams listenerRouteUpstreams
|
|
|
|
// UpstreamsSet is the unique set of UpstreamID the gateway routes to.
|
|
UpstreamsSet routeUpstreamSet
|
|
|
|
HTTPRoutes watch.Map[structs.ResourceReference, *structs.HTTPRouteConfigEntry]
|
|
TCPRoutes watch.Map[structs.ResourceReference, *structs.TCPRouteConfigEntry]
|
|
Certificates watch.Map[structs.ResourceReference, *structs.InlineCertificateConfigEntry]
|
|
|
|
// LeafCertWatchCancel is a CancelFunc to use when refreshing this gateway's
|
|
// leaf cert watch with different parameters.
|
|
LeafCertWatchCancel context.CancelFunc
|
|
|
|
// Listeners is the original listener config from the api-gateway config
|
|
// entry to save us trying to pass fields through Upstreams
|
|
Listeners map[string]structs.APIGatewayListener
|
|
|
|
BoundListeners map[string]structs.BoundAPIGatewayListener
|
|
}
|
|
|
|
func (c *configSnapshotAPIGateway) synthesizeChains(datacenter string, listener structs.APIGatewayListener, boundListener structs.BoundAPIGatewayListener) ([]structs.IngressService, structs.Upstreams, []*structs.CompiledDiscoveryChain, error) {
|
|
chains := []*structs.CompiledDiscoveryChain{}
|
|
|
|
// We leverage the test trust domain knowing
|
|
// that the domain will get overridden if
|
|
// there is a target to something other than an
|
|
// external/peered service. If the below
|
|
// code doesn't get a trust domain due to all the
|
|
// targets being external, the chain will
|
|
// have the domain munged anyway during synthesis.
|
|
trustDomain := connect.TestTrustDomain
|
|
|
|
DOMAIN_LOOP:
|
|
for _, chain := range c.DiscoveryChain {
|
|
for _, target := range chain.Targets {
|
|
if !target.External {
|
|
domain := connect.TrustDomainForTarget(*target)
|
|
if domain != "" {
|
|
trustDomain = domain
|
|
break DOMAIN_LOOP
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
synthesizer := discoverychain.NewGatewayChainSynthesizer(datacenter, trustDomain, listener.Name, c.GatewayConfig)
|
|
synthesizer.SetHostname(listener.GetHostname())
|
|
for _, routeRef := range boundListener.Routes {
|
|
switch routeRef.Kind {
|
|
case structs.HTTPRoute:
|
|
route, ok := c.HTTPRoutes.Get(routeRef)
|
|
if !ok || listener.Protocol != structs.ListenerProtocolHTTP {
|
|
continue
|
|
}
|
|
synthesizer.AddHTTPRoute(*route)
|
|
for _, service := range route.GetServices() {
|
|
id := NewUpstreamIDFromServiceName(structs.NewServiceName(service.Name, &service.EnterpriseMeta))
|
|
if chain := c.DiscoveryChain[id]; chain != nil {
|
|
chains = append(chains, chain)
|
|
}
|
|
}
|
|
case structs.TCPRoute:
|
|
route, ok := c.TCPRoutes.Get(routeRef)
|
|
if !ok || listener.Protocol != structs.ListenerProtocolTCP {
|
|
continue
|
|
}
|
|
synthesizer.AddTCPRoute(*route)
|
|
for _, service := range route.GetServices() {
|
|
id := NewUpstreamIDFromServiceName(structs.NewServiceName(service.Name, &service.EnterpriseMeta))
|
|
if chain := c.DiscoveryChain[id]; chain != nil {
|
|
chains = append(chains, chain)
|
|
}
|
|
}
|
|
default:
|
|
return nil, nil, nil, fmt.Errorf("unknown route kind %q", routeRef.Kind)
|
|
}
|
|
}
|
|
|
|
if len(chains) == 0 {
|
|
return nil, nil, nil, nil
|
|
}
|
|
|
|
services, compiled, err := synthesizer.Synthesize(chains...)
|
|
if err != nil {
|
|
return nil, nil, nil, err
|
|
}
|
|
|
|
// reconstruct the upstreams
|
|
upstreams := make([]structs.Upstream, 0, len(services))
|
|
for _, service := range services {
|
|
upstreams = append(upstreams, structs.Upstream{
|
|
DestinationName: service.Name,
|
|
DestinationNamespace: service.NamespaceOrDefault(),
|
|
DestinationPartition: service.PartitionOrDefault(),
|
|
IngressHosts: service.Hosts,
|
|
LocalBindPort: listener.Port,
|
|
Config: map[string]interface{}{
|
|
"protocol": string(listener.Protocol),
|
|
},
|
|
})
|
|
}
|
|
|
|
return services, upstreams, compiled, err
|
|
}
|
|
|
|
// valid tests for two valid api gateway snapshot states:
|
|
// 1. waiting: the watch on api and bound gateway entries is set, but none were received
|
|
// 2. loaded: both the valid config entries AND the leaf certs are set
|
|
func (c *configSnapshotAPIGateway) valid() bool {
|
|
waiting := c.GatewayConfigLoaded && len(c.Upstreams) == 0 && c.BoundGatewayConfigLoaded && c.Leaf == nil
|
|
|
|
// If we have a leaf, it implies we successfully watched parent resources
|
|
loaded := c.GatewayConfigLoaded && c.BoundGatewayConfigLoaded && c.Leaf != nil
|
|
|
|
return waiting || loaded
|
|
}
|
|
|
|
type configSnapshotIngressGateway struct {
|
|
ConfigSnapshotUpstreams
|
|
|
|
// TLSConfig is the gateway-level TLS configuration. Listener/service level
|
|
// config is preserved in the Listeners map below.
|
|
TLSConfig structs.GatewayTLSConfig
|
|
|
|
// GatewayConfigLoaded is used to determine if we have received the initial
|
|
// ingress-gateway config entry yet.
|
|
GatewayConfigLoaded bool
|
|
|
|
// Hosts is the list of extra host entries to add to our leaf cert's DNS SANs.
|
|
Hosts []string
|
|
HostsSet bool
|
|
|
|
// LeafCertWatchCancel is a CancelFunc to use when refreshing this gateway's
|
|
// leaf cert watch with different parameters.
|
|
LeafCertWatchCancel context.CancelFunc
|
|
|
|
// Upstreams is a list of upstreams this ingress gateway should serve traffic
|
|
// to. This is constructed from the ingress-gateway config entry, and uses
|
|
// the GatewayServices RPC to retrieve them.
|
|
Upstreams map[IngressListenerKey]structs.Upstreams
|
|
|
|
// UpstreamsSet is the unique set of UpstreamID the gateway routes to.
|
|
UpstreamsSet map[UpstreamID]struct{}
|
|
|
|
// Listeners is the original listener config from the ingress-gateway config
|
|
// entry to save us trying to pass fields through Upstreams
|
|
Listeners map[IngressListenerKey]structs.IngressListener
|
|
|
|
// Defaults is the default configuration for upstream service instances
|
|
Defaults structs.IngressServiceConfig
|
|
}
|
|
|
|
// isEmpty is a test helper
|
|
func (c *configSnapshotIngressGateway) isEmpty() bool {
|
|
if c == nil {
|
|
return true
|
|
}
|
|
return len(c.Upstreams) == 0 &&
|
|
len(c.UpstreamsSet) == 0 &&
|
|
len(c.DiscoveryChain) == 0 &&
|
|
len(c.WatchedUpstreams) == 0 &&
|
|
len(c.WatchedUpstreamEndpoints) == 0 &&
|
|
!c.MeshConfigSet
|
|
}
|
|
|
|
// valid tests for two valid ingress snapshot states:
|
|
// 1. waiting: the watch on ingress config entries is set, but none were received
|
|
// 2. loaded: both the ingress config entry AND the leaf cert are set
|
|
func (c *configSnapshotIngressGateway) valid() bool {
|
|
waiting := c.GatewayConfigLoaded && len(c.Upstreams) == 0 && c.Leaf == nil
|
|
|
|
// If we have a leaf, it implies we successfully watched parent resources
|
|
loaded := c.GatewayConfigLoaded && c.Leaf != nil
|
|
|
|
return waiting || loaded
|
|
}
|
|
|
|
type APIGatewayListenerKey = IngressListenerKey
|
|
|
|
func APIGatewayListenerKeyFromListener(l structs.APIGatewayListener) APIGatewayListenerKey {
|
|
return APIGatewayListenerKey{Protocol: string(l.Protocol), Port: l.Port}
|
|
}
|
|
|
|
type IngressListenerKey struct {
|
|
Protocol string
|
|
Port int
|
|
}
|
|
|
|
func (k *IngressListenerKey) RouteName() string {
|
|
return fmt.Sprintf("%d", k.Port)
|
|
}
|
|
|
|
func IngressListenerKeyFromGWService(s structs.GatewayService) IngressListenerKey {
|
|
return IngressListenerKey{Protocol: s.Protocol, Port: s.Port}
|
|
}
|
|
|
|
func IngressListenerKeyFromListener(l structs.IngressListener) IngressListenerKey {
|
|
return IngressListenerKey{Protocol: l.Protocol, Port: l.Port}
|
|
}
|
|
|
|
// ConfigSnapshot captures all the resulting config needed for a proxy instance.
|
|
// It is meant to be point-in-time coherent and is used to deliver the current
|
|
// config state to observers who need it to be pushed in (e.g. XDS server).
|
|
type ConfigSnapshot struct {
|
|
Kind structs.ServiceKind
|
|
Service string
|
|
ServiceLocality *structs.Locality
|
|
ProxyID ProxyID
|
|
Address string
|
|
Port int
|
|
ServiceMeta map[string]string
|
|
TaggedAddresses map[string]structs.ServiceAddress
|
|
Proxy structs.ConnectProxyConfig
|
|
Datacenter string
|
|
IntentionDefaultAllow bool
|
|
Locality GatewayKey
|
|
JWTProviders map[string]*structs.JWTProviderConfigEntry
|
|
|
|
ServerSNIFn ServerSNIFunc
|
|
Roots *structs.IndexedCARoots
|
|
|
|
// connect-proxy specific
|
|
ConnectProxy configSnapshotConnectProxy
|
|
|
|
// terminating-gateway specific
|
|
TerminatingGateway configSnapshotTerminatingGateway
|
|
|
|
// mesh-gateway specific
|
|
MeshGateway configSnapshotMeshGateway
|
|
|
|
// ingress-gateway specific
|
|
IngressGateway configSnapshotIngressGateway
|
|
|
|
// api-gateway specific
|
|
APIGateway configSnapshotAPIGateway
|
|
|
|
// computedFields exists as a place to store relatively expensive
|
|
// computed data (such as parsed opaque maps) rather than parsing it
|
|
// multiple times during xDS generation. All data in this should be
|
|
// lazy-loaded / memoized when requested.
|
|
computedFields computedFields
|
|
}
|
|
|
|
type computedFields struct {
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xdsCommonConfig *config.XDSCommonConfig
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proxyConfig *config.ProxyConfig
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gatewayConfig *config.GatewayConfig
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}
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// Valid returns whether or not the snapshot has all required fields filled yet.
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func (s *ConfigSnapshot) Valid() bool {
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switch s.Kind {
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case structs.ServiceKindConnectProxy:
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if s.Proxy.Mode == structs.ProxyModeTransparent && !s.ConnectProxy.MeshConfigSet {
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return false
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}
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return s.Roots != nil &&
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s.ConnectProxy.Leaf != nil &&
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s.ConnectProxy.IntentionsSet &&
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s.ConnectProxy.MeshConfigSet
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case structs.ServiceKindTerminatingGateway:
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return s.Roots != nil &&
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s.TerminatingGateway.MeshConfigSet
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case structs.ServiceKindMeshGateway:
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if s.MeshGateway.WatchedLocalServers.Len() == 0 {
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if s.ServiceMeta[structs.MetaWANFederationKey] == "1" {
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return false
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}
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if cfg := s.MeshConfig(); cfg.PeerThroughMeshGateways() {
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return false
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}
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}
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return s.Roots != nil &&
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(s.MeshGateway.WatchedServicesSet || len(s.MeshGateway.ServiceGroups) > 0) &&
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s.MeshGateway.ExportedServicesSet &&
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s.MeshGateway.MeshConfigSet &&
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s.MeshGateway.PeeringTrustBundlesSet
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case structs.ServiceKindIngressGateway:
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return s.Roots != nil &&
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s.IngressGateway.valid() &&
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s.IngressGateway.HostsSet &&
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s.IngressGateway.MeshConfigSet
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case structs.ServiceKindAPIGateway:
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// TODO Is this the proper set of things to validate?
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return s.Roots != nil &&
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s.APIGateway.valid() &&
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s.APIGateway.MeshConfigSet
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default:
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return false
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}
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}
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// Clone makes a deep copy of the snapshot we can send to other goroutines
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// without worrying that they will racily read or mutate shared maps etc.
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func (s *ConfigSnapshot) Clone() *ConfigSnapshot {
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snap := s.DeepCopy()
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snap.computedFields = computedFields{}
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// nil these out as anything receiving one of these clones does not need them and should never "cancel" our watches
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switch s.Kind {
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case structs.ServiceKindConnectProxy:
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// common with connect-proxy and ingress-gateway
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snap.ConnectProxy.WatchedUpstreams = nil
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snap.ConnectProxy.WatchedGateways = nil
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snap.ConnectProxy.WatchedDiscoveryChains = nil
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case structs.ServiceKindTerminatingGateway:
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snap.TerminatingGateway.WatchedServices = nil
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snap.TerminatingGateway.WatchedIntentions = nil
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snap.TerminatingGateway.WatchedLeaves = nil
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snap.TerminatingGateway.WatchedConfigs = nil
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snap.TerminatingGateway.WatchedResolvers = nil
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case structs.ServiceKindMeshGateway:
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snap.MeshGateway.WatchedGateways = nil
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snap.MeshGateway.WatchedServices = nil
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case structs.ServiceKindIngressGateway:
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// common with connect-proxy and ingress-gateway
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snap.IngressGateway.WatchedUpstreams = nil
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snap.IngressGateway.WatchedGateways = nil
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snap.IngressGateway.WatchedDiscoveryChains = nil
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// only ingress-gateway
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snap.IngressGateway.LeafCertWatchCancel = nil
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case structs.ServiceKindAPIGateway:
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// common with connect-proxy and api-gateway
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snap.APIGateway.WatchedUpstreams = nil
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snap.APIGateway.WatchedGateways = nil
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snap.APIGateway.WatchedDiscoveryChains = nil
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// only api-gateway
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// snap.APIGateway.LeafCertWatchCancel = nil
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// snap.APIGateway.
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}
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return snap
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}
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func (s *ConfigSnapshot) Leaf() *structs.IssuedCert {
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switch s.Kind {
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case structs.ServiceKindConnectProxy:
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return s.ConnectProxy.Leaf
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case structs.ServiceKindIngressGateway:
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return s.IngressGateway.Leaf
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case structs.ServiceKindAPIGateway:
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return s.APIGateway.Leaf
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case structs.ServiceKindMeshGateway:
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return s.MeshGateway.Leaf
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default:
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return nil
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}
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}
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func (s *ConfigSnapshot) PeeringTrustBundles() []*pbpeering.PeeringTrustBundle {
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switch s.Kind {
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case structs.ServiceKindConnectProxy:
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return s.ConnectProxy.InboundPeerTrustBundles
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case structs.ServiceKindMeshGateway:
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return s.MeshGateway.PeeringTrustBundles
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default:
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return nil
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}
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}
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// RootPEMs returns all PEM-encoded public certificates for the root CA.
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func (s *ConfigSnapshot) RootPEMs() string {
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var rootPEMs string
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for _, root := range s.Roots.Roots {
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rootPEMs += lib.EnsureTrailingNewline(root.RootCert)
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}
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return rootPEMs
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}
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func (s *ConfigSnapshot) MeshConfig() *structs.MeshConfigEntry {
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switch s.Kind {
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case structs.ServiceKindConnectProxy:
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return s.ConnectProxy.MeshConfig
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case structs.ServiceKindIngressGateway:
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return s.IngressGateway.MeshConfig
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case structs.ServiceKindAPIGateway:
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return s.APIGateway.MeshConfig
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case structs.ServiceKindTerminatingGateway:
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return s.TerminatingGateway.MeshConfig
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case structs.ServiceKindMeshGateway:
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return s.MeshGateway.MeshConfig
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default:
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return nil
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}
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}
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func (s *ConfigSnapshot) MeshConfigTLSIncoming() *structs.MeshDirectionalTLSConfig {
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mesh := s.MeshConfig()
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if mesh == nil || mesh.TLS == nil {
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return nil
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}
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return mesh.TLS.Incoming
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}
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func (s *ConfigSnapshot) MeshConfigTLSOutgoing() *structs.MeshDirectionalTLSConfig {
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mesh := s.MeshConfig()
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if mesh == nil || mesh.TLS == nil {
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return nil
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}
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return mesh.TLS.Outgoing
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}
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func (s *ConfigSnapshot) ToConfigSnapshotUpstreams() (*ConfigSnapshotUpstreams, error) {
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switch s.Kind {
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case structs.ServiceKindConnectProxy:
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return &s.ConnectProxy.ConfigSnapshotUpstreams, nil
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case structs.ServiceKindIngressGateway:
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return &s.IngressGateway.ConfigSnapshotUpstreams, nil
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case structs.ServiceKindAPIGateway:
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return &s.APIGateway.ConfigSnapshotUpstreams, nil
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default:
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// This is a coherence check and should never fail
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return nil, fmt.Errorf("No upstream snapshot for gateway mode %q", s.Kind)
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}
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}
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func (u *ConfigSnapshotUpstreams) UpstreamPeerMeta(uid UpstreamID) (structs.PeeringServiceMeta, bool) {
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nodes, _ := u.PeerUpstreamEndpoints.Get(uid)
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if len(nodes) == 0 {
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return structs.PeeringServiceMeta{}, false
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}
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// In agent/rpc/peering/subscription_manager.go we denormalize the
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// PeeringServiceMeta data onto each replicated service instance to convey
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// this information back to the importing side of the peering.
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//
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// This data is guaranteed (subject to any eventual consistency lag around
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// updates) to be the same across all instances, so we only need to take
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// the first item.
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//
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// TODO(peering): consider replicating this "common to all instances" data
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// using a different replication type and persist it separately in the
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// catalog to avoid this weird construction.
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csn := nodes[0]
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if csn.Service == nil {
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return structs.PeeringServiceMeta{}, false
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}
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return *csn.Service.Connect.PeerMeta, true
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}
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// PeeredUpstreamIDs returns a slice of peered UpstreamIDs from explicit config entries
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// and implicit imported services.
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// Upstreams whose trust bundles have not been stored in the snapshot are ignored.
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func (u *ConfigSnapshotUpstreams) PeeredUpstreamIDs() []UpstreamID {
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out := make([]UpstreamID, 0, u.PeerUpstreamEndpoints.Len())
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u.PeerUpstreamEndpoints.ForEachKey(func(uid UpstreamID) bool {
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if _, ok := u.PeerUpstreamEndpoints.Get(uid); !ok {
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// uid might exist in the map but if Set hasn't been called, skip for now.
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return true
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}
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if _, ok := u.UpstreamPeerTrustBundles.Get(uid.Peer); !ok {
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// The trust bundle for this upstream is not available yet, skip for now.
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return true
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}
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out = append(out, uid)
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return true
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})
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return out
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}
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// GetXDSCommonConfig attempts to parse and return the xds config from the config snapshot.
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// Subsequent calls to this function will return the temporary cached value to reduce
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// cost of parsing. This function always returns a non-nil pointer to a config.
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// Any errors will be output to the logger during the initial parse time only.
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func (s *ConfigSnapshot) GetXDSCommonConfig(logger hclog.Logger) *config.XDSCommonConfig {
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if s.computedFields.xdsCommonConfig == nil {
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cfg, err := config.ParseXDSCommonConfig(s.Proxy.Config)
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s.computedFields.xdsCommonConfig = &cfg
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if err != nil {
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// Don't hard fail on a config typo, just warn. The parse func returns
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// default config if there is an error so it's safe to continue.
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logger.Warn("failed to parse Connect.Proxy.Config", "error", err)
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}
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}
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return s.computedFields.xdsCommonConfig
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}
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// GetProxyConfig attempts to parse and return the proxy config from the config snapshot.
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// Subsequent calls to this function will return the temporary cached value to reduce
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// cost of parsing. This function always returns a non-nil pointer to a config.
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// Any errors will be output to the logger during the initial parse time only.
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func (s *ConfigSnapshot) GetProxyConfig(logger hclog.Logger) *config.ProxyConfig {
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if s.computedFields.proxyConfig == nil {
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cfg, err := config.ParseProxyConfig(s.Proxy.Config)
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s.computedFields.proxyConfig = &cfg
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if err != nil {
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// Don't hard fail on a config typo, just warn. The parse func returns
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// default config if there is an error so it's safe to continue.
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logger.Warn("failed to parse proxy Connect.Proxy.Config", "error", err)
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}
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}
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return s.computedFields.proxyConfig
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}
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// GetGatewayConfig attempts to parse and return the gateway config from the config snapshot.
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// Subsequent calls to this function will return the temporary cached value to reduce
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// cost of parsing. This function always returns a non-nil pointer to a config.
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// Any errors will be output to the logger during the initial parse time only.
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func (s *ConfigSnapshot) GetGatewayConfig(logger hclog.Logger) *config.GatewayConfig {
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if s.computedFields.gatewayConfig == nil {
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cfg, err := config.ParseGatewayConfig(s.Proxy.Config)
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s.computedFields.gatewayConfig = &cfg
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if err != nil {
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// Don't hard fail on a config typo, just warn. The parse func returns
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// default config if there is an error so it's safe to continue.
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logger.Warn("failed to parse gateway Connect.Proxy.Config", "error", err)
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}
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}
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return s.computedFields.gatewayConfig
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}
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