// generated by deep-copy -pointer-receiver -o ./proxycfg.deepcopy.go -type ConfigSnapshot -type ConfigSnapshotUpstreams -type PeerServersValue -type PeeringServiceValue -type configSnapshotAPIGateway -type configSnapshotConnectProxy -type configSnapshotIngressGateway -type configSnapshotMeshGateway -type configSnapshotTerminatingGateway ./; DO NOT EDIT. package proxycfg import ( "context" "github.com/hashicorp/consul/agent/structs" "github.com/hashicorp/consul/proto/pbpeering" "github.com/hashicorp/consul/types" ) // DeepCopy generates a deep copy of *ConfigSnapshot func (o *ConfigSnapshot) DeepCopy() *ConfigSnapshot { var cp ConfigSnapshot = *o if o.ServiceMeta != nil { cp.ServiceMeta = make(map[string]string, len(o.ServiceMeta)) for k2, v2 := range o.ServiceMeta { cp.ServiceMeta[k2] = v2 } } if o.TaggedAddresses != nil { cp.TaggedAddresses = make(map[string]structs.ServiceAddress, len(o.TaggedAddresses)) for k2, v2 := range o.TaggedAddresses { cp.TaggedAddresses[k2] = v2 } } { retV := o.Proxy.DeepCopy() cp.Proxy = *retV } if o.Roots != nil { cp.Roots = o.Roots.DeepCopy() } { retV := o.ConnectProxy.DeepCopy() cp.ConnectProxy = *retV } { retV := o.TerminatingGateway.DeepCopy() cp.TerminatingGateway = *retV } { retV := o.MeshGateway.DeepCopy() cp.MeshGateway = *retV } { retV := o.IngressGateway.DeepCopy() cp.IngressGateway = *retV } { retV := o.APIGateway.DeepCopy() cp.APIGateway = *retV } return &cp } // DeepCopy generates a deep copy of *ConfigSnapshotUpstreams func (o *ConfigSnapshotUpstreams) DeepCopy() *ConfigSnapshotUpstreams { var cp ConfigSnapshotUpstreams = *o if o.Leaf != nil { cp.Leaf = new(structs.IssuedCert) *cp.Leaf = *o.Leaf } if o.MeshConfig != nil { cp.MeshConfig = o.MeshConfig.DeepCopy() } if o.DiscoveryChain != nil { cp.DiscoveryChain = make(map[UpstreamID]*structs.CompiledDiscoveryChain, len(o.DiscoveryChain)) for k2, v2 := range o.DiscoveryChain { var cp_DiscoveryChain_v2 *structs.CompiledDiscoveryChain if v2 != nil { cp_DiscoveryChain_v2 = v2.DeepCopy() } cp.DiscoveryChain[k2] = cp_DiscoveryChain_v2 } } if o.WatchedDiscoveryChains != nil { cp.WatchedDiscoveryChains = make(map[UpstreamID]context.CancelFunc, len(o.WatchedDiscoveryChains)) for k2, v2 := range o.WatchedDiscoveryChains { cp.WatchedDiscoveryChains[k2] = v2 } } if o.WatchedUpstreams != nil { cp.WatchedUpstreams = make(map[UpstreamID]map[string]context.CancelFunc, len(o.WatchedUpstreams)) for k2, v2 := range o.WatchedUpstreams { var cp_WatchedUpstreams_v2 map[string]context.CancelFunc if v2 != nil { cp_WatchedUpstreams_v2 = make(map[string]context.CancelFunc, len(v2)) for k3, v3 := range v2 { cp_WatchedUpstreams_v2[k3] = v3 } } cp.WatchedUpstreams[k2] = cp_WatchedUpstreams_v2 } } if o.WatchedUpstreamEndpoints != nil { cp.WatchedUpstreamEndpoints = make(map[UpstreamID]map[string]structs.CheckServiceNodes, len(o.WatchedUpstreamEndpoints)) for k2, v2 := range o.WatchedUpstreamEndpoints { var cp_WatchedUpstreamEndpoints_v2 map[string]structs.CheckServiceNodes if v2 != nil { cp_WatchedUpstreamEndpoints_v2 = make(map[string]structs.CheckServiceNodes, len(v2)) for k3, v3 := range v2 { var cp_WatchedUpstreamEndpoints_v2_v3 structs.CheckServiceNodes cp_WatchedUpstreamEndpoints_v2_v3 = v3.DeepCopy() cp_WatchedUpstreamEndpoints_v2[k3] = cp_WatchedUpstreamEndpoints_v2_v3 } } cp.WatchedUpstreamEndpoints[k2] = cp_WatchedUpstreamEndpoints_v2 } } cp.UpstreamPeerTrustBundles = o.UpstreamPeerTrustBundles.DeepCopy() if o.WatchedGateways != nil { cp.WatchedGateways = make(map[UpstreamID]map[string]context.CancelFunc, len(o.WatchedGateways)) for k2, v2 := range o.WatchedGateways { var cp_WatchedGateways_v2 map[string]context.CancelFunc if v2 != nil { cp_WatchedGateways_v2 = make(map[string]context.CancelFunc, len(v2)) for k3, v3 := range v2 { cp_WatchedGateways_v2[k3] = v3 } } cp.WatchedGateways[k2] = cp_WatchedGateways_v2 } } if o.WatchedGatewayEndpoints != nil { cp.WatchedGatewayEndpoints = make(map[UpstreamID]map[string]structs.CheckServiceNodes, len(o.WatchedGatewayEndpoints)) for k2, v2 := range o.WatchedGatewayEndpoints { var cp_WatchedGatewayEndpoints_v2 map[string]structs.CheckServiceNodes if v2 != nil { cp_WatchedGatewayEndpoints_v2 = make(map[string]structs.CheckServiceNodes, len(v2)) for k3, v3 := range v2 { var cp_WatchedGatewayEndpoints_v2_v3 structs.CheckServiceNodes cp_WatchedGatewayEndpoints_v2_v3 = v3.DeepCopy() cp_WatchedGatewayEndpoints_v2[k3] = cp_WatchedGatewayEndpoints_v2_v3 } } cp.WatchedGatewayEndpoints[k2] = cp_WatchedGatewayEndpoints_v2 } } cp.WatchedLocalGWEndpoints = o.WatchedLocalGWEndpoints.DeepCopy() if o.UpstreamConfig != nil { cp.UpstreamConfig = make(map[UpstreamID]*structs.Upstream, len(o.UpstreamConfig)) for k2, v2 := range o.UpstreamConfig { var cp_UpstreamConfig_v2 *structs.Upstream if v2 != nil { cp_UpstreamConfig_v2 = v2.DeepCopy() } cp.UpstreamConfig[k2] = cp_UpstreamConfig_v2 } } if o.PassthroughUpstreams != nil { cp.PassthroughUpstreams = make(map[UpstreamID]map[string]map[string]struct{}, len(o.PassthroughUpstreams)) for k2, v2 := range o.PassthroughUpstreams { var cp_PassthroughUpstreams_v2 map[string]map[string]struct{} if v2 != nil { cp_PassthroughUpstreams_v2 = make(map[string]map[string]struct{}, len(v2)) for k3, v3 := range v2 { var cp_PassthroughUpstreams_v2_v3 map[string]struct{} if v3 != nil { cp_PassthroughUpstreams_v2_v3 = make(map[string]struct{}, len(v3)) for k4, v4 := range v3 { cp_PassthroughUpstreams_v2_v3[k4] = v4 } } cp_PassthroughUpstreams_v2[k3] = cp_PassthroughUpstreams_v2_v3 } } cp.PassthroughUpstreams[k2] = cp_PassthroughUpstreams_v2 } } if o.PassthroughIndices != nil { cp.PassthroughIndices = make(map[string]indexedTarget, len(o.PassthroughIndices)) for k2, v2 := range o.PassthroughIndices { cp.PassthroughIndices[k2] = v2 } } if o.IntentionUpstreams != nil { cp.IntentionUpstreams = make(map[UpstreamID]struct{}, len(o.IntentionUpstreams)) for k2, v2 := range o.IntentionUpstreams { cp.IntentionUpstreams[k2] = v2 } } if o.PeeredUpstreams != nil { cp.PeeredUpstreams = make(map[UpstreamID]struct{}, len(o.PeeredUpstreams)) for k2, v2 := range o.PeeredUpstreams { cp.PeeredUpstreams[k2] = v2 } } cp.PeerUpstreamEndpoints = o.PeerUpstreamEndpoints.DeepCopy() if o.PeerUpstreamEndpointsUseHostnames != nil { cp.PeerUpstreamEndpointsUseHostnames = make(map[UpstreamID]struct{}, len(o.PeerUpstreamEndpointsUseHostnames)) for k2, v2 := range o.PeerUpstreamEndpointsUseHostnames { cp.PeerUpstreamEndpointsUseHostnames[k2] = v2 } } return &cp } // DeepCopy generates a deep copy of *PeerServersValue func (o *PeerServersValue) DeepCopy() *PeerServersValue { var cp PeerServersValue = *o if o.Addresses != nil { cp.Addresses = make([]structs.ServiceAddress, len(o.Addresses)) copy(cp.Addresses, o.Addresses) } return &cp } // DeepCopy generates a deep copy of *PeeringServiceValue func (o *PeeringServiceValue) DeepCopy() *PeeringServiceValue { var cp PeeringServiceValue = *o cp.Nodes = o.Nodes.DeepCopy() return &cp } // DeepCopy generates a deep copy of *configSnapshotAPIGateway func (o *configSnapshotAPIGateway) DeepCopy() *configSnapshotAPIGateway { var cp configSnapshotAPIGateway = *o { retV := o.ConfigSnapshotUpstreams.DeepCopy() cp.ConfigSnapshotUpstreams = *retV } if o.TLSConfig.SDS != nil { cp.TLSConfig.SDS = new(structs.GatewayTLSSDSConfig) *cp.TLSConfig.SDS = *o.TLSConfig.SDS } if o.TLSConfig.CipherSuites != nil { cp.TLSConfig.CipherSuites = make([]types.TLSCipherSuite, len(o.TLSConfig.CipherSuites)) copy(cp.TLSConfig.CipherSuites, o.TLSConfig.CipherSuites) } if o.GatewayConfig != nil { cp.GatewayConfig = new(structs.APIGatewayConfigEntry) *cp.GatewayConfig = *o.GatewayConfig if o.GatewayConfig.Listeners != nil { cp.GatewayConfig.Listeners = make([]structs.APIGatewayListener, len(o.GatewayConfig.Listeners)) copy(cp.GatewayConfig.Listeners, o.GatewayConfig.Listeners) for i4 := range o.GatewayConfig.Listeners { { retV := o.GatewayConfig.Listeners[i4].DeepCopy() cp.GatewayConfig.Listeners[i4] = *retV } } } { retV := o.GatewayConfig.Status.DeepCopy() cp.GatewayConfig.Status = *retV } if o.GatewayConfig.Meta != nil { cp.GatewayConfig.Meta = make(map[string]string, len(o.GatewayConfig.Meta)) for k4, v4 := range o.GatewayConfig.Meta { cp.GatewayConfig.Meta[k4] = v4 } } } if o.BoundGatewayConfig != nil { cp.BoundGatewayConfig = o.BoundGatewayConfig.DeepCopy() } if o.Hosts != nil { cp.Hosts = make([]string, len(o.Hosts)) copy(cp.Hosts, o.Hosts) } if o.Upstreams != nil { cp.Upstreams = make(map[IngressListenerKey]structs.Upstreams, len(o.Upstreams)) for k2, v2 := range o.Upstreams { var cp_Upstreams_v2 structs.Upstreams if v2 != nil { cp_Upstreams_v2 = make([]structs.Upstream, len(v2)) copy(cp_Upstreams_v2, v2) for i3 := range v2 { { retV := v2[i3].DeepCopy() cp_Upstreams_v2[i3] = *retV } } } cp.Upstreams[k2] = cp_Upstreams_v2 } } if o.UpstreamsSet != nil { cp.UpstreamsSet = make(map[UpstreamID]struct{}, len(o.UpstreamsSet)) for k2, v2 := range o.UpstreamsSet { cp.UpstreamsSet[k2] = v2 } } cp.HTTPRoutes = o.HTTPRoutes.DeepCopy() cp.TCPRoutes = o.TCPRoutes.DeepCopy() cp.Certificates = o.Certificates.DeepCopy() if o.Listeners != nil { cp.Listeners = make(map[string]structs.APIGatewayListener, len(o.Listeners)) for k2, v2 := range o.Listeners { var cp_Listeners_v2 structs.APIGatewayListener { retV := v2.DeepCopy() cp_Listeners_v2 = *retV } cp.Listeners[k2] = cp_Listeners_v2 } } if o.BoundListeners != nil { cp.BoundListeners = make(map[string]structs.BoundAPIGatewayListener, len(o.BoundListeners)) for k2, v2 := range o.BoundListeners { var cp_BoundListeners_v2 structs.BoundAPIGatewayListener { retV := v2.DeepCopy() cp_BoundListeners_v2 = *retV } cp.BoundListeners[k2] = cp_BoundListeners_v2 } } return &cp } // DeepCopy generates a deep copy of *configSnapshotConnectProxy func (o *configSnapshotConnectProxy) DeepCopy() *configSnapshotConnectProxy { var cp configSnapshotConnectProxy = *o { retV := o.ConfigSnapshotUpstreams.DeepCopy() cp.ConfigSnapshotUpstreams = *retV } if o.InboundPeerTrustBundles != nil { cp.InboundPeerTrustBundles = make([]*pbpeering.PeeringTrustBundle, len(o.InboundPeerTrustBundles)) copy(cp.InboundPeerTrustBundles, o.InboundPeerTrustBundles) for i2 := range o.InboundPeerTrustBundles { if o.InboundPeerTrustBundles[i2] != nil { cp.InboundPeerTrustBundles[i2] = o.InboundPeerTrustBundles[i2].DeepCopy() } } } if o.WatchedServiceChecks != nil { cp.WatchedServiceChecks = make(map[structs.ServiceID][]structs.CheckType, len(o.WatchedServiceChecks)) for k2, v2 := range o.WatchedServiceChecks { var cp_WatchedServiceChecks_v2 []structs.CheckType if v2 != nil { cp_WatchedServiceChecks_v2 = make([]structs.CheckType, len(v2)) copy(cp_WatchedServiceChecks_v2, v2) for i3 := range v2 { { retV := v2[i3].DeepCopy() cp_WatchedServiceChecks_v2[i3] = *retV } } } cp.WatchedServiceChecks[k2] = cp_WatchedServiceChecks_v2 } } if o.PreparedQueryEndpoints != nil { cp.PreparedQueryEndpoints = make(map[UpstreamID]structs.CheckServiceNodes, len(o.PreparedQueryEndpoints)) for k2, v2 := range o.PreparedQueryEndpoints { var cp_PreparedQueryEndpoints_v2 structs.CheckServiceNodes cp_PreparedQueryEndpoints_v2 = v2.DeepCopy() cp.PreparedQueryEndpoints[k2] = cp_PreparedQueryEndpoints_v2 } } if o.Intentions != nil { cp.Intentions = make([]*structs.Intention, len(o.Intentions)) copy(cp.Intentions, o.Intentions) for i2 := range o.Intentions { if o.Intentions[i2] != nil { cp.Intentions[i2] = o.Intentions[i2].DeepCopy() } } } cp.DestinationsUpstream = o.DestinationsUpstream.DeepCopy() cp.DestinationGateways = o.DestinationGateways.DeepCopy() return &cp } // DeepCopy generates a deep copy of *configSnapshotIngressGateway func (o *configSnapshotIngressGateway) DeepCopy() *configSnapshotIngressGateway { var cp configSnapshotIngressGateway = *o { retV := o.ConfigSnapshotUpstreams.DeepCopy() cp.ConfigSnapshotUpstreams = *retV } if o.TLSConfig.SDS != nil { cp.TLSConfig.SDS = new(structs.GatewayTLSSDSConfig) *cp.TLSConfig.SDS = *o.TLSConfig.SDS } if o.TLSConfig.CipherSuites != nil { cp.TLSConfig.CipherSuites = make([]types.TLSCipherSuite, len(o.TLSConfig.CipherSuites)) copy(cp.TLSConfig.CipherSuites, o.TLSConfig.CipherSuites) } if o.Hosts != nil { cp.Hosts = make([]string, len(o.Hosts)) copy(cp.Hosts, o.Hosts) } if o.Upstreams != nil { cp.Upstreams = make(map[IngressListenerKey]structs.Upstreams, len(o.Upstreams)) for k2, v2 := range o.Upstreams { var cp_Upstreams_v2 structs.Upstreams if v2 != nil { cp_Upstreams_v2 = make([]structs.Upstream, len(v2)) copy(cp_Upstreams_v2, v2) for i3 := range v2 { { retV := v2[i3].DeepCopy() cp_Upstreams_v2[i3] = *retV } } } cp.Upstreams[k2] = cp_Upstreams_v2 } } if o.UpstreamsSet != nil { cp.UpstreamsSet = make(map[UpstreamID]struct{}, len(o.UpstreamsSet)) for k2, v2 := range o.UpstreamsSet { cp.UpstreamsSet[k2] = v2 } } if o.Listeners != nil { cp.Listeners = make(map[IngressListenerKey]structs.IngressListener, len(o.Listeners)) for k2, v2 := range o.Listeners { var cp_Listeners_v2 structs.IngressListener { retV := v2.DeepCopy() cp_Listeners_v2 = *retV } cp.Listeners[k2] = cp_Listeners_v2 } } if o.Defaults.PassiveHealthCheck != nil { cp.Defaults.PassiveHealthCheck = new(structs.PassiveHealthCheck) *cp.Defaults.PassiveHealthCheck = *o.Defaults.PassiveHealthCheck if o.Defaults.PassiveHealthCheck.EnforcingConsecutive5xx != nil { cp.Defaults.PassiveHealthCheck.EnforcingConsecutive5xx = new(uint32) *cp.Defaults.PassiveHealthCheck.EnforcingConsecutive5xx = *o.Defaults.PassiveHealthCheck.EnforcingConsecutive5xx } } return &cp } // DeepCopy generates a deep copy of *configSnapshotMeshGateway func (o *configSnapshotMeshGateway) DeepCopy() *configSnapshotMeshGateway { var cp configSnapshotMeshGateway = *o if o.WatchedServices != nil { cp.WatchedServices = make(map[structs.ServiceName]context.CancelFunc, len(o.WatchedServices)) for k2, v2 := range o.WatchedServices { cp.WatchedServices[k2] = v2 } } if o.WatchedGateways != nil { cp.WatchedGateways = make(map[string]context.CancelFunc, len(o.WatchedGateways)) for k2, v2 := range o.WatchedGateways { cp.WatchedGateways[k2] = v2 } } if o.ServiceGroups != nil { cp.ServiceGroups = make(map[structs.ServiceName]structs.CheckServiceNodes, len(o.ServiceGroups)) for k2, v2 := range o.ServiceGroups { var cp_ServiceGroups_v2 structs.CheckServiceNodes cp_ServiceGroups_v2 = v2.DeepCopy() cp.ServiceGroups[k2] = cp_ServiceGroups_v2 } } if o.PeeringServices != nil { cp.PeeringServices = make(map[string]map[structs.ServiceName]PeeringServiceValue, len(o.PeeringServices)) for k2, v2 := range o.PeeringServices { var cp_PeeringServices_v2 map[structs.ServiceName]PeeringServiceValue if v2 != nil { cp_PeeringServices_v2 = make(map[structs.ServiceName]PeeringServiceValue, len(v2)) for k3, v3 := range v2 { var cp_PeeringServices_v2_v3 PeeringServiceValue { retV := v3.DeepCopy() cp_PeeringServices_v2_v3 = *retV } cp_PeeringServices_v2[k3] = cp_PeeringServices_v2_v3 } } cp.PeeringServices[k2] = cp_PeeringServices_v2 } } if o.WatchedPeeringServices != nil { cp.WatchedPeeringServices = make(map[string]map[structs.ServiceName]context.CancelFunc, len(o.WatchedPeeringServices)) for k2, v2 := range o.WatchedPeeringServices { var cp_WatchedPeeringServices_v2 map[structs.ServiceName]context.CancelFunc if v2 != nil { cp_WatchedPeeringServices_v2 = make(map[structs.ServiceName]context.CancelFunc, len(v2)) for k3, v3 := range v2 { cp_WatchedPeeringServices_v2[k3] = v3 } } cp.WatchedPeeringServices[k2] = cp_WatchedPeeringServices_v2 } } if o.WatchedPeers != nil { cp.WatchedPeers = make(map[string]context.CancelFunc, len(o.WatchedPeers)) for k2, v2 := range o.WatchedPeers { cp.WatchedPeers[k2] = v2 } } if o.ServiceResolvers != nil { cp.ServiceResolvers = make(map[structs.ServiceName]*structs.ServiceResolverConfigEntry, len(o.ServiceResolvers)) for k2, v2 := range o.ServiceResolvers { var cp_ServiceResolvers_v2 *structs.ServiceResolverConfigEntry if v2 != nil { cp_ServiceResolvers_v2 = v2.DeepCopy() } cp.ServiceResolvers[k2] = cp_ServiceResolvers_v2 } } if o.GatewayGroups != nil { cp.GatewayGroups = make(map[string]structs.CheckServiceNodes, len(o.GatewayGroups)) for k2, v2 := range o.GatewayGroups { var cp_GatewayGroups_v2 structs.CheckServiceNodes cp_GatewayGroups_v2 = v2.DeepCopy() cp.GatewayGroups[k2] = cp_GatewayGroups_v2 } } if o.FedStateGateways != nil { cp.FedStateGateways = make(map[string]structs.CheckServiceNodes, len(o.FedStateGateways)) for k2, v2 := range o.FedStateGateways { var cp_FedStateGateways_v2 structs.CheckServiceNodes cp_FedStateGateways_v2 = v2.DeepCopy() cp.FedStateGateways[k2] = cp_FedStateGateways_v2 } } cp.WatchedLocalServers = o.WatchedLocalServers.DeepCopy() if o.HostnameDatacenters != nil { cp.HostnameDatacenters = make(map[string]structs.CheckServiceNodes, len(o.HostnameDatacenters)) for k2, v2 := range o.HostnameDatacenters { var cp_HostnameDatacenters_v2 structs.CheckServiceNodes cp_HostnameDatacenters_v2 = v2.DeepCopy() cp.HostnameDatacenters[k2] = cp_HostnameDatacenters_v2 } } if o.ExportedServicesSlice != nil { cp.ExportedServicesSlice = make([]structs.ServiceName, len(o.ExportedServicesSlice)) copy(cp.ExportedServicesSlice, o.ExportedServicesSlice) } if o.ExportedServicesWithPeers != nil { cp.ExportedServicesWithPeers = make(map[structs.ServiceName][]string, len(o.ExportedServicesWithPeers)) for k2, v2 := range o.ExportedServicesWithPeers { var cp_ExportedServicesWithPeers_v2 []string if v2 != nil { cp_ExportedServicesWithPeers_v2 = make([]string, len(v2)) copy(cp_ExportedServicesWithPeers_v2, v2) } cp.ExportedServicesWithPeers[k2] = cp_ExportedServicesWithPeers_v2 } } if o.DiscoveryChain != nil { cp.DiscoveryChain = make(map[structs.ServiceName]*structs.CompiledDiscoveryChain, len(o.DiscoveryChain)) for k2, v2 := range o.DiscoveryChain { var cp_DiscoveryChain_v2 *structs.CompiledDiscoveryChain if v2 != nil { cp_DiscoveryChain_v2 = v2.DeepCopy() } cp.DiscoveryChain[k2] = cp_DiscoveryChain_v2 } } if o.WatchedDiscoveryChains != nil { cp.WatchedDiscoveryChains = make(map[structs.ServiceName]context.CancelFunc, len(o.WatchedDiscoveryChains)) for k2, v2 := range o.WatchedDiscoveryChains { cp.WatchedDiscoveryChains[k2] = v2 } } if o.MeshConfig != nil { cp.MeshConfig = o.MeshConfig.DeepCopy() } if o.Leaf != nil { cp.Leaf = new(structs.IssuedCert) *cp.Leaf = *o.Leaf } if o.PeerServers != nil { cp.PeerServers = make(map[string]PeerServersValue, len(o.PeerServers)) for k2, v2 := range o.PeerServers { var cp_PeerServers_v2 PeerServersValue { retV := v2.DeepCopy() cp_PeerServers_v2 = *retV } cp.PeerServers[k2] = cp_PeerServers_v2 } } if o.PeeringTrustBundles != nil { cp.PeeringTrustBundles = make([]*pbpeering.PeeringTrustBundle, len(o.PeeringTrustBundles)) copy(cp.PeeringTrustBundles, o.PeeringTrustBundles) for i2 := range o.PeeringTrustBundles { if o.PeeringTrustBundles[i2] != nil { cp.PeeringTrustBundles[i2] = o.PeeringTrustBundles[i2].DeepCopy() } } } return &cp } // DeepCopy generates a deep copy of *configSnapshotTerminatingGateway func (o *configSnapshotTerminatingGateway) DeepCopy() *configSnapshotTerminatingGateway { var cp configSnapshotTerminatingGateway = *o if o.MeshConfig != nil { cp.MeshConfig = o.MeshConfig.DeepCopy() } if o.WatchedServices != nil { cp.WatchedServices = make(map[structs.ServiceName]context.CancelFunc, len(o.WatchedServices)) for k2, v2 := range o.WatchedServices { cp.WatchedServices[k2] = v2 } } if o.WatchedIntentions != nil { cp.WatchedIntentions = make(map[structs.ServiceName]context.CancelFunc, len(o.WatchedIntentions)) for k2, v2 := range o.WatchedIntentions { cp.WatchedIntentions[k2] = v2 } } if o.Intentions != nil { cp.Intentions = make(map[structs.ServiceName]structs.Intentions, len(o.Intentions)) for k2, v2 := range o.Intentions { var cp_Intentions_v2 structs.Intentions if v2 != nil { cp_Intentions_v2 = make([]*structs.Intention, len(v2)) copy(cp_Intentions_v2, v2) for i3 := range v2 { if v2[i3] != nil { cp_Intentions_v2[i3] = v2[i3].DeepCopy() } } } cp.Intentions[k2] = cp_Intentions_v2 } } if o.WatchedLeaves != nil { cp.WatchedLeaves = make(map[structs.ServiceName]context.CancelFunc, len(o.WatchedLeaves)) for k2, v2 := range o.WatchedLeaves { cp.WatchedLeaves[k2] = v2 } } if o.ServiceLeaves != nil { cp.ServiceLeaves = make(map[structs.ServiceName]*structs.IssuedCert, len(o.ServiceLeaves)) for k2, v2 := range o.ServiceLeaves { var cp_ServiceLeaves_v2 *structs.IssuedCert if v2 != nil { cp_ServiceLeaves_v2 = new(structs.IssuedCert) *cp_ServiceLeaves_v2 = *v2 } cp.ServiceLeaves[k2] = cp_ServiceLeaves_v2 } } if o.WatchedConfigs != nil { cp.WatchedConfigs = make(map[structs.ServiceName]context.CancelFunc, len(o.WatchedConfigs)) for k2, v2 := range o.WatchedConfigs { cp.WatchedConfigs[k2] = v2 } } if o.ServiceConfigs != nil { cp.ServiceConfigs = make(map[structs.ServiceName]*structs.ServiceConfigResponse, len(o.ServiceConfigs)) for k2, v2 := range o.ServiceConfigs { var cp_ServiceConfigs_v2 *structs.ServiceConfigResponse if v2 != nil { cp_ServiceConfigs_v2 = v2.DeepCopy() } cp.ServiceConfigs[k2] = cp_ServiceConfigs_v2 } } if o.WatchedResolvers != nil { cp.WatchedResolvers = make(map[structs.ServiceName]context.CancelFunc, len(o.WatchedResolvers)) for k2, v2 := range o.WatchedResolvers { cp.WatchedResolvers[k2] = v2 } } if o.ServiceResolvers != nil { cp.ServiceResolvers = make(map[structs.ServiceName]*structs.ServiceResolverConfigEntry, len(o.ServiceResolvers)) for k2, v2 := range o.ServiceResolvers { var cp_ServiceResolvers_v2 *structs.ServiceResolverConfigEntry if v2 != nil { cp_ServiceResolvers_v2 = v2.DeepCopy() } cp.ServiceResolvers[k2] = cp_ServiceResolvers_v2 } } if o.ServiceResolversSet != nil { cp.ServiceResolversSet = make(map[structs.ServiceName]bool, len(o.ServiceResolversSet)) for k2, v2 := range o.ServiceResolversSet { cp.ServiceResolversSet[k2] = v2 } } if o.ServiceGroups != nil { cp.ServiceGroups = make(map[structs.ServiceName]structs.CheckServiceNodes, len(o.ServiceGroups)) for k2, v2 := range o.ServiceGroups { var cp_ServiceGroups_v2 structs.CheckServiceNodes cp_ServiceGroups_v2 = v2.DeepCopy() cp.ServiceGroups[k2] = cp_ServiceGroups_v2 } } if o.GatewayServices != nil { cp.GatewayServices = make(map[structs.ServiceName]structs.GatewayService, len(o.GatewayServices)) for k2, v2 := range o.GatewayServices { var cp_GatewayServices_v2 structs.GatewayService { retV := v2.DeepCopy() cp_GatewayServices_v2 = *retV } cp.GatewayServices[k2] = cp_GatewayServices_v2 } } if o.DestinationServices != nil { cp.DestinationServices = make(map[structs.ServiceName]structs.GatewayService, len(o.DestinationServices)) for k2, v2 := range o.DestinationServices { var cp_DestinationServices_v2 structs.GatewayService { retV := v2.DeepCopy() cp_DestinationServices_v2 = *retV } cp.DestinationServices[k2] = cp_DestinationServices_v2 } } if o.HostnameServices != nil { cp.HostnameServices = make(map[structs.ServiceName]structs.CheckServiceNodes, len(o.HostnameServices)) for k2, v2 := range o.HostnameServices { var cp_HostnameServices_v2 structs.CheckServiceNodes cp_HostnameServices_v2 = v2.DeepCopy() cp.HostnameServices[k2] = cp_HostnameServices_v2 } } return &cp }