package api import ( "bufio" "bytes" "fmt" "io" "net/http" "net/url" ) // ServiceKind is the kind of service being registered. type ServiceKind string const ( // ServiceKindTypical is a typical, classic Consul service. This is // represented by the absence of a value. This was chosen for ease of // backwards compatibility: existing services in the catalog would // default to the typical service. ServiceKindTypical ServiceKind = "" // ServiceKindConnectProxy is a proxy for the Connect feature. This // service proxies another service within Consul and speaks the connect // protocol. ServiceKindConnectProxy ServiceKind = "connect-proxy" // ServiceKindMeshGateway is a Mesh Gateway for the Connect feature. This // service will proxy connections based off the SNI header set by other // connect proxies ServiceKindMeshGateway ServiceKind = "mesh-gateway" // ServiceKindTerminatingGateway is a Terminating Gateway for the Connect // feature. This service will proxy connections to services outside the mesh. ServiceKindTerminatingGateway ServiceKind = "terminating-gateway" // ServiceKindIngressGateway is an Ingress Gateway for the Connect feature. // This service will ingress connections based of configuration defined in // the ingress-gateway config entry. ServiceKindIngressGateway ServiceKind = "ingress-gateway" ) // UpstreamDestType is the type of upstream discovery mechanism. type UpstreamDestType string const ( // UpstreamDestTypeService discovers instances via healthy service lookup. UpstreamDestTypeService UpstreamDestType = "service" // UpstreamDestTypePreparedQuery discovers instances via prepared query // execution. UpstreamDestTypePreparedQuery UpstreamDestType = "prepared_query" ) // AgentCheck represents a check known to the agent type AgentCheck struct { Node string CheckID string Name string Status string Notes string Output string ServiceID string ServiceName string Type string Definition HealthCheckDefinition Namespace string `json:",omitempty"` } // AgentWeights represent optional weights for a service type AgentWeights struct { Passing int Warning int } // AgentService represents a service known to the agent type AgentService struct { Kind ServiceKind `json:",omitempty"` ID string Service string Tags []string Meta map[string]string Port int Address string TaggedAddresses map[string]ServiceAddress `json:",omitempty"` Weights AgentWeights EnableTagOverride bool CreateIndex uint64 `json:",omitempty" bexpr:"-"` ModifyIndex uint64 `json:",omitempty" bexpr:"-"` ContentHash string `json:",omitempty" bexpr:"-"` Proxy *AgentServiceConnectProxyConfig `json:",omitempty"` Connect *AgentServiceConnect `json:",omitempty"` // NOTE: If we ever set the ContentHash outside of singular service lookup then we may need // to include the Namespace in the hash. When we do, then we are in for lots of fun with tests. // For now though, ignoring it works well enough. Namespace string `json:",omitempty" bexpr:"-" hash:"ignore"` // Datacenter is only ever returned and is ignored if presented. Datacenter string `json:",omitempty" bexpr:"-" hash:"ignore"` } // AgentServiceChecksInfo returns information about a Service and its checks type AgentServiceChecksInfo struct { AggregatedStatus string Service *AgentService Checks HealthChecks } // AgentServiceConnect represents the Connect configuration of a service. type AgentServiceConnect struct { Native bool `json:",omitempty"` SidecarService *AgentServiceRegistration `json:",omitempty" bexpr:"-"` } // AgentServiceConnectProxyConfig is the proxy configuration in a connect-proxy // ServiceDefinition or response. type AgentServiceConnectProxyConfig struct { DestinationServiceName string `json:",omitempty"` DestinationServiceID string `json:",omitempty"` LocalServiceAddress string `json:",omitempty"` LocalServicePort int `json:",omitempty"` Config map[string]interface{} `json:",omitempty" bexpr:"-"` Upstreams []Upstream `json:",omitempty"` MeshGateway MeshGatewayConfig `json:",omitempty"` Expose ExposeConfig `json:",omitempty"` } const ( // MemberTagKeyACLMode is the key used to indicate what ACL mode the agent is // operating in. The values of this key will be one of the MemberACLMode constants // with the key not being present indicating ACLModeUnknown. MemberTagKeyACLMode = "acls" // MemberTagRole is the key used to indicate that the member is a server or not. MemberTagKeyRole = "role" // MemberTagValueRoleServer is the value of the MemberTagKeyRole used to indicate // that the member represents a Consul server. MemberTagValueRoleServer = "consul" // MemberTagKeySegment is the key name of the tag used to indicate which network // segment this member is in. // Network Segments are a Consul Enterprise feature. MemberTagKeySegment = "segment" // MemberTagKeyBootstrap is the key name of the tag used to indicate whether this // agent was started with the "bootstrap" configuration enabled MemberTagKeyBootstrap = "bootstrap" // MemberTagValueBootstrap is the value of the MemberTagKeyBootstrap key when the // agent was started with the "bootstrap" configuration enabled. MemberTagValueBootstrap = "1" // MemberTagKeyBootstrapExpect is the key name of the tag used to indicate whether // this agent was started with the "bootstrap_expect" configuration set to a non-zero // value. The value of this key will be the string for of that configuration value. MemberTagKeyBootstrapExpect = "expect" // MemberTagKeyUseTLS is the key name of the tag used to indicate whther this agent // was configured to use TLS. MemberTagKeyUseTLS = "use_tls" // MemberTagValueUseTLS is the value of the MemberTagKeyUseTLS when the agent was // configured to use TLS. Any other value indicates that it was not setup in // that manner. MemberTagValueUseTLS = "1" ) type MemberACLMode string const ( // ACLModeDisables indicates that ACLs are disabled for this agent ACLModeDisabled MemberACLMode = "0" // ACLModeEnabled indicates that ACLs are enabled and operating in new ACL // mode (v1.4.0+ ACLs) ACLModeEnabled MemberACLMode = "1" // ACLModeLegacy indicates that ACLs are enabled and operating in legacy mode. ACLModeLegacy MemberACLMode = "2" // ACLModeUnkown is used to indicate that the AgentMember.Tags didn't advertise // an ACL mode at all. This is the case for Consul versions before v1.4.0 and // should be treated similarly to ACLModeLegacy. ACLModeUnknown MemberACLMode = "3" ) // AgentMember represents a cluster member known to the agent type AgentMember struct { Name string Addr string Port uint16 Tags map[string]string // Status of the Member which corresponds to github.com/hashicorp/serf/serf.MemberStatus // Value is one of: // // AgentMemberNone = 0 // AgentMemberAlive = 1 // AgentMemberLeaving = 2 // AgentMemberLeft = 3 // AgentMemberFailed = 4 Status int ProtocolMin uint8 ProtocolMax uint8 ProtocolCur uint8 DelegateMin uint8 DelegateMax uint8 DelegateCur uint8 } // ACLMode returns the ACL mode this agent is operating in. func (m *AgentMember) ACLMode() MemberACLMode { mode := m.Tags[MemberTagKeyACLMode] // the key may not have existed but then an // empty string will be returned and we will // handle that in the default case of the switch switch MemberACLMode(mode) { case ACLModeDisabled: return ACLModeDisabled case ACLModeEnabled: return ACLModeEnabled case ACLModeLegacy: return ACLModeLegacy default: return ACLModeUnknown } } // IsConsulServer returns true when this member is a Consul server. func (m *AgentMember) IsConsulServer() bool { return m.Tags[MemberTagKeyRole] == MemberTagValueRoleServer } // AllSegments is used to select for all segments in MembersOpts. const AllSegments = "_all" // MembersOpts is used for querying member information. type MembersOpts struct { // WAN is whether to show members from the WAN. WAN bool // Segment is the LAN segment to show members for. Setting this to the // AllSegments value above will show members in all segments. Segment string } // AgentServiceRegistration is used to register a new service type AgentServiceRegistration struct { Kind ServiceKind `json:",omitempty"` ID string `json:",omitempty"` Name string `json:",omitempty"` Tags []string `json:",omitempty"` Port int `json:",omitempty"` Address string `json:",omitempty"` TaggedAddresses map[string]ServiceAddress `json:",omitempty"` EnableTagOverride bool `json:",omitempty"` Meta map[string]string `json:",omitempty"` Weights *AgentWeights `json:",omitempty"` Check *AgentServiceCheck Checks AgentServiceChecks Proxy *AgentServiceConnectProxyConfig `json:",omitempty"` Connect *AgentServiceConnect `json:",omitempty"` Namespace string `json:",omitempty" bexpr:"-" hash:"ignore"` } //ServiceRegisterOpts is used to pass extra options to the service register. type ServiceRegisterOpts struct { //Missing healthchecks will be deleted from the agent. //Using this parameter allows to idempotently register a service and its checks without //having to manually deregister checks. ReplaceExistingChecks bool } // AgentCheckRegistration is used to register a new check type AgentCheckRegistration struct { ID string `json:",omitempty"` Name string `json:",omitempty"` Notes string `json:",omitempty"` ServiceID string `json:",omitempty"` AgentServiceCheck Namespace string `json:",omitempty"` } // AgentServiceCheck is used to define a node or service level check type AgentServiceCheck struct { CheckID string `json:",omitempty"` Name string `json:",omitempty"` Args []string `json:"ScriptArgs,omitempty"` DockerContainerID string `json:",omitempty"` Shell string `json:",omitempty"` // Only supported for Docker. Interval string `json:",omitempty"` Timeout string `json:",omitempty"` TTL string `json:",omitempty"` HTTP string `json:",omitempty"` Header map[string][]string `json:",omitempty"` Method string `json:",omitempty"` Body string `json:",omitempty"` TCP string `json:",omitempty"` Status string `json:",omitempty"` Notes string `json:",omitempty"` TLSSkipVerify bool `json:",omitempty"` GRPC string `json:",omitempty"` GRPCUseTLS bool `json:",omitempty"` AliasNode string `json:",omitempty"` AliasService string `json:",omitempty"` SuccessBeforePassing int `json:",omitempty"` FailuresBeforeCritical int `json:",omitempty"` // In Consul 0.7 and later, checks that are associated with a service // may also contain this optional DeregisterCriticalServiceAfter field, // which is a timeout in the same Go time format as Interval and TTL. If // a check is in the critical state for more than this configured value, // then its associated service (and all of its associated checks) will // automatically be deregistered. DeregisterCriticalServiceAfter string `json:",omitempty"` } type AgentServiceChecks []*AgentServiceCheck // AgentToken is used when updating ACL tokens for an agent. type AgentToken struct { Token string } // Metrics info is used to store different types of metric values from the agent. type MetricsInfo struct { Timestamp string Gauges []GaugeValue Points []PointValue Counters []SampledValue Samples []SampledValue } // GaugeValue stores one value that is updated as time goes on, such as // the amount of memory allocated. type GaugeValue struct { Name string Value float32 Labels map[string]string } // PointValue holds a series of points for a metric. type PointValue struct { Name string Points []float32 } // SampledValue stores info about a metric that is incremented over time, // such as the number of requests to an HTTP endpoint. type SampledValue struct { Name string Count int Sum float64 Min float64 Max float64 Mean float64 Stddev float64 Labels map[string]string } // AgentAuthorizeParams are the request parameters for authorizing a request. type AgentAuthorizeParams struct { Target string ClientCertURI string ClientCertSerial string } // AgentAuthorize is the response structure for Connect authorization. type AgentAuthorize struct { Authorized bool Reason string } // ConnectProxyConfig is the response structure for agent-local proxy // configuration. type ConnectProxyConfig struct { ProxyServiceID string TargetServiceID string TargetServiceName string ContentHash string Config map[string]interface{} `bexpr:"-"` Upstreams []Upstream } // Upstream is the response structure for a proxy upstream configuration. type Upstream struct { DestinationType UpstreamDestType `json:",omitempty"` DestinationNamespace string `json:",omitempty"` DestinationName string Datacenter string `json:",omitempty"` LocalBindAddress string `json:",omitempty"` LocalBindPort int `json:",omitempty"` Config map[string]interface{} `json:",omitempty" bexpr:"-"` MeshGateway MeshGatewayConfig `json:",omitempty"` } // Agent can be used to query the Agent endpoints type Agent struct { c *Client // cache the node name nodeName string } // Agent returns a handle to the agent endpoints func (c *Client) Agent() *Agent { return &Agent{c: c} } // Self is used to query the agent we are speaking to for // information about itself func (a *Agent) Self() (map[string]map[string]interface{}, error) { r := a.c.newRequest("GET", "/v1/agent/self") _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return nil, err } defer resp.Body.Close() var out map[string]map[string]interface{} if err := decodeBody(resp, &out); err != nil { return nil, err } return out, nil } // Host is used to retrieve information about the host the // agent is running on such as CPU, memory, and disk. Requires // a operator:read ACL token. func (a *Agent) Host() (map[string]interface{}, error) { r := a.c.newRequest("GET", "/v1/agent/host") _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return nil, err } defer resp.Body.Close() var out map[string]interface{} if err := decodeBody(resp, &out); err != nil { return nil, err } return out, nil } // Metrics is used to query the agent we are speaking to for // its current internal metric data func (a *Agent) Metrics() (*MetricsInfo, error) { r := a.c.newRequest("GET", "/v1/agent/metrics") _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return nil, err } defer resp.Body.Close() var out *MetricsInfo if err := decodeBody(resp, &out); err != nil { return nil, err } return out, nil } // Reload triggers a configuration reload for the agent we are connected to. func (a *Agent) Reload() error { r := a.c.newRequest("PUT", "/v1/agent/reload") _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return err } resp.Body.Close() return nil } // NodeName is used to get the node name of the agent func (a *Agent) NodeName() (string, error) { if a.nodeName != "" { return a.nodeName, nil } info, err := a.Self() if err != nil { return "", err } name := info["Config"]["NodeName"].(string) a.nodeName = name return name, nil } // Checks returns the locally registered checks func (a *Agent) Checks() (map[string]*AgentCheck, error) { return a.ChecksWithFilter("") } // ChecksWithFilter returns a subset of the locally registered checks that match // the given filter expression func (a *Agent) ChecksWithFilter(filter string) (map[string]*AgentCheck, error) { r := a.c.newRequest("GET", "/v1/agent/checks") r.filterQuery(filter) _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return nil, err } defer resp.Body.Close() var out map[string]*AgentCheck if err := decodeBody(resp, &out); err != nil { return nil, err } return out, nil } // Services returns the locally registered services func (a *Agent) Services() (map[string]*AgentService, error) { return a.ServicesWithFilter("") } // ServicesWithFilter returns a subset of the locally registered services that match // the given filter expression func (a *Agent) ServicesWithFilter(filter string) (map[string]*AgentService, error) { r := a.c.newRequest("GET", "/v1/agent/services") r.filterQuery(filter) _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return nil, err } defer resp.Body.Close() var out map[string]*AgentService if err := decodeBody(resp, &out); err != nil { return nil, err } return out, nil } // AgentHealthServiceByID returns for a given serviceID: the aggregated health status, the service definition or an error if any // - If the service is not found, will return status (critical, nil, nil) // - If the service is found, will return (critical|passing|warning), AgentServiceChecksInfo, nil) // - In all other cases, will return an error func (a *Agent) AgentHealthServiceByID(serviceID string) (string, *AgentServiceChecksInfo, error) { path := fmt.Sprintf("/v1/agent/health/service/id/%v", url.PathEscape(serviceID)) r := a.c.newRequest("GET", path) r.params.Add("format", "json") r.header.Set("Accept", "application/json") _, resp, err := a.c.doRequest(r) if err != nil { return "", nil, err } defer resp.Body.Close() // Service not Found if resp.StatusCode == http.StatusNotFound { return HealthCritical, nil, nil } var out *AgentServiceChecksInfo if err := decodeBody(resp, &out); err != nil { return HealthCritical, out, err } switch resp.StatusCode { case http.StatusOK: return HealthPassing, out, nil case http.StatusTooManyRequests: return HealthWarning, out, nil case http.StatusServiceUnavailable: return HealthCritical, out, nil } return HealthCritical, out, fmt.Errorf("Unexpected Error Code %v for %s", resp.StatusCode, path) } // AgentHealthServiceByName returns for a given service name: the aggregated health status for all services // having the specified name. // - If no service is not found, will return status (critical, [], nil) // - If the service is found, will return (critical|passing|warning), []api.AgentServiceChecksInfo, nil) // - In all other cases, will return an error func (a *Agent) AgentHealthServiceByName(service string) (string, []AgentServiceChecksInfo, error) { path := fmt.Sprintf("/v1/agent/health/service/name/%v", url.PathEscape(service)) r := a.c.newRequest("GET", path) r.params.Add("format", "json") r.header.Set("Accept", "application/json") _, resp, err := a.c.doRequest(r) if err != nil { return "", nil, err } defer resp.Body.Close() // Service not Found if resp.StatusCode == http.StatusNotFound { return HealthCritical, nil, nil } var out []AgentServiceChecksInfo if err := decodeBody(resp, &out); err != nil { return HealthCritical, out, err } switch resp.StatusCode { case http.StatusOK: return HealthPassing, out, nil case http.StatusTooManyRequests: return HealthWarning, out, nil case http.StatusServiceUnavailable: return HealthCritical, out, nil } return HealthCritical, out, fmt.Errorf("Unexpected Error Code %v for %s", resp.StatusCode, path) } // Service returns a locally registered service instance and allows for // hash-based blocking. // // Note that this uses an unconventional blocking mechanism since it's // agent-local state. That means there is no persistent raft index so we block // based on object hash instead. func (a *Agent) Service(serviceID string, q *QueryOptions) (*AgentService, *QueryMeta, error) { r := a.c.newRequest("GET", "/v1/agent/service/"+serviceID) r.setQueryOptions(q) rtt, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return nil, nil, err } defer resp.Body.Close() qm := &QueryMeta{} parseQueryMeta(resp, qm) qm.RequestTime = rtt var out *AgentService if err := decodeBody(resp, &out); err != nil { return nil, nil, err } return out, qm, nil } // Members returns the known gossip members. The WAN // flag can be used to query a server for WAN members. func (a *Agent) Members(wan bool) ([]*AgentMember, error) { r := a.c.newRequest("GET", "/v1/agent/members") if wan { r.params.Set("wan", "1") } _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return nil, err } defer resp.Body.Close() var out []*AgentMember if err := decodeBody(resp, &out); err != nil { return nil, err } return out, nil } // MembersOpts returns the known gossip members and can be passed // additional options for WAN/segment filtering. func (a *Agent) MembersOpts(opts MembersOpts) ([]*AgentMember, error) { r := a.c.newRequest("GET", "/v1/agent/members") r.params.Set("segment", opts.Segment) if opts.WAN { r.params.Set("wan", "1") } _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return nil, err } defer resp.Body.Close() var out []*AgentMember if err := decodeBody(resp, &out); err != nil { return nil, err } return out, nil } // ServiceRegister is used to register a new service with // the local agent func (a *Agent) ServiceRegister(service *AgentServiceRegistration) error { opts := ServiceRegisterOpts{ ReplaceExistingChecks: false, } return a.serviceRegister(service, opts) } // ServiceRegister is used to register a new service with // the local agent and can be passed additional options. func (a *Agent) ServiceRegisterOpts(service *AgentServiceRegistration, opts ServiceRegisterOpts) error { return a.serviceRegister(service, opts) } func (a *Agent) serviceRegister(service *AgentServiceRegistration, opts ServiceRegisterOpts) error { r := a.c.newRequest("PUT", "/v1/agent/service/register") r.obj = service if opts.ReplaceExistingChecks { r.params.Set("replace-existing-checks", "true") } _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return err } resp.Body.Close() return nil } // ServiceDeregister is used to deregister a service with // the local agent func (a *Agent) ServiceDeregister(serviceID string) error { r := a.c.newRequest("PUT", "/v1/agent/service/deregister/"+serviceID) _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return err } resp.Body.Close() return nil } // PassTTL is used to set a TTL check to the passing state. // // DEPRECATION NOTICE: This interface is deprecated in favor of UpdateTTL(). // The client interface will be removed in 0.8 or changed to use // UpdateTTL()'s endpoint and the server endpoints will be removed in 0.9. func (a *Agent) PassTTL(checkID, note string) error { return a.updateTTL(checkID, note, "pass") } // WarnTTL is used to set a TTL check to the warning state. // // DEPRECATION NOTICE: This interface is deprecated in favor of UpdateTTL(). // The client interface will be removed in 0.8 or changed to use // UpdateTTL()'s endpoint and the server endpoints will be removed in 0.9. func (a *Agent) WarnTTL(checkID, note string) error { return a.updateTTL(checkID, note, "warn") } // FailTTL is used to set a TTL check to the failing state. // // DEPRECATION NOTICE: This interface is deprecated in favor of UpdateTTL(). // The client interface will be removed in 0.8 or changed to use // UpdateTTL()'s endpoint and the server endpoints will be removed in 0.9. func (a *Agent) FailTTL(checkID, note string) error { return a.updateTTL(checkID, note, "fail") } // updateTTL is used to update the TTL of a check. This is the internal // method that uses the old API that's present in Consul versions prior to // 0.6.4. Since Consul didn't have an analogous "update" API before it seemed // ok to break this (former) UpdateTTL in favor of the new UpdateTTL below, // but keep the old Pass/Warn/Fail methods using the old API under the hood. // // DEPRECATION NOTICE: This interface is deprecated in favor of UpdateTTL(). // The client interface will be removed in 0.8 and the server endpoints will // be removed in 0.9. func (a *Agent) updateTTL(checkID, note, status string) error { switch status { case "pass": case "warn": case "fail": default: return fmt.Errorf("Invalid status: %s", status) } endpoint := fmt.Sprintf("/v1/agent/check/%s/%s", status, checkID) r := a.c.newRequest("PUT", endpoint) r.params.Set("note", note) _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return err } resp.Body.Close() return nil } // checkUpdate is the payload for a PUT for a check update. type checkUpdate struct { // Status is one of the api.Health* states: HealthPassing // ("passing"), HealthWarning ("warning"), or HealthCritical // ("critical"). Status string // Output is the information to post to the UI for operators as the // output of the process that decided to hit the TTL check. This is // different from the note field that's associated with the check // itself. Output string } // UpdateTTL is used to update the TTL of a check. This uses the newer API // that was introduced in Consul 0.6.4 and later. We translate the old status // strings for compatibility (though a newer version of Consul will still be // required to use this API). func (a *Agent) UpdateTTL(checkID, output, status string) error { switch status { case "pass", HealthPassing: status = HealthPassing case "warn", HealthWarning: status = HealthWarning case "fail", HealthCritical: status = HealthCritical default: return fmt.Errorf("Invalid status: %s", status) } endpoint := fmt.Sprintf("/v1/agent/check/update/%s", checkID) r := a.c.newRequest("PUT", endpoint) r.obj = &checkUpdate{ Status: status, Output: output, } _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return err } resp.Body.Close() return nil } // CheckRegister is used to register a new check with // the local agent func (a *Agent) CheckRegister(check *AgentCheckRegistration) error { r := a.c.newRequest("PUT", "/v1/agent/check/register") r.obj = check _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return err } resp.Body.Close() return nil } // CheckDeregister is used to deregister a check with // the local agent func (a *Agent) CheckDeregister(checkID string) error { r := a.c.newRequest("PUT", "/v1/agent/check/deregister/"+checkID) _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return err } resp.Body.Close() return nil } // Join is used to instruct the agent to attempt a join to // another cluster member func (a *Agent) Join(addr string, wan bool) error { r := a.c.newRequest("PUT", "/v1/agent/join/"+addr) if wan { r.params.Set("wan", "1") } _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return err } resp.Body.Close() return nil } // Leave is used to have the agent gracefully leave the cluster and shutdown func (a *Agent) Leave() error { r := a.c.newRequest("PUT", "/v1/agent/leave") _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return err } resp.Body.Close() return nil } // ForceLeave is used to have the agent eject a failed node func (a *Agent) ForceLeave(node string) error { r := a.c.newRequest("PUT", "/v1/agent/force-leave/"+node) _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return err } resp.Body.Close() return nil } //ForceLeavePrune is used to have an a failed agent removed //from the list of members func (a *Agent) ForceLeavePrune(node string) error { r := a.c.newRequest("PUT", "/v1/agent/force-leave/"+node) r.params.Set("prune", "1") _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return err } resp.Body.Close() return nil } // ConnectAuthorize is used to authorize an incoming connection // to a natively integrated Connect service. func (a *Agent) ConnectAuthorize(auth *AgentAuthorizeParams) (*AgentAuthorize, error) { r := a.c.newRequest("POST", "/v1/agent/connect/authorize") r.obj = auth _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return nil, err } defer resp.Body.Close() var out AgentAuthorize if err := decodeBody(resp, &out); err != nil { return nil, err } return &out, nil } // ConnectCARoots returns the list of roots. func (a *Agent) ConnectCARoots(q *QueryOptions) (*CARootList, *QueryMeta, error) { r := a.c.newRequest("GET", "/v1/agent/connect/ca/roots") r.setQueryOptions(q) rtt, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return nil, nil, err } defer resp.Body.Close() qm := &QueryMeta{} parseQueryMeta(resp, qm) qm.RequestTime = rtt var out CARootList if err := decodeBody(resp, &out); err != nil { return nil, nil, err } return &out, qm, nil } // ConnectCALeaf gets the leaf certificate for the given service ID. func (a *Agent) ConnectCALeaf(serviceID string, q *QueryOptions) (*LeafCert, *QueryMeta, error) { r := a.c.newRequest("GET", "/v1/agent/connect/ca/leaf/"+serviceID) r.setQueryOptions(q) rtt, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return nil, nil, err } defer resp.Body.Close() qm := &QueryMeta{} parseQueryMeta(resp, qm) qm.RequestTime = rtt var out LeafCert if err := decodeBody(resp, &out); err != nil { return nil, nil, err } return &out, qm, nil } // EnableServiceMaintenance toggles service maintenance mode on // for the given service ID. func (a *Agent) EnableServiceMaintenance(serviceID, reason string) error { r := a.c.newRequest("PUT", "/v1/agent/service/maintenance/"+serviceID) r.params.Set("enable", "true") r.params.Set("reason", reason) _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return err } resp.Body.Close() return nil } // DisableServiceMaintenance toggles service maintenance mode off // for the given service ID. func (a *Agent) DisableServiceMaintenance(serviceID string) error { r := a.c.newRequest("PUT", "/v1/agent/service/maintenance/"+serviceID) r.params.Set("enable", "false") _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return err } resp.Body.Close() return nil } // EnableNodeMaintenance toggles node maintenance mode on for the // agent we are connected to. func (a *Agent) EnableNodeMaintenance(reason string) error { r := a.c.newRequest("PUT", "/v1/agent/maintenance") r.params.Set("enable", "true") r.params.Set("reason", reason) _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return err } resp.Body.Close() return nil } // DisableNodeMaintenance toggles node maintenance mode off for the // agent we are connected to. func (a *Agent) DisableNodeMaintenance() error { r := a.c.newRequest("PUT", "/v1/agent/maintenance") r.params.Set("enable", "false") _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return err } resp.Body.Close() return nil } // Monitor returns a channel which will receive streaming logs from the agent // Providing a non-nil stopCh can be used to close the connection and stop the // log stream. An empty string will be sent down the given channel when there's // nothing left to stream, after which the caller should close the stopCh. func (a *Agent) Monitor(loglevel string, stopCh <-chan struct{}, q *QueryOptions) (chan string, error) { return a.monitor(loglevel, false, stopCh, q) } // MonitorJSON is like Monitor except it returns logs in JSON format. func (a *Agent) MonitorJSON(loglevel string, stopCh <-chan struct{}, q *QueryOptions) (chan string, error) { return a.monitor(loglevel, true, stopCh, q) } func (a *Agent) monitor(loglevel string, logJSON bool, stopCh <-chan struct{}, q *QueryOptions) (chan string, error) { r := a.c.newRequest("GET", "/v1/agent/monitor") r.setQueryOptions(q) if loglevel != "" { r.params.Add("loglevel", loglevel) } if logJSON { r.params.Set("logjson", "true") } _, resp, err := requireOK(a.c.doRequest(r)) if err != nil { return nil, err } logCh := make(chan string, 64) go func() { defer resp.Body.Close() scanner := bufio.NewScanner(resp.Body) for { select { case <-stopCh: close(logCh) return default: } if scanner.Scan() { // An empty string signals to the caller that // the scan is done, so make sure we only emit // that when the scanner says it's done, not if // we happen to ingest an empty line. if text := scanner.Text(); text != "" { logCh <- text } else { logCh <- " " } } else { logCh <- "" } } }() return logCh, nil } // UpdateACLToken updates the agent's "acl_token". See updateToken for more // details. // // DEPRECATED (ACL-Legacy-Compat) - Prefer UpdateDefaultACLToken for v1.4.3 and above func (a *Agent) UpdateACLToken(token string, q *WriteOptions) (*WriteMeta, error) { return a.updateToken("acl_token", token, q) } // UpdateACLAgentToken updates the agent's "acl_agent_token". See updateToken // for more details. // // DEPRECATED (ACL-Legacy-Compat) - Prefer UpdateAgentACLToken for v1.4.3 and above func (a *Agent) UpdateACLAgentToken(token string, q *WriteOptions) (*WriteMeta, error) { return a.updateToken("acl_agent_token", token, q) } // UpdateACLAgentMasterToken updates the agent's "acl_agent_master_token". See // updateToken for more details. // // DEPRECATED (ACL-Legacy-Compat) - Prefer UpdateAgentMasterACLToken for v1.4.3 and above func (a *Agent) UpdateACLAgentMasterToken(token string, q *WriteOptions) (*WriteMeta, error) { return a.updateToken("acl_agent_master_token", token, q) } // UpdateACLReplicationToken updates the agent's "acl_replication_token". See // updateToken for more details. // // DEPRECATED (ACL-Legacy-Compat) - Prefer UpdateReplicationACLToken for v1.4.3 and above func (a *Agent) UpdateACLReplicationToken(token string, q *WriteOptions) (*WriteMeta, error) { return a.updateToken("acl_replication_token", token, q) } // UpdateDefaultACLToken updates the agent's "default" token. See updateToken // for more details func (a *Agent) UpdateDefaultACLToken(token string, q *WriteOptions) (*WriteMeta, error) { return a.updateTokenFallback("default", "acl_token", token, q) } // UpdateAgentACLToken updates the agent's "agent" token. See updateToken // for more details func (a *Agent) UpdateAgentACLToken(token string, q *WriteOptions) (*WriteMeta, error) { return a.updateTokenFallback("agent", "acl_agent_token", token, q) } // UpdateAgentMasterACLToken updates the agent's "agent_master" token. See updateToken // for more details func (a *Agent) UpdateAgentMasterACLToken(token string, q *WriteOptions) (*WriteMeta, error) { return a.updateTokenFallback("agent_master", "acl_agent_master_token", token, q) } // UpdateReplicationACLToken updates the agent's "replication" token. See updateToken // for more details func (a *Agent) UpdateReplicationACLToken(token string, q *WriteOptions) (*WriteMeta, error) { return a.updateTokenFallback("replication", "acl_replication_token", token, q) } // updateToken can be used to update one of an agent's ACL tokens after the agent has // started. The tokens are may not be persisted, so will need to be updated again if // the agent is restarted unless the agent is configured to persist them. func (a *Agent) updateToken(target, token string, q *WriteOptions) (*WriteMeta, error) { meta, _, err := a.updateTokenOnce(target, token, q) return meta, err } func (a *Agent) updateTokenFallback(target, fallback, token string, q *WriteOptions) (*WriteMeta, error) { meta, status, err := a.updateTokenOnce(target, token, q) if err != nil && status == 404 { meta, _, err = a.updateTokenOnce(fallback, token, q) } return meta, err } func (a *Agent) updateTokenOnce(target, token string, q *WriteOptions) (*WriteMeta, int, error) { r := a.c.newRequest("PUT", fmt.Sprintf("/v1/agent/token/%s", target)) r.setWriteOptions(q) r.obj = &AgentToken{Token: token} rtt, resp, err := a.c.doRequest(r) if err != nil { return nil, 0, err } defer resp.Body.Close() wm := &WriteMeta{RequestTime: rtt} if resp.StatusCode != 200 { var buf bytes.Buffer io.Copy(&buf, resp.Body) return wm, resp.StatusCode, fmt.Errorf("Unexpected response code: %d (%s)", resp.StatusCode, buf.Bytes()) } return wm, resp.StatusCode, nil }