package http import ( "context" "encoding/json" "fmt" "net/http" "strconv" "time" "github.com/hashicorp/go-secure-stdlib/parseutil" "github.com/hashicorp/vault/sdk/helper/consts" "github.com/hashicorp/vault/sdk/version" "github.com/hashicorp/vault/vault" ) func handleSysHealth(core *vault.Core) http.Handler { return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) { switch r.Method { case "GET": handleSysHealthGet(core, w, r) case "HEAD": handleSysHealthHead(core, w, r) default: respondError(w, http.StatusMethodNotAllowed, nil) } }) } func fetchStatusCode(r *http.Request, field string) (int, bool, bool) { var err error statusCode := http.StatusOK if statusCodeStr, statusCodeOk := r.URL.Query()[field]; statusCodeOk { statusCode, err = strconv.Atoi(statusCodeStr[0]) if err != nil || len(statusCodeStr) < 1 { return http.StatusBadRequest, false, false } return statusCode, true, true } return statusCode, false, true } func handleSysHealthGet(core *vault.Core, w http.ResponseWriter, r *http.Request) { code, body, err := getSysHealth(core, r) if err != nil { core.Logger().Error("error checking health", "error", err) respondError(w, code, nil) return } if body == nil { respondError(w, code, nil) return } w.Header().Set("Content-Type", "application/json") w.WriteHeader(code) // Generate the response enc := json.NewEncoder(w) enc.Encode(body) } func handleSysHealthHead(core *vault.Core, w http.ResponseWriter, r *http.Request) { code, body, _ := getSysHealth(core, r) if body != nil { w.Header().Set("Content-Type", "application/json") } w.WriteHeader(code) } func getSysHealth(core *vault.Core, r *http.Request) (int, *HealthResponse, error) { var err error // Check if being a standby is allowed for the purpose of a 200 OK standbyOKStr, standbyOK := r.URL.Query()["standbyok"] if standbyOK { standbyOK, err = parseutil.ParseBool(standbyOKStr[0]) if err != nil { return http.StatusBadRequest, nil, fmt.Errorf("bad value for standbyok parameter: %w", err) } } perfStandbyOKStr, perfStandbyOK := r.URL.Query()["perfstandbyok"] if perfStandbyOK { perfStandbyOK, err = parseutil.ParseBool(perfStandbyOKStr[0]) if err != nil { return http.StatusBadRequest, nil, fmt.Errorf("bad value for perfstandbyok parameter: %w", err) } } uninitCode := http.StatusNotImplemented if code, found, ok := fetchStatusCode(r, "uninitcode"); !ok { return http.StatusBadRequest, nil, nil } else if found { uninitCode = code } sealedCode := http.StatusServiceUnavailable if code, found, ok := fetchStatusCode(r, "sealedcode"); !ok { return http.StatusBadRequest, nil, nil } else if found { sealedCode = code } standbyCode := http.StatusTooManyRequests // Consul warning code if code, found, ok := fetchStatusCode(r, "standbycode"); !ok { return http.StatusBadRequest, nil, nil } else if found { standbyCode = code } activeCode := http.StatusOK if code, found, ok := fetchStatusCode(r, "activecode"); !ok { return http.StatusBadRequest, nil, nil } else if found { activeCode = code } drSecondaryCode := 472 // unofficial 4xx status code if code, found, ok := fetchStatusCode(r, "drsecondarycode"); !ok { return http.StatusBadRequest, nil, nil } else if found { drSecondaryCode = code } perfStandbyCode := 473 // unofficial 4xx status code if code, found, ok := fetchStatusCode(r, "performancestandbycode"); !ok { return http.StatusBadRequest, nil, nil } else if found { perfStandbyCode = code } ctx := context.Background() // Check system status sealed := core.Sealed() standby, perfStandby := core.StandbyStates() var replicationState consts.ReplicationState if standby { replicationState = core.ActiveNodeReplicationState() } else { replicationState = core.ReplicationState() } init, err := core.Initialized(ctx) if err != nil { return http.StatusInternalServerError, nil, err } // Determine the status code code := activeCode switch { case !init: code = uninitCode case sealed: code = sealedCode case replicationState.HasState(consts.ReplicationDRSecondary): code = drSecondaryCode case perfStandby: if !perfStandbyOK { code = perfStandbyCode } case standby: if !standbyOK { code = standbyCode } } // Fetch the local cluster name and identifier var clusterName, clusterID string if !sealed { cluster, err := core.Cluster(ctx) if err != nil { return http.StatusInternalServerError, nil, err } if cluster == nil { return http.StatusInternalServerError, nil, fmt.Errorf("failed to fetch cluster details") } clusterName = cluster.Name clusterID = cluster.ID } // Format the body body := &HealthResponse{ Initialized: init, Sealed: sealed, Standby: standby, PerformanceStandby: perfStandby, ReplicationPerformanceMode: replicationState.GetPerformanceString(), ReplicationDRMode: replicationState.GetDRString(), ServerTimeUTC: time.Now().UTC().Unix(), Version: version.GetVersion().VersionNumber(), ClusterName: clusterName, ClusterID: clusterID, } licenseState, err := vault.LicenseSummary(core) if err != nil { return http.StatusInternalServerError, nil, err } if licenseState != nil { body.License = &HealthResponseLicense{ State: licenseState.State, Terminated: licenseState.Terminated, } if !licenseState.ExpiryTime.IsZero() { body.License.ExpiryTime = licenseState.ExpiryTime.Format(time.RFC3339) } } if init && !sealed && !standby { body.LastWAL = vault.LastWAL(core) } return code, body, nil } type HealthResponseLicense struct { State string `json:"state"` ExpiryTime string `json:"expiry_time"` Terminated bool `json:"terminated"` } type HealthResponse struct { Initialized bool `json:"initialized"` Sealed bool `json:"sealed"` Standby bool `json:"standby"` PerformanceStandby bool `json:"performance_standby"` ReplicationPerformanceMode string `json:"replication_performance_mode"` ReplicationDRMode string `json:"replication_dr_mode"` ServerTimeUTC int64 `json:"server_time_utc"` Version string `json:"version"` ClusterName string `json:"cluster_name,omitempty"` ClusterID string `json:"cluster_id,omitempty"` LastWAL uint64 `json:"last_wal,omitempty"` License *HealthResponseLicense `json:"license,omitempty"` }