package command import ( "encoding/json" "errors" "fmt" "sort" "strings" "time" "github.com/hashicorp/vault/api" "github.com/mitchellh/cli" "github.com/posener/complete" "github.com/ryanuber/columnize" ) var _ cli.Command = (*OperatorUsageCommand)(nil) var _ cli.CommandAutocomplete = (*OperatorUsageCommand)(nil) type OperatorUsageCommand struct { *BaseCommand flagStartTime time.Time flagEndTime time.Time } func (c *OperatorUsageCommand) Synopsis() string { return "Lists historical client counts" } func (c *OperatorUsageCommand) Help() string { helpText := ` Usage: vault operator usage List the client counts for the default reporting period. $ vault operator usage List the client counts for a specific time period. $ vault operator usage -start-time=2020-10 -end-time=2020-11 ` + c.Flags().Help() return strings.TrimSpace(helpText) } func (c *OperatorUsageCommand) Flags() *FlagSets { set := c.flagSet(FlagSetHTTP | FlagSetOutputFormat) f := set.NewFlagSet("Command Options") f.TimeVar(&TimeVar{ Name: "start-time", Usage: "Start of report period. Defaults to 'default_reporting_period' before end time.", Target: &c.flagStartTime, Completion: complete.PredictNothing, Default: time.Time{}, Formats: TimeVar_TimeOrDay | TimeVar_Month, }) f.TimeVar(&TimeVar{ Name: "end-time", Usage: "End of report period. Defaults to end of last month.", Target: &c.flagEndTime, Completion: complete.PredictNothing, Default: time.Time{}, Formats: TimeVar_TimeOrDay | TimeVar_Month, }) return set } func (c *OperatorUsageCommand) AutocompleteArgs() complete.Predictor { return complete.PredictAnything } func (c *OperatorUsageCommand) AutocompleteFlags() complete.Flags { return c.Flags().Completions() } func (c *OperatorUsageCommand) Run(args []string) int { f := c.Flags() if err := f.Parse(args); err != nil { c.UI.Error(err.Error()) return 1 } data := make(map[string][]string) if !c.flagStartTime.IsZero() { data["start_time"] = []string{c.flagStartTime.Format(time.RFC3339)} } if !c.flagEndTime.IsZero() { data["end_time"] = []string{c.flagEndTime.Format(time.RFC3339)} } client, err := c.Client() if err != nil { c.UI.Error(err.Error()) return 2 } resp, err := client.Logical().ReadWithData("sys/internal/counters/activity", data) if err != nil { c.UI.Error(fmt.Sprintf("Error retrieving client counts: %v", err)) return 2 } if resp == nil || resp.Data == nil { if c.noReportAvailable(client) { c.UI.Warn("Vault does not have any usage data available. A report will be available\n" + "after the first calendar month in which monitoring is enabled.") } else { c.UI.Warn("No data is available for the given time range.") } // No further output return 0 } switch Format(c.UI) { case "table": default: // Handle JSON, YAML, etc. return OutputData(c.UI, resp) } // Show this before the headers c.outputTimestamps(resp.Data) out := []string{ "Namespace path | Distinct entities | Non-Entity tokens | Active clients", } out = append(out, c.namespacesOutput(resp.Data)...) out = append(out, c.totalOutput(resp.Data)...) colConfig := columnize.DefaultConfig() colConfig.Empty = " " // Do not show n/a on intentional blank lines colConfig.Glue = " " c.UI.Output(tableOutput(out, colConfig)) return 0 } // noReportAvailable checks whether we can definitively say that no // queries can be answered; if there's an error, just fall back to // reporting that the response is empty. func (c *OperatorUsageCommand) noReportAvailable(client *api.Client) bool { if c.flagOutputCurlString { // Don't mess up the original query string return false } resp, err := client.Logical().Read("sys/internal/counters/config") if err != nil || resp == nil || resp.Data == nil { c.UI.Warn("bad response from config") return false } qaRaw, ok := resp.Data["queries_available"] if !ok { c.UI.Warn("no queries_available key") return false } qa, ok := qaRaw.(bool) if !ok { c.UI.Warn("wrong type") return false } return !qa } func (c *OperatorUsageCommand) outputTimestamps(data map[string]interface{}) { c.UI.Output(fmt.Sprintf("Period start: %v\nPeriod end: %v\n", data["start_time"].(string), data["end_time"].(string))) } type UsageCommandNamespace struct { formattedLine string sortOrder string // Sort order: // -- root first // -- namespaces in lexicographic order // -- deleted namespace "xxxxx" last } type UsageResponse struct { namespacePath string entityCount int64 tokenCount int64 clientCount int64 } func jsonNumberOK(m map[string]interface{}, key string) (int64, bool) { val, ok := m[key].(json.Number) if !ok { return 0, false } intVal, err := val.Int64() if err != nil { return 0, false } return intVal, true } // TODO: provide a function in the API module for doing this conversion? func (c *OperatorUsageCommand) parseNamespaceCount(rawVal interface{}) (UsageResponse, error) { var ret UsageResponse val, ok := rawVal.(map[string]interface{}) if !ok { return ret, errors.New("value is not a map") } ret.namespacePath, ok = val["namespace_path"].(string) if !ok { return ret, errors.New("bad namespace path") } counts, ok := val["counts"].(map[string]interface{}) if !ok { return ret, errors.New("missing counts") } ret.entityCount, ok = jsonNumberOK(counts, "distinct_entities") if !ok { return ret, errors.New("missing distinct_entities") } ret.tokenCount, ok = jsonNumberOK(counts, "non_entity_tokens") if !ok { return ret, errors.New("missing non_entity_tokens") } ret.clientCount, ok = jsonNumberOK(counts, "clients") if !ok { return ret, errors.New("missing clients") } return ret, nil } func (c *OperatorUsageCommand) namespacesOutput(data map[string]interface{}) []string { byNs, ok := data["by_namespace"].([]interface{}) if !ok { c.UI.Error("missing namespace breakdown in response") return nil } nsOut := make([]UsageCommandNamespace, 0, len(byNs)) for _, rawVal := range byNs { val, err := c.parseNamespaceCount(rawVal) if err != nil { c.UI.Error(fmt.Sprintf("malformed namespace in response: %v", err)) continue } sortOrder := "1" + val.namespacePath if val.namespacePath == "" { val.namespacePath = "[root]" sortOrder = "0" } else if strings.HasPrefix(val.namespacePath, "deleted namespace") { sortOrder = "2" + val.namespacePath } formattedLine := fmt.Sprintf("%s | %d | %d | %d", val.namespacePath, val.entityCount, val.tokenCount, val.clientCount) nsOut = append(nsOut, UsageCommandNamespace{ formattedLine: formattedLine, sortOrder: sortOrder, }) } sort.Slice(nsOut, func(i, j int) bool { return nsOut[i].sortOrder < nsOut[j].sortOrder }) out := make([]string, len(nsOut)) for i := range nsOut { out[i] = nsOut[i].formattedLine } return out } func (c *OperatorUsageCommand) totalOutput(data map[string]interface{}) []string { // blank line separating it from namespaces out := []string{" | | | "} total, ok := data["total"].(map[string]interface{}) if !ok { c.UI.Error("missing total in response") return out } entityCount, ok := jsonNumberOK(total, "distinct_entities") if !ok { c.UI.Error("missing distinct_entities in total") return out } tokenCount, ok := jsonNumberOK(total, "non_entity_tokens") if !ok { c.UI.Error("missing non_entity_tokens in total") return out } clientCount, ok := jsonNumberOK(total, "clients") if !ok { c.UI.Error("missing clients in total") return out } out = append(out, fmt.Sprintf("Total | %d | %d | %d", entityCount, tokenCount, clientCount)) return out }