package tui import ( "fmt" "net/url" "strconv" "strings" "time" "gitea.lerkolabs.com/lerko/uptop/internal/models" tea "github.com/charmbracelet/bubbletea" "github.com/charmbracelet/huh" "github.com/charmbracelet/lipgloss" ) var sparkChars = []rune{'▁', '▂', '▃', '▄', '▅', '▆', '▇', '█'} func typeIcon(siteType string, collapsed bool) string { switch siteType { case "http": return "→" case "push": return "↓" case "ping": return "↔" case "port": return "⊡" case "dns": return "◆" case "group": if collapsed { return "▶" } return "▼" default: return "·" } } var siteGroupStyle lipgloss.Style type siteFormData struct { Name string SiteType string URL string Method string AcceptedCodes string Interval string AlertID string CheckSSL bool Threshold string Retries string Hostname string Port string Timeout string Description string IgnoreTLS bool GroupID string Regions string } func latencySparkline(latencies []time.Duration, width int) string { if len(latencies) == 0 { return subtleStyle.Render(strings.Repeat("·", width)) } samples := latencies if len(samples) > width { samples = samples[len(samples)-width:] } minL, maxL := samples[0], samples[0] for _, l := range samples { if l < minL { minL = l } if l > maxL { maxL = l } } var sb strings.Builder if remaining := width - len(samples); remaining > 0 { sb.WriteString(subtleStyle.Render(strings.Repeat("·", remaining))) } spread := maxL - minL for _, l := range samples { idx := 0 if spread > 0 { idx = int(float64(l-minL) / float64(spread) * 7) if idx > 7 { idx = 7 } } ch := string(sparkChars[idx]) ms := l.Milliseconds() if ms < 200 { sb.WriteString(specialStyle.Render(ch)) } else if ms < 500 { sb.WriteString(warnStyle.Render(ch)) } else { sb.WriteString(dangerStyle.Render(ch)) } } return sb.String() } func heartbeatSparkline(statuses []bool, width int) string { if len(statuses) == 0 { return subtleStyle.Render(strings.Repeat("·", width)) } samples := statuses if len(samples) > width { samples = samples[len(samples)-width:] } var sb strings.Builder if remaining := width - len(samples); remaining > 0 { sb.WriteString(subtleStyle.Render(strings.Repeat("·", remaining))) } for _, up := range samples { if up { sb.WriteString(specialStyle.Render("▁")) } else { sb.WriteString(dangerStyle.Render("█")) } } return sb.String() } func (m Model) groupSparkline(groupID int, width int) string { allSites := m.engine.GetAllSites() var childStatuses [][]bool for _, s := range allSites { if s.ParentID == groupID && !s.Paused && !m.isMonitorInMaintenance(s.ID) { hist, _ := m.engine.GetHistory(s.ID) if len(hist.Statuses) > 0 { childStatuses = append(childStatuses, hist.Statuses) } } } if len(childStatuses) == 0 { return subtleStyle.Render(strings.Repeat("·", width)) } maxLen := 0 for _, s := range childStatuses { if len(s) > maxLen { maxLen = len(s) } } if maxLen > width { maxLen = width } aggregated := make([]bool, maxLen) for i := 0; i < maxLen; i++ { allUp := true for _, statuses := range childStatuses { idx := len(statuses) - maxLen + i if idx >= 0 && !statuses[idx] { allUp = false break } } aggregated[i] = allUp } var sb strings.Builder if remaining := width - len(aggregated); remaining > 0 { sb.WriteString(subtleStyle.Render(strings.Repeat("·", remaining))) } for _, up := range aggregated { if up { sb.WriteString(specialStyle.Render("●")) } else { sb.WriteString(dangerStyle.Render("●")) } } return sb.String() } func (m Model) groupUptime(groupID int) string { allSites := m.engine.GetAllSites() var allStatuses [][]bool for _, s := range allSites { if s.ParentID == groupID && !s.Paused && !m.isMonitorInMaintenance(s.ID) { hist, _ := m.engine.GetHistory(s.ID) if len(hist.Statuses) > 0 { allStatuses = append(allStatuses, hist.Statuses) } } } if len(allStatuses) == 0 { return subtleStyle.Render("—") } total, up := 0, 0 for _, statuses := range allStatuses { for _, s := range statuses { total++ if s { up++ } } } return fmtUptime(func() []bool { out := make([]bool, total) idx := 0 for _, statuses := range allStatuses { copy(out[idx:], statuses) idx += len(statuses) } return out }()) } func fmtLatency(d time.Duration) string { ms := d.Milliseconds() if ms == 0 { return subtleStyle.Render("—") } var s string if ms < 1000 { s = fmt.Sprintf("%dms", ms) } else { s = fmt.Sprintf("%.1fs", float64(ms)/1000) } if ms < 200 { return specialStyle.Render(s) } if ms < 500 { return warnStyle.Render(s) } return dangerStyle.Render(s) } func fmtUptime(statuses []bool) string { if len(statuses) == 0 { return subtleStyle.Render("—") } up := 0 for _, s := range statuses { if s { up++ } } pct := float64(up) / float64(len(statuses)) * 100 s := fmt.Sprintf("%.1f%%", pct) if pct >= 99 { return specialStyle.Render(s) } if pct >= 95 { return warnStyle.Render(s) } return dangerStyle.Render(s) } func fmtSSL(site models.Site) string { if site.Type != "http" || !site.CheckSSL || !site.HasSSL { return subtleStyle.Render("-") } days := int(time.Until(site.CertExpiry).Hours() / 24) s := fmt.Sprintf("%dd", days) if days <= 0 { return dangerStyle.Render("EXPIRED") } if days <= site.ExpiryThreshold { return warnStyle.Render(s) } return specialStyle.Render(s) } func fmtRetries(site models.Site) string { retriesDone := site.FailureCount - 1 if retriesDone < 0 { retriesDone = 0 } dispCount := retriesDone if dispCount > site.MaxRetries { dispCount = site.MaxRetries } s := fmt.Sprintf("%d/%d", dispCount, site.MaxRetries) if site.Status == "DOWN" { return dangerStyle.Render(s) } if site.Status == "UP" && site.FailureCount > 0 { return warnStyle.Render(s) } return s } func fmtStatus(status string, paused bool, inMaint bool) string { if paused { return warnStyle.Render("PAUSED") } if inMaint { return maintStyle.Render("MAINT") } switch status { case "DOWN", "SSL EXP": return dangerStyle.Render(status) case "LATE": return warnStyle.Render(status) case "PENDING": return subtleStyle.Render(status) default: return specialStyle.Render(status) } } func fmtDuration(d time.Duration) string { if d < time.Minute { return fmt.Sprintf("%ds", int(d.Seconds())) } if d < time.Hour { return fmt.Sprintf("%dm", int(d.Minutes())) } if d < 24*time.Hour { h := int(d.Hours()) m := int(d.Minutes()) % 60 if m > 0 { return fmt.Sprintf("%dh %dm", h, m) } return fmt.Sprintf("%dh", h) } days := int(d.Hours()) / 24 hours := int(d.Hours()) % 24 if hours > 0 { return fmt.Sprintf("%dd %dh", days, hours) } return fmt.Sprintf("%dd", days) } type tableLayout struct { nameW, sparkW int headers []string colWidths []int } func (m Model) computeLayout() tableLayout { type colDef struct { short string full string minWidth int maxWidth int } cols := []colDef{ {"#", "#", 4, 6}, {"", "", 0, 0}, // NAME (dynamic) {"TYPE", "TYPE", 8, 10}, {"STATUS", "STATUS", 8, 10}, {"LAT", "LATENCY", 7, 10}, {"UP%", "UPTIME", 8, 8}, {"", "", 0, 0}, // HISTORY (dynamic) {"SSL", "SSL", 5, 7}, {"RT", "RETRIES", 5, 9}, } overhead := 30 usable := m.termWidth - chromePadH - 2 - overhead if usable < 80 { usable = 80 } fixedMin := 0 for i, c := range cols { if i == 1 || i == 6 { continue } fixedMin += c.minWidth } maxName := 0 for _, s := range m.sites { if n := len([]rune(s.Name)); n > maxName { maxName = n } } maxName += 4 // icon + padding + error preview room avail := usable - fixedMin nameW := avail / 2 if nameW > maxName { nameW = maxName } sparkW := avail - nameW - 2 if nameW < 13 { nameW = 13 } if nameW > 40 { nameW = 40 } if sparkW < 10 { sparkW = 10 } if sparkW > 60 { sparkW = 60 } surplus := usable - fixedMin - nameW - sparkW - 2 if surplus < 0 { surplus = 0 } headers := make([]string, len(cols)) widths := make([]int, len(cols)) for i, c := range cols { if i == 1 { headers[i] = "NAME" widths[i] = 0 continue } if i == 6 { headers[i] = "HISTORY" widths[i] = sparkW + 2 continue } w := c.minWidth expand := c.maxWidth - c.minWidth if surplus >= expand { w = c.maxWidth surplus -= expand } else if surplus > 0 { w += surplus surplus = 0 } if w >= len(c.full)+2 { headers[i] = c.full } else { headers[i] = c.short } widths[i] = w } return tableLayout{ nameW: nameW, sparkW: sparkW, headers: headers, colWidths: widths, } } func (m Model) viewSitesTab() string { if len(m.sites) == 0 { welcome := lipgloss.NewStyle(). Border(lipgloss.RoundedBorder()). BorderForeground(m.theme.Accent). Padding(1, 3). Render( titleStyle.Render("uptop") + "\n\n" + "No monitors configured yet.\n\n" + subtleStyle.Render("[n] Add your first monitor"), ) return "\n" + welcome } layout := m.computeLayout() nameW := layout.nameW sparkWidth := layout.sparkW var groupRows map[int]bool return m.renderTable( layout.headers, len(m.sites), func(start, end int) [][]string { groupRows = make(map[int]bool) var rows [][]string for i := start; i < end; i++ { site := m.sites[i] if site.Type == "group" { groupRows[i-start] = true icon := typeIcon("group", m.collapsed[site.ID]) rows = append(rows, []string{ strconv.Itoa(i + 1), m.zones.Mark(fmt.Sprintf("site-%d", i), icon+" "+limitStr(site.Name, nameW-2)), "group", fmtStatus(site.Status, site.Paused, m.isMonitorInMaintenance(site.ID)), subtleStyle.Render("—"), m.groupUptime(site.ID), m.groupSparkline(site.ID, sparkWidth), subtleStyle.Render("-"), subtleStyle.Render("—"), }) continue } name := site.Name if site.ParentID > 0 { prefix := "├" if i+1 >= len(m.sites) || m.sites[i+1].ParentID != site.ParentID { prefix = "└" } name = prefix + " " + limitStr(name, nameW-2) } else { name = limitStr(name, nameW) } if (site.Status == "DOWN" || site.Status == "SSL EXP" || site.Status == "LATE") && site.LastError != "" { nameLen := len([]rune(name)) errSpace := nameW - nameLen - 1 if errSpace > 10 { name = name + " " + subtleStyle.Render(limitStr(site.LastError, errSpace)) } } hist, _ := m.engine.GetHistory(site.ID) var spark string if site.Type == "push" { spark = heartbeatSparkline(hist.Statuses, sparkWidth) } else { spark = latencySparkline(hist.Latencies, sparkWidth) } rows = append(rows, []string{ strconv.Itoa(i + 1), m.zones.Mark(fmt.Sprintf("site-%d", i), name), typeIcon(site.Type, false) + " " + site.Type, fmtStatus(site.Status, site.Paused, m.isMonitorInMaintenance(site.ID)), fmtLatency(site.Latency), fmtUptime(hist.Statuses), spark, fmtSSL(site), fmtRetries(site), }) } return rows }, layout.colWidths, func(row, col int) *lipgloss.Style { if groupRows[row] { s := siteGroupStyle return &s } return nil }, ) } func (m *Model) initSiteHuhForm() tea.Cmd { m.siteFormData = &siteFormData{ SiteType: "http", Method: "GET", AcceptedCodes: "200-299", Interval: "60", Threshold: "7", Retries: "0", Timeout: "5", Port: "0", GroupID: "0", } if m.editID > 0 { for _, site := range m.sites { if site.ID == m.editID { m.siteFormData.Name = site.Name m.siteFormData.SiteType = site.Type m.siteFormData.URL = site.URL m.siteFormData.Interval = strconv.Itoa(site.Interval) m.siteFormData.AlertID = strconv.Itoa(site.AlertID) m.siteFormData.CheckSSL = site.CheckSSL m.siteFormData.Threshold = strconv.Itoa(site.ExpiryThreshold) m.siteFormData.Retries = strconv.Itoa(site.MaxRetries) m.siteFormData.Hostname = site.Hostname m.siteFormData.Port = strconv.Itoa(site.Port) m.siteFormData.Timeout = strconv.Itoa(site.Timeout) m.siteFormData.Description = site.Description m.siteFormData.IgnoreTLS = site.IgnoreTLS m.siteFormData.GroupID = strconv.Itoa(site.ParentID) m.siteFormData.Method = site.Method m.siteFormData.AcceptedCodes = site.AcceptedCodes m.siteFormData.Regions = site.Regions break } } } alertOpts := []huh.Option[string]{huh.NewOption("None", "0")} if alerts, err := m.store.GetAllAlerts(); err == nil { for _, a := range alerts { alertOpts = append(alertOpts, huh.NewOption( fmt.Sprintf("%s (%s)", a.Name, a.Type), strconv.Itoa(a.ID), )) } } groupOpts := []huh.Option[string]{huh.NewOption("None", "0")} for _, s := range m.sites { if s.Type == "group" && s.ID != m.editID { groupOpts = append(groupOpts, huh.NewOption(s.Name, strconv.Itoa(s.ID))) } } m.huhForm = huh.NewForm( huh.NewGroup( huh.NewInput().Title("Monitor Name"). Placeholder("My Service"). Value(&m.siteFormData.Name). Validate(func(s string) error { if s == "" { return fmt.Errorf("name is required") } return nil }), huh.NewSelect[string]().Title("Monitor Type"). Options( huh.NewOption("HTTP/HTTPS", "http"), huh.NewOption("Push / Heartbeat", "push"), huh.NewOption("Ping (ICMP)", "ping"), huh.NewOption("TCP Port", "port"), huh.NewOption("DNS", "dns"), huh.NewOption("Group", "group"), ).Value(&m.siteFormData.SiteType), huh.NewSelect[string]().Title("Alert Channel"). Options(alertOpts...). Value(&m.siteFormData.AlertID), ).Title("Monitor Settings"), huh.NewGroup( huh.NewInput().Title("URL"). Placeholder("https://example.com"). Description("Required for HTTP monitors"). Value(&m.siteFormData.URL). Validate(func(s string) error { if m.siteFormData.SiteType != "http" { return nil } if s == "" { return fmt.Errorf("URL is required for HTTP monitors") } u, err := url.Parse(s) if err != nil { return fmt.Errorf("invalid URL") } if u.Scheme != "http" && u.Scheme != "https" { return fmt.Errorf("URL must start with http:// or https://") } if u.Host == "" { return fmt.Errorf("URL must include a host") } return nil }), huh.NewInput().Title("Check Interval (seconds)"). Placeholder("60"). Value(&m.siteFormData.Interval). Validate(func(s string) error { if m.siteFormData.SiteType == "group" { return nil } v, err := strconv.Atoi(s) if err != nil { return fmt.Errorf("must be a number") } if v < 5 { return fmt.Errorf("minimum interval is 5 seconds") } return nil }), huh.NewSelect[string]().Title("Parent Group"). Options(groupOpts...). Value(&m.siteFormData.GroupID), huh.NewInput().Title("Hostname / IP"). Placeholder("10.0.0.1"). Description("Target for ping/port/DNS monitors"). Value(&m.siteFormData.Hostname), huh.NewInput().Title("Port"). Placeholder("0"). Description("Target port for TCP port monitors"). Value(&m.siteFormData.Port). Validate(func(s string) error { if m.siteFormData.SiteType != "port" { return nil } v, err := strconv.Atoi(s) if err != nil { return fmt.Errorf("must be a number") } if v < 1 || v > 65535 { return fmt.Errorf("port must be 1-65535") } return nil }), huh.NewInput().Title("Timeout (seconds)"). Placeholder("5"). Value(&m.siteFormData.Timeout). Validate(func(s string) error { if m.siteFormData.SiteType == "group" { return nil } v, err := strconv.Atoi(s) if err != nil { return fmt.Errorf("must be a number") } if v < 1 || v > 300 { return fmt.Errorf("timeout must be 1-300 seconds") } return nil }), huh.NewInput().Title("Description"). Placeholder("Optional description"). Value(&m.siteFormData.Description), huh.NewInput().Title("Probe Regions"). Placeholder("us-east, eu-west (empty = all)"). Description("Comma-separated regions for distributed probing"). Value(&m.siteFormData.Regions), ).Title("Connection").WithHideFunc(func() bool { return m.siteFormData.SiteType == "group" }), huh.NewGroup( huh.NewSelect[string]().Title("HTTP Method"). Options( huh.NewOption("GET", "GET"), huh.NewOption("POST", "POST"), huh.NewOption("PUT", "PUT"), huh.NewOption("PATCH", "PATCH"), huh.NewOption("DELETE", "DELETE"), huh.NewOption("HEAD", "HEAD"), huh.NewOption("OPTIONS", "OPTIONS"), ).Value(&m.siteFormData.Method), huh.NewInput().Title("Accepted Status Codes"). Placeholder("200-299"). Description("Ranges (200-299) and singles (301) separated by commas"). Value(&m.siteFormData.AcceptedCodes), ).Title("HTTP Settings").WithHideFunc(func() bool { return m.siteFormData.SiteType != "http" }), huh.NewGroup( huh.NewConfirm().Title("Monitor SSL Certificate?"). Value(&m.siteFormData.CheckSSL), huh.NewInput().Title("SSL Warning Threshold (days)"). Placeholder("7"). Value(&m.siteFormData.Threshold). Validate(func(s string) error { if !m.siteFormData.CheckSSL { return nil } v, err := strconv.Atoi(s) if err != nil { return fmt.Errorf("must be a number") } if v < 1 { return fmt.Errorf("threshold must be at least 1 day") } return nil }), huh.NewInput().Title("Max Retries Before Alert"). Placeholder("0"). Value(&m.siteFormData.Retries). Validate(func(s string) error { if m.siteFormData.SiteType == "group" { return nil } v, err := strconv.Atoi(s) if err != nil { return fmt.Errorf("must be a number") } if v < 0 { return fmt.Errorf("retries cannot be negative") } return nil }), huh.NewConfirm().Title("Ignore TLS Errors?"). Value(&m.siteFormData.IgnoreTLS), ).Title("Advanced").WithHideFunc(func() bool { return m.siteFormData.SiteType == "group" }), ).WithTheme(m.theme.HuhTheme()) return m.huhForm.Init() } func (m *Model) submitSiteForm() { d := m.siteFormData interval, _ := strconv.Atoi(d.Interval) alertID, _ := strconv.Atoi(d.AlertID) threshold, _ := strconv.Atoi(d.Threshold) retries, _ := strconv.Atoi(d.Retries) port, _ := strconv.Atoi(d.Port) timeout, _ := strconv.Atoi(d.Timeout) groupID, _ := strconv.Atoi(d.GroupID) if interval < 1 { interval = 60 } if threshold < 1 { threshold = 7 } site := models.Site{ ID: m.editID, Name: d.Name, URL: d.URL, Type: d.SiteType, Interval: interval, AlertID: alertID, CheckSSL: d.CheckSSL, ExpiryThreshold: threshold, MaxRetries: retries, Hostname: d.Hostname, Port: port, Timeout: timeout, Description: d.Description, IgnoreTLS: d.IgnoreTLS, ParentID: groupID, Method: d.Method, AcceptedCodes: d.AcceptedCodes, Regions: d.Regions, } if m.editID > 0 { if err := m.store.UpdateSite(site); err != nil { m.engine.AddLog("Update site failed: " + err.Error()) } m.engine.UpdateSiteConfig(site) } else { if err := m.store.AddSite(site); err != nil { m.engine.AddLog("Add site failed: " + err.Error()) } } m.state = stateDashboard } func (m Model) viewDetailPanel() string { if m.cursor >= len(m.sites) { return "" } site := m.sites[m.cursor] hist, _ := m.engine.GetHistory(site.ID) var b strings.Builder var breadcrumb string if site.ParentID > 0 { for _, s := range m.sites { if s.ID == site.ParentID { breadcrumb = subtleStyle.Render(" Sites > "+s.Name+" > ") + titleStyle.Render(site.Name) break } } } if breadcrumb == "" { breadcrumb = subtleStyle.Render(" Sites > ") + titleStyle.Render(site.Name) } b.WriteString(breadcrumb + "\n\n") row := func(label, value string) { fmt.Fprintf(&b, " %-16s %s\n", subtleStyle.Render(label), value) } section := func(label string) { b.WriteString("\n" + subtleStyle.Render(" "+label) + "\n") } row("Status", fmtStatus(site.Status, site.Paused, m.isMonitorInMaintenance(site.ID))) if (site.Status == "DOWN" || site.Status == "SSL EXP" || site.Status == "LATE") && site.LastError != "" { row("Error", dangerStyle.Render(limitStr(site.LastError, 60))) } if site.Type == "http" && site.StatusCode > 0 { row("HTTP Code", strconv.Itoa(site.StatusCode)) } if !site.StatusChangedAt.IsZero() { dur := time.Since(site.StatusChangedAt) row("State Since", site.StatusChangedAt.Format("2006-01-02 15:04:05")+" ("+fmtDuration(dur)+")") } if !site.LastSuccessAt.IsZero() { ago := time.Since(site.LastSuccessAt) row("Last Success", site.LastSuccessAt.Format("15:04:05")+" ("+fmtDuration(ago)+" ago)") } if m.isMonitorInMaintenance(site.ID) { for _, mw := range m.maintenanceWindows { if mw.Type == "maintenance" && (mw.MonitorID == 0 || mw.MonitorID == site.ID || mw.MonitorID == site.ParentID) { row("Maintenance", maintStyle.Render(mw.Title)) break } } } section("ENDPOINT") row("Type", site.Type) if site.URL != "" { row("URL", site.URL) } if site.Hostname != "" { row("Host", site.Hostname) } if site.Port > 0 { row("Port", strconv.Itoa(site.Port)) } section("TIMING") row("Interval", fmt.Sprintf("%ds", site.Interval)) if site.Timeout > 0 { row("Timeout", fmt.Sprintf("%ds", site.Timeout)) } row("Latency", fmtLatency(site.Latency)) row("Uptime", fmtUptime(hist.Statuses)) if !site.LastCheck.IsZero() { row("Last Check", site.LastCheck.Format("15:04:05")) } if site.Type == "http" { section("HTTP") if site.Method != "" && site.Method != "GET" { row("Method", site.Method) } codes := site.AcceptedCodes if codes == "" { codes = "200-299" } row("Codes", codes) row("SSL", fmtSSL(site)) if site.IgnoreTLS { row("TLS Verify", dangerStyle.Render("disabled")) } } if site.MaxRetries > 0 || site.Regions != "" || site.Description != "" { section("CONFIG") if site.MaxRetries > 0 { row("Retries", fmtRetries(site)) } if site.Regions != "" { row("Regions", site.Regions) } if site.Description != "" { row("Description", site.Description) } } probeResults := m.engine.GetProbeResults(site.ID) if len(probeResults) > 0 { b.WriteString("\n" + subtleStyle.Render(" PROBE RESULTS") + "\n") for nodeID, result := range probeResults { status := specialStyle.Render("UP") if !result.IsUp { status = dangerStyle.Render("DN") } latency := time.Duration(result.LatencyNs).Milliseconds() ago := time.Since(result.CheckedAt).Truncate(time.Second) line := fmt.Sprintf(" %-14s %s %dms %s ago", nodeID, status, latency, ago) if !result.IsUp && result.ErrorReason != "" { line += " " + dangerStyle.Render(limitStr(result.ErrorReason, 30)) } b.WriteString(line + "\n") } } stateChanges := m.engine.GetStateChanges(site.ID, 5) if len(stateChanges) > 0 { b.WriteString("\n" + subtleStyle.Render(" STATE CHANGES") + "\n") for _, sc := range stateChanges { ago := fmtDuration(time.Since(sc.ChangedAt)) arrow := subtleStyle.Render(sc.FromStatus) + " → " if sc.ToStatus == "UP" { arrow += specialStyle.Render(sc.ToStatus) } else { arrow += dangerStyle.Render(sc.ToStatus) } line := fmt.Sprintf(" %s %s", arrow, subtleStyle.Render(ago+" ago")) if sc.ErrorReason != "" && sc.ToStatus != "UP" { line += " " + dangerStyle.Render(limitStr(sc.ErrorReason, 40)) } b.WriteString(line + "\n") } } b.WriteString("\n") const sparkWidth = 40 if site.Type == "push" { b.WriteString(" " + heartbeatSparkline(hist.Statuses, sparkWidth)) if len(hist.Statuses) > 0 { up := 0 for _, s := range hist.Statuses { if s { up++ } } fmt.Fprintf(&b, "\n %s %d/%d checks up", subtleStyle.Render("Heartbeats"), up, len(hist.Statuses)) } } else { b.WriteString(" " + latencySparkline(hist.Latencies, sparkWidth)) if len(hist.Latencies) > 0 { minL, maxL := hist.Latencies[0], hist.Latencies[0] var total time.Duration for _, l := range hist.Latencies { total += l if l < minL { minL = l } if l > maxL { maxL = l } } avg := total / time.Duration(len(hist.Latencies)) fmt.Fprintf(&b, "\n %s %dms %s %dms %s %dms", subtleStyle.Render("Min"), minL.Milliseconds(), subtleStyle.Render("Avg"), avg.Milliseconds(), subtleStyle.Render("Max"), maxL.Milliseconds()) } } b.WriteString("\n\n") b.WriteString(subtleStyle.Render(" [i/Esc] Back [e] Edit [q] Quit")) return lipgloss.NewStyle().Padding(1, 2).Render(b.String()) }