Files
uptop/internal/tui/view_detail_inline.go
T
lerko 631f07c242
CI / test (pull_request) Successful in 1m56s
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feat(tui): stable detail panel height with scroll support
Detail sidebar now maintains consistent height matching the monitors
panel across all modes (default, SLA, history). Content scrolls within
the fixed frame via mouse wheel or j/k when the detail panel is
focused. Scroll offset resets on mode/monitor/period changes. Logs
strip stays visible in all states.
2026-06-30 20:36:25 -04:00

375 lines
10 KiB
Go

package tui
import (
"fmt"
"strings"
"time"
"gitea.lerkolabs.com/lerkolabs/uptop/internal/models"
"gitea.lerkolabs.com/lerkolabs/uptop/internal/monitor"
"github.com/charmbracelet/lipgloss"
)
func (m Model) viewDetailInline(width, height int) string {
if m.cursor >= len(m.sites) {
return ""
}
switch m.detailMode {
case detailSLA:
return m.viewSLASidebar(width, height)
case detailHistory:
return m.viewHistorySidebar(width, height)
default:
site := m.sites[m.cursor]
hist, _ := m.engine.GetHistory(site.ID)
return m.viewDetailSidebar(site, hist, width, height)
}
}
func (m Model) viewDetailSidebar(site models.Site, hist monitor.SiteHistory, width, _ int) string {
dot := m.st.subtleStyle.Render(" · ")
label := m.st.subtleStyle
var b strings.Builder
innerW := width - 4
if innerW < 20 {
innerW = 20
}
// Status + latency + last check
status := m.fmtStatus(site.Status, site.Paused, m.isMonitorInMaintenance(site.ID))
statusParts := []string{status}
if site.Latency > 0 {
statusParts = append(statusParts, m.fmtLatency(site.Latency))
}
if !site.LastCheck.IsZero() {
statusParts = append(statusParts, m.fmtTimeAgo(site.LastCheck))
}
b.WriteString(" " + strings.Join(statusParts, dot) + "\n")
// Type-specific details
typeParts := m.detailTypeLine(site)
if len(typeParts) > 0 {
b.WriteString(" " + strings.Join(typeParts, dot) + "\n")
}
// Uptime + retries
uptimeParts := []string{label.Render("Uptime") + " " + m.fmtUptime(hist.Statuses)}
if site.Type != "group" && site.MaxRetries > 0 {
uptimeParts = append(uptimeParts, label.Render("Retries")+" "+m.fmtRetries(site))
}
b.WriteString(" " + strings.Join(uptimeParts, dot) + "\n")
// Error line
if (site.Status == models.StatusDown || site.Status == models.StatusSSLExp ||
site.Status == models.StatusLate || site.Status == models.StatusStale) && site.LastError != "" {
errW := innerW
if errW < 20 {
errW = 20
}
b.WriteString(" " + label.Render("Error") + " " + m.st.dangerStyle.Render(limitStr(site.LastError, errW)) + "\n")
}
b.WriteString("\n")
// Latency chart
if len(hist.Latencies) > 0 {
chart := m.latencyChart(hist.Latencies, hist.Statuses, innerW, 3)
if chart != "" {
b.WriteString(chart + "\n")
}
}
// 30d uptime timeline
if len(m.detailDailyDays) > 0 && m.detailChangesSiteID == site.ID {
b.WriteString(" " + label.Render("30d") + " " + m.uptimeTimeline(m.detailDailyDays, innerW) + "\n")
}
// Sparkline + min/avg/max
if site.Type != "push" && len(hist.Latencies) > 0 {
b.WriteString(" " + m.latencySparkline(hist.Latencies, hist.Statuses, innerW, nil) + "\n")
var minL, maxL, total time.Duration
count := 0
for i, l := range hist.Latencies {
if i < len(hist.Statuses) && !hist.Statuses[i] {
continue
}
if count == 0 {
minL, maxL = l, l
} else if l < minL {
minL = l
} else if l > maxL {
maxL = l
}
total += l
count++
}
if count > 0 {
avg := total / time.Duration(count)
fmt.Fprintf(&b, " %s %dms %s %dms %s %dms\n",
label.Render("Min"), minL.Milliseconds(),
label.Render("Avg"), avg.Milliseconds(),
label.Render("Max"), maxL.Milliseconds())
}
}
b.WriteString("\n")
// State changes
var stateChanges []models.StateChange
if m.detailChangesSiteID == site.ID {
stateChanges = m.detailChanges
}
if len(stateChanges) > 0 {
limit := 5
if len(stateChanges) < limit {
limit = len(stateChanges)
}
for _, sc := range stateChanges[:limit] {
ago := fmtDuration(time.Since(sc.ChangedAt))
arrow := m.st.subtleStyle.Render("→")
from := m.fmtStatusWord(sc.FromStatus)
to := m.fmtStatusWord(sc.ToStatus)
entry := from + " " + arrow + " " + to + " " + label.Render(ago+" ago")
if sc.ErrorReason != "" {
reasonW := innerW - 25
if reasonW < 15 {
reasonW = 15
}
entry += " " + m.st.dangerStyle.Render(limitStr(sc.ErrorReason, reasonW))
}
b.WriteString(" " + entry + "\n")
}
} else {
b.WriteString(" " + label.Render("No state changes") + "\n")
}
b.WriteString("\n " + m.detailKeys() + "\n")
return lipgloss.NewStyle().Width(width).MaxWidth(width).Render(b.String())
}
func (m Model) detailTypeLine(site models.Site) []string {
label := m.st.subtleStyle
var parts []string
switch site.Type {
case "http":
if site.StatusCode > 0 {
codeStr := fmt.Sprintf("HTTP %d", site.StatusCode)
if site.StatusCode >= httpErrorThreshold {
parts = append(parts, m.st.dangerStyle.Render(codeStr))
} else {
parts = append(parts, m.st.specialStyle.Render(codeStr))
}
}
if site.CheckSSL && site.HasSSL {
days := int(time.Until(site.CertExpiry).Hours() / 24)
sslStr := fmt.Sprintf("SSL %dd", days)
switch {
case days <= 0:
parts = append(parts, m.st.dangerStyle.Render("SSL EXPIRED"))
case days <= site.ExpiryThreshold:
parts = append(parts, m.st.warnStyle.Render(sslStr))
default:
parts = append(parts, m.st.specialStyle.Render(sslStr))
}
}
if site.URL != "" {
parts = append(parts, label.Render(limitStr(site.URL, 40)))
}
case "push":
parts = append(parts, label.Render("Push"))
if site.Interval > 0 {
parts = append(parts, label.Render(fmt.Sprintf("every %s", fmtDuration(time.Duration(site.Interval)*time.Second))))
}
if !site.LastSuccessAt.IsZero() {
parts = append(parts, label.Render("last")+" "+m.fmtTimeAgo(site.LastSuccessAt))
}
case "ping":
parts = append(parts, label.Render("Ping"))
if site.Hostname != "" {
parts = append(parts, label.Render(site.Hostname))
}
case "port":
parts = append(parts, label.Render("Port"))
if site.Hostname != "" {
target := site.Hostname
if site.Port > 0 {
target = fmt.Sprintf("%s:%d", site.Hostname, site.Port)
}
parts = append(parts, label.Render(target))
}
case "dns":
parts = append(parts, label.Render("DNS"))
if site.DNSResolveType != "" {
parts = append(parts, label.Render(site.DNSResolveType))
}
if site.DNSServer != "" {
parts = append(parts, label.Render(site.DNSServer))
}
}
return parts
}
func (m Model) detailKeys() string {
return m.st.subtleStyle.Render("[e] Edit [h] History [s] SLA [Esc] Back")
}
func (m Model) fmtStatusWord(status string) string {
switch status {
case "DOWN", "SSL EXP":
return m.st.dangerStyle.Render(status)
case "UP":
return m.st.specialStyle.Render("UP")
case "LATE":
return m.st.warnStyle.Render("LATE")
case "STALE":
return m.st.staleStyle.Render("STALE")
case "PENDING":
return m.st.subtleStyle.Render("PENDING")
case "PAUSED":
return m.st.warnStyle.Render("PAUSED")
default:
return m.st.subtleStyle.Render(status)
}
}
func (m Model) viewSLASidebar(width, _ int) string {
var b strings.Builder
label := m.st.subtleStyle
innerW := width - 4
if innerW < 20 {
innerW = 20
}
period := slaPeriods[m.slaPeriodIdx]
b.WriteString(" " + label.Render("Period: Last "+period.label) + "\n\n")
r := m.slaReport
barWidth := innerW - 25
if barWidth < 10 {
barWidth = 10
}
bar := m.uptimeBar(r.UptimePct, barWidth)
uptimeColor := m.st.specialStyle
if r.UptimePct < uptimeExcellentPct {
uptimeColor = m.st.warnStyle
}
if r.UptimePct < uptimeGoodPct {
uptimeColor = m.st.dangerStyle
}
fmt.Fprintf(&b, " %-14s %s %s\n", label.Render("Uptime"), uptimeColor.Render(fmtPct(r.UptimePct)+"%"), bar)
fmt.Fprintf(&b, " %-14s %s\n", label.Render("Downtime"), fmtDuration(r.Downtime))
fmt.Fprintf(&b, " %-14s %d\n", label.Render("Outages"), r.OutageCount)
if r.OutageCount > 0 {
fmt.Fprintf(&b, " %-14s %s\n", label.Render("Longest"), fmtDuration(r.LongestOut))
fmt.Fprintf(&b, " %-14s %s\n", label.Render("MTTR"), fmtDuration(r.MTTR))
fmt.Fprintf(&b, " %-14s %s\n", label.Render("MTBF"), fmtDuration(r.MTBF))
}
b.WriteString("\n")
if len(m.slaDailyBreakdown) > 0 {
b.WriteString(" " + m.st.titleStyle.Render("DAILY BREAKDOWN") + "\n")
dayBarW := innerW - 20
if dayBarW < 10 {
dayBarW = 10
}
for _, day := range m.slaDailyBreakdown {
dateStr := day.Date.Format("Jan 02")
dayBar := m.uptimeBar(day.UptimePct, dayBarW)
pctStr := fmtPct(day.UptimePct) + "%"
color := m.st.specialStyle
if day.UptimePct < uptimeExcellentPct {
color = m.st.warnStyle
}
if day.UptimePct < uptimeGoodPct {
color = m.st.dangerStyle
}
fmt.Fprintf(&b, " %-8s %s %s\n", label.Render(dateStr), dayBar, color.Render(pctStr))
}
}
b.WriteString("\n")
var keys []string
for i, p := range slaPeriods {
k := fmt.Sprintf("[%s] %s", p.key, p.label)
if i == m.slaPeriodIdx {
keys = append(keys, m.st.titleStyle.Render(k))
} else {
keys = append(keys, label.Render(k))
}
}
b.WriteString(" " + strings.Join(keys, " ") + "\n")
b.WriteString(" " + label.Render("[Esc] Back") + "\n")
return lipgloss.NewStyle().Width(width).MaxWidth(width).Render(b.String())
}
func (m Model) viewHistorySidebar(width, _ int) string {
var b strings.Builder
label := m.st.subtleStyle
innerW := width - 4
if innerW < 20 {
innerW = 20
}
sparkline := m.stateChangeSparkline(m.historyChanges, innerW)
if sparkline != "" {
b.WriteString(" " + sparkline + "\n\n")
}
if len(m.historyChanges) == 0 {
b.WriteString(" " + label.Render("No state changes recorded") + "\n")
} else {
reasonW := innerW - 45
if reasonW < 10 {
reasonW = 10
}
for i, sc := range m.historyChanges {
ts := sc.ChangedAt.Format("01/02 15:04")
arrow := label.Render(sc.FromStatus) + " → "
switch sc.ToStatus {
case string(models.StatusUp):
arrow += m.st.specialStyle.Render(sc.ToStatus)
case string(models.StatusLate):
arrow += m.st.warnStyle.Render(sc.ToStatus)
case string(models.StatusStale):
arrow += m.st.staleStyle.Render(sc.ToStatus)
default:
arrow += m.st.dangerStyle.Render(sc.ToStatus)
}
durStr := ""
if dur := computeOutageDuration(m.historyChanges, i); dur > 0 {
durStr = m.st.warnStyle.Render(fmtDuration(dur))
}
reason := ""
if sc.ErrorReason != "" && sc.ToStatus != string(models.StatusUp) {
reason = m.st.dangerStyle.Render(limitStr(sc.ErrorReason, reasonW))
}
fmt.Fprintf(&b, " %-12s %s %s %s\n", ts, arrow, durStr, reason)
}
}
b.WriteString("\n")
stats := computeHistoryStats(m.historyChanges)
statParts := []string{fmt.Sprintf("%d events", stats.totalEvents)}
if stats.outageCount > 0 {
statParts = append(statParts, fmt.Sprintf("%d outages", stats.outageCount))
avg := stats.totalDowntime / time.Duration(stats.outageCount)
statParts = append(statParts, "avg "+fmtDuration(avg))
}
b.WriteString(" " + label.Render(strings.Join(statParts, " │ ")) + "\n")
b.WriteString(" " + label.Render("[Esc] Back") + "\n")
return lipgloss.NewStyle().Width(width).MaxWidth(width).Render(b.String())
}