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26 Commits
v10.22 ... v11.42

Author SHA1 Message Date
Mikhail Chusavitin
7f27b9aa38 Fix AMD GPU false detection, blackbox deadlock, and NOGPU build bloat 
- sat.go: DetectGPUVendor lspci fallback now checks GPU device classes
  ([0300]/[0302]/[0380]) per line instead of scanning the whole output for
  vendor name; AMD EPYC servers have dozens of AMD-branded PCIe entries
  (Root Complex, IOMMU, Host Bridge) that were triggering the old check
- blackbox.go: fix deadlock in finishCycle — it held w.mu while calling
  persistState(), which acquires rt.mu then re-acquires w.mu inside
  persistStateLocked(); now w.mu is released before persistState()
- build.sh: remove NVIDIA-specific overlay files (bee-gpu-burn,
  bee-john-gpu-stress, bee-nccl-gpu-stress, bee-nvidia-recover,
  bee-dcgmproftester-staggered, bee-check-nvswitch,
  nvidia-fabricmanager.service.d/) for non-nvidia build variants
- bee-selfheal: gate NVIDIA recovery on BEE_GPU_VENDOR=nvidia so the
  script does not attempt to restart bee-nvidia.service on NOGPU builds

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-19 09:37:26 +03:00
Mikhail Chusavitin
cf29131116 Rework FRU and DMI editors: per-row inline save, all fields editable 
- Replace global Save button with per-row ✓ (save) / ✗ (cancel) buttons
  that appear only when a field is changed
- All fields shown as editable inputs; server rejects unknown fields
  with a clear error message instead of hiding them in the UI
- Monospace font and 1.5px border for all value inputs
- Server-side name→area/index lookup for fields sent without area
- SAA DMI card: same per-row UX, confirm dialog kept (requires reboot)

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-19 09:30:39 +03:00
Mikhail Chusavitin
13e6324853 Fix IPMI FRU editable field detection for abbreviated ipmitool names 
ipmitool fru print on some BMC implementations returns short names
("Chassis Serial", "Board Mfg", "Board Product", "Board Serial",
"Product Serial") instead of the full names in the vendor doc.
Add both variants to fruEditableFields so all fields are editable
regardless of which naming convention the BMC uses.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-19 09:24:15 +03:00
Mikhail Chusavitin
892ef6fb7d Add Reboot and Shutdown buttons to Settings page 
POST /api/system/reboot → systemctl reboot
POST /api/system/shutdown → systemctl poweroff
Both require confirm() before executing.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-19 09:18:30 +03:00
Mikhail Chusavitin
ce46a97975 Remove duplicate Blackbox Logging card from Settings page 
The USB Black-Box card already provides enable/disable per device.
The standalone Blackbox Logging card was non-functional and redundant.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-19 09:15:31 +03:00
Mikhail Chusavitin
258ecb3453 Add RAID Controller Management to Tools page 
Unified card for LSI/Broadcom and Intel VROC controllers: auto-detects
foreign configurations and warns the operator with Import/Clear actions;
allows creating RAID 1 mirrors from unconfigured drives regardless of
controller type. Live output streams via SSE into an inline terminal.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-19 08:58:19 +03:00
Mikhail Chusavitin
cbb0d1e522 Collect IPMI sensors, SEL and dmesg errors into audit JSON and support bundle 
- audit JSON: IPMI sensor readings (ipmitool sensor) merged into hardware.sensors alongside lm-sensors data
- audit JSON: IPMI SEL entries (ipmitool sel list) in hardware.event_logs with source "ipmi-sel"
- audit JSON: dmesg error/warning lines in hardware.event_logs with source "dmesg" (filtered by error/warn/AER/Xid/NVRM/ECC/panic patterns)
- support bundle: added ipmitool-sensor.txt, ipmitool-sel.txt, ipmitool-sel-time.txt to techdump
- saa_dmi.go: fix dmiItemRE to accept SHN with parentheses (e.g. PS(4)LC for PSU fields)

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-19 08:41:37 +03:00
Mikhail Chusavitin
bab941ccf1 Fix SAA: set CWD=/usr/local/bin; include all SAA package binaries 
- saa_dmi.go: set cmd.Dir=/usr/local/bin on all saa exec calls so
  acpica_bin/acpidump is found relative to correct working directory
- build.sh: copy all saa companion dirs (acpica_bin, ExternalData,
  tool, stunnel, GO_SNMP) to /usr/local/bin/ preserving structure
- iso/vendor: add acpica_bin/acpiexec, ExternalData/, tool/gpu/nVidia/x64/,
  tool/USBController/, stunnel/, GO_SNMP/ from SAA 1.5.0 release package

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-19 08:24:50 +03:00
Mikhail Chusavitin
b49c71a980 Add IPMI FRU editor to Tools page 
- New card "IPMI — FRU" on Tools page (device 0, in-band)
- Read: GET /api/tools/ipmi-fru → ipmitool fru print 0 → editable table
- Editable fields: chassis (part#, serial, extra), board (mfr, product, serial, part#),
  product (mfr, name, part#, version, serial); read-only fields displayed as text
- Write: POST /api/tools/ipmi-fru/write → task → backup to fru-backups/ → ipmitool fru edit per field
- Dirty tracking + Save (N changed) button, same UX as Supermicro DMI card

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-19 08:13:35 +03:00
Mikhail Chusavitin
85d1acdaa3 Split validate/stress into separate fixed-mode pages 
- Check (2): validate mode only — no mode switcher, no stress-only cards
  (nvidia-targeted-stress, nvidia-targeted-power, nvidia-pulse hidden)
- Load (3): stress mode only — no mode switcher, all cards shown
- satStressMode() hardcoded per page; satModeChanged() removed
- Profile card with radio buttons removed from both pages
- Replaced with simple Run All button + est. time

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-18 19:12:17 +03:00
Mikhail Chusavitin
a2d7513153 Restructure nav to Load/Burn/Benchmark; fix SAA acpidump dependency 
- Nav steps 3-5: Load (validate), Burn (burn-in), Benchmark (speed+endurance merged)
- /load now renders validate mode; /burn renders burn-in; /benchmark replaces /speed+/endurance
- Legacy redirects updated: /validate→/load, /burn-in→/burn, /speed+/endurance→/benchmark
- Add acpica_bin/acpidump from SAA 1.5.0 package; required by saa GetDmiInfo (ExitCode 8)
- build.sh copies acpica_bin/acpidump to /usr/local/bin/acpica_bin/ alongside saa

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-18 19:07:51 +03:00
Mikhail Chusavitin
5b5d8609d3 Refactor nav: remove numbers from Tools/Settings, add separator and Tasks item 
- Remove "6." / "7." prefixes from Tools and Settings nav labels and page titles
- Add a horizontal separator (nav-sep) before the Tools/Settings group
- Move Tasks into the nav as a regular nav-item after the separator,
  replacing the separate tasks-nav-btn at the sidebar bottom
- Tasks item retains the active-count badge (tasks-nav-count)

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-18 17:54:54 +03:00
Mikhail Chusavitin
e7442972d1 Move session-scoped LiveCD tools from Tools to Settings 
Tools page now contains only NVMe Block Format and Supermicro - DMI.

Moved to Settings (7):
- System Install (Install to RAM + Install to Disk)
- Support Bundle + USB Black-Box
- Tool Check
- NVIDIA Self Heal (replaces simple NVIDIA Recovery card)
- Network
- Services

Update TestToolsPageRendersNvidiaSelfHealSection to assert the moved
cards on /settings instead of /tools.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-18 17:52:19 +03:00
Mikhail Chusavitin
4c6daa1c5e Add SAA binary to ISO vendor, rename card to Supermicro - DMI 
- Extract saa 1.5.0 (Linux x86_64) into iso/vendor/saa — baked into ISO
  at /usr/local/bin/saa via the existing vendor loop in build.sh
- Add saa to the vendor tool loop in iso/builder/build.sh
- Rename the web UI card from "SAA - DMI" to "Supermicro - DMI"
- Remove the redundant description hint about saa on PATH

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-18 17:49:12 +03:00
Mikhail Chusavitin
e420888d71 Add DMI test fixtures from linuxhw/DMI and expand placeholder detection 
Adds board and memory parser test fixtures based on real dmidecode output
from Dell PowerEdge R740xd, HPE ProLiant DL380 Gen10, and Supermicro
SYS-6028R-WTR sourced from the linuxhw/DMI dataset. Extends cleanDMIValue
with four additional vendor placeholder strings found in the dataset:
"0123456789", "1234567890", "NOT AVAILABLE", and "TO BE FILLED BY O.E.M"
(without trailing dot). Adds memory_test.go covering mixed populated/empty
DIMM slots and both GB and MB size formats.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-18 16:15:20 +03:00
Mikhail Chusavitin
8149360410 Fix SAA DMI parser to match real DMI.txt format 
Replace the guessed pipe/key=value parser with the correct format
documented in SAA User Guide 4.8.1:

  [Section]
  Item Name   {SHN}  = "value"   // comment

Handles string values (strips surrounding quotes), non-string values
(UUID, hex), section headers for display names, version line, and
// comments. Verified against the SAA 1.5.0 User Guide sample.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-18 15:58:02 +03:00
Mikhail Chusavitin
4262c5b798 Add SAA DMI editor to Tools page 
Adds a new card to the web UI Tools page for reading and editing DMI
fields via SAA (In-Band). Reads current DMI configuration with GetDmiInfo,
displays all fields as an editable table, and applies only the changed
fields via EditDmiInfo + ChangeDmiInfo. Backs up the original DMI file to
dmi-backups/ before any write, making it available in the support bundle
for rollback. Also adds "saa" to the standard tool check list.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-18 15:50:42 +03:00
Mikhail Chusavitin
b2e177af31 Bump DCGM to 4.6.0-1 to fix broken repo dependency 
NVIDIA removed datacenter-gpu-manager-4-core 1:4.5.3-1 from the
repository and published 1:4.6.0-1. The cuda13 and proprietary
packages still declared an exact-version dependency on 4.5.3-1 core,
making the old pin unresolvable.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-18 14:21:24 +03:00
Mikhail Chusavitin
271dadda03 Restructure web UI navigation into 7 numbered workflow stages 
Replace the flat menu (Dashboard, Audit, Validate, Burn, Benchmark,
Tasks, Tools) with a numbered progression that guides engineers through
a logical acceptance workflow:

  Dashboard (landing) → 1. Audit → 2. Check → 3. Load → 4. Speed
  → 5. Endurance → 6. Tools → 7. Settings

Key changes:
- layout.go: numbered nav labels, new hrefs, Tasks removed from nav
  and replaced with a persistent sidebar badge (polls /api/tasks every
  5 s, highlights amber when tasks are active)
- server.go: 301 redirects from /validate→/check, /burn→/load,
  /benchmark→/speed for backward compatibility
- pages.go: dispatch cases for all new routes; old routes kept as
  fallbacks
- page_validate.go: add renderCheck() — non-destructive check page
  with validate-mode tests only (no stress toggle, no targeted-stress/
  targeted-power/pulse cards)
- page_burn.go: add renderLoad() wrapper; update scope alert to
  reference /check instead of /validate
- page_benchmark.go: add renderSpeed() (performance focus) and
  renderEndurance() (stability/overnight focus) wrappers
- page_settings.go: new Settings page with blackbox logging toggle,
  NVIDIA driver reset, and build info
- server_test.go: update five tests to use new route names and
  content expectations

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-18 11:00:02 +03:00
Mikhail Chusavitin
20766ccc76 Order nvidia-fabricmanager after bee-nvidia to fix boot race 
bee-nvidia.service loads NVIDIA kernel modules; without After=bee-nvidia.service
fabricmanager starts before /dev/nvidiactl is ready, fails, and relies on
systemd restart to recover (~38s delay on affected systems).

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-18 10:11:52 +03:00
Mikhail Chusavitin
966944d6d8 Fix audit hanging on smartpqi SAS HBA scan file write 
smartpqi uses scsi_transport_sas but does not register a sas_host
object, so /sys/class/sas_host/host14 does not exist and the existing
SAS detection check passes right through. Writing to host14/scan then
calls sas_user_scan which blocks indefinitely on scsi_scan_target's
mutex (confirmed by kernel hung-task traces in the field).

Add a second detection path via /sys/class/scsi_host/hostX/proc_name:
skip hosts whose driver is "smartpqi" or "hpsa" (HPE Smart Array
predecessors that exhibit the same behaviour).

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-15 16:07:54 +03:00
Michael Chus
ce6b1e0eb7 Update internal/chart submodule pointer to 8105c7e 
Tracks origin/main after rebase: adds per-column header filters for
severity in the viewer (feat(viewer): replace severity dropdown).

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-13 14:48:04 +03:00
Michael Chus
4066e842a9 Update bible submodule to v0.2.0-13-g1977730 
Picks up new contracts: hardware-ingest-json, submodule-integration,
go-database cursor safety, and several contract deduplication passes.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-13 14:44:52 +03:00
Michael Chus
7d2e904d14 Bring codebase into compliance with bible contracts (A–E) 
A (hardware-ingest-json v2.8-2.9): remove sensor location fields from schema
and collector; tag HardwareMemory.Location as json:"-"; add PlatformConfig to
HardwareSnapshot.

B (no-hardcoded-vendors): consolidate PCI vendor IDs into collector/pci_vendors.go;
replace all vendor-name string checks in isGPUDevice, isNVIDIADevice, isMellanoxDevice,
isAMDGPUDevice, matchesGPUVendor (sat_overlay), and validateIsVendorGPU (page_validate)
with numeric vendor_id comparisons.

C (module-structure): split app/app.go (1413 lines) into app.go + app_format.go,
app_network.go, app_services.go, app_packs.go, app_install.go — no logic changes.

D (go-code-style): wrap bare return err in interfaceAdminState and
interfaceIPv4Addrs (platform/network.go) with fmt.Errorf context including
the interface name.

E (go-project-bible): add bible-local/architecture/data-model.md and
bible-local/architecture/api-surface.md.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-13 14:32:08 +03:00
Michael Chus
2320925433 Skip PCIe link-speed warnings for disabled devices 
Disabled PCIe devices (sysfs enable==0) carry no data traffic; their
link state has no operational impact. Switchtec PCIe switch management
endpoints on NVIDIA HGX H100 baseboards (and similar fabric controllers)
train at reduced speed intentionally and were producing spurious warnings.

Check is vendor-agnostic: reads enable attribute via existing helper,
no vendor/device ID hardcoding.

Documented in bible-local/decisions/2026-06-12-pcie-disabled-device-link-warning.md.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-12 03:42:19 +03:00
Michael Chus
e169a7722c Fix NVMe SMART status always Unknown; fix GPU count including NVSwitches 
nvme-cli emits smart-log counters as JSON strings and uses field names
avail_spare / percent_used instead of the prose names in the NVMe spec.
The nvmeSmartLog struct had int64 fields with wrong JSON tags — Unmarshal
returned an error and the whole health block was skipped, leaving every
NVMe drive with status=Unknown.

Fix: switch all numeric fields to jsonInt64 (already used for lsblk
block sizes) which accepts both bare numbers and quoted strings, and
correct the avail_spare / percent_used tag names.

Also fix validateIsVendorGPU for NVIDIA: previously counted any NVIDIA
PCIe device (including NVSwitch bridges) as a GPU, producing wrong
estimates (12 instead of 8 on an HGX H100 system). Now requires
device_class to be videocontroller or processingaccelerator, matching
the existing AMD filter logic.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-06-04 18:06:32 +03:00
76 changed files with 7949 additions and 1332 deletions
Expand all files Collapse all files

978
audit/internal/app/app.go
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File diff suppressed because it is too large Load Diff

405
audit/internal/app/app_format.go Normal file
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@@ -0,0 +1,405 @@
package app
import (
"fmt"
"os"
"path/filepath"
"sort"
"strings"
"bee/audit/internal/collector"
"bee/audit/internal/platform"
"bee/audit/internal/schema"
)
func hostnameOr(fallback string) string {
hn, err := os.Hostname()
if err != nil || strings.TrimSpace(hn) == "" {
return fallback
}
return hn
}
func sanitizeFilename(v string) string {
var out []rune
for _, r := range v {
switch {
case r >= 'a' && r <= 'z', r >= 'A' && r <= 'Z', r >= '0' && r <= '9', r == '-', r == '_', r == '.':
out = append(out, r)
default:
out = append(out, '-')
}
}
if len(out) == 0 {
return "unknown"
}
return string(out)
}
func bodyOr(body, fallback string) string {
body = strings.TrimSpace(body)
if body == "" {
return fallback
}
return body
}
func trimPtr(value *string) string {
if value == nil {
return ""
}
return strings.TrimSpace(*value)
}
func joinSortedKeys(values map[string]struct{}) string {
if len(values) == 0 {
return ""
}
keys := make([]string, 0, len(values))
for key := range values {
keys = append(keys, key)
}
sort.Strings(keys)
return strings.Join(keys, "/")
}
func humanizeMB(totalMB int) string {
if totalMB <= 0 {
return ""
}
gb := float64(totalMB) / 1024.0
if gb >= 1024.0 {
tb := gb / 1024.0
return fmt.Sprintf("%.1f TB", tb)
}
if gb == float64(int64(gb)) {
return fmt.Sprintf("%.0f GB", gb)
}
return fmt.Sprintf("%.1f GB", gb)
}
func humanizeGB(totalGB int) string {
if totalGB <= 0 {
return ""
}
tb := float64(totalGB) / 1024.0
if tb >= 1.0 {
return fmt.Sprintf("%.1f TB", tb)
}
return fmt.Sprintf("%d GB", totalGB)
}
func parseKeyValueSummary(raw string) map[string]string {
out := map[string]string{}
for _, line := range strings.Split(raw, "\n") {
line = strings.TrimSpace(line)
if line == "" {
continue
}
key, value, ok := strings.Cut(line, "=")
if !ok {
continue
}
out[strings.TrimSpace(key)] = strings.TrimSpace(value)
}
return out
}
func firstNonEmpty(values ...string) string {
for _, value := range values {
value = strings.TrimSpace(value)
if value != "" {
return value
}
}
return ""
}
func cleanSummaryKey(key string) string {
idx := strings.Index(key, "-")
if idx <= 0 {
return key
}
prefix := key[:idx]
for _, c := range prefix {
if c < '0' || c > '9' {
return key
}
}
return key[idx+1:]
}
func isGPUDevice(dev schema.HardwarePCIeDevice) bool {
// Exclude Aspeed BMC VGA adapters (not compute GPUs).
if dev.VendorID != nil && *dev.VendorID == collector.AspeedVendorID {
return false
}
class := trimPtr(dev.DeviceClass)
// AMD Instinct / Radeon compute GPUs always carry ProcessingAccelerator or DisplayController.
// Do NOT match AMD vendor alone — CPU chipset PCIe devices share that vendor ID.
if class == "VideoController" || class == "DisplayController" || class == "ProcessingAccelerator" {
return true
}
// NVIDIA devices sometimes expose class values outside the standard GPU set.
return dev.VendorID != nil && *dev.VendorID == collector.NvidiaVendorID
}
func formatSystemLine(board schema.HardwareBoard) string {
model := strings.TrimSpace(strings.Join([]string{
trimPtr(board.Manufacturer),
trimPtr(board.ProductName),
}, " "))
serial := strings.TrimSpace(board.SerialNumber)
switch {
case model != "" && serial != "":
return fmt.Sprintf("System: %s | S/N %s", model, serial)
case model != "":
return "System: " + model
case serial != "":
return "System S/N: " + serial
default:
return ""
}
}
func formatCPULine(cpus []schema.HardwareCPU) string {
if len(cpus) == 0 {
return ""
}
modelCounts := map[string]int{}
unknown := 0
for _, cpu := range cpus {
model := trimPtr(cpu.Model)
if model == "" {
unknown++
continue
}
modelCounts[model]++
}
if len(modelCounts) == 1 && unknown == 0 {
for model, count := range modelCounts {
return fmt.Sprintf("CPU: %d x %s", count, model)
}
}
parts := make([]string, 0, len(modelCounts)+1)
if len(modelCounts) > 0 {
keys := make([]string, 0, len(modelCounts))
for key := range modelCounts {
keys = append(keys, key)
}
sort.Strings(keys)
for _, key := range keys {
parts = append(parts, fmt.Sprintf("%d x %s", modelCounts[key], key))
}
}
if unknown > 0 {
parts = append(parts, fmt.Sprintf("%d x unknown", unknown))
}
return "CPU: " + strings.Join(parts, ", ")
}
func formatMemoryLine(dimms []schema.HardwareMemory) string {
totalMB := 0
present := 0
types := map[string]struct{}{}
for _, dimm := range dimms {
if dimm.Present != nil && !*dimm.Present {
continue
}
if dimm.SizeMB == nil || *dimm.SizeMB <= 0 {
continue
}
present++
totalMB += *dimm.SizeMB
if value := trimPtr(dimm.Type); value != "" {
types[value] = struct{}{}
}
}
if totalMB == 0 {
return ""
}
typeText := joinSortedKeys(types)
line := fmt.Sprintf("Memory: %s", humanizeMB(totalMB))
if typeText != "" {
line += " " + typeText
}
if present > 0 {
line += fmt.Sprintf(" (%d DIMMs)", present)
}
return line
}
func formatStorageLine(disks []schema.HardwareStorage) string {
count := 0
totalGB := 0
for _, disk := range disks {
if disk.Present != nil && !*disk.Present {
continue
}
count++
if disk.SizeGB != nil && *disk.SizeGB > 0 {
totalGB += *disk.SizeGB
}
}
if count == 0 {
return ""
}
line := fmt.Sprintf("Storage: %d drives", count)
if totalGB > 0 {
line += fmt.Sprintf(" / %s", humanizeGB(totalGB))
}
return line
}
func formatGPULine(devices []schema.HardwarePCIeDevice) string {
gpus := map[string]int{}
for _, dev := range devices {
if !isGPUDevice(dev) {
continue
}
name := firstNonEmpty(trimPtr(dev.Model), trimPtr(dev.Manufacturer), "unknown")
gpus[name]++
}
if len(gpus) == 0 {
return ""
}
keys := make([]string, 0, len(gpus))
for key := range gpus {
keys = append(keys, key)
}
sort.Strings(keys)
parts := make([]string, 0, len(keys))
for _, key := range keys {
parts = append(parts, fmt.Sprintf("%d x %s", gpus[key], key))
}
return "GPU: " + strings.Join(parts, ", ")
}
func formatIPLine(list func() ([]platform.InterfaceInfo, error)) string {
if list == nil {
return ""
}
ifaces, err := list()
if err != nil {
return ""
}
seen := map[string]struct{}{}
var ips []string
for _, iface := range ifaces {
for _, ip := range iface.IPv4 {
ip = strings.TrimSpace(ip)
if ip == "" {
continue
}
if _, ok := seen[ip]; ok {
continue
}
seen[ip] = struct{}{}
ips = append(ips, ip)
}
}
if len(ips) == 0 {
return ""
}
sort.Strings(ips)
return "IP: " + strings.Join(ips, ", ")
}
func formatSATDetail(raw string) string {
var b strings.Builder
kv := parseKeyValueSummary(raw)
if t, ok := kv["run_at_utc"]; ok {
fmt.Fprintf(&b, "Run: %s\n\n", t)
}
lines := strings.Split(raw, "\n")
var stepKeys []string
seenStep := map[string]bool{}
for _, line := range lines {
if idx := strings.Index(line, "_status="); idx >= 0 {
key := line[:idx]
if !seenStep[key] && key != "overall" {
seenStep[key] = true
stepKeys = append(stepKeys, key)
}
}
}
for _, key := range stepKeys {
status := kv[key+"_status"]
display := cleanSummaryKey(key)
switch status {
case "OK":
fmt.Fprintf(&b, "PASS %s\n", display)
case "FAILED":
fmt.Fprintf(&b, "FAIL %s\n", display)
case "UNSUPPORTED":
fmt.Fprintf(&b, "SKIP %s\n", display)
default:
fmt.Fprintf(&b, "? %s\n", display)
}
}
if overall, ok := kv["overall_status"]; ok {
ok2 := kv["job_ok"]
failed := kv["job_failed"]
fmt.Fprintf(&b, "\nOverall: %s (ok=%s failed=%s)", overall, ok2, failed)
}
return strings.TrimSpace(b.String())
}
func formatSATSummary(label, raw string) string {
values := parseKeyValueSummary(raw)
var body strings.Builder
fmt.Fprintf(&body, "%s:", label)
if overall := firstNonEmpty(values["overall_status"], "UNKNOWN"); overall != "" {
fmt.Fprintf(&body, " %s", overall)
}
if ok := firstNonEmpty(values["job_ok"], "0"); ok != "" {
fmt.Fprintf(&body, " ok=%s", ok)
}
if failed := firstNonEmpty(values["job_failed"], "0"); failed != "" {
fmt.Fprintf(&body, " failed=%s", failed)
}
if unsupported := firstNonEmpty(values["job_unsupported"], "0"); unsupported != "" && unsupported != "0" {
fmt.Fprintf(&body, " unsupported=%s", unsupported)
}
if devices := strings.TrimSpace(values["devices"]); devices != "" {
fmt.Fprintf(&body, "\nDevices: %s", devices)
}
return body.String()
}
func latestSATSummaries() []string {
patterns := []struct {
label string
prefix string
}{
{label: "NVIDIA SAT", prefix: "gpu-nvidia-"},
{label: "NVIDIA Targeted Stress Validate (dcgmi diag targeted_stress)", prefix: "gpu-nvidia-targeted-stress-"},
{label: "NVIDIA Max Compute Load (dcgmproftester)", prefix: "gpu-nvidia-compute-"},
{label: "NVIDIA Targeted Power (dcgmi diag targeted_power)", prefix: "gpu-nvidia-targeted-power-"},
{label: "NVIDIA Pulse Test (dcgmi diag pulse_test)", prefix: "gpu-nvidia-pulse-"},
{label: "NVIDIA Interconnect Test (NCCL all_reduce_perf)", prefix: "gpu-nvidia-nccl-"},
{label: "NVIDIA Bandwidth Test (NVBandwidth)", prefix: "gpu-nvidia-bandwidth-"},
{label: "Memory SAT", prefix: "memory-"},
{label: "Storage SAT", prefix: "storage-"},
{label: "CPU SAT", prefix: "cpu-"},
}
var out []string
for _, item := range patterns {
matches, err := filepath.Glob(filepath.Join(DefaultSATBaseDir, item.prefix+"*/summary.txt"))
if err != nil || len(matches) == 0 {
continue
}
sort.Strings(matches)
raw, err := os.ReadFile(matches[len(matches)-1])
if err != nil {
continue
}
out = append(out, formatSATSummary(item.label, string(raw)))
}
return out
}

76
audit/internal/app/app_install.go Normal file
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@@ -0,0 +1,76 @@
package app
import (
"context"
"fmt"
"os"
"path/filepath"
"time"
"bee/audit/internal/platform"
)
func (a *App) ListRemovableTargets() ([]platform.RemovableTarget, error) {
return a.exports.ListRemovableTargets()
}
func (a *App) ExportLatestAudit(target platform.RemovableTarget) (string, error) {
if _, err := os.Stat(DefaultAuditJSONPath); err != nil {
return "", err
}
filename := fmt.Sprintf("audit-%s-%s.json", sanitizeFilename(hostnameOr("unknown")), time.Now().UTC().Format("20060102-150405"))
tmpPath := filepath.Join(os.TempDir(), filename)
data, err := readFileLimited(DefaultAuditJSONPath, 100<<20)
if err != nil {
return "", err
}
if normalized, normErr := ApplySATOverlay(data); normErr == nil {
data = normalized
}
if err := os.WriteFile(tmpPath, data, 0644); err != nil {
return "", err
}
defer os.Remove(tmpPath)
return a.exports.ExportFileToTarget(tmpPath, target)
}
func (a *App) ExportLatestAuditResult(target platform.RemovableTarget) (ActionResult, error) {
path, err := a.ExportLatestAudit(target)
body := "Audit export failed."
if err == nil {
body = "Audit exported."
}
if err == nil && path != "" {
body = "Audit exported to " + path
}
return ActionResult{Title: "Export audit", Body: body}, err
}
func (a *App) ExportSupportBundle(target platform.RemovableTarget) (string, error) {
archive, err := BuildSupportBundle(DefaultExportDir)
if err != nil {
return "", err
}
defer os.Remove(archive)
return a.exports.ExportFileToTarget(archive, target)
}
func (a *App) ExportSupportBundleResult(target platform.RemovableTarget) (ActionResult, error) {
path, err := a.ExportSupportBundle(target)
body := "Support bundle export failed."
if err == nil {
body = "Support bundle exported. USB target unmounted and safe to remove."
}
if err == nil && path != "" {
body = "Support bundle exported to " + path + ".\n\nUSB target unmounted and safe to remove."
}
return ActionResult{Title: "Export support bundle", Body: body}, err
}
func (a *App) ListInstallDisks() ([]platform.InstallDisk, error) {
return a.installer.ListInstallDisks()
}
func (a *App) InstallToDisk(ctx context.Context, device string, logFile string) error {
return a.installer.InstallToDisk(ctx, device, logFile)
}

106
audit/internal/app/app_network.go Normal file
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@@ -0,0 +1,106 @@
package app
import (
"fmt"
"strings"
"bee/audit/internal/platform"
)
func (a *App) ListInterfaces() ([]platform.InterfaceInfo, error) {
return a.network.ListInterfaces()
}
func (a *App) DefaultRoute() string {
return a.network.DefaultRoute()
}
func (a *App) DHCPOne(iface string) (string, error) {
return a.network.DHCPOne(iface)
}
func (a *App) DHCPOneResult(iface string) (ActionResult, error) {
body, err := a.network.DHCPOne(iface)
return ActionResult{Title: "DHCP: " + iface, Body: bodyOr(body, "DHCP completed.")}, err
}
func (a *App) DHCPAll() (string, error) {
return a.network.DHCPAll()
}
func (a *App) DHCPAllResult() (ActionResult, error) {
body, err := a.network.DHCPAll()
return ActionResult{Title: "DHCP: all interfaces", Body: bodyOr(body, "DHCP completed.")}, err
}
func (a *App) SetStaticIPv4(cfg platform.StaticIPv4Config) (string, error) {
return a.network.SetStaticIPv4(cfg)
}
func (a *App) SetInterfaceState(iface string, up bool) error {
return a.network.SetInterfaceState(iface, up)
}
func (a *App) GetInterfaceState(iface string) (bool, error) {
return a.network.GetInterfaceState(iface)
}
func (a *App) CaptureNetworkSnapshot() (platform.NetworkSnapshot, error) {
return a.network.CaptureNetworkSnapshot()
}
func (a *App) RestoreNetworkSnapshot(snapshot platform.NetworkSnapshot) error {
return a.network.RestoreNetworkSnapshot(snapshot)
}
func (a *App) SetStaticIPv4Result(cfg platform.StaticIPv4Config) (ActionResult, error) {
body, err := a.network.SetStaticIPv4(cfg)
return ActionResult{Title: "Static IPv4: " + cfg.Interface, Body: bodyOr(body, "Static IPv4 updated.")}, err
}
func (a *App) NetworkStatus() (ActionResult, error) {
ifaces, err := a.network.ListInterfaces()
if err != nil {
return ActionResult{Title: "Network status"}, err
}
if len(ifaces) == 0 {
return ActionResult{Title: "Network status", Body: "No physical interfaces found."}, nil
}
var body strings.Builder
for _, iface := range ifaces {
ipv4 := "(no IPv4)"
if len(iface.IPv4) > 0 {
ipv4 = strings.Join(iface.IPv4, ", ")
}
fmt.Fprintf(&body, "- %s: state=%s ip=%s\n", iface.Name, iface.State, ipv4)
}
if gw := a.network.DefaultRoute(); gw != "" {
fmt.Fprintf(&body, "\nDefault route: %s\n", gw)
}
return ActionResult{Title: "Network status", Body: strings.TrimSpace(body.String())}, nil
}
func (a *App) DefaultStaticIPv4FormFields(iface string) []string {
return []string{
"",
"24",
strings.TrimSpace(a.network.DefaultRoute()),
"77.88.8.8 77.88.8.1 1.1.1.1 8.8.8.8",
}
}
func (a *App) ParseStaticIPv4Config(iface string, fields []string) platform.StaticIPv4Config {
get := func(index int) string {
if index >= 0 && index < len(fields) {
return strings.TrimSpace(fields[index])
}
return ""
}
return platform.StaticIPv4Config{
Interface: iface,
Address: get(0),
Prefix: get(1),
Gateway: get(2),
DNS: strings.Fields(get(3)),
}
}

370
audit/internal/app/app_packs.go Normal file
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@@ -0,0 +1,370 @@
package app
import (
"context"
"fmt"
"os"
"path/filepath"
"strings"
"bee/audit/internal/platform"
)
func (a *App) RunNvidiaAcceptancePack(baseDir string, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
return a.sat.RunNvidiaAcceptancePack(baseDir, logFunc)
}
func (a *App) RunNvidiaAcceptancePackResult(baseDir string) (ActionResult, error) {
path, err := a.RunNvidiaAcceptancePack(baseDir, nil)
body := "Archive written."
if path != "" {
body = "Archive written to " + path
}
return ActionResult{Title: "NVIDIA SAT", Body: body}, err
}
func (a *App) ListNvidiaGPUs() ([]platform.NvidiaGPU, error) {
return a.sat.ListNvidiaGPUs()
}
func (a *App) ListNvidiaGPUStatuses() ([]platform.NvidiaGPUStatus, error) {
return a.sat.ListNvidiaGPUStatuses()
}
func (a *App) ResetNvidiaGPU(index int) (ActionResult, error) {
out, err := a.sat.ResetNvidiaGPU(index)
return ActionResult{Title: fmt.Sprintf("Reset NVIDIA GPU %d", index), Body: strings.TrimSpace(out)}, err
}
func (a *App) RunNvidiaAcceptancePackWithOptions(ctx context.Context, baseDir string, diagLevel int, gpuIndices []int, logFunc func(string)) (ActionResult, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
path, err := a.sat.RunNvidiaAcceptancePackWithOptions(ctx, baseDir, diagLevel, gpuIndices, logFunc)
body := "Archive written."
if path != "" {
body = "Archive written to " + path
}
return ActionResult{Title: "NVIDIA DCGM", Body: body}, err
}
func (a *App) RunNvidiaTargetedStressValidatePack(ctx context.Context, baseDir string, durationSec int, gpuIndices []int, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
return a.sat.RunNvidiaTargetedStressValidatePack(ctx, baseDir, durationSec, gpuIndices, logFunc)
}
func (a *App) RunNvidiaStressPack(baseDir string, opts platform.NvidiaStressOptions, logFunc func(string)) (string, error) {
return a.RunNvidiaStressPackCtx(context.Background(), baseDir, opts, logFunc)
}
func (a *App) RunNvidiaBenchmark(baseDir string, opts platform.NvidiaBenchmarkOptions, logFunc func(string)) (string, error) {
return a.RunNvidiaBenchmarkCtx(context.Background(), baseDir, opts, logFunc)
}
func (a *App) RunNvidiaBenchmarkCtx(ctx context.Context, baseDir string, opts platform.NvidiaBenchmarkOptions, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultBeeBenchPerfDir
}
resolved, err := a.ensureBenchmarkPowerAutotune(ctx, baseDir, opts, "performance", logFunc)
if err != nil {
return "", err
}
opts.ServerPowerSource = resolved.SelectedSource
return a.sat.RunNvidiaBenchmark(ctx, baseDir, opts, logFunc)
}
func (a *App) RunNvidiaPowerBenchCtx(ctx context.Context, baseDir string, opts platform.NvidiaBenchmarkOptions, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultBeeBenchPowerDir
}
resolved, err := a.ensureBenchmarkPowerAutotune(ctx, baseDir, opts, "power-fit", logFunc)
if err != nil {
return "", err
}
opts.ServerPowerSource = resolved.SelectedSource
return a.sat.RunNvidiaPowerBench(ctx, baseDir, opts, logFunc)
}
func (a *App) RunNvidiaPowerSourceAutotuneCtx(ctx context.Context, baseDir string, opts platform.NvidiaBenchmarkOptions, benchmarkKind string, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultBeeBenchAutotuneDir
}
return a.sat.RunNvidiaPowerSourceAutotune(ctx, baseDir, opts, benchmarkKind, logFunc)
}
func (a *App) LoadBenchmarkPowerAutotune() (*platform.BenchmarkPowerAutotuneConfig, error) {
return platform.LoadBenchmarkPowerAutotuneConfig(DefaultBeeBenchPowerSourceConfigPath)
}
func (a *App) ensureBenchmarkPowerAutotune(ctx context.Context, baseDir string, opts platform.NvidiaBenchmarkOptions, benchmarkKind string, logFunc func(string)) (platform.BenchmarkPowerAutotuneConfig, error) {
cfgPath := platform.BenchmarkPowerSourceConfigPath(baseDir)
if cfg, err := platform.LoadBenchmarkPowerAutotuneConfig(cfgPath); err == nil {
if logFunc != nil {
logFunc(fmt.Sprintf("benchmark autotune: using saved server power source %s", cfg.SelectedSource))
}
return *cfg, nil
}
if logFunc != nil {
logFunc("benchmark autotune: no saved power source config, running autotune first")
}
autotuneDir := filepath.Join(filepath.Dir(baseDir), "autotune")
if _, err := a.RunNvidiaPowerSourceAutotuneCtx(ctx, autotuneDir, opts, benchmarkKind, logFunc); err != nil {
return platform.BenchmarkPowerAutotuneConfig{}, err
}
cfg, err := platform.LoadBenchmarkPowerAutotuneConfig(cfgPath)
if err != nil {
return platform.BenchmarkPowerAutotuneConfig{}, err
}
return *cfg, nil
}
func (a *App) RunNvidiaOfficialComputePack(ctx context.Context, baseDir string, durationSec int, gpuIndices []int, staggerSec int, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
return a.sat.RunNvidiaOfficialComputePack(ctx, baseDir, durationSec, gpuIndices, staggerSec, logFunc)
}
func (a *App) RunNvidiaTargetedPowerPack(ctx context.Context, baseDir string, durationSec int, gpuIndices []int, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
return a.sat.RunNvidiaTargetedPowerPack(ctx, baseDir, durationSec, gpuIndices, logFunc)
}
func (a *App) RunNvidiaPulseTestPack(ctx context.Context, baseDir string, durationSec int, gpuIndices []int, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
return a.sat.RunNvidiaPulseTestPack(ctx, baseDir, durationSec, gpuIndices, logFunc)
}
func (a *App) RunNvidiaBandwidthPack(ctx context.Context, baseDir string, gpuIndices []int, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
return a.sat.RunNvidiaBandwidthPack(ctx, baseDir, gpuIndices, logFunc)
}
func (a *App) RunNvidiaStressPackCtx(ctx context.Context, baseDir string, opts platform.NvidiaStressOptions, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
return a.sat.RunNvidiaStressPack(ctx, baseDir, opts, logFunc)
}
func (a *App) RunMemoryAcceptancePack(baseDir string, logFunc func(string)) (string, error) {
return a.RunMemoryAcceptancePackCtx(context.Background(), baseDir, 256, 1, logFunc)
}
func (a *App) RunMemoryAcceptancePackCtx(ctx context.Context, baseDir string, sizeMB, passes int, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
return a.sat.RunMemoryAcceptancePack(ctx, baseDir, sizeMB, passes, logFunc)
}
func (a *App) RunMemoryAcceptancePackResult(baseDir string) (ActionResult, error) {
path, err := a.RunMemoryAcceptancePack(baseDir, nil)
return ActionResult{Title: "Memory SAT", Body: satResultBody(path)}, err
}
func (a *App) RunCPUAcceptancePack(baseDir string, durationSec int, logFunc func(string)) (string, error) {
return a.RunCPUAcceptancePackCtx(context.Background(), baseDir, durationSec, logFunc)
}
func (a *App) RunCPUAcceptancePackCtx(ctx context.Context, baseDir string, durationSec int, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
return a.sat.RunCPUAcceptancePack(ctx, baseDir, durationSec, logFunc)
}
func (a *App) RunCPUAcceptancePackResult(baseDir string, durationSec int) (ActionResult, error) {
path, err := a.RunCPUAcceptancePack(baseDir, durationSec, nil)
return ActionResult{Title: "CPU SAT", Body: satResultBody(path)}, err
}
func (a *App) RunStorageAcceptancePack(baseDir string, logFunc func(string)) (string, error) {
return a.RunStorageAcceptancePackCtx(context.Background(), baseDir, false, logFunc)
}
func (a *App) RunStorageAcceptancePackCtx(ctx context.Context, baseDir string, extended bool, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
return a.sat.RunStorageAcceptancePack(ctx, baseDir, extended, logFunc)
}
func (a *App) RunStorageAcceptancePackResult(baseDir string) (ActionResult, error) {
path, err := a.RunStorageAcceptancePack(baseDir, nil)
return ActionResult{Title: "Storage SAT", Body: satResultBody(path)}, err
}
func (a *App) DetectGPUVendor() string {
return a.sat.DetectGPUVendor()
}
func (a *App) ListAMDGPUs() ([]platform.AMDGPUInfo, error) {
return a.sat.ListAMDGPUs()
}
func (a *App) RunAMDAcceptancePack(baseDir string, logFunc func(string)) (string, error) {
return a.RunAMDAcceptancePackCtx(context.Background(), baseDir, logFunc)
}
func (a *App) RunAMDAcceptancePackCtx(ctx context.Context, baseDir string, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
return a.sat.RunAMDAcceptancePack(ctx, baseDir, logFunc)
}
func (a *App) RunAMDAcceptancePackResult(baseDir string) (ActionResult, error) {
path, err := a.RunAMDAcceptancePack(baseDir, nil)
return ActionResult{Title: "AMD GPU SAT", Body: satResultBody(path)}, err
}
func (a *App) RunAMDMemIntegrityPackCtx(ctx context.Context, baseDir string, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
return a.sat.RunAMDMemIntegrityPack(ctx, baseDir, logFunc)
}
func (a *App) RunAMDMemBandwidthPackCtx(ctx context.Context, baseDir string, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
return a.sat.RunAMDMemBandwidthPack(ctx, baseDir, logFunc)
}
func (a *App) RunMemoryStressPack(baseDir string, durationSec int, logFunc func(string)) (string, error) {
return a.RunMemoryStressPackCtx(context.Background(), baseDir, durationSec, logFunc)
}
func (a *App) RunSATStressPack(baseDir string, durationSec int, logFunc func(string)) (string, error) {
return a.RunSATStressPackCtx(context.Background(), baseDir, durationSec, logFunc)
}
func (a *App) RunAMDStressPack(baseDir string, durationSec int, logFunc func(string)) (string, error) {
return a.RunAMDStressPackCtx(context.Background(), baseDir, durationSec, logFunc)
}
func (a *App) RunMemoryStressPackCtx(ctx context.Context, baseDir string, durationSec int, logFunc func(string)) (string, error) {
return a.sat.RunMemoryStressPack(ctx, baseDir, durationSec, logFunc)
}
func (a *App) RunSATStressPackCtx(ctx context.Context, baseDir string, durationSec int, logFunc func(string)) (string, error) {
return a.sat.RunSATStressPack(ctx, baseDir, durationSec, logFunc)
}
func (a *App) RunAMDStressPackCtx(ctx context.Context, baseDir string, durationSec int, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
return a.sat.RunAMDStressPack(ctx, baseDir, durationSec, logFunc)
}
func (a *App) RunFanStressTest(ctx context.Context, baseDir string, opts platform.FanStressOptions) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
return a.sat.RunFanStressTest(ctx, baseDir, opts)
}
func (a *App) RunPlatformStress(ctx context.Context, baseDir string, opts platform.PlatformStressOptions, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
return a.sat.RunPlatformStress(ctx, baseDir, opts, logFunc)
}
func (a *App) RunNCCLTests(ctx context.Context, baseDir string, gpuIndices []int, logFunc func(string)) (string, error) {
if strings.TrimSpace(baseDir) == "" {
baseDir = DefaultSATBaseDir
}
return a.sat.RunNCCLTests(ctx, baseDir, gpuIndices, logFunc)
}
func (a *App) RunNCCLTestsResult(ctx context.Context) (ActionResult, error) {
path, err := a.RunNCCLTests(ctx, DefaultSATBaseDir, nil, nil)
body := "Results: " + path
if err != nil && err != context.Canceled {
body += "\nERROR: " + err.Error()
}
return ActionResult{Title: "NCCL bandwidth test", Body: body}, err
}
func (a *App) RunFanStressTestResult(ctx context.Context, opts platform.FanStressOptions) (ActionResult, error) {
path, err := a.RunFanStressTest(ctx, "", opts)
body := formatFanStressResult(path)
if err != nil && err != context.Canceled {
body += "\nERROR: " + err.Error()
}
return ActionResult{Title: "GPU Platform Stress Test", Body: body}, err
}
// formatFanStressResult formats the summary.txt from a fan-stress run, including
// the per-step pass/fail display and the analysis section (throttling, max temps, fan response).
func formatFanStressResult(archivePath string) string {
if archivePath == "" {
return "No output produced."
}
runDir := strings.TrimSuffix(archivePath, ".tar.gz")
raw, err := os.ReadFile(filepath.Join(runDir, "summary.txt"))
if err != nil {
return "Archive written to " + archivePath
}
content := strings.TrimSpace(string(raw))
kv := parseKeyValueSummary(content)
var b strings.Builder
b.WriteString(formatSATDetail(content))
// Append analysis section.
var analysis []string
if v, ok := kv["throttling_detected"]; ok {
label := "NO"
if v == "true" {
label = "YES ← throttling detected during load"
}
analysis = append(analysis, "Throttling: "+label)
}
if v, ok := kv["max_gpu_temp_c"]; ok && v != "0.0" {
analysis = append(analysis, "Max GPU temp: "+v+"°C")
}
if v, ok := kv["max_cpu_temp_c"]; ok && v != "0.0" {
analysis = append(analysis, "Max CPU temp: "+v+"°C")
}
if v, ok := kv["fan_response_sec"]; ok && v != "N/A" && v != "-1.0" {
analysis = append(analysis, "Fan response: "+v+"s")
}
if len(analysis) > 0 {
b.WriteString("\n\n=== Analysis ===\n")
for _, line := range analysis {
b.WriteString(line + "\n")
}
}
return strings.TrimSpace(b.String())
}
// satResultBody reads summary.txt from the SAT run directory (archive path without .tar.gz)
// and returns a formatted human-readable result. Falls back to a plain message if unreadable.
func satResultBody(archivePath string) string {
if archivePath == "" {
return "No output produced."
}
runDir := strings.TrimSuffix(archivePath, ".tar.gz")
raw, err := os.ReadFile(filepath.Join(runDir, "summary.txt"))
if err != nil {
return "Archive written to " + archivePath
}
return formatSATDetail(strings.TrimSpace(string(raw)))
}

67
audit/internal/app/app_services.go Normal file
View File

@@ -0,0 +1,67 @@
package app
import (
"fmt"
"strings"
"bee/audit/internal/platform"
)
func (a *App) ListBeeServices() ([]string, error) {
return a.services.ListBeeServices()
}
func (a *App) ServiceState(name string) string {
return a.services.ServiceState(name)
}
func (a *App) ServiceStatus(name string) (string, error) {
return a.services.ServiceStatus(name)
}
func (a *App) ServiceStatusResult(name string) (ActionResult, error) {
body, err := a.services.ServiceStatus(name)
return ActionResult{Title: "service status: " + name, Body: bodyOr(body, "No status output.")}, err
}
func (a *App) ServiceDo(name string, action platform.ServiceAction) (string, error) {
return a.services.ServiceDo(name, action)
}
func (a *App) ServiceActionResult(name string, action platform.ServiceAction) (ActionResult, error) {
body, err := a.services.ServiceDo(name, action)
return ActionResult{Title: "service " + string(action) + ": " + name, Body: bodyOr(body, "Action completed.")}, err
}
func (a *App) TailFile(path string, lines int) string {
return a.tools.TailFile(path, lines)
}
func (a *App) CheckTools(names []string) []platform.ToolStatus {
return a.tools.CheckTools(names)
}
func (a *App) ToolCheckResult(names []string) ActionResult {
if len(names) == 0 {
return ActionResult{Title: "Required tools", Body: "No tools checked."}
}
var body strings.Builder
for _, tool := range a.tools.CheckTools(names) {
status := "MISSING"
if tool.OK {
status = "OK (" + tool.Path + ")"
}
fmt.Fprintf(&body, "- %s: %s\n", tool.Name, status)
}
return ActionResult{Title: "Required tools", Body: strings.TrimSpace(body.String())}
}
func (a *App) AuditLogTailResult() ActionResult {
logTail := strings.TrimSpace(a.tools.TailFile(DefaultAuditLogPath, 40))
jsonTail := strings.TrimSpace(a.tools.TailFile(DefaultAuditJSONPath, 20))
body := strings.TrimSpace(logTail + "\n\n" + jsonTail)
if body == "" {
body = "No audit logs found."
}
return ActionResult{Title: "Audit log tail", Body: body}
}

5
audit/internal/app/blackbox.go
View File

@@ -365,7 +365,6 @@ func (w *blackboxWorker) currentFlushPeriod() time.Duration {
func (w *blackboxWorker) finishCycle(duration time.Duration, err error) {
w.mu.Lock()
defer w.mu.Unlock()
w.lastDuration = duration
if err != nil {
w.status = "degraded"
@@ -383,6 +382,10 @@ func (w *blackboxWorker) finishCycle(duration time.Duration, err error) {
}
w.flushPeriod = adjustFlushPeriod(w.flushPeriod, duration, true, w.fastCycles)
}
w.mu.Unlock()
// persistState must be called without w.mu held: it acquires rt.mu then
// each worker.mu inside persistStateLocked, so holding w.mu here would
// cause a deadlock (w.mu → rt.mu → w.mu).
w.runtime.persistState()
}

20
audit/internal/app/sat_overlay.go
View File

@@ -3,10 +3,11 @@ package app
import (
"os"
"path/filepath"
"strconv"
"sort"
"strconv"
"strings"
"bee/audit/internal/collector"
"bee/audit/internal/schema"
)
@@ -313,17 +314,20 @@ func statusSeverity(status string) int {
}
func matchesGPUVendor(dev schema.HardwarePCIeDevice, vendor string) bool {
if dev.DeviceClass == nil || !strings.Contains(strings.TrimSpace(*dev.DeviceClass), "Controller") && !strings.Contains(strings.TrimSpace(*dev.DeviceClass), "Accelerator") {
if dev.DeviceClass == nil || !strings.Contains(strings.TrimSpace(*dev.DeviceClass), "Display") && !strings.Contains(strings.TrimSpace(*dev.DeviceClass), "Video") {
return false
}
if dev.DeviceClass == nil {
return false
}
class := strings.TrimSpace(*dev.DeviceClass)
isGPUClass := strings.Contains(class, "Controller") || strings.Contains(class, "Accelerator") ||
strings.Contains(class, "Display") || strings.Contains(class, "Video")
if !isGPUClass {
return false
}
manufacturer := strings.ToLower(strings.TrimSpace(ptrString(dev.Manufacturer)))
switch vendor {
case "amd":
return strings.Contains(manufacturer, "advanced micro devices") || strings.Contains(manufacturer, "amd/ati")
return dev.VendorID != nil && *dev.VendorID == collector.AMDVendorID
case "nvidia":
return strings.Contains(manufacturer, "nvidia")
return dev.VendorID != nil && *dev.VendorID == collector.NvidiaVendorID
default:
return false
}

3
audit/internal/app/sat_overlay_test.go
View File

@@ -5,6 +5,7 @@ import (
"path/filepath"
"testing"
"bee/audit/internal/collector"
"bee/audit/internal/schema"
)
@@ -46,10 +47,12 @@ func TestApplyLatestSATStatusesMarksAMDGPUs(t *testing.T) {
class := "DisplayController"
manufacturer := "Advanced Micro Devices, Inc. [AMD/ATI]"
amdVendorID := collector.AMDVendorID
snap := schema.HardwareSnapshot{
PCIeDevices: []schema.HardwarePCIeDevice{{
DeviceClass: &class,
Manufacturer: &manufacturer,
VendorID: &amdVendorID,
}},
}

5
audit/internal/collector/amdgpu.go
View File

@@ -84,11 +84,10 @@ func hasAMDGPUDevices(devs []schema.HardwarePCIeDevice) bool {
}
func isAMDGPUDevice(dev schema.HardwarePCIeDevice) bool {
if dev.Manufacturer == nil || dev.DeviceClass == nil {
if dev.DeviceClass == nil {
return false
}
manufacturer := strings.ToLower(strings.TrimSpace(*dev.Manufacturer))
return strings.Contains(manufacturer, "advanced micro devices") && isGPUClass(strings.TrimSpace(*dev.DeviceClass))
return dev.VendorID != nil && *dev.VendorID == AMDVendorID && isGPUClass(strings.TrimSpace(*dev.DeviceClass))
}
func queryAMDGPUs() (map[string]amdGPUInfo, error) {

4
audit/internal/collector/board.go
View File

@@ -174,15 +174,19 @@ func cleanDMIValue(v string) string {
upper := strings.ToUpper(v)
placeholders := []string{
"TO BE FILLED BY O.E.M.",
"TO BE FILLED BY O.E.M",
"NOT SPECIFIED",
"NOT SETTABLE",
"NOT PRESENT",
"NOT AVAILABLE",
"UNKNOWN",
"N/A",
"NONE",
"NULL",
"DEFAULT STRING",
"0",
"0123456789",
"1234567890",
}
for _, p := range placeholders {
if upper == p {

78
audit/internal/collector/board_test.go
View File

@@ -84,6 +84,10 @@ func TestCleanDMIValue(t *testing.T) {
{" Inspur ", "Inspur"},
{"", ""},
{"0", ""},
{"0123456789", ""},
{"1234567890", ""},
{"Not Available", ""},
{"To Be Filled By O.E.M", ""},
}
for _, tt := range tests {
got := cleanDMIValue(tt.input)
@@ -109,6 +113,80 @@ func TestParseDMIFields(t *testing.T) {
}
}
func TestParseBoard_Dell(t *testing.T) {
type1 := mustReadFile(t, "testdata/dmidecode_type1_dell.txt")
type2 := mustReadFile(t, "testdata/dmidecode_type2_dell.txt")
board := parseBoard(type1, type2)
if board.SerialNumber != "7SG9F63" {
t.Errorf("serial_number: got %q, want %q", board.SerialNumber, "7SG9F63")
}
if board.Manufacturer == nil || *board.Manufacturer != "Dell Inc." {
t.Errorf("manufacturer: got %v, want Dell Inc.", board.Manufacturer)
}
if board.ProductName == nil || *board.ProductName != "PowerEdge R740xd" {
t.Errorf("product_name: got %v, want PowerEdge R740xd", board.ProductName)
}
// part number comes from type2 Product Name
if board.PartNumber == nil || *board.PartNumber != "0F9N89" {
t.Errorf("part_number: got %v, want 0F9N89", board.PartNumber)
}
}
func TestParseBoard_HPE(t *testing.T) {
type1 := mustReadFile(t, "testdata/dmidecode_type1_hpe.txt")
type2 := mustReadFile(t, "testdata/dmidecode_type2_hpe.txt")
board := parseBoard(type1, type2)
if board.SerialNumber != "CZJ9320CXN" {
t.Errorf("serial_number: got %q, want %q", board.SerialNumber, "CZJ9320CXN")
}
if board.Manufacturer == nil || *board.Manufacturer != "HPE" {
t.Errorf("manufacturer: got %v, want HPE", board.Manufacturer)
}
if board.ProductName == nil || *board.ProductName != "ProLiant DL380 Gen10" {
t.Errorf("product_name: got %v, want ProLiant DL380 Gen10", board.ProductName)
}
if board.PartNumber == nil || *board.PartNumber != "ProLiant DL380 Gen10" {
t.Errorf("part_number: got %v, want ProLiant DL380 Gen10", board.PartNumber)
}
}
func TestParseBoard_Supermicro_Placeholders(t *testing.T) {
type1 := mustReadFile(t, "testdata/dmidecode_type1_supermicro.txt")
type2 := mustReadFile(t, "testdata/dmidecode_type2_supermicro.txt")
board := parseBoard(type1, type2)
if board.SerialNumber != "S214726X2A36789" {
t.Errorf("serial_number: got %q, want %q", board.SerialNumber, "S214726X2A36789")
}
if board.Manufacturer == nil || *board.Manufacturer != "Supermicro" {
t.Errorf("manufacturer: got %v, want Supermicro", board.Manufacturer)
}
if board.ProductName == nil || *board.ProductName != "SYS-6028R-WTR" {
t.Errorf("product_name: got %v, want SYS-6028R-WTR", board.ProductName)
}
// "X10DRW-i" is the real part number from type 2
if board.PartNumber == nil || *board.PartNumber != "X10DRW-i" {
t.Errorf("part_number: got %v, want X10DRW-i", board.PartNumber)
}
}
func TestParseBIOSFirmware_Dell(t *testing.T) {
type0 := mustReadFile(t, "testdata/dmidecode_type0_dell.txt")
fw := parseBIOSFirmware(type0)
if len(fw) != 1 {
t.Fatalf("expected 1 firmware record, got %d", len(fw))
}
if fw[0].Version != "2.5.4" {
t.Errorf("version: got %q, want 2.5.4", fw[0].Version)
}
}
func mustReadFile(t *testing.T, path string) string {
t.Helper()
b, err := os.ReadFile(path)

3
audit/internal/collector/collector.go
View File

@@ -49,7 +49,8 @@ func Run(_ runtimeenv.Mode) schema.HardwareIngestRequest {
snap.VROCLicense = collectVROCLicense(snap.PCIeDevices)
snap.PowerSupplies = collectPSUs(derefString(snap.Board.Manufacturer))
snap.PowerSupplies = enrichPSUsWithTelemetry(snap.PowerSupplies, sensorDoc)
snap.Sensors = buildSensorsFromDoc(sensorDoc)
snap.Sensors = mergeIPMISensors(buildSensorsFromDoc(sensorDoc), collectIPMISensors())
snap.EventLogs = append(collectIPMISEL(), collectDmesgErrors()...)
finalizeSnapshot(&snap, collectedAt)
// remaining collectors added in steps 1.8 1.10

129
audit/internal/collector/dmesg_events.go Normal file
View File

@@ -0,0 +1,129 @@
package collector
import (
"bee/audit/internal/schema"
"log/slog"
"os/exec"
"regexp"
"strings"
"time"
)
// dmesg -T output: [Thu Jun 18 14:23:45 2026] message
// dmesg without -T: [ 123.456789] message
var dmesgTimestampRE = regexp.MustCompile(`^\[([^\]]+)\]\s*(.*)$`)
// Keywords that indicate an error or hardware problem worth capturing.
var dmesgErrorPatterns = []*regexp.Regexp{
regexp.MustCompile(`(?i)\berr(or)?\b`),
regexp.MustCompile(`(?i)\bfail(ed|ure)?\b`),
regexp.MustCompile(`(?i)\bfault\b`),
regexp.MustCompile(`(?i)\bwarn(ing)?\b`),
regexp.MustCompile(`(?i)\bAER\b`),
regexp.MustCompile(`(?i)\bXid\b`),
regexp.MustCompile(`(?i)\bNVRM\b`),
regexp.MustCompile(`(?i)\bpanic\b`),
regexp.MustCompile(`(?i)\bcorrected\b`),
regexp.MustCompile(`(?i)\buncorrect`),
regexp.MustCompile(`(?i)\bECC\b`),
regexp.MustCompile(`(?i)\btimeout\b`),
regexp.MustCompile(`(?i)\breset\b`),
regexp.MustCompile(`(?i)\bdead\b`),
regexp.MustCompile(`(?i)\bhang\b`),
regexp.MustCompile(`(?i)\bstall\b`),
regexp.MustCompile(`(?i)\bdisabled\b`),
}
// collectDmesgErrors runs `dmesg -T` (or `dmesg` without -T on failure) and
// returns only lines that match known error/warning patterns.
func collectDmesgErrors() []schema.HardwareEventLog {
out, err := exec.Command("dmesg", "-T").Output()
if err != nil || len(out) == 0 {
// Fallback: dmesg without human-readable timestamps
out, err = exec.Command("dmesg").Output()
if err != nil || len(out) == 0 {
return nil
}
}
entries := parseDmesgErrors(string(out))
if len(entries) == 0 {
return nil
}
slog.Info("dmesg: collected error entries", "count", len(entries))
return entries
}
func parseDmesgErrors(output string) []schema.HardwareEventLog {
var entries []schema.HardwareEventLog
collectedAt := time.Now().UTC().Format(time.RFC3339)
for _, line := range strings.Split(output, "\n") {
line = strings.TrimSpace(line)
if line == "" {
continue
}
var timestamp, message string
if m := dmesgTimestampRE.FindStringSubmatch(line); m != nil {
timestamp = strings.TrimSpace(m[1])
message = strings.TrimSpace(m[2])
} else {
message = line
}
if message == "" {
continue
}
if !matchesAny(message, dmesgErrorPatterns) {
continue
}
severity := dmesgSeverity(message)
source := "dmesg"
var eventTime *string
if timestamp != "" {
t := timestamp
eventTime = &t
} else {
eventTime = &collectedAt
}
entries = append(entries, schema.HardwareEventLog{
Source: source,
EventTime: eventTime,
Severity: &severity,
Message: message,
})
}
return entries
}
func matchesAny(s string, patterns []*regexp.Regexp) bool {
for _, p := range patterns {
if p.MatchString(s) {
return true
}
}
return false
}
func dmesgSeverity(msg string) string {
lower := strings.ToLower(msg)
switch {
case strings.Contains(lower, "panic") ||
strings.Contains(lower, "aer") ||
strings.Contains(lower, "uncorrect") ||
strings.Contains(lower, "xid") ||
strings.Contains(lower, "nvrm"):
return statusCritical
case strings.Contains(lower, "error") ||
strings.Contains(lower, "fault") ||
strings.Contains(lower, "fail") ||
strings.Contains(lower, "dead") ||
strings.Contains(lower, "hang"):
return statusCritical
default:
return statusWarning
}
}

90
audit/internal/collector/ipmi_sel.go Normal file
View File

@@ -0,0 +1,90 @@
package collector
import (
"bee/audit/internal/schema"
"fmt"
"log/slog"
"os/exec"
"strings"
)
// collectIPMISEL runs `ipmitool sel list` and returns parsed event log entries.
// Returns nil if ipmitool is unavailable or the SEL is empty.
func collectIPMISEL() []schema.HardwareEventLog {
out, err := exec.Command("ipmitool", "sel", "list").Output()
if err != nil || len(out) == 0 {
return nil
}
entries := parseIPMISELOutput(string(out))
if len(entries) == 0 {
return nil
}
slog.Info("ipmi sel: collected", "entries", len(entries))
return entries
}
// parseIPMISELOutput parses `ipmitool sel list` output.
// Line format: ID | date | time | sensor | event description | direction
// Example: 1 | 06/18/2026 | 14:23:45 | Temperature #0x30 | Upper Critical going high | Asserted
func parseIPMISELOutput(output string) []schema.HardwareEventLog {
var entries []schema.HardwareEventLog
for _, line := range strings.Split(output, "\n") {
line = strings.TrimSpace(line)
if line == "" {
continue
}
parts := strings.SplitN(line, "|", 6)
if len(parts) < 5 {
continue
}
id := strings.TrimSpace(parts[0])
date := strings.TrimSpace(parts[1])
timeStr := strings.TrimSpace(parts[2])
sensor := strings.TrimSpace(parts[3])
event := strings.TrimSpace(parts[4])
direction := ""
if len(parts) == 6 {
direction = strings.TrimSpace(parts[5])
}
var eventTime *string
if date != "" && timeStr != "" {
t := fmt.Sprintf("%s %s", date, timeStr)
eventTime = &t
}
message := event
if direction != "" && strings.EqualFold(direction, "Deasserted") {
message = event + " (Deasserted)"
}
severity := ipmiSELSeverity(event)
isActive := !strings.EqualFold(direction, "Deasserted")
entry := schema.HardwareEventLog{
Source: "ipmi-sel",
EventTime: eventTime,
Severity: &severity,
MessageID: &id,
Message: message,
IsActive: &isActive,
}
if sensor != "" {
entry.ComponentRef = &sensor
}
entries = append(entries, entry)
}
return entries
}
func ipmiSELSeverity(event string) string {
lower := strings.ToLower(event)
switch {
case strings.Contains(lower, "critical") || strings.Contains(lower, "non-recoverable"):
return statusCritical
case strings.Contains(lower, "non-critical") || strings.Contains(lower, "warning") || strings.Contains(lower, "degraded"):
return statusWarning
default:
return "info"
}
}

216
audit/internal/collector/ipmi_sensors.go Normal file
View File

@@ -0,0 +1,216 @@
package collector
import (
"bee/audit/internal/schema"
"log/slog"
"os/exec"
"strconv"
"strings"
)
// collectIPMISensors runs `ipmitool sensor` and returns parsed sensor readings.
// Returns nil if ipmitool is unavailable or produces no output.
func collectIPMISensors() *schema.HardwareSensors {
out, err := exec.Command("ipmitool", "sensor").Output()
if err != nil || len(out) == 0 {
return nil
}
result := parseIPMISensorOutput(string(out))
if result == nil {
return nil
}
slog.Info("ipmi sensors: collected",
"fans", len(result.Fans),
"temperatures", len(result.Temperatures),
"power", len(result.Power),
"other", len(result.Other),
)
return result
}
// parseIPMISensorOutput parses `ipmitool sensor` text output.
// Each line: name | value | unit | status | lnr | lcr | lnc | unc | ucr | unr
func parseIPMISensorOutput(output string) *schema.HardwareSensors {
result := &schema.HardwareSensors{}
seen := map[string]struct{}{}
for _, line := range strings.Split(output, "\n") {
line = strings.TrimSpace(line)
if line == "" {
continue
}
parts := strings.Split(line, "|")
if len(parts) < 4 {
continue
}
name := strings.TrimSpace(parts[0])
rawVal := strings.TrimSpace(parts[1])
unit := strings.TrimSpace(parts[2])
status := strings.TrimSpace(parts[3])
if name == "" || rawVal == "na" || rawVal == "N/A" || rawVal == "" {
continue
}
value, err := strconv.ParseFloat(rawVal, 64)
if err != nil {
continue
}
statusStr := normalizeIPMISensorStatus(status)
switch {
case strings.EqualFold(unit, "RPM"):
if duplicateSensor(seen, "fan", name) {
continue
}
rpm := int(value)
item := schema.HardwareFanSensor{Name: name, RPM: &rpm}
if statusStr != "" {
item.Status = &statusStr
}
result.Fans = append(result.Fans, item)
case strings.EqualFold(unit, "degrees C") || strings.EqualFold(unit, "C"):
if duplicateSensor(seen, "temp", name) {
continue
}
item := schema.HardwareTemperatureSensor{Name: name, Celsius: &value}
if len(parts) >= 9 {
if unc := parseIPMIThreshold(parts[7]); unc != nil {
item.ThresholdWarningCelsius = unc
}
if ucr := parseIPMIThreshold(parts[8]); ucr != nil {
item.ThresholdCriticalCelsius = ucr
}
}
if statusStr != "" {
item.Status = &statusStr
} else {
item.Status = deriveTemperatureStatus(item.Celsius, item.ThresholdWarningCelsius, item.ThresholdCriticalCelsius)
}
result.Temperatures = append(result.Temperatures, item)
case strings.EqualFold(unit, "Volts") || strings.EqualFold(unit, "V"):
if duplicateSensor(seen, "power", name) {
continue
}
item := schema.HardwarePowerSensor{Name: name, VoltageV: &value}
if statusStr != "" {
item.Status = &statusStr
}
result.Power = append(result.Power, item)
case strings.EqualFold(unit, "Watts") || strings.EqualFold(unit, "W"):
if duplicateSensor(seen, "power", name) {
continue
}
item := schema.HardwarePowerSensor{Name: name, PowerW: &value}
if statusStr != "" {
item.Status = &statusStr
}
result.Power = append(result.Power, item)
case strings.EqualFold(unit, "Amps") || strings.EqualFold(unit, "A"):
if duplicateSensor(seen, "power", name) {
continue
}
item := schema.HardwarePowerSensor{Name: name, CurrentA: &value}
if statusStr != "" {
item.Status = &statusStr
}
result.Power = append(result.Power, item)
default:
if duplicateSensor(seen, "other", name) {
continue
}
item := schema.HardwareOtherSensor{Name: name, Value: &value}
if unit != "" {
item.Unit = &unit
}
if statusStr != "" {
item.Status = &statusStr
}
result.Other = append(result.Other, item)
}
}
if len(result.Fans) == 0 && len(result.Temperatures) == 0 && len(result.Power) == 0 && len(result.Other) == 0 {
return nil
}
return result
}
func parseIPMIThreshold(raw string) *float64 {
s := strings.TrimSpace(raw)
if s == "" || s == "na" || s == "N/A" {
return nil
}
v, err := strconv.ParseFloat(s, 64)
if err != nil {
return nil
}
return &v
}
func normalizeIPMISensorStatus(s string) string {
switch strings.ToLower(s) {
case "ok":
return statusOK
case "cr", "ucr", "lcr":
return statusCritical
case "nc", "unc", "lnc", "nr", "unr", "lnr":
return statusWarning
case "ns", "na":
return ""
default:
return ""
}
}
// mergeIPMISensors appends IPMI sensor entries into existing, skipping names already present.
func mergeIPMISensors(existing, ipmi *schema.HardwareSensors) *schema.HardwareSensors {
if ipmi == nil {
return existing
}
if existing == nil {
return ipmi
}
existingNames := map[string]struct{}{}
for _, s := range existing.Fans {
existingNames["fan\x00"+s.Name] = struct{}{}
}
for _, s := range existing.Temperatures {
existingNames["temp\x00"+s.Name] = struct{}{}
}
for _, s := range existing.Power {
existingNames["power\x00"+s.Name] = struct{}{}
}
for _, s := range existing.Other {
existingNames["other\x00"+s.Name] = struct{}{}
}
for _, s := range ipmi.Fans {
if _, ok := existingNames["fan\x00"+s.Name]; !ok {
existing.Fans = append(existing.Fans, s)
}
}
for _, s := range ipmi.Temperatures {
if _, ok := existingNames["temp\x00"+s.Name]; !ok {
existing.Temperatures = append(existing.Temperatures, s)
}
}
for _, s := range ipmi.Power {
if _, ok := existingNames["power\x00"+s.Name]; !ok {
existing.Power = append(existing.Power, s)
}
}
for _, s := range ipmi.Other {
if _, ok := existingNames["other\x00"+s.Name]; !ok {
existing.Other = append(existing.Other, s)
}
}
return existing
}

87
audit/internal/collector/memory_test.go Normal file
View File

@@ -0,0 +1,87 @@
package collector
import (
"testing"
)
func TestParseMemory_Mixed(t *testing.T) {
out := mustReadFile(t, "testdata/dmidecode_type17_mixed.txt")
dimms := parseMemory(out)
if len(dimms) != 3 {
t.Fatalf("expected 3 DIMMs, got %d", len(dimms))
}
// slot 0: populated, 16 GB Supermicro-style
d0 := dimms[0]
if d0.Present == nil || !*d0.Present {
t.Errorf("dimm0: expected present=true")
}
if d0.SizeMB == nil || *d0.SizeMB != 16384 {
t.Errorf("dimm0: size_mb=%v, want 16384", d0.SizeMB)
}
if d0.Slot == nil || *d0.Slot != "P1-DIMMA1" {
t.Errorf("dimm0: slot=%v, want P1-DIMMA1", d0.Slot)
}
if d0.Location == nil || *d0.Location != "P0_Node0_Channel0_Dimm0" {
t.Errorf("dimm0: location=%v, want P0_Node0_Channel0_Dimm0", d0.Location)
}
if d0.Manufacturer == nil || *d0.Manufacturer != "Micron" {
t.Errorf("dimm0: manufacturer=%v, want Micron", d0.Manufacturer)
}
if d0.PartNumber == nil || *d0.PartNumber != "36ASF2G72PZ-2G1A2" {
t.Errorf("dimm0: part_number=%v, want 36ASF2G72PZ-2G1A2", d0.PartNumber)
}
if d0.MaxSpeedMHz == nil || *d0.MaxSpeedMHz != 2133 {
t.Errorf("dimm0: max_speed_mhz=%v, want 2133", d0.MaxSpeedMHz)
}
// slot 1: empty
d1 := dimms[1]
if d1.Present == nil || *d1.Present {
t.Errorf("dimm1: expected present=false")
}
if d1.Status == nil || *d1.Status != statusEmpty {
t.Errorf("dimm1: status=%v, want %s", d1.Status, statusEmpty)
}
if d1.SizeMB != nil {
t.Errorf("dimm1: size_mb should be nil for empty slot, got %v", d1.SizeMB)
}
// slot 2: populated, 32768 MB Dell-style size
d2 := dimms[2]
if d2.Present == nil || !*d2.Present {
t.Errorf("dimm2: expected present=true")
}
if d2.SizeMB == nil || *d2.SizeMB != 32768 {
t.Errorf("dimm2: size_mb=%v, want 32768", d2.SizeMB)
}
if d2.Manufacturer == nil || *d2.Manufacturer != "Samsung" {
t.Errorf("dimm2: manufacturer=%v, want Samsung", d2.Manufacturer)
}
if d2.CurrentSpeedMHz == nil || *d2.CurrentSpeedMHz != 2400 {
t.Errorf("dimm2: current_speed_mhz=%v, want 2400", d2.CurrentSpeedMHz)
}
}
func TestParseMemorySizeMB(t *testing.T) {
tests := []struct {
input string
want int
}{
{"16 GB", 16384},
{"32 GB", 32768},
{"8 GB", 8192},
{"16384 MB", 16384},
{"32768 MB", 32768},
{"No Module Installed", 0},
{"0", 0},
{"", 0},
}
for _, tt := range tests {
got := parseMemorySizeMB(tt.input)
if got != tt.want {
t.Errorf("parseMemorySizeMB(%q) = %d, want %d", tt.input, got, tt.want)
}
}
}

12
audit/internal/collector/nic_mellanox.go
View File

@@ -11,7 +11,6 @@ import (
"time"
)
const mellanoxVendorID = 0x15b3
const nicProbeTimeout = 2 * time.Second
var (
@@ -80,16 +79,7 @@ func enrichPCIeWithMellanox(devs []schema.HardwarePCIeDevice) []schema.HardwareP
}
func isMellanoxDevice(dev schema.HardwarePCIeDevice) bool {
if dev.VendorID != nil && *dev.VendorID == mellanoxVendorID {
return true
}
if dev.Manufacturer != nil {
m := strings.ToLower(*dev.Manufacturer)
if strings.Contains(m, "mellanox") || strings.Contains(m, "nvidia networking") {
return true
}
}
return false
return dev.VendorID != nil && *dev.VendorID == MellanoxVendorID
}
func queryMellanoxFromMstflint(bdf string) (firmware, serial string) {

4
audit/internal/collector/nic_mellanox_test.go
View File

@@ -55,7 +55,7 @@ func TestEnrichPCIeWithMellanox_mstflint(t *testing.T) {
}
netIfacesByBDF = func(string) []string { return nil }
vendorID := mellanoxVendorID
vendorID := MellanoxVendorID
bdf := "0000:18:00.0"
manufacturer := "Mellanox Technologies"
devs := []schema.HardwarePCIeDevice{{
@@ -99,7 +99,7 @@ func TestEnrichPCIeWithMellanox_fallbackEthtool(t *testing.T) {
return "driver: mlx5_core\nfirmware-version: 28.40.1000\n", nil
}
vendorID := mellanoxVendorID
vendorID := MellanoxVendorID
bdf := "0000:18:00.0"
manufacturer := "NVIDIA Networking"
devs := []schema.HardwarePCIeDevice{{

10
audit/internal/collector/nvidia.go
View File

@@ -10,8 +10,6 @@ import (
"strings"
)
const nvidiaVendorID = 0x10de
type nvidiaGPUInfo struct {
Index int
BDF string
@@ -240,13 +238,7 @@ func normalizePCIeBDF(bdf string) string {
}
func isNVIDIADevice(dev schema.HardwarePCIeDevice) bool {
if dev.VendorID != nil && *dev.VendorID == nvidiaVendorID {
return true
}
if dev.Manufacturer != nil && strings.Contains(strings.ToLower(*dev.Manufacturer), "nvidia") {
return true
}
return false
return dev.VendorID != nil && *dev.VendorID == NvidiaVendorID
}
func setPCIeFallback(dev *schema.HardwarePCIeDevice) {

4
audit/internal/collector/nvidia_test.go
View File

@@ -57,7 +57,7 @@ func TestNormalizePCIeBDF(t *testing.T) {
}
func TestEnrichPCIeWithNVIDIAData_driverLoaded(t *testing.T) {
vendorID := nvidiaVendorID
vendorID := NvidiaVendorID
bdf := "0000:65:00.0"
manufacturer := "NVIDIA Corporation"
status := "OK"
@@ -104,7 +104,7 @@ func TestEnrichPCIeWithNVIDIAData_driverLoaded(t *testing.T) {
}
func TestEnrichPCIeWithNVIDIAData_driverMissingFallback(t *testing.T) {
vendorID := nvidiaVendorID
vendorID := NvidiaVendorID
bdf := "0000:17:00.0"
manufacturer := "NVIDIA Corporation"
devices := []schema.HardwarePCIeDevice{

11
audit/internal/collector/pci_vendors.go Normal file
View File

@@ -0,0 +1,11 @@
package collector
// PCI vendor IDs for hardware classification.
// Source: https://pcisig.com / https://pci-ids.ucw.cz/
const (
NvidiaVendorID = 0x10de
AMDVendorID = 0x1002
AspeedVendorID = 0x1a03
MellanoxVendorID = 0x15b3
IntelVendorID = 0x8086
)

10
audit/internal/collector/pcie.go
View File

@@ -278,6 +278,11 @@ func readPCIStringAttribute(bdf, attribute string) (string, bool) {
// below the device maximum. Regular PCIe slots get Warning; NVLink bridge cards
// get Critical because they are fixed internal connectors that must always train
// to max speed — any downgrade signals a hardware fault.
//
// Disabled devices (sysfs enable==0) are skipped: they carry no data traffic and
// their link state has no operational impact. This covers management endpoints
// (e.g. PCIe switch fabric controllers on HGX baseboards) that the kernel never
// activates but that lspci still reports with link stats.
func applyPCIeLinkSpeedWarning(dev *schema.HardwarePCIeDevice) {
if dev.LinkSpeed == nil || dev.MaxLinkSpeed == nil {
return
@@ -285,6 +290,11 @@ func applyPCIeLinkSpeedWarning(dev *schema.HardwarePCIeDevice) {
if pcieLinkSpeedRank(*dev.LinkSpeed) >= pcieLinkSpeedRank(*dev.MaxLinkSpeed) {
return
}
if dev.BDF != nil {
if enabled, ok := readPCIIntAttribute(*dev.BDF, "enable"); ok && enabled == 0 {
return
}
}
desc := fmt.Sprintf("PCIe link speed degraded: running at %s, capable of %s", *dev.LinkSpeed, *dev.MaxLinkSpeed)
dev.ErrorDescription = &desc

33
audit/internal/collector/sensors.go
View File

@@ -58,7 +58,6 @@ func buildSensorsFromDoc(doc sensorsDoc) *schema.HardwareSensors {
for _, chip := range chips {
features := doc[chip]
location := sensorLocation(chip)
keys := make([]string, 0, len(features))
for key := range features {
@@ -80,25 +79,25 @@ func buildSensorsFromDoc(doc sensorsDoc) *schema.HardwareSensors {
}
switch classifySensorFeature(feature) {
case "fan":
item := buildFanSensor(name, location, feature)
item := buildFanSensor(name, feature)
if item == nil || duplicateSensor(seen, "fan", item.Name) {
continue
}
result.Fans = append(result.Fans, *item)
case "temp":
item := buildTempSensor(name, location, feature)
item := buildTempSensor(name, feature)
if item == nil || duplicateSensor(seen, "temp", item.Name) {
continue
}
result.Temperatures = append(result.Temperatures, *item)
case "power":
item := buildPowerSensor(name, location, feature)
item := buildPowerSensor(name, feature)
if item == nil || duplicateSensor(seen, "power", item.Name) {
continue
}
result.Power = append(result.Power, *item)
default:
item := buildOtherSensor(name, location, feature)
item := buildOtherSensor(name, feature)
if item == nil || duplicateSensor(seen, "other", item.Name) {
continue
}
@@ -128,14 +127,6 @@ func duplicateSensor(seen map[string]struct{}, sensorType, name string) bool {
return false
}
func sensorLocation(chip string) *string {
chip = strings.TrimSpace(chip)
if chip == "" {
return nil
}
return &chip
}
func classifySensorFeature(feature map[string]any) string {
for key := range feature {
switch {
@@ -154,24 +145,24 @@ func classifySensorFeature(feature map[string]any) string {
return "other"
}
func buildFanSensor(name string, location *string, feature map[string]any) *schema.HardwareFanSensor {
func buildFanSensor(name string, feature map[string]any) *schema.HardwareFanSensor {
rpm, ok := firstFeatureInt(feature, "_input")
if !ok {
return nil
}
item := &schema.HardwareFanSensor{Name: name, Location: location, RPM: &rpm}
item := &schema.HardwareFanSensor{Name: name, RPM: &rpm}
if status := sensorStatusFromFeature(feature); status != nil {
item.Status = status
}
return item
}
func buildTempSensor(name string, location *string, feature map[string]any) *schema.HardwareTemperatureSensor {
func buildTempSensor(name string, feature map[string]any) *schema.HardwareTemperatureSensor {
celsius, ok := firstFeatureFloat(feature, "_input")
if !ok {
return nil
}
item := &schema.HardwareTemperatureSensor{Name: name, Location: location, Celsius: &celsius}
item := &schema.HardwareTemperatureSensor{Name: name, Celsius: &celsius}
if warning, ok := firstFeatureFloatWithSuffixes(feature, []string{"_max", "_high"}); ok {
item.ThresholdWarningCelsius = &warning
}
@@ -186,8 +177,8 @@ func buildTempSensor(name string, location *string, feature map[string]any) *sch
return item
}
func buildPowerSensor(name string, location *string, feature map[string]any) *schema.HardwarePowerSensor {
item := &schema.HardwarePowerSensor{Name: name, Location: location}
func buildPowerSensor(name string, feature map[string]any) *schema.HardwarePowerSensor {
item := &schema.HardwarePowerSensor{Name: name}
if v, ok := firstFeatureFloatWithContains(feature, []string{"power"}); ok {
item.PowerW = &v
}
@@ -206,12 +197,12 @@ func buildPowerSensor(name string, location *string, feature map[string]any) *sc
return item
}
func buildOtherSensor(name string, location *string, feature map[string]any) *schema.HardwareOtherSensor {
func buildOtherSensor(name string, feature map[string]any) *schema.HardwareOtherSensor {
value, unit, ok := firstGenericSensorValue(feature)
if !ok {
return nil
}
item := &schema.HardwareOtherSensor{Name: name, Location: location, Value: &value}
item := &schema.HardwareOtherSensor{Name: name, Value: &value}
if unit != "" {
item.Unit = &unit
}

67
audit/internal/collector/storage.go
View File

@@ -38,11 +38,22 @@ func bestEffortRescanHotplugStorage() {
for _, path := range hostPaths {
// SAS HBAs (e.g. smartpqi) block indefinitely in sas_user_scan when
// written to — SAS topology is discovered by the driver itself.
// Detect via two methods: (1) sas_host class registration, and
// (2) driver proc_name — smartpqi uses scsi_transport_sas but does
// not register a sas_host object, so (1) alone misses it.
host := filepath.Base(filepath.Dir(path))
if _, err := os.Stat("/sys/class/sas_host/" + host); err == nil {
slog.Info("storage: scsi host scan skipped (SAS host)", "path", path)
continue
}
if procName, err := os.ReadFile("/sys/class/scsi_host/" + host + "/proc_name"); err == nil {
switch strings.TrimSpace(string(procName)) {
case "smartpqi", "hpsa":
slog.Info("storage: scsi host scan skipped (SAS transport driver)",
"path", path, "driver", strings.TrimSpace(string(procName)))
continue
}
}
if err := hotplugWriteFile(path, []byte("- - -\n"), 0644); err != nil {
slog.Info("storage: scsi host scan write failed", "path", path, "err", err)
continue
@@ -413,20 +424,23 @@ func enrichWithSmartctl(dev lsblkDevice) schema.HardwareStorage {
}
// nvmeSmartLog is the subset of `nvme smart-log -o json` output we care about.
// nvme-cli emits most counters as JSON strings (e.g. "power_on_hours":"49"),
// so all numeric fields use jsonInt64 which accepts both bare numbers and
// quoted strings. Field names match nvme-cli JSON output, not NVMe spec prose.
type nvmeSmartLog struct {
CriticalWarning int `json:"critical_warning"`
PercentageUsed int `json:"percentage_used"`
AvailableSpare int `json:"available_spare"`
SpareThreshold int `json:"spare_thresh"`
Temperature int64 `json:"temperature"`
PowerOnHours int64 `json:"power_on_hours"`
PowerCycles int64 `json:"power_cycles"`
UnsafeShutdowns int64 `json:"unsafe_shutdowns"`
DataUnitsRead int64 `json:"data_units_read"`
DataUnitsWritten int64 `json:"data_units_written"`
ControllerBusy int64 `json:"controller_busy_time"`
MediaErrors int64 `json:"media_errors"`
NumErrLogEntries int64 `json:"num_err_log_entries"`
CriticalWarning jsonInt64 `json:"critical_warning"`
PercentageUsed jsonInt64 `json:"percent_used"`
AvailableSpare jsonInt64 `json:"avail_spare"`
SpareThreshold jsonInt64 `json:"spare_thresh"`
Temperature jsonInt64 `json:"temperature"`
PowerOnHours jsonInt64 `json:"power_on_hours"`
PowerCycles jsonInt64 `json:"power_cycles"`
UnsafeShutdowns jsonInt64 `json:"unsafe_shutdowns"`
DataUnitsRead jsonInt64 `json:"data_units_read"`
DataUnitsWritten jsonInt64 `json:"data_units_written"`
ControllerBusy jsonInt64 `json:"controller_busy_time"`
MediaErrors jsonInt64 `json:"media_errors"`
NumErrLogEntries jsonInt64 `json:"num_err_log_entries"`
}
// nvmeIDCtrl is the subset of `nvme id-ctrl -o json` output.
@@ -491,13 +505,16 @@ func enrichWithNVMe(dev lsblkDevice) schema.HardwareStorage {
var log nvmeSmartLog
if json.Unmarshal(out, &log) == nil {
if log.PowerOnHours > 0 {
s.PowerOnHours = &log.PowerOnHours
v := int64(log.PowerOnHours)
s.PowerOnHours = &v
}
if log.PowerCycles > 0 {
s.PowerCycles = &log.PowerCycles
v := int64(log.PowerCycles)
s.PowerCycles = &v
}
if log.UnsafeShutdowns > 0 {
s.UnsafeShutdowns = &log.UnsafeShutdowns
v := int64(log.UnsafeShutdowns)
s.UnsafeShutdowns = &v
}
if log.PercentageUsed > 0 {
v := float64(log.PercentageUsed)
@@ -506,11 +523,11 @@ func enrichWithNVMe(dev lsblkDevice) schema.HardwareStorage {
s.LifeRemainingPct = &remaining
}
if log.DataUnitsWritten > 0 {
v := nvmeDataUnitsToBytes(log.DataUnitsWritten)
v := nvmeDataUnitsToBytes(int64(log.DataUnitsWritten))
s.WrittenBytes = &v
}
if log.DataUnitsRead > 0 {
v := nvmeDataUnitsToBytes(log.DataUnitsRead)
v := nvmeDataUnitsToBytes(int64(log.DataUnitsRead))
s.ReadBytes = &v
}
if log.AvailableSpare > 0 {
@@ -518,23 +535,25 @@ func enrichWithNVMe(dev lsblkDevice) schema.HardwareStorage {
s.AvailableSparePct = &v
}
if log.MediaErrors > 0 {
s.MediaErrors = &log.MediaErrors
v := int64(log.MediaErrors)
s.MediaErrors = &v
}
if log.NumErrLogEntries > 0 {
s.ErrorLogEntries = &log.NumErrLogEntries
v := int64(log.NumErrLogEntries)
s.ErrorLogEntries = &v
}
if log.Temperature > 0 {
v := float64(log.Temperature - 273)
s.TemperatureC = &v
}
setStorageHealthStatus(&s, storageHealthStatus{
criticalWarning: log.CriticalWarning,
criticalWarning: int(log.CriticalWarning),
percentageUsed: int64(log.PercentageUsed),
availableSpare: int64(log.AvailableSpare),
spareThreshold: int64(log.SpareThreshold),
unsafeShutdowns: log.UnsafeShutdowns,
mediaErrors: log.MediaErrors,
errorLogEntries: log.NumErrLogEntries,
unsafeShutdowns: int64(log.UnsafeShutdowns),
mediaErrors: int64(log.MediaErrors),
errorLogEntries: int64(log.NumErrLogEntries),
})
return s
}

54
audit/internal/collector/storage_health_test.go
View File

@@ -1,11 +1,65 @@
package collector
import (
"encoding/json"
"testing"
"bee/audit/internal/schema"
)
// TestNVMeSmartLogUnmarshal verifies that nvme-cli JSON output (where most
// counters are quoted strings and field names differ from NVMe spec prose)
// is correctly parsed into nvmeSmartLog.
func TestNVMeSmartLogUnmarshal(t *testing.T) {
t.Parallel()
// Real nvme-cli output: counters are JSON strings, spare is "avail_spare",
// percentage used is "percent_used".
raw := `{
"critical_warning": 0,
"temperature": 310,
"avail_spare": 100,
"spare_thresh": 5,
"percent_used": 0,
"data_units_read": "10925415",
"data_units_written": "8497672",
"controller_busy_time": "305",
"power_cycles": "53",
"power_on_hours": "49",
"unsafe_shutdowns": "22",
"media_errors": "0",
"num_err_log_entries": "0"
}`
var log nvmeSmartLog
if err := json.Unmarshal([]byte(raw), &log); err != nil {
t.Fatalf("json.Unmarshal failed: %v", err)
}
if log.PowerOnHours != 49 {
t.Errorf("PowerOnHours=%d want 49", log.PowerOnHours)
}
if log.PowerCycles != 53 {
t.Errorf("PowerCycles=%d want 53", log.PowerCycles)
}
if log.AvailableSpare != 100 {
t.Errorf("AvailableSpare=%d want 100", log.AvailableSpare)
}
if log.SpareThreshold != 5 {
t.Errorf("SpareThreshold=%d want 5", log.SpareThreshold)
}
if log.PercentageUsed != 0 {
t.Errorf("PercentageUsed=%d want 0", log.PercentageUsed)
}
if log.Temperature != 310 {
t.Errorf("Temperature=%d want 310", log.Temperature)
}
if log.MediaErrors != 0 {
t.Errorf("MediaErrors=%d want 0", log.MediaErrors)
}
if log.UnsafeShutdowns != 22 {
t.Errorf("UnsafeShutdowns=%d want 22", log.UnsafeShutdowns)
}
}
func TestSetStorageHealthStatus(t *testing.T) {
t.Parallel()

27
audit/internal/collector/testdata/dmidecode_type0_dell.txt vendored Normal file
View File

@@ -0,0 +1,27 @@
# dmidecode 3.2
Getting SMBIOS data from sysfs.
SMBIOS 3.1.0 present.
Handle 0x0000, DMI type 0, 26 bytes
BIOS Information
Vendor: Dell Inc.
Version: 2.5.4
Release Date: 01/13/2020
Address: 0xF0000
Runtime Size: 64 kB
ROM Size: 32 MB
Characteristics:
ISA is supported
PCI is supported
PNP is supported
BIOS is upgradeable
BIOS shadowing is allowed
Boot from CD is supported
Selectable boot is supported
EDD is supported
ACPI is supported
USB legacy is supported
BIOS boot specification is supported
Targeted content distribution is supported
UEFI is supported
BIOS Revision: 2.5

59
audit/internal/collector/testdata/dmidecode_type17_mixed.txt vendored Normal file
View File

@@ -0,0 +1,59 @@
# dmidecode 3.1
Getting SMBIOS data from sysfs.
SMBIOS 2.8 present.
Handle 0x0026, DMI type 17, 40 bytes
Memory Device
Array Handle: 0x0025
Error Information Handle: Not Provided
Total Width: 72 bits
Data Width: 64 bits
Size: 16 GB
Form Factor: DIMM
Set: None
Locator: P1-DIMMA1
Bank Locator: P0_Node0_Channel0_Dimm0
Type: DDR4
Type Detail: Synchronous
Speed: 2133 MT/s
Manufacturer: Micron
Serial Number: 1A2B3C4D
Asset Tag: Not Specified
Part Number: 36ASF2G72PZ-2G1A2
Rank: 2
Configured Memory Speed: 2133 MT/s
Handle 0x0027, DMI type 17, 40 bytes
Memory Device
Array Handle: 0x0025
Error Information Handle: Not Provided
Total Width: Unknown
Data Width: Unknown
Size: No Module Installed
Form Factor: DIMM
Set: None
Locator: P1-DIMMA2
Bank Locator: P0_Node0_Channel0_Dimm1
Type: DDR4
Type Detail: Synchronous
Handle 0x0028, DMI type 17, 84 bytes
Memory Device
Array Handle: 0x0025
Error Information Handle: Not Provided
Total Width: 72 bits
Data Width: 64 bits
Size: 32768 MB
Form Factor: DIMM
Set: 1
Locator: A1
Bank Locator: Not Specified
Type: DDR4
Type Detail: Synchronous Registered (Buffered)
Speed: 2933 MT/s
Manufacturer: Samsung
Serial Number: 5E6F7A8B
Asset Tag: Not Specified
Part Number: M393A4K40CB2-CVF
Rank: 2
Configured Memory Speed: 2400 MT/s

14
audit/internal/collector/testdata/dmidecode_type1_dell.txt vendored Normal file
View File

@@ -0,0 +1,14 @@
# dmidecode 3.2
Getting SMBIOS data from sysfs.
SMBIOS 3.1.0 present.
Handle 0x0100, DMI type 1, 27 bytes
System Information
Manufacturer: Dell Inc.
Product Name: PowerEdge R740xd
Version: Not Specified
Serial Number: 7SG9F63
UUID: b1c2d3e4-f5a6-7890-bcde-f12345678901
Wake-up Type: Power Switch
SKU Number: SKU=NotProvided;ModelName=PowerEdge R740xd
Family: PowerEdge

14
audit/internal/collector/testdata/dmidecode_type1_hpe.txt vendored Normal file
View File

@@ -0,0 +1,14 @@
# dmidecode 3.3
Getting SMBIOS data from sysfs.
SMBIOS 3.1.0 present.
Handle 0x008E, DMI type 1, 27 bytes
System Information
Manufacturer: HPE
Product Name: ProLiant DL380 Gen10
Version: Not Specified
Serial Number: CZJ9320CXN
UUID: c2d3e4f5-a6b7-8901-cdef-012345678902
Wake-up Type: Power Switch
SKU Number: 868703-B21
Family: ProLiant

14
audit/internal/collector/testdata/dmidecode_type1_supermicro.txt vendored Normal file
View File

@@ -0,0 +1,14 @@
# dmidecode 3.1
Getting SMBIOS data from sysfs.
SMBIOS 2.8 present.
Handle 0x0001, DMI type 1, 27 bytes
System Information
Manufacturer: Supermicro
Product Name: SYS-6028R-WTR
Version: 0123456789
Serial Number: S214726X2A36789
UUID: d3e4f5a6-b7c8-9012-def0-123456789003
Wake-up Type: Power Switch
SKU Number: Default string
Family: Default string

10
audit/internal/collector/testdata/dmidecode_type2_dell.txt vendored Normal file
View File

@@ -0,0 +1,10 @@
# dmidecode 3.2
Getting SMBIOS data from sysfs.
SMBIOS 3.1.0 present.
Handle 0x0200, DMI type 2, 8 bytes
Base Board Information
Manufacturer: Dell Inc.
Product Name: 0F9N89
Version: A00
Serial Number: 7SG9F63

19
audit/internal/collector/testdata/dmidecode_type2_hpe.txt vendored Normal file
View File

@@ -0,0 +1,19 @@
# dmidecode 3.3
Getting SMBIOS data from sysfs.
SMBIOS 3.1.0 present.
Handle 0x00A4, DMI type 2, 15 bytes
Base Board Information
Manufacturer: HPE
Product Name: ProLiant DL380 Gen10
Version: Not Specified
Serial Number: CZJ9320CXN
Asset Tag: CZJ9320CXN
Features:
Board is a hosting board
Board is removable
Board is replaceable
Location In Chassis: Not Specified
Chassis Handle: 0x0000
Type: Motherboard
Contained Object Handles: 0

18
audit/internal/collector/testdata/dmidecode_type2_supermicro.txt vendored Normal file
View File

@@ -0,0 +1,18 @@
# dmidecode 3.1
Getting SMBIOS data from sysfs.
SMBIOS 2.8 present.
Handle 0x0002, DMI type 2, 15 bytes
Base Board Information
Manufacturer: Supermicro
Product Name: X10DRW-i
Version: 1.02
Serial Number: S214726X2A36789
Asset Tag: Default string
Features:
Board is a hosting board
Board is replaceable
Location In Chassis: Default string
Chassis Handle: 0x0003
Type: Motherboard
Contained Object Handles: 0

4
audit/internal/platform/network.go
View File

@@ -258,7 +258,7 @@ func (s *System) GetInterfaceState(iface string) (bool, error) {
func interfaceAdminState(iface string) (bool, error) {
raw, err := exec.Command("ip", "-o", "link", "show", "dev", iface).Output()
if err != nil {
return false, err
return false, fmt.Errorf("ip link show dev %s: %w", iface, err)
}
return parseInterfaceAdminState(string(raw))
}
@@ -288,7 +288,7 @@ func interfaceIPv4Addrs(iface string) ([]string, error) {
if errors.As(err, &exitErr) {
return nil, nil
}
return nil, err
return nil, fmt.Errorf("ip addr show dev %s: %w", iface, err)
}
var ipv4 []string
for _, line := range strings.Split(strings.TrimSpace(string(raw)), "\n") {

13
audit/internal/platform/sat.go
View File

@@ -182,9 +182,16 @@ func (s *System) DetectGPUVendor() string {
return "amd"
}
if raw, err := exec.Command("lspci", "-nn").Output(); err == nil {
text := strings.ToLower(string(raw))
if strings.Contains(text, "advanced micro devices") || strings.Contains(text, "amd/ati") {
return "amd"
// Only match AMD GPU device classes [0300]=VGA, [0302]=3D controller, [0380]=Display.
// AMD CPUs also appear in lspci as "Advanced Micro Devices" (Root Complex, IOMMU, etc.)
// so matching vendor alone causes false positives on AMD CPU servers without GPUs.
for _, line := range strings.Split(strings.ToLower(string(raw)), "\n") {
if !strings.Contains(line, "advanced micro devices") && !strings.Contains(line, "amd/ati") {
continue
}
if strings.Contains(line, "[0300]") || strings.Contains(line, "[0302]") || strings.Contains(line, "[0380]") {
return "amd"
}
}
}
return ""

3
audit/internal/platform/techdump.go
View File

@@ -25,6 +25,9 @@ var techDumpFixedCommands = []struct {
{Name: "sensors", Args: []string{"-j"}, File: "sensors.json"},
{Name: "ipmitool", Args: []string{"fru", "print"}, File: "ipmitool-fru.txt"},
{Name: "ipmitool", Args: []string{"sdr"}, File: "ipmitool-sdr.txt"},
{Name: "ipmitool", Args: []string{"sensor"}, File: "ipmitool-sensor.txt"},
{Name: "ipmitool", Args: []string{"sel", "list"}, File: "ipmitool-sel.txt"},
{Name: "ipmitool", Args: []string{"sel", "time", "get"}, File: "ipmitool-sel-time.txt"},
{Name: "nvme", Args: []string{"list", "-o", "json"}, File: "nvme-list.json"},
}

29
audit/internal/schema/hardware.go
View File

@@ -2,6 +2,8 @@
// core/internal/ingest/parser_hardware.go. No import dependency on core.
package schema
import "encoding/json"
// HardwareIngestRequest is the top-level output document produced by `bee audit`.
// It is accepted as-is by the core /api/ingest/hardware endpoint.
type HardwareIngestRequest struct {
@@ -64,9 +66,10 @@ type HardwareSnapshot struct {
Storage []HardwareStorage `json:"storage,omitempty"`
PCIeDevices []HardwarePCIeDevice `json:"pcie_devices,omitempty"`
PowerSupplies []HardwarePowerSupply `json:"power_supplies,omitempty"`
Sensors *HardwareSensors `json:"sensors,omitempty"`
EventLogs []HardwareEventLog `json:"event_logs,omitempty"`
VROCLicense *string `json:"vroc_license,omitempty"`
Sensors *HardwareSensors `json:"sensors,omitempty"`
EventLogs []HardwareEventLog `json:"event_logs,omitempty"`
PlatformConfig *json.RawMessage `json:"platform_config,omitempty"`
VROCLicense *string `json:"vroc_license,omitempty"`
}
type HardwareHealthSummary struct {
@@ -123,7 +126,7 @@ type HardwareCPU struct {
type HardwareMemory struct {
HardwareComponentStatus
Slot *string `json:"slot,omitempty"`
Location *string `json:"location,omitempty"`
Location *string `json:"-"` // internal: used for DIMM telemetry matching only
Present *bool `json:"present,omitempty"`
SizeMB *int `json:"size_mb,omitempty"`
Type *string `json:"type,omitempty"`
@@ -261,15 +264,13 @@ type HardwareSensors struct {
}
type HardwareFanSensor struct {
Name string `json:"name"`
Location *string `json:"location,omitempty"`
RPM *int `json:"rpm,omitempty"`
Status *string `json:"status,omitempty"`
Name string `json:"name"`
RPM *int `json:"rpm,omitempty"`
Status *string `json:"status,omitempty"`
}
type HardwarePowerSensor struct {
Name string `json:"name"`
Location *string `json:"location,omitempty"`
VoltageV *float64 `json:"voltage_v,omitempty"`
CurrentA *float64 `json:"current_a,omitempty"`
PowerW *float64 `json:"power_w,omitempty"`
@@ -278,7 +279,6 @@ type HardwarePowerSensor struct {
type HardwareTemperatureSensor struct {
Name string `json:"name"`
Location *string `json:"location,omitempty"`
Celsius *float64 `json:"celsius,omitempty"`
ThresholdWarningCelsius *float64 `json:"threshold_warning_celsius,omitempty"`
ThresholdCriticalCelsius *float64 `json:"threshold_critical_celsius,omitempty"`
@@ -286,11 +286,10 @@ type HardwareTemperatureSensor struct {
}
type HardwareOtherSensor struct {
Name string `json:"name"`
Location *string `json:"location,omitempty"`
Value *float64 `json:"value,omitempty"`
Unit *string `json:"unit,omitempty"`
Status *string `json:"status,omitempty"`
Name string `json:"name"`
Value *float64 `json:"value,omitempty"`
Unit *string `json:"unit,omitempty"`
Status *string `json:"status,omitempty"`
}
type HardwareEventLog struct {

18
audit/internal/webui/api.go
View File

@@ -1292,12 +1292,28 @@ func (h *handler) handleAPIInstallToRAM(w http.ResponseWriter, r *http.Request)
_ = json.NewEncoder(w).Encode(map[string]string{"task_id": t.ID})
}
func (h *handler) handleAPISystemReboot(w http.ResponseWriter, r *http.Request) {
if err := exec.Command("systemctl", "reboot").Start(); err != nil {
writeError(w, http.StatusInternalServerError, "reboot failed: "+err.Error())
return
}
writeJSON(w, map[string]string{"status": "rebooting"})
}
func (h *handler) handleAPISystemShutdown(w http.ResponseWriter, r *http.Request) {
if err := exec.Command("systemctl", "poweroff").Start(); err != nil {
writeError(w, http.StatusInternalServerError, "shutdown failed: "+err.Error())
return
}
writeJSON(w, map[string]string{"status": "shutting down"})
}
// ── Tools ─────────────────────────────────────────────────────────────────────
var standardTools = []string{
"dmidecode", "smartctl", "nvme", "lspci", "ipmitool",
"nvidia-smi", "dcgmi", "nv-hostengine", "memtester", "stress-ng", "nvtop",
"mstflint",
"mstflint", "saa",
}
func (h *handler) handleAPIToolsCheck(w http.ResponseWriter, r *http.Request) {

284
audit/internal/webui/ipmi_fru.go Normal file
View File

@@ -0,0 +1,284 @@
package webui
import (
"context"
"encoding/json"
"fmt"
"net/http"
"os"
"os/exec"
"path/filepath"
"strings"
"time"
"unicode"
)
type fruField struct {
Name string `json:"name"`
Value string `json:"value"`
Editable bool `json:"editable"`
Area string `json:"area,omitempty"`
Index int `json:"index,omitempty"`
}
type fruChange struct {
Area string `json:"area"`
Index int `json:"index"`
Name string `json:"name"`
Value string `json:"value"`
}
// fruEditableFields maps display name → area + index for ipmitool fru edit.
var fruEditableFields = map[string]struct {
Area string
Index int
}{
// Chassis — vendor doc names and ipmitool abbreviated names
"Chassis Part Number": {"c", 0},
"Chassis Serial Number": {"c", 1},
"Chassis Serial": {"c", 1},
"Chassis Extra": {"c", 2},
// Board — vendor doc names and ipmitool abbreviated names
"Board Manufacturer": {"b", 0},
"Board Mfg": {"b", 0},
"Board Product Name": {"b", 1},
"Board Product": {"b", 1},
"Board Serial Number": {"b", 2},
"Board Serial": {"b", 2},
"Board Part Number": {"b", 3},
// Product — vendor doc names and ipmitool abbreviated names
"Product Manufacturer": {"p", 0},
"Product Name": {"p", 1},
"Product Part Number": {"p", 2},
"Product Version": {"p", 3},
"Product Serial Number": {"p", 4},
"Product Serial": {"p", 4},
}
func parseFRUOutput(output string) []fruField {
var fields []fruField
for _, line := range strings.Split(output, "\n") {
// Lines look like: " Field Name : value"
trimmed := strings.TrimLeft(line, " \t")
if trimmed == "" {
continue
}
colon := strings.Index(trimmed, " : ")
if colon < 0 {
// try ": " with no leading space before colon
colon = strings.Index(trimmed, ": ")
if colon < 0 {
continue
}
name := strings.TrimSpace(trimmed[:colon])
value := strings.TrimSpace(trimmed[colon+2:])
if name == "" {
continue
}
editable, area, idx := fruFieldMeta(name)
fields = append(fields, fruField{Name: name, Value: value, Editable: editable, Area: area, Index: idx})
continue
}
name := strings.TrimSpace(trimmed[:colon])
value := strings.TrimSpace(trimmed[colon+3:])
if name == "" {
continue
}
editable, area, idx := fruFieldMeta(name)
fields = append(fields, fruField{Name: name, Value: value, Editable: editable, Area: area, Index: idx})
}
return fields
}
func fruFieldMeta(name string) (editable bool, area string, index int) {
if e, ok := fruEditableFields[name]; ok {
return true, e.Area, e.Index
}
// All fields are shown as editable; server will reject unknown fields.
return true, "", 0
}
func (h *handler) handleAPIIPMIFRURead(w http.ResponseWriter, r *http.Request) {
ctx, cancel := context.WithTimeout(r.Context(), 30*time.Second)
defer cancel()
out, err := exec.CommandContext(ctx, "ipmitool", "fru", "print", "0").CombinedOutput()
if err != nil {
msg := strings.TrimSpace(string(out))
if msg == "" {
msg = err.Error()
}
writeError(w, http.StatusInternalServerError, "ipmitool fru print: "+msg)
return
}
fields := parseFRUOutput(string(out))
writeJSON(w, fields)
}
func (h *handler) handleAPIIPMIFRUWrite(w http.ResponseWriter, r *http.Request) {
var req struct {
Changes []fruChange `json:"changes"`
}
if err := json.NewDecoder(r.Body).Decode(&req); err != nil {
writeError(w, http.StatusBadRequest, "invalid JSON")
return
}
if len(req.Changes) == 0 {
writeError(w, http.StatusUnprocessableEntity, "no changes provided")
return
}
validAreas := map[string]bool{"c": true, "b": true, "p": true}
for i, c := range req.Changes {
if c.Area == "" {
e, ok := fruEditableFields[c.Name]
if !ok {
writeError(w, http.StatusUnprocessableEntity, "field not writable via ipmitool: "+c.Name)
return
}
req.Changes[i].Area = e.Area
req.Changes[i].Index = e.Index
c = req.Changes[i]
}
if !validAreas[c.Area] {
writeError(w, http.StatusUnprocessableEntity, "invalid area: "+c.Area)
return
}
if c.Index < 0 || c.Index > 9 {
writeError(w, http.StatusUnprocessableEntity, fmt.Sprintf("invalid index %d", c.Index))
return
}
if len(c.Value) > 64 {
writeError(w, http.StatusUnprocessableEntity, "value too long (max 64 chars)")
return
}
for _, ch := range c.Value {
if ch > unicode.MaxASCII || (ch < 0x20 && ch != 0) {
writeError(w, http.StatusUnprocessableEntity, "value contains non-printable characters")
return
}
}
}
t := &Task{
ID: newJobID("ipmi-fru-write"),
Name: fmt.Sprintf("IPMI FRU Write (%d field(s))", len(req.Changes)),
Target: "ipmi-fru-write",
Priority: defaultTaskPriority("ipmi-fru-write", taskParams{}),
Status: TaskPending,
CreatedAt: time.Now(),
params: taskParams{FRUChanges: req.Changes},
}
globalQueue.enqueue(t)
writeJSON(w, map[string]string{"task_id": t.ID})
}
func runIPMIFRUWriteTask(ctx context.Context, j *jobState, exportDir string, p taskParams) error {
// Backup current FRU state
backupDir := filepath.Join(exportDir, "fru-backups")
if err := os.MkdirAll(backupDir, 0755); err != nil {
return fmt.Errorf("mkdir fru-backups: %w", err)
}
stamp := time.Now().Format("20060102150405")
backupPath := filepath.Join(backupDir, "fru-"+stamp+".txt")
backupOut, err := exec.CommandContext(ctx, "ipmitool", "fru", "print", "0").CombinedOutput()
if err != nil {
return fmt.Errorf("backup fru print: %w", err)
}
if err := os.WriteFile(backupPath, backupOut, 0644); err != nil {
return fmt.Errorf("write backup: %w", err)
}
j.append("Backup saved to " + backupPath)
// Apply changes
for _, c := range p.FRUChanges {
j.append(fmt.Sprintf("Setting %s (%s %d) = %q", c.Name, c.Area, c.Index, c.Value))
cmd := exec.CommandContext(ctx, "ipmitool", "fru", "edit", "0", "field", c.Area, fmt.Sprintf("%d", c.Index), c.Value)
if err := streamCmdJob(j, cmd); err != nil {
return fmt.Errorf("fru edit %s %d: %w", c.Area, c.Index, err)
}
}
return nil
}
func renderIPMIFRUCard() string {
return `<div class="card"><div class="card-head card-head-actions">IPMI &#8212; FRU<div class="card-head-buttons"><button class="btn btn-sm btn-secondary" onclick="fruRead()">Read</button></div></div><div class="card-body">
<p style="font-size:13px;color:var(--muted);margin-bottom:12px">Reads and edits FRU fields via ipmitool (In-Band, device 0). Works on any server with IPMI support.</p>
<div id="fru-status" style="font-size:13px;color:var(--muted);margin-bottom:8px"></div>
<div id="fru-table"></div>
</div></div>
<script>
var _fruActBtnStyle = 'width:22px;height:22px;padding:0;font-size:13px;line-height:1;border:1px solid var(--line);border-radius:3px;background:var(--surface);cursor:pointer;vertical-align:middle;';
var _fruInputStyle = 'width:100%;padding:3px 6px;border:1.5px solid #888;border-radius:3px;font-size:13px;font-family:monospace;background:var(--surface);color:var(--ink);';
function fruRead() {
var status = document.getElementById('fru-status');
status.textContent = 'Reading...'; status.style.color = 'var(--muted)';
document.getElementById('fru-table').innerHTML = '';
fetch('/api/tools/ipmi-fru', {cache:'no-store'})
.then(function(r) { return r.json().then(function(d){if(!r.ok)throw new Error(d.error||r.statusText);return d;}); })
.then(function(fields) {
if (!fields || !fields.length) { status.textContent = 'No FRU fields returned.'; return; }
status.textContent = '';
var rows = fields.map(function(f) {
var val = escHtml(f.value || '');
return '<tr>'
+ '<td style="color:var(--muted);white-space:nowrap;padding-right:16px;vertical-align:middle;font-size:13px">' + escHtml(f.name) + '</td>'
+ '<td style="vertical-align:middle"><input class="fru-inp" style="' + _fruInputStyle + '"'
+ ' data-area="' + escHtml(f.area||'') + '" data-index="' + (f.index||0) + '" data-name="' + escHtml(f.name) + '"'
+ ' data-original="' + val + '" value="' + val + '" oninput="fruChanged(this)"></td>'
+ '<td class="fru-act" style="display:none;white-space:nowrap;padding-left:6px;vertical-align:middle">'
+ '<button style="' + _fruActBtnStyle + 'color:var(--ok-fg,green);margin-right:3px" title="Save" onclick="fruSave(this)">✓</button>'
+ '<button style="' + _fruActBtnStyle + 'color:var(--crit-fg,#9f3a38)" title="Cancel" onclick="fruCancel(this)">✗</button>'
+ '<span class="fru-msg" style="font-size:11px;margin-left:5px;color:var(--muted)"></span>'
+ '</td></tr>';
}).join('');
document.getElementById('fru-table').innerHTML = '<table style="width:100%;border-collapse:collapse">' + rows + '</table>';
})
.catch(function(e) { status.textContent = 'Error: '+e.message; status.style.color='var(--crit-fg)'; });
}
function escHtml(s) {
return String(s==null?'':s).replace(/&/g,'&amp;').replace(/</g,'&lt;').replace(/>/g,'&gt;').replace(/"/g,'&quot;');
}
function fruChanged(inp) {
inp.closest('tr').querySelector('.fru-act').style.display = inp.value !== inp.dataset.original ? '' : 'none';
}
function fruCancel(btn) {
var row = btn.closest('tr');
var inp = row.querySelector('.fru-inp');
inp.value = inp.dataset.original;
row.querySelector('.fru-act').style.display = 'none';
row.querySelector('.fru-msg').textContent = '';
}
function fruSave(btn) {
var row = btn.closest('tr');
var inp = row.querySelector('.fru-inp');
var msg = row.querySelector('.fru-msg');
var cancelBtn = row.querySelectorAll('.fru-act button')[1];
btn.disabled = true; cancelBtn.disabled = true;
msg.textContent = '…'; msg.style.color = 'var(--muted)';
fetch('/api/tools/ipmi-fru/write', {method:'POST', headers:{'Content-Type':'application/json'},
body: JSON.stringify({changes:[{area:inp.dataset.area, index:parseInt(inp.dataset.index,10), name:inp.dataset.name, value:inp.value}]})})
.then(function(r){return r.json().then(function(d){if(!r.ok)throw new Error(d.error||r.statusText);return d;});})
.then(function(d){
var poll = setInterval(function(){
fetch('/api/tasks',{cache:'no-store'}).then(function(r){return r.json();}).then(function(tasks){
var t = Array.isArray(tasks)?tasks.find(function(x){return x.id===d.task_id;}):null;
if(!t) return;
if(t.status==='done'){
clearInterval(poll);
inp.dataset.original = inp.value;
row.querySelector('.fru-act').style.display = 'none';
msg.textContent = '';
} else if(t.status==='failed'||t.status==='cancelled'){
clearInterval(poll);
msg.textContent = t.error||t.status; msg.style.color='var(--crit-fg)';
btn.disabled=false; cancelBtn.disabled=false;
}
});
},1500);
})
.catch(function(e){ msg.textContent='Error: '+e.message; msg.style.color='var(--crit-fg)'; btn.disabled=false; cancelBtn.disabled=false; });
}
</script>`
}

42
audit/internal/webui/layout.go
View File

@@ -68,6 +68,10 @@ tbody tr:hover td{background:rgba(0,0,0,.03)}
.chip-warn{background:var(--warn-bg);color:var(--warn-fg);border:1px solid #c9ba9b}
.chip-fail{background:var(--crit-bg);color:var(--crit-fg);border:1px solid var(--crit-border)}
.chip-unknown{background:var(--surface-2);color:var(--muted);border:1px solid var(--border)}
/* Nav separator and tasks count badge */
.nav-sep{height:1px;background:rgba(255,255,255,.12);margin:6px 0}
.tasks-nav-count{background:var(--accent);color:#fff;border-radius:10px;padding:1px 7px;font-size:11px;font-weight:700;display:none;margin-left:auto}
.tasks-nav-count.active{display:inline}
/* Output terminal */
.terminal{background:#1b1c1d;border:1px solid rgba(0,0,0,.2);border-radius:4px;padding:14px;font-family:monospace;font-size:12px;color:#b5cea8;max-height:400px;overflow-y:auto;white-space:pre-wrap;word-break:break-all;user-select:text;-webkit-user-select:text}
.terminal-wrap{position:relative}.terminal-copy{position:absolute;top:6px;right:6px;background:#2d2f30;border:1px solid #444;color:#aaa;font-size:11px;padding:2px 8px;border-radius:3px;cursor:pointer;opacity:.7}.terminal-copy:hover{opacity:1}
@@ -93,14 +97,21 @@ tbody tr:hover td{background:rgba(0,0,0,.03)}
}
func layoutNav(active string, buildLabel string) string {
items := []struct{ id, label, href, onclick string }{
{"dashboard", "Dashboard", "/", ""},
{"audit", "Audit", "/audit", ""},
{"validate", "Validate", "/validate", ""},
{"burn", "Burn", "/burn", ""},
{"benchmark", "Benchmark", "/benchmark", ""},
{"tasks", "Tasks", "/tasks", ""},
{"tools", "Tools", "/tools", ""},
type navItem struct {
id, label, href string
sep bool
}
items := []navItem{
{id: "dashboard", label: "Dashboard", href: "/"},
{id: "audit", label: "1. Audit", href: "/audit"},
{id: "check", label: "2. Check", href: "/check"},
{id: "load", label: "3. Load", href: "/load"},
{id: "burn", label: "4. Burn", href: "/burn"},
{id: "benchmark", label: "5. Benchmark", href: "/benchmark"},
{sep: true},
{id: "tasks", label: "Tasks", href: "/tasks"},
{id: "tools", label: "Tools", href: "/tools"},
{id: "settings", label: "Settings", href: "/settings"},
}
var b strings.Builder
b.WriteString(`<aside class="sidebar">`)
@@ -120,19 +131,24 @@ func layoutNav(active string, buildLabel string) string {
}
b.WriteString(`<nav class="nav">`)
for _, item := range items {
if item.sep {
b.WriteString(`<div class="nav-sep"></div>`)
continue
}
cls := "nav-item"
if item.id == active {
cls += " active"
}
if item.onclick != "" {
b.WriteString(fmt.Sprintf(`<a class="%s" href="%s" onclick="%s">%s</a>`,
cls, item.href, item.onclick, item.label))
if item.id == "tasks" {
b.WriteString(fmt.Sprintf(`<a class="%s" href="%s" id="tasks-nav-item">%s<span class="tasks-nav-count" id="tasks-nav-count"></span></a>`, cls, item.href, item.label))
} else {
b.WriteString(fmt.Sprintf(`<a class="%s" href="%s">%s</a>`,
cls, item.href, item.label))
b.WriteString(fmt.Sprintf(`<a class="%s" href="%s">%s</a>`, cls, item.href, item.label))
}
}
b.WriteString(`</nav>`)
b.WriteString(`<script>`)
b.WriteString(`(function(){function u(){fetch('/api/tasks',{cache:'no-store'}).then(function(r){return r.json();}).then(function(d){var n=Array.isArray(d)?d.filter(function(t){return t.status==='pending'||t.status==='running';}).length:0;var c=document.getElementById('tasks-nav-count');var el=document.getElementById('tasks-nav-item');if(c){c.textContent=n>0?String(n):'';c.className='tasks-nav-count'+(n>0?' active':'');}if(el){el.style.color=n>0?'#f6c90e':'';}}).catch(function(){});}u();setInterval(u,5000);})();`)
b.WriteString(`</script>`)
b.WriteString(`</aside>`)
return b.String()
}

4
audit/internal/webui/page_benchmark.go
View File

@@ -611,3 +611,7 @@ func renderPowerBenchmarkResultsCard(exportDir string) string {
b.WriteString(`</div></div>`)
return b.String()
}
// renderSpeed and renderEndurance are legacy wrappers; canonical page is 5. Benchmark at /benchmark.
func renderSpeed(opts HandlerOptions) string { return renderBenchmark(opts) }
func renderEndurance(opts HandlerOptions) string { return renderBenchmark(opts) }

2
audit/internal/webui/page_burn.go
View File

@@ -2,7 +2,7 @@ package webui
func renderBurn() string {
return `<div class="alert alert-warn" style="margin-bottom:16px"><strong>&#9888; Warning:</strong> Stress tests on this page run hardware at high load. Repeated or prolonged use may reduce hardware lifespan. Use only when necessary.</div>
<div class="alert alert-info" style="margin-bottom:16px"><strong>Scope:</strong> Burn exposes sustained GPU compute load recipes. DCGM diagnostics (` + "targeted_stress, targeted_power, pulse_test" + `) and LINPACK remain in <a href="/validate">Validate → Stress mode</a>; NCCL and NVBandwidth are available directly from <a href="/validate">Validate</a>.</div>
<div class="alert alert-info" style="margin-bottom:16px"><strong>Scope:</strong> Burn runs sustained GPU compute and CPU/memory stress recipes. DCGM targeted diagnostics (<code>targeted_stress</code>, <code>targeted_power</code>, <code>pulse_test</code>) and NCCL/NVBandwidth are on the <a href="/load">3. Load</a> page. For performance benchmarks, see <a href="/benchmark">5. Benchmark</a>.</div>
<p style="color:var(--muted);font-size:13px;margin-bottom:16px">Tasks continue in the background — view progress in <a href="/tasks">Tasks</a>.</p>
<div class="card" style="margin-bottom:16px">

89
audit/internal/webui/page_export_tools.go
View File

@@ -402,94 +402,13 @@ loadNvidiaSelfHeal();
}
func renderTools() string {
return `<div class="card" style="margin-bottom:16px">
<div class="card-head">System Install</div>
<div class="card-body">
<div style="margin-bottom:20px">
<div style="font-weight:600;margin-bottom:8px">Install to RAM</div>
<p id="boot-source-text" style="color:var(--muted);font-size:13px;margin-bottom:8px">Detecting boot source...</p>
<p id="ram-status-text" style="color:var(--muted);font-size:13px;margin-bottom:8px">Checking...</p>
<button id="ram-install-btn" class="btn btn-primary" onclick="installToRAM()" style="display:none">&#9654; Copy to RAM</button>
</div>
<div style="border-top:1px solid var(--line);padding-top:20px">
<div style="font-weight:600;margin-bottom:8px">Install to Disk</div>` +
renderInstallInline() + `
</div>
</div>
</div>
<script>
fetch('/api/system/ram-status').then(r=>r.json()).then(d=>{
const boot = document.getElementById('boot-source-text');
const txt = document.getElementById('ram-status-text');
const btn = document.getElementById('ram-install-btn');
let source = d.device || d.source || 'unknown source';
let kind = d.kind || 'unknown';
let label = source;
if (kind === 'ram') label = 'RAM';
else if (kind === 'usb') label = 'USB (' + source + ')';
else if (kind === 'cdrom') label = 'CD-ROM (' + source + ')';
else if (kind === 'disk') label = 'disk (' + source + ')';
else label = source;
boot.textContent = 'Current boot source: ' + label + '.';
txt.textContent = d.blocked_reason || d.message || 'Checking...';
if (d.status === 'ok' || d.in_ram) {
txt.style.color = 'var(--ok, green)';
} else if (d.status === 'failed') {
txt.style.color = 'var(--err, #b91c1c)';
} else {
txt.style.color = 'var(--muted)';
}
if (d.can_start_task) {
btn.style.display = '';
btn.disabled = false;
} else {
btn.style.display = 'none';
}
});
function installToRAM() {
document.getElementById('ram-install-btn').disabled = true;
fetch('/api/system/install-to-ram', {method:'POST'}).then(r=>r.json()).then(d=>{
window.location.href = '/tasks#' + d.task_id;
});
}
</script>
return renderNVMeFormatCard() + `
<div class="card"><div class="card-head">Support Bundle</div><div class="card-body">
<p style="font-size:13px;color:var(--muted);margin-bottom:12px">Downloads a tar.gz archive of all audit files, SAT results, and logs.</p>
` + renderSupportBundleInline() + `
<div style="border-top:1px solid var(--border);margin-top:16px;padding-top:16px">
<div style="font-weight:600;margin-bottom:8px">USB Black-Box</div>
` + renderUSBExportInline() + `
</div>
</div></div>
` + renderSAADMICard() + `
<div class="card"><div class="card-head">Tool Check <button class="btn btn-sm btn-secondary" onclick="checkTools()" style="margin-left:auto">&#8635; Check</button></div>
<div class="card-body"><div id="tools-table"><p style="color:var(--muted);font-size:13px">Checking...</p></div></div></div>
` + renderIPMIFRUCard() + `
<div class="card"><div class="card-head">NVIDIA Self Heal</div><div class="card-body">` +
renderNvidiaSelfHealInline() + `</div></div>
<div class="card"><div class="card-head">Network</div><div class="card-body">` +
renderNetworkInline() + `</div></div>
<div class="card"><div class="card-head">Services</div><div class="card-body">` +
renderServicesInline() + `</div></div>
` + renderNVMeFormatCard() + `
<script>
function checkTools() {
document.getElementById('tools-table').innerHTML = '<p style="color:var(--muted);font-size:13px">Checking...</p>';
fetch('/api/tools/check').then(r=>r.json()).then(tools => {
const rows = tools.map(t =>
'<tr><td>'+t.Name+'</td><td><span class="badge '+(t.OK ? 'badge-ok' : 'badge-err')+'">'+(t.OK ? '&#10003; '+t.Path : '&#10007; missing')+'</span></td></tr>'
).join('');
document.getElementById('tools-table').innerHTML =
'<table><tr><th>Tool</th><th>Status</th></tr>'+rows+'</table>';
});
}
checkTools();
</script>`
` + renderRAIDMgmtCard()
}
func renderExportIndex(exportDir string) (string, error) {

115
audit/internal/webui/page_settings.go Normal file
View File

@@ -0,0 +1,115 @@
package webui
import "html"
func renderSettings(opts HandlerOptions) string {
version := opts.BuildLabel
if version == "" {
version = "dev"
}
return `<div class="card" style="margin-bottom:16px">
<div class="card-head">System Install</div>
<div class="card-body">
<div style="margin-bottom:20px">
<div style="font-weight:600;margin-bottom:8px">Install to RAM</div>
<p id="boot-source-text" style="color:var(--muted);font-size:13px;margin-bottom:8px">Detecting boot source...</p>
<p id="ram-status-text" style="color:var(--muted);font-size:13px;margin-bottom:8px">Checking...</p>
<button id="ram-install-btn" class="btn btn-primary" onclick="installToRAM()" style="display:none">&#9654; Copy to RAM</button>
</div>
<div style="border-top:1px solid var(--line);padding-top:20px">
<div style="font-weight:600;margin-bottom:8px">Install to Disk</div>` +
renderInstallInline() + `
</div>
</div>
</div>
<script>
fetch('/api/system/ram-status').then(r=>r.json()).then(d=>{
const boot = document.getElementById('boot-source-text');
const txt = document.getElementById('ram-status-text');
const btn = document.getElementById('ram-install-btn');
let kind = d.kind || 'unknown';
let source = d.device || d.source || 'unknown source';
let label = kind==='ram'?'RAM':kind==='usb'?'USB ('+source+')':kind==='cdrom'?'CD-ROM ('+source+')':kind==='disk'?'disk ('+source+')':source;
boot.textContent = 'Current boot source: ' + label + '.';
txt.textContent = d.blocked_reason || d.message || 'Checking...';
txt.style.color = (d.status==='ok'||d.in_ram)?'var(--ok,green)':d.status==='failed'?'var(--err,#b91c1c)':'var(--muted)';
if (d.can_start_task) { btn.style.display=''; btn.disabled=false; } else { btn.style.display='none'; }
});
function installToRAM() {
document.getElementById('ram-install-btn').disabled = true;
fetch('/api/system/install-to-ram', {method:'POST'}).then(r=>r.json()).then(d=>{
window.location.href = '/tasks#' + d.task_id;
});
}
</script>
<div class="card"><div class="card-head">Support Bundle</div><div class="card-body">
<p style="font-size:13px;color:var(--muted);margin-bottom:12px">Downloads a tar.gz archive of all audit files, SAT results, and logs.</p>
` + renderSupportBundleInline() + `
<div style="border-top:1px solid var(--border);margin-top:16px;padding-top:16px">
<div style="font-weight:600;margin-bottom:8px">USB Black-Box</div>
` + renderUSBExportInline() + `
</div>
</div></div>
<div class="card"><div class="card-head">Tool Check <button class="btn btn-sm btn-secondary" onclick="checkTools()" style="margin-left:auto">&#8635; Check</button></div>
<div class="card-body"><div id="tools-table"><p style="color:var(--muted);font-size:13px">Checking...</p></div></div></div>
<script>
function checkTools() {
document.getElementById('tools-table').innerHTML = '<p style="color:var(--muted);font-size:13px">Checking...</p>';
fetch('/api/tools/check').then(r=>r.json()).then(tools => {
const rows = tools.map(t =>
'<tr><td>'+t.Name+'</td><td><span class="badge '+(t.OK?'badge-ok':'badge-err')+'">'+(t.OK?'&#10003; '+t.Path:'&#10007; missing')+'</span></td></tr>'
).join('');
document.getElementById('tools-table').innerHTML = '<table><tr><th>Tool</th><th>Status</th></tr>'+rows+'</table>';
});
}
checkTools();
</script>
<div class="card"><div class="card-head">NVIDIA Self Heal</div><div class="card-body">` +
renderNvidiaSelfHealInline() + `</div></div>
<div class="card"><div class="card-head">Network</div><div class="card-body">` +
renderNetworkInline() + `</div></div>
<div class="card"><div class="card-head">Services</div><div class="card-body">` +
renderServicesInline() + `</div></div>
<div class="card">
<div class="card-head">Build Info</div>
<div class="card-body">
<table style="width:auto">
<tbody>
<tr><td style="color:var(--muted);padding-right:24px">Version</td><td>` + html.EscapeString(version) + `</td></tr>
<tr><td style="color:var(--muted);padding-right:24px">Title</td><td>` + html.EscapeString(opts.Title) + `</td></tr>
</tbody>
</table>
</div>
</div>
<div class="card">
<div class="card-head">Power</div>
<div class="card-body">
<div style="display:flex;gap:8px;align-items:center">
<button class="btn btn-secondary btn-sm" onclick="systemPower('reboot')">Reboot</button>
<button class="btn btn-secondary btn-sm" onclick="systemPower('shutdown')">Shutdown</button>
<span id="power-status" style="font-size:12px;color:var(--muted)"></span>
</div>
</div>
</div>
<script>
function systemPower(action) {
var label = action === 'reboot' ? 'reboot' : 'shut down';
if (!confirm('Are you sure you want to ' + label + ' the server?')) return;
var el = document.getElementById('power-status');
if (el) el.textContent = action === 'reboot' ? 'Rebooting...' : 'Shutting down...';
fetch('/api/system/' + action, {method: 'POST'})
.then(function(r) { return r.json(); })
.catch(function(e) { if (el) el.textContent = 'Error: ' + e.message; });
}
</script>
`
}

434
audit/internal/webui/page_validate.go
View File

@@ -11,6 +11,13 @@ import (
"bee/audit/internal/schema"
)
// PCI vendor IDs used for GPU classification (source: pci-ids.ucw.cz).
const (
pciVendorNvidia = 0x10de
pciVendorAMD = 0x1002
pciVendorAspeed = 0x1a03
)
type validateInventory struct {
CPU string
Memory string
@@ -61,6 +68,14 @@ func validateTotalStressSec(n int) int {
}
func renderValidate(opts HandlerOptions) string {
return renderValidateMode(opts, false)
}
func renderValidateStress(opts HandlerOptions) string {
return renderValidateMode(opts, true)
}
func renderValidateMode(opts HandlerOptions, stressDefault bool) string {
inv := loadValidateInventory(opts)
n := inv.NvidiaGPUCount
validateTotalStr := validateFmtDur(validateTotalValidateSec(n))
@@ -69,26 +84,49 @@ func renderValidate(opts HandlerOptions) string {
if n > 0 {
gpuNote = fmt.Sprintf(" (%d GPU)", n)
}
return `<div class="alert alert-info" style="margin-bottom:16px"><strong>Non-destructive:</strong> Validate tests collect diagnostics only. They do not write to disks, do not run sustained load, and do not increment hardware wear counters.</div>
<p style="color:var(--muted);font-size:13px;margin-bottom:16px">Tasks continue in the background — view progress in <a href="/tasks">Tasks</a>.</p>
estStr := validateTotalStr
if stressDefault {
estStr = stressTotalStr
}
alert := `<div class="alert alert-info" style="margin-bottom:16px"><strong>Non-destructive:</strong> Validate tests collect diagnostics only. They do not write to disks, do not run sustained load, and do not increment hardware wear counters.</div>`
if stressDefault {
alert = `<div class="alert alert-warn" style="margin-bottom:16px"><strong>&#9888; Stress mode:</strong> Runs extended load tests — CPU stress-ng, memory passes, DCGM targeted diagnostics. Higher wear than Validate.</div>`
}
<div class="card" style="margin-bottom:16px">
<div class="card-head">Validate Profile</div>
<div class="card-body validate-profile-body">
<div class="validate-profile-col">
<div class="form-row" style="margin:12px 0 0"><label>Mode</label></div>
<label class="cb-row"><input type="radio" name="sat-mode" id="sat-mode-validate" value="validate" checked onchange="satModeChanged()"><span>Validate — quick non-destructive check</span></label>
<label class="cb-row"><input type="radio" name="sat-mode" id="sat-mode-stress" value="stress" onchange="satModeChanged()"><span>Stress — thorough load test (` + stressTotalStr + gpuNote + `)</span></label>
</div>
<div class="validate-profile-col validate-profile-action">
<p style="color:var(--muted);font-size:12px;margin:0 0 10px">Runs validate modules sequentially. Validate: ` + validateTotalStr + gpuNote + `; Stress: ` + stressTotalStr + gpuNote + `. Estimates are based on real log data and scale with GPU count.</p>
<button type="button" class="btn btn-primary" onclick="runAllSAT()">Validate one by one</button>
<div style="margin-top:12px">
<span id="sat-all-status" style="font-size:12px;color:var(--muted)"></span>
</div>
</div>
</div>
</div>
stressOnlyCards := ""
if stressDefault {
stressOnlyCards = renderSATCard("nvidia-targeted-stress", "NVIDIA GPU Targeted Stress", "runNvidiaValidateSet('nvidia-targeted-stress')", "", renderValidateCardBody(
inv.NVIDIA,
`Runs a controlled NVIDIA DCGM load to check stability under moderate stress.`,
`<code>dcgmi diag targeted_stress</code>`,
validateFmtDur(platform.SATEstimatedNvidiaTargetedStressSec)+` (all GPUs simultaneously).`,
)) +
renderSATCard("nvidia-targeted-power", "NVIDIA Targeted Power", "runNvidiaValidateSet('nvidia-targeted-power')", "", renderValidateCardBody(
inv.NVIDIA,
`Checks that the GPU can sustain its declared power delivery envelope. Pass/fail determined by DCGM.`,
`<code>dcgmi diag targeted_power</code>`,
validateFmtDur(platform.SATEstimatedNvidiaTargetedPowerSec)+` (all GPUs simultaneously).`,
)) +
renderSATCard("nvidia-pulse", "NVIDIA PSU Pulse Test", "runNvidiaFabricValidate('nvidia-pulse')", "", renderValidateCardBody(
inv.NVIDIA,
`Tests power supply transient response by pulsing all GPUs simultaneously between idle and full load. Synchronous pulses across all GPUs create worst-case PSU load spikes — running per-GPU would miss PSU-level failures.`,
`<code>dcgmi diag pulse_test</code>`,
validateFmtDur(platform.SATEstimatedNvidiaPulseTestSec)+` (all GPUs simultaneously; measured on 8-GPU system).`,
))
}
satStressModeJS := "function satStressMode() { return false; }"
if stressDefault {
satStressModeJS = "function satStressMode() { return true; }"
}
return alert + `
<p style="color:var(--muted);font-size:13px;margin-bottom:16px">Tasks continue in the background — view progress in <a href="/tasks">Tasks</a>.</p>
<div style="display:flex;align-items:center;gap:12px;margin-bottom:16px">
<button type="button" class="btn btn-primary" onclick="runAllSAT()">Run All</button>
<span id="sat-all-status" style="font-size:12px;color:var(--muted)"></span>
<span style="font-size:12px;color:var(--muted)">est. ` + estStr + gpuNote + `</span>
</div>
<div class="grid3">
` + renderSATCard("cpu", "CPU", "runSAT('cpu')", "", renderValidateCardBody(
@@ -115,7 +153,7 @@ func renderValidate(opts HandlerOptions) string {
<div class="card-head">NVIDIA GPU Selection</div>
<div class="card-body">
<p style="font-size:12px;color:var(--muted);margin:0 0 8px">` + inv.NVIDIA + `</p>
<p style="font-size:12px;color:var(--muted);margin:0 0 10px">All NVIDIA validate tasks use only the GPUs selected here. The same selection is used by Validate one by one.</p>
<p style="font-size:12px;color:var(--muted);margin:0 0 10px">All NVIDIA validate tasks use only the GPUs selected here. The same selection is used by Run All.</p>
<div style="display:flex;gap:8px;flex-wrap:wrap;margin-bottom:8px">
<button class="btn btn-sm btn-secondary" type="button" onclick="satSelectAllGPUs()">Select All</button>
<button class="btn btn-sm btn-secondary" type="button" onclick="satSelectNoGPUs()">Clear</button>
@@ -136,46 +174,19 @@ func renderValidate(opts HandlerOptions) string {
validateFmtDur(platform.SATEstimatedNvidiaGPUValidateSec),
validateFmtDur(platform.SATEstimatedNvidiaGPUStressSec)),
)) +
`<div id="sat-card-nvidia-targeted-stress">` +
renderSATCard("nvidia-targeted-stress", "NVIDIA GPU Targeted Stress", "runNvidiaValidateSet('nvidia-targeted-stress')", "", renderValidateCardBody(
inv.NVIDIA,
`Runs a controlled NVIDIA DCGM load to check stability under moderate stress.`,
`<code>dcgmi diag targeted_stress</code>`,
"Skipped in Validate. Stress: " + validateFmtDur(platform.SATEstimatedNvidiaTargetedStressSec) + ` (all GPUs simultaneously).<p id="sat-ts-mode-hint" style="color:var(--warn-fg);font-size:12px;margin:8px 0 0">Only runs in Stress mode. Switch mode above to enable in Run All.</p>`,
)) +
`</div>` +
`<div id="sat-card-nvidia-targeted-power">` +
renderSATCard("nvidia-targeted-power", "NVIDIA Targeted Power", "runNvidiaValidateSet('nvidia-targeted-power')", "", renderValidateCardBody(
inv.NVIDIA,
`Checks that the GPU can sustain its declared power delivery envelope. Pass/fail determined by DCGM.`,
`<code>dcgmi diag targeted_power</code>`,
"Skipped in Validate. Stress: " + validateFmtDur(platform.SATEstimatedNvidiaTargetedPowerSec) + ` (all GPUs simultaneously).<p id="sat-tp-mode-hint" style="color:var(--warn-fg);font-size:12px;margin:8px 0 0">Only runs in Stress mode. Switch mode above to enable in Run All.</p>`,
)) +
`</div>` +
`<div id="sat-card-nvidia-pulse">` +
renderSATCard("nvidia-pulse", "NVIDIA PSU Pulse Test", "runNvidiaFabricValidate('nvidia-pulse')", "", renderValidateCardBody(
inv.NVIDIA,
`Tests power supply transient response by pulsing all GPUs simultaneously between idle and full load. Synchronous pulses across all GPUs create worst-case PSU load spikes — running per-GPU would miss PSU-level failures.`,
`<code>dcgmi diag pulse_test</code>`,
`Skipped in Validate. Stress: `+validateFmtDur(platform.SATEstimatedNvidiaPulseTestSec)+` (all GPUs simultaneously; measured on 8-GPU system).`+`<p id="sat-pt-mode-hint" style="color:var(--warn-fg);font-size:12px;margin:8px 0 0">Only runs in Stress mode. Switch mode above to enable in Run All.</p>`,
)) +
`</div>` +
`<div id="sat-card-nvidia-interconnect">` +
stressOnlyCards +
renderSATCard("nvidia-interconnect", "NVIDIA Interconnect (NCCL)", "runNvidiaFabricValidate('nvidia-interconnect')", "", renderValidateCardBody(
inv.NVIDIA,
`Verifies NVLink/NVSwitch fabric bandwidth using NCCL all_reduce_perf across all selected GPUs. Pass/fail based on achieved bandwidth vs. theoretical.`,
`<code>all_reduce_perf</code> (NCCL tests)`,
`Validate and Stress: `+validateFmtDur(platform.SATEstimatedNvidiaInterconnectSec)+` (all GPUs simultaneously, requires ≥2).`,
validateFmtDur(platform.SATEstimatedNvidiaInterconnectSec)+` (all GPUs simultaneously, requires ≥2).`,
)) +
`</div>` +
`<div id="sat-card-nvidia-bandwidth">` +
renderSATCard("nvidia-bandwidth", "NVIDIA Bandwidth (NVBandwidth)", "runNvidiaFabricValidate('nvidia-bandwidth')", "", renderValidateCardBody(
inv.NVIDIA,
`Validates GPU memory copy and peer-to-peer bandwidth paths using NVBandwidth.`,
`<code>nvbandwidth</code>`,
`Validate and Stress: `+validateFmtDur(platform.SATEstimatedNvidiaBandwidthSec)+` (all GPUs simultaneously; nvbandwidth runs all built-in tests without a time limit — duration set by the tool).`,
validateFmtDur(platform.SATEstimatedNvidiaBandwidthSec)+` (all GPUs simultaneously; nvbandwidth runs all built-in tests without a time limit — duration set by the tool).`,
)) +
`</div>` +
`</div>
<div class="grid3" style="margin-top:16px">
` + renderSATCard("amd", "AMD GPU", "runAMDValidateSet()", "", renderValidateCardBody(
@@ -190,36 +201,15 @@ func renderValidate(opts HandlerOptions) string {
<div class="card-body"><div id="sat-terminal" class="terminal"></div></div>
</div>
<style>
.validate-profile-body { display:grid; grid-template-columns:1fr 1fr 1fr; gap:24px; align-items:stretch; }
.validate-profile-col { min-width:0; display:flex; flex-direction:column; }
.validate-profile-action { display:flex; flex-direction:column; align-items:center; justify-content:center; }
.validate-card-body { padding:0; }
.validate-card-section { padding:12px 16px 0; }
.validate-card-section:last-child { padding-bottom:16px; }
.sat-gpu-row { display:flex; align-items:flex-start; gap:8px; padding:6px 0; cursor:pointer; font-size:13px; }
.sat-gpu-row input[type=checkbox] { width:16px; height:16px; margin-top:2px; flex-shrink:0; }
@media(max-width:900px){ .validate-profile-body { grid-template-columns:1fr; } }
</style>
<script>
let satES = null;
function satStressMode() {
return document.querySelector('input[name="sat-mode"]:checked')?.value === 'stress';
}
function satModeChanged() {
const stress = satStressMode();
[
{card: 'sat-card-nvidia-targeted-stress', hint: 'sat-ts-mode-hint'},
{card: 'sat-card-nvidia-targeted-power', hint: 'sat-tp-mode-hint'},
{card: 'sat-card-nvidia-pulse', hint: 'sat-pt-mode-hint'},
].forEach(function(item) {
const card = document.getElementById(item.card);
if (card) {
card.style.opacity = stress ? '1' : '0.5';
const hint = document.getElementById(item.hint);
if (hint) hint.style.display = stress ? 'none' : '';
}
});
}
` + satStressModeJS + `
function satLabels() {
return {nvidia:'Validate GPU', 'nvidia-targeted-stress':'NVIDIA Targeted Stress (dcgmi diag targeted_stress)', 'nvidia-targeted-power':'NVIDIA Targeted Power (dcgmi diag targeted_power)', 'nvidia-pulse':'NVIDIA PSU Pulse Test (dcgmi diag pulse_test)', 'nvidia-interconnect':'NVIDIA Interconnect (NCCL all_reduce_perf)', 'nvidia-bandwidth':'NVIDIA Bandwidth (NVBandwidth)', memory:'Validate Memory', storage:'Validate Storage', cpu:'Validate CPU', amd:'Validate AMD GPU', 'amd-mem':'AMD GPU MEM Integrity', 'amd-bandwidth':'AMD GPU MEM Bandwidth'};
}
@@ -634,25 +624,307 @@ func validateFirstNonEmpty(values ...string) string {
}
func validateIsVendorGPU(dev schema.HardwarePCIeDevice, vendor string) bool {
model := strings.ToLower(validateTrimPtr(dev.Model))
manufacturer := strings.ToLower(validateTrimPtr(dev.Manufacturer))
class := strings.ToLower(validateTrimPtr(dev.DeviceClass))
if strings.Contains(model, "aspeed") || strings.Contains(manufacturer, "aspeed") {
if dev.VendorID != nil && *dev.VendorID == pciVendorAspeed {
return false
}
class := strings.ToLower(validateTrimPtr(dev.DeviceClass))
isGPUClass := class == "videocontroller" || class == "processingaccelerator" || class == "displaycontroller"
switch vendor {
case "nvidia":
return strings.Contains(model, "nvidia") || strings.Contains(manufacturer, "nvidia")
return isGPUClass && dev.VendorID != nil && *dev.VendorID == pciVendorNvidia
case "amd":
isGPUClass := class == "processingaccelerator" || class == "displaycontroller" || class == "videocontroller"
isAMDVendor := strings.Contains(manufacturer, "advanced micro devices") || strings.Contains(manufacturer, "amd") || strings.Contains(manufacturer, "ati")
isAMDModel := strings.Contains(model, "instinct") || strings.Contains(model, "radeon") || strings.Contains(model, "amd")
return isGPUClass && (isAMDVendor || isAMDModel)
return isGPUClass && dev.VendorID != nil && *dev.VendorID == pciVendorAMD
default:
return false
}
}
// renderCheck renders the non-destructive Check page (step 2).
// Shows validate-mode tests only: CPU, Memory, Storage, NVIDIA L2, NCCL, NVBandwidth, AMD.
// Stress-mode tests (targeted-stress, targeted-power, pulse) are on the Load page.
func renderCheck(opts HandlerOptions) string {
inv := loadValidateInventory(opts)
n := inv.NvidiaGPUCount
validateTotalStr := validateFmtDur(validateTotalValidateSec(n))
gpuNote := ""
if n > 0 {
gpuNote = fmt.Sprintf(" (%d GPU)", n)
}
return `<div class="alert alert-info" style="margin-bottom:16px"><strong>Non-destructive:</strong> Check tests collect diagnostics only — no writes to disks, no sustained load, no hardware wear counters incremented. For stress testing, go to <a href="/burn">4. Burn</a>.</div>
<div style="display:flex;align-items:center;gap:12px;margin-bottom:16px">
<button type="button" class="btn btn-primary" onclick="runAllCheckSAT()">Run All Checks</button>
<span id="sat-all-status" style="font-size:12px;color:var(--muted)"></span>
<span style="font-size:12px;color:var(--muted)">est. ` + validateTotalStr + gpuNote + `</span>
</div>
<div class="grid3">
` + renderSATCard("cpu", "CPU", "runSAT('cpu')", "", renderValidateCardBody(
inv.CPU,
`Collects CPU inventory and temperatures, then runs a bounded CPU stress pass.`,
`<code>lscpu</code>, <code>sensors</code>, <code>stress-ng</code>`,
validateFmtDur(platform.SATEstimatedCPUValidateSec)+` (stress-ng 60 s).`,
)) +
renderSATCard("memory", "Memory", "runSAT('memory')", "", renderValidateCardBody(
inv.Memory,
`Runs a RAM validation pass and records memory state around the test.`,
`<code>free</code>, <code>memtester</code>`,
validateFmtDur(platform.SATEstimatedMemoryValidateSec)+` (256 MB × 1 pass).`,
)) +
renderSATCard("storage", "Storage", "runSAT('storage')", "", renderValidateCardBody(
inv.Storage,
`Scans all storage devices and runs the matching health or self-test path for each.`,
`<code>lsblk</code>; NVMe: <code>nvme</code>; SATA/SAS: <code>smartctl</code>`,
`Seconds (NVMe: instant device query; SATA/SAS: short self-test).`,
)) +
`</div>
<div style="height:1px;background:var(--border);margin:16px 0"></div>
<div class="card" style="margin-bottom:16px">
<div class="card-head">NVIDIA GPU Selection</div>
<div class="card-body">
<p style="font-size:12px;color:var(--muted);margin:0 0 8px">` + inv.NVIDIA + `</p>
<div style="display:flex;gap:8px;flex-wrap:wrap;margin-bottom:8px">
<button class="btn btn-sm btn-secondary" type="button" onclick="satSelectAllGPUs()">Select All</button>
<button class="btn btn-sm btn-secondary" type="button" onclick="satSelectNoGPUs()">Clear</button>
</div>
<div id="sat-gpu-list" style="border:1px solid var(--border);border-radius:4px;padding:12px;min-height:88px">
<p style="color:var(--muted);font-size:13px">Loading NVIDIA GPUs...</p>
</div>
<p id="sat-gpu-selection-note" style="font-size:12px;color:var(--muted);margin:10px 0 0">Select at least one NVIDIA GPU to enable NVIDIA check tasks.</p>
</div>
</div>
<div class="grid3">
` + renderSATCard("nvidia", "NVIDIA GPU", "runNvidiaValidateSet('nvidia')", "", renderValidateCardBody(
inv.NVIDIA,
`Runs NVIDIA diagnostics and board inventory checks (DCGM Level 2).`,
`<code>nvidia-smi</code>, <code>dmidecode</code>, <code>dcgmi diag</code>`,
validateFmtDur(platform.SATEstimatedNvidiaGPUValidateSec)+` (Level 2, all GPUs simultaneously).`,
)) +
renderSATCard("nvidia-interconnect", "NVIDIA Interconnect (NCCL)", "runNvidiaFabricValidate('nvidia-interconnect')", "", renderValidateCardBody(
inv.NVIDIA,
`Verifies NVLink/NVSwitch fabric bandwidth using NCCL all_reduce_perf across all selected GPUs.`,
`<code>all_reduce_perf</code> (NCCL tests)`,
validateFmtDur(platform.SATEstimatedNvidiaInterconnectSec)+` (all GPUs simultaneously, requires ≥2).`,
)) +
renderSATCard("nvidia-bandwidth", "NVIDIA Bandwidth (NVBandwidth)", "runNvidiaFabricValidate('nvidia-bandwidth')", "", renderValidateCardBody(
inv.NVIDIA,
`Validates GPU memory copy and peer-to-peer bandwidth paths using NVBandwidth.`,
`<code>nvbandwidth</code>`,
validateFmtDur(platform.SATEstimatedNvidiaBandwidthSec)+` (all GPUs simultaneously).`,
)) +
`</div>
<div class="grid3" style="margin-top:16px">
` + renderSATCard("amd", "AMD GPU", "runAMDValidateSet()", "", renderValidateCardBody(
inv.AMD,
`Runs AMD GPU inventory, MEM integrity, and MEM bandwidth checks.`,
`GPU Validate: <code>rocm-smi</code>, <code>dmidecode</code>; MEM Integrity: <code>rvs mem</code>; MEM Bandwidth: <code>rocm-bandwidth-test</code>, <code>rvs babel</code>`,
`<div style="display:flex;flex-direction:column;gap:4px"><label class="cb-row"><input type="checkbox" id="sat-amd-target" checked><span>GPU Validate</span></label><label class="cb-row"><input type="checkbox" id="sat-amd-mem-target" checked><span>MEM Integrity</span></label><label class="cb-row"><input type="checkbox" id="sat-amd-bandwidth-target" checked><span>MEM Bandwidth</span></label></div>`,
)) +
`</div>
<div id="sat-output" style="display:none;margin-top:16px" class="card">
<div class="card-head">Test Output <span id="sat-title"></span></div>
<div class="card-body"><div id="sat-terminal" class="terminal"></div></div>
</div>
<style>
.validate-card-body { padding:0; }
.validate-card-section { padding:12px 16px 0; }
.validate-card-section:last-child { padding-bottom:16px; }
.sat-gpu-row { display:flex; align-items:flex-start; gap:8px; padding:6px 0; cursor:pointer; font-size:13px; }
.sat-gpu-row input[type=checkbox] { width:16px; height:16px; margin-top:2px; flex-shrink:0; }
.cb-row { display:flex; align-items:flex-start; gap:8px; padding:4px 0; cursor:pointer; font-size:13px; }
.cb-row input[type=checkbox] { width:16px; height:16px; margin-top:2px; flex-shrink:0; }
</style>
<script>
let satES = null;
function satLabels() {
return {nvidia:'Check GPU (DCGM L2)', 'nvidia-interconnect':'NVIDIA Interconnect (NCCL)', 'nvidia-bandwidth':'NVIDIA Bandwidth (NVBandwidth)', memory:'Check Memory', storage:'Check Storage', cpu:'Check CPU', amd:'Check AMD GPU', 'amd-mem':'AMD GPU MEM Integrity', 'amd-bandwidth':'AMD GPU MEM Bandwidth'};
}
let satNvidiaGPUsPromise = null;
function loadSatNvidiaGPUs() {
if (!satNvidiaGPUsPromise) {
satNvidiaGPUsPromise = fetch('/api/gpu/nvidia').then(r => {
if (!r.ok) throw new Error('Failed to load NVIDIA GPUs.');
return r.json();
}).then(list => Array.isArray(list) ? list : []);
}
return satNvidiaGPUsPromise;
}
function satSelectedGPUIndices() {
return Array.from(document.querySelectorAll('.sat-nvidia-checkbox'))
.filter(el => el.checked && !el.disabled)
.map(el => parseInt(el.value, 10))
.filter(v => !Number.isNaN(v))
.sort((a, b) => a - b);
}
function satUpdateGPUSelectionNote() {
const note = document.getElementById('sat-gpu-selection-note');
if (!note) return;
const sel = satSelectedGPUIndices();
note.textContent = sel.length
? 'Selected GPUs: ' + sel.join(', ') + '. Multi-GPU tests will use all selected GPUs.'
: 'Select at least one NVIDIA GPU to enable NVIDIA check tasks.';
}
function satRenderGPUList(gpus) {
const root = document.getElementById('sat-gpu-list');
if (!root) return;
if (!gpus || !gpus.length) {
root.innerHTML = '<p style="color:var(--muted);font-size:13px">No NVIDIA GPUs detected.</p>';
satUpdateGPUSelectionNote(); return;
}
root.innerHTML = gpus.map(gpu => {
const mem = gpu.memory_mb > 0 ? ' · ' + gpu.memory_mb + ' MiB' : '';
return '<label class="sat-gpu-row"><input class="sat-nvidia-checkbox" type="checkbox" value="' + gpu.index + '" checked onchange="satUpdateGPUSelectionNote()"><span><strong>GPU ' + gpu.index + '</strong> — ' + gpu.name + mem + '</span></label>';
}).join('');
satUpdateGPUSelectionNote();
}
function satSelectAllGPUs() { document.querySelectorAll('.sat-nvidia-checkbox').forEach(el => { el.checked = true; }); satUpdateGPUSelectionNote(); }
function satSelectNoGPUs() { document.querySelectorAll('.sat-nvidia-checkbox').forEach(el => { el.checked = false; }); satUpdateGPUSelectionNote(); }
function satGPULoadInit() {
loadSatNvidiaGPUs().then(satRenderGPUList).catch(err => {
const root = document.getElementById('sat-gpu-list');
if (root) root.innerHTML = '<p style="color:var(--crit-fg);font-size:13px">Error: ' + err.message + '</p>';
satUpdateGPUSelectionNote();
});
}
function satRequestBody(target, overrides) {
const body = {};
const labels = satLabels();
body.display_name = labels[target] || ('Check ' + target);
body.stress_mode = false;
if (target === 'cpu') body.duration = 60;
if (overrides) Object.keys(overrides).forEach(k => { body[k] = overrides[k]; });
return body;
}
function enqueueSATTarget(target, overrides) {
return fetch('/api/sat/' + target + '/run', {method:'POST', headers:{'Content-Type':'application/json'}, body:JSON.stringify(satRequestBody(target, overrides))}).then(r => r.json());
}
function streamSATTask(taskId, title, resetTerminal) {
if (satES) { satES.close(); satES = null; }
document.getElementById('sat-output').style.display = 'block';
document.getElementById('sat-title').textContent = '— ' + title;
const term = document.getElementById('sat-terminal');
if (resetTerminal) term.textContent = '';
term.textContent += 'Task ' + taskId + ' queued. Streaming log...\n';
return new Promise(resolve => {
satES = new EventSource('/api/tasks/' + taskId + '/stream');
satES.onmessage = e => { term.textContent += e.data + '\n'; term.scrollTop = term.scrollHeight; };
satES.addEventListener('done', e => {
satES.close(); satES = null;
term.textContent += (e.data ? '\nERROR: ' + e.data : '\nCompleted.') + '\n';
term.scrollTop = term.scrollHeight;
resolve({ok: !e.data, error: e.data || ''});
});
satES.onerror = () => {
if (satES) { satES.close(); satES = null; }
term.textContent += '\nERROR: stream disconnected.\n';
term.scrollTop = term.scrollHeight;
resolve({ok: false, error: 'stream disconnected'});
};
});
}
function selectedAMDValidateTargets() {
const targets = [];
const gpu = document.getElementById('sat-amd-target');
const mem = document.getElementById('sat-amd-mem-target');
const bw = document.getElementById('sat-amd-bandwidth-target');
if (gpu && gpu.checked && !gpu.disabled) targets.push('amd');
if (mem && mem.checked && !mem.disabled) targets.push('amd-mem');
if (bw && bw.checked && !bw.disabled) targets.push('amd-bandwidth');
return targets;
}
function runSAT(target) { return runSATWithOverrides(target, null); }
function runSATWithOverrides(target, overrides) {
const title = (overrides && overrides.display_name) || target;
document.getElementById('sat-output').style.display = 'block';
document.getElementById('sat-title').textContent = '— ' + title;
const term = document.getElementById('sat-terminal');
term.textContent = 'Enqueuing ' + title + ' test...\n';
return enqueueSATTarget(target, overrides).then(d => streamSATTask(d.task_id, title, false));
}
function runNvidiaFabricValidate(target) {
const indices = satSelectedGPUIndices();
if (!indices.length) { alert('No NVIDIA GPUs available.'); return; }
runSATWithOverrides(target, {gpu_indices: indices, display_name: satLabels()[target] || target});
}
function runNvidiaValidateSet(target) {
const sel = satSelectedGPUIndices();
if (!sel.length) { alert('Select at least one NVIDIA GPU.'); return; }
return runSATWithOverrides(target, {gpu_indices: sel, display_name: satLabels()[target] || target});
}
function runAMDValidateSet() {
const targets = selectedAMDValidateTargets();
if (!targets.length) return;
if (targets.length === 1) return runSAT(targets[0]);
const term = document.getElementById('sat-terminal');
document.getElementById('sat-output').style.display = 'block';
document.getElementById('sat-title').textContent = '— amd';
term.textContent = 'Running AMD check set...\n';
const labels = satLabels();
const runNext = idx => {
if (idx >= targets.length) return Promise.resolve();
const t = targets[idx];
term.textContent += '\n[' + (idx + 1) + '/' + targets.length + '] ' + labels[t] + '\n';
return enqueueSATTarget(t).then(d => streamSATTask(d.task_id, labels[t], false)).then(() => runNext(idx + 1));
};
return runNext(0);
}
function runAllCheckSAT() {
const status = document.getElementById('sat-all-status');
status.textContent = 'Enqueuing...';
const nvidiaIndices = satSelectedGPUIndices();
const nvidiaAllTargets = ['nvidia', 'nvidia-interconnect', 'nvidia-bandwidth'];
const baseTargets = ['cpu', 'memory', 'storage'];
const amdTargets = selectedAMDValidateTargets();
const expanded = [];
baseTargets.forEach(t => expanded.push({target: t}));
if (nvidiaIndices.length) {
nvidiaAllTargets.forEach(t => {
const btn = document.getElementById('sat-btn-' + t);
if (!(btn && btn.disabled)) expanded.push({target: t, overrides: {gpu_indices: nvidiaIndices, display_name: satLabels()[t] || t}});
});
}
amdTargets.forEach(t => expanded.push({target: t}));
if (!expanded.length) { status.textContent = 'No tasks selected.'; return; }
const total = expanded.length;
const runNext = idx => {
if (idx >= expanded.length) { status.textContent = 'Completed ' + total + ' task(s).'; return Promise.resolve(); }
const item = expanded[idx];
status.textContent = 'Running ' + (idx + 1) + '/' + total + '...';
return enqueueSATTarget(item.target, item.overrides).then(() => runNext(idx + 1));
};
runNext(0).catch(err => { status.textContent = 'Error: ' + err.message; });
}
function disableSATCard(id, reason) {
const btn = document.getElementById('sat-btn-' + id);
if (!btn) return;
btn.disabled = true; btn.title = reason; btn.style.opacity = '0.4';
const card = btn.closest('.card');
if (card) {
let note = card.querySelector('.sat-unavail');
if (!note) {
note = document.createElement('p');
note.className = 'sat-unavail';
note.style.cssText = 'color:var(--muted);font-size:12px;margin:0 0 8px';
const body = card.querySelector('.card-body');
if (body) body.insertBefore(note, body.firstChild);
}
note.textContent = reason;
}
}
fetch('/api/gpu/presence').then(r => r.json()).then(gp => {
if (!gp.nvidia) ['nvidia','nvidia-interconnect','nvidia-bandwidth'].forEach(t => disableSATCard(t, 'No NVIDIA GPU detected'));
if (!gp.amd) {
disableSATCard('amd', 'No AMD GPU detected');
['sat-amd-target','sat-amd-mem-target','sat-amd-bandwidth-target'].forEach(id => {
const cb = document.getElementById(id);
if (cb) { cb.disabled = true; cb.checked = false; }
});
}
});
satGPULoadInit();
</script>`
}
func renderSATCard(id, label, runAction, headerActions, body string) string {
actions := `<button id="sat-btn-` + id + `" class="btn btn-primary btn-sm" onclick="` + runAction + `">Run</button>`
if strings.TrimSpace(headerActions) != "" {

53
audit/internal/webui/pages.go
View File

@@ -24,41 +24,54 @@ func renderPage(page string, opts HandlerOptions) string {
body = renderDashboard(opts)
case "audit":
pageID = "audit"
title = "Audit"
title = "1. Audit"
body = renderAudit()
case "validate":
pageID = "validate"
title = "Validate"
body = renderValidate(opts)
case "check":
pageID = "check"
title = "2. Check"
body = renderCheck(opts)
case "load":
pageID = "load"
title = "3. Load"
body = renderValidateStress(opts)
case "burn":
pageID = "burn"
title = "Burn"
title = "4. Burn"
body = renderBurn()
case "benchmark":
pageID = "benchmark"
title = "Benchmark"
title = "5. Benchmark"
body = renderBenchmark(opts)
case "tools":
pageID = "tools"
title = "Tools"
body = renderTools()
case "settings":
pageID = "settings"
title = "Settings"
body = renderSettings(opts)
// Legacy routes (redirected at HTTP level in handlePage; these are fallbacks)
case "validate", "tests":
pageID = "load"
title = "3. Load"
body = renderValidate(opts)
case "burn-in":
pageID = "burn"
title = "4. Burn"
body = renderBurn()
case "speed", "endurance":
pageID = "benchmark"
title = "5. Benchmark"
body = renderBenchmark(opts)
case "tasks":
pageID = "tasks"
title = "Tasks"
body = renderTasks()
case "tools":
pageID = "tools"
title = "Tools"
body = renderTools()
// Legacy routes kept accessible but not in nav
// Hidden pages (not in nav, accessible by direct URL)
case "metrics":
pageID = "metrics"
title = "Live Metrics"
body = renderMetrics()
case "tests":
pageID = "validate"
title = "Acceptance Tests"
body = renderValidate(opts)
case "burn-in":
pageID = "burn"
title = "Burn-in Tests"
body = renderBurn()
case "network":
pageID = "network"
title = "Network"

689
audit/internal/webui/raid_mgmt.go Normal file
View File

@@ -0,0 +1,689 @@
package webui
import (
"context"
"encoding/json"
"fmt"
"net/http"
"os"
"os/exec"
"regexp"
"strconv"
"strings"
"time"
)
// --- Response types ---
type raidDriveInfo struct {
Slot string `json:"slot,omitempty"`
Device string `json:"device,omitempty"`
Model string `json:"model,omitempty"`
SizeGB float64 `json:"size_gb,omitempty"`
Serial string `json:"serial,omitempty"`
State string `json:"state,omitempty"`
}
type raidArrayInfo struct {
Name string `json:"name"`
Level string `json:"level,omitempty"`
Members []string `json:"members"`
Degraded bool `json:"degraded"`
}
type raidControllerInfo struct {
ID string `json:"id"`
Type string `json:"type"`
Index int `json:"index"`
Model string `json:"model"`
ForeignDrives []raidDriveInfo `json:"foreign_drives"`
FreeDrives []raidDriveInfo `json:"free_drives"`
Arrays []raidArrayInfo `json:"arrays,omitempty"`
}
type raidStatusResp struct {
Controllers []raidControllerInfo `json:"controllers"`
}
// --- LSI/storcli detection ---
func detectLSIControllers() []raidControllerInfo {
ctrlOut, err := exec.Command("storcli64", "/call", "show", "J").Output()
if err != nil {
return nil
}
var ctrlDoc struct {
Controllers []struct {
ResponseData struct {
Basics struct {
Controller int `json:"Controller"`
Model string `json:"Model"`
} `json:"Basics"`
} `json:"Response Data"`
} `json:"Controllers"`
}
if err := json.Unmarshal(ctrlOut, &ctrlDoc); err != nil || len(ctrlDoc.Controllers) == 0 {
return nil
}
driveOut, _ := exec.Command("storcli64", "/call/eall/sall", "show", "all", "J").Output()
var driveDoc struct {
Controllers []struct {
ResponseData struct {
DriveInformation []struct {
EIDSlt string `json:"EID:Slt"`
State string `json:"State"`
Size string `json:"Size"`
Intf string `json:"Intf"`
Med string `json:"Med"`
Model string `json:"Model"`
SN string `json:"SN"`
} `json:"Drive Information"`
} `json:"Response Data"`
} `json:"Controllers"`
}
if len(driveOut) > 0 {
json.Unmarshal(driveOut, &driveDoc) //nolint:errcheck
}
var controllers []raidControllerInfo
for i, c := range ctrlDoc.Controllers {
ctrl := raidControllerInfo{
ID: fmt.Sprintf("lsi-%d", c.ResponseData.Basics.Controller),
Type: "lsi",
Index: c.ResponseData.Basics.Controller,
Model: c.ResponseData.Basics.Model,
ForeignDrives: []raidDriveInfo{},
FreeDrives: []raidDriveInfo{},
}
if ctrl.Model == "" {
ctrl.Model = fmt.Sprintf("LSI Controller %d", ctrl.Index)
}
if i < len(driveDoc.Controllers) {
for _, d := range driveDoc.Controllers[i].ResponseData.DriveInformation {
info := raidDriveInfo{
Slot: strings.TrimSpace(d.EIDSlt),
Model: strings.TrimSpace(d.Model),
State: strings.TrimSpace(d.State),
SizeGB: raidParseHumanSizeGB(d.Size),
Serial: strings.TrimSpace(d.SN),
}
switch strings.TrimSpace(d.State) {
case "Frgn":
ctrl.ForeignDrives = append(ctrl.ForeignDrives, info)
case "UGood", "JBOD":
ctrl.FreeDrives = append(ctrl.FreeDrives, info)
}
}
}
controllers = append(controllers, ctrl)
}
return controllers
}
// --- VROC/mdadm detection ---
var raidMDStatDegradedRx = regexp.MustCompile(`\[[U_]+\]`)
type mdStatEntry struct {
Name string
Level string
Members []string
Degraded bool
}
func parseRAIDMDStat(raw string) []mdStatEntry {
var entries []mdStatEntry
var cur *mdStatEntry
for _, line := range strings.Split(raw, "\n") {
if strings.HasPrefix(line, "Personalities") || strings.HasPrefix(line, "unused devices") {
continue
}
if idx := strings.Index(line, " : "); idx > 0 {
name := strings.TrimSpace(line[:idx])
rest := line[idx+3:]
entry := mdStatEntry{Name: name}
for _, tok := range strings.Fields(rest) {
if strings.HasPrefix(tok, "raid") || strings.HasPrefix(tok, "linear") {
entry.Level = tok
}
if bk := strings.Index(tok, "["); bk > 0 && strings.HasSuffix(tok, "]") {
entry.Members = append(entry.Members, tok[:bk])
}
}
entries = append(entries, entry)
cur = &entries[len(entries)-1]
continue
}
if cur != nil {
if m := raidMDStatDegradedRx.FindString(line); m != "" && strings.Contains(m, "_") {
cur.Degraded = true
}
}
}
return entries
}
func detectVROCController() *raidControllerInfo {
out, err := exec.Command("mdadm", "--detail-platform").CombinedOutput()
if err != nil && len(out) == 0 {
return nil
}
hasVROC := false
for _, line := range strings.Split(string(out), "\n") {
lower := strings.ToLower(line)
if strings.Contains(lower, "license") || strings.Contains(lower, "intel") || strings.Contains(lower, "platform") {
hasVROC = true
break
}
}
if !hasVROC {
return nil
}
ctrl := &raidControllerInfo{
ID: "vroc-0",
Type: "vroc",
Model: "Intel VROC",
ForeignDrives: []raidDriveInfo{},
FreeDrives: []raidDriveInfo{},
}
inArray := map[string]bool{}
raw, err := os.ReadFile("/proc/mdstat")
if err == nil {
for _, arr := range parseRAIDMDStat(string(raw)) {
ctrl.Arrays = append(ctrl.Arrays, raidArrayInfo{
Name: arr.Name,
Level: arr.Level,
Members: arr.Members,
Degraded: arr.Degraded,
})
for _, m := range arr.Members {
inArray[m] = true
}
}
}
lsblkOut, err := exec.Command("lsblk", "-J", "-d", "-o", "NAME,SIZE,TYPE,MODEL,SERIAL").Output()
if err == nil {
var lsblkDoc struct {
BlockDevices []struct {
Name string `json:"name"`
Size string `json:"size"`
Type string `json:"type"`
Model string `json:"model"`
Serial string `json:"serial"`
} `json:"blockdevices"`
}
if json.Unmarshal(lsblkOut, &lsblkDoc) == nil {
for _, d := range lsblkDoc.BlockDevices {
if d.Type != "disk" || inArray[d.Name] {
continue
}
ctrl.FreeDrives = append(ctrl.FreeDrives, raidDriveInfo{
Device: "/dev/" + d.Name,
Model: strings.TrimSpace(d.Model),
Serial: strings.TrimSpace(d.Serial),
State: "available",
})
}
}
}
return ctrl
}
// --- API handlers ---
func (h *handler) handleAPIRAIDStatus(w http.ResponseWriter, r *http.Request) {
resp := raidStatusResp{Controllers: []raidControllerInfo{}}
if lsi := detectLSIControllers(); len(lsi) > 0 {
resp.Controllers = append(resp.Controllers, lsi...)
}
if vroc := detectVROCController(); vroc != nil {
resp.Controllers = append(resp.Controllers, *vroc)
}
writeJSON(w, resp)
}
func (h *handler) handleAPIRAIDForeignAction(w http.ResponseWriter, r *http.Request) {
var req struct {
ControllerID string `json:"controller_id"`
Action string `json:"action"`
}
if err := json.NewDecoder(r.Body).Decode(&req); err != nil {
writeError(w, http.StatusBadRequest, "invalid JSON")
return
}
if req.Action != "import" && req.Action != "clear" {
writeError(w, http.StatusBadRequest, "action must be 'import' or 'clear'")
return
}
ctrlIdx, ok := parseLSIControllerIndex(req.ControllerID)
if !ok {
writeError(w, http.StatusBadRequest, "invalid controller_id")
return
}
target := "raid-foreign-clear"
name := fmt.Sprintf("RAID Foreign Clear (ctrl %d)", ctrlIdx)
if req.Action == "import" {
target = "raid-foreign-import"
name = fmt.Sprintf("RAID Foreign Import (ctrl %d)", ctrlIdx)
}
t := &Task{
ID: newJobID(target),
Name: name,
Target: target,
Priority: defaultTaskPriority(target, taskParams{}),
Status: TaskPending,
CreatedAt: time.Now(),
params: taskParams{RAIDController: ctrlIdx},
}
globalQueue.enqueue(t)
writeJSON(w, map[string]string{"task_id": t.ID})
}
func (h *handler) handleAPIRAIDCreateMirror(w http.ResponseWriter, r *http.Request) {
var req struct {
ControllerID string `json:"controller_id"`
Devices []string `json:"devices"`
ArrayName string `json:"array_name"`
}
if err := json.NewDecoder(r.Body).Decode(&req); err != nil {
writeError(w, http.StatusBadRequest, "invalid JSON")
return
}
if len(req.Devices) < 2 {
writeError(w, http.StatusBadRequest, "at least 2 devices required")
return
}
var target, name string
var params taskParams
switch {
case strings.HasPrefix(req.ControllerID, "lsi-"):
ctrlIdx, ok := parseLSIControllerIndex(req.ControllerID)
if !ok {
writeError(w, http.StatusBadRequest, "invalid controller_id")
return
}
target = "raid-lsi-create-mirror"
name = fmt.Sprintf("Create RAID 1 Mirror (LSI ctrl %d)", ctrlIdx)
params = taskParams{RAIDController: ctrlIdx, RAIDDevices: req.Devices}
case req.ControllerID == "vroc-0":
arrayName := strings.TrimSpace(req.ArrayName)
if arrayName == "" {
arrayName = "bee-mirror0"
}
target = "raid-vroc-create-mirror"
name = fmt.Sprintf("Create VROC RAID 1 (%s)", arrayName)
params = taskParams{RAIDDevices: req.Devices, RAIDArrayName: arrayName}
default:
writeError(w, http.StatusBadRequest, "unknown controller_id")
return
}
t := &Task{
ID: newJobID(target),
Name: name,
Target: target,
Priority: defaultTaskPriority(target, taskParams{}),
Status: TaskPending,
CreatedAt: time.Now(),
params: params,
}
globalQueue.enqueue(t)
writeJSON(w, map[string]string{"task_id": t.ID})
}
func parseLSIControllerIndex(id string) (int, bool) {
if !strings.HasPrefix(id, "lsi-") {
return 0, false
}
n, err := strconv.Atoi(strings.TrimPrefix(id, "lsi-"))
if err != nil || n < 0 {
return 0, false
}
return n, true
}
// --- Task runner functions ---
func runRAIDForeignClearTask(ctx context.Context, j *jobState, ctrl int) error {
j.append(fmt.Sprintf("Clearing foreign configuration on controller %d...", ctrl))
cmd := exec.CommandContext(ctx, "storcli64", fmt.Sprintf("/c%d/fall", ctrl), "del", "noprompt")
return streamCmdJob(j, cmd)
}
func runRAIDForeignImportTask(ctx context.Context, j *jobState, ctrl int) error {
j.append(fmt.Sprintf("Importing foreign configuration on controller %d...", ctrl))
cmd := exec.CommandContext(ctx, "storcli64", fmt.Sprintf("/c%d/fall", ctrl), "import", "noprompt")
return streamCmdJob(j, cmd)
}
func runRAIDLSICreateMirrorTask(ctx context.Context, j *jobState, ctrl int, drives []string) error {
driveList := strings.Join(drives, ",")
j.append(fmt.Sprintf("Creating RAID 1 on controller %d with drives: %s", ctrl, driveList))
cmd := exec.CommandContext(ctx, "storcli64",
fmt.Sprintf("/c%d", ctrl),
"add", "vd", "type=raid1",
fmt.Sprintf("drives=%s", driveList),
"pdperarray=2",
)
return streamCmdJob(j, cmd)
}
func runRAIDVROCCreateMirrorTask(ctx context.Context, j *jobState, devices []string, arrayName string) error {
if arrayName == "" {
arrayName = "bee-mirror0"
}
devPath := "/dev/md/" + arrayName
args := []string{
"--create", devPath,
"--level=1",
fmt.Sprintf("--raid-devices=%d", len(devices)),
"--run",
}
args = append(args, devices...)
j.append(fmt.Sprintf("Creating VROC RAID 1 array %s with: %s", devPath, strings.Join(devices, " ")))
cmd := exec.CommandContext(ctx, "mdadm", args...)
return streamCmdJob(j, cmd)
}
// raidParseHumanSizeGB parses storcli size strings like "1.818 TB", "745.211 GB".
func raidParseHumanSizeGB(s string) float64 {
s = strings.TrimSpace(s)
if s == "" {
return 0
}
upper := strings.ToUpper(s)
var mul float64
var numStr string
switch {
case strings.Contains(upper, " TB"):
mul = 1024
numStr = strings.TrimSpace(strings.SplitN(upper, " T", 2)[0])
case strings.Contains(upper, " GB"):
mul = 1
numStr = strings.TrimSpace(strings.SplitN(upper, " G", 2)[0])
case strings.Contains(upper, " MB"):
mul = 1.0 / 1024
numStr = strings.TrimSpace(strings.SplitN(upper, " M", 2)[0])
default:
return 0
}
v, err := strconv.ParseFloat(numStr, 64)
if err != nil {
return 0
}
return v * mul
}
// --- UI card ---
func renderRAIDMgmtCard() string {
return `<div class="card"><div class="card-head card-head-actions">RAID Controller Management<div class="card-head-buttons"><button class="btn btn-sm btn-secondary" onclick="raidLoad()">&#8635; Refresh</button></div></div><div class="card-body">
<div id="raid-status" style="font-size:13px;color:var(--muted);margin-bottom:8px">Loading...</div>
<div id="raid-content"></div>
<div id="raid-out-wrap" style="display:none;margin-top:14px">
<div style="display:flex;align-items:center;justify-content:space-between;margin-bottom:4px">
<span id="raid-out-label" style="font-size:12px;font-weight:600;color:var(--muted)">Output</span>
<span id="raid-out-status" style="font-size:12px"></span>
</div>
<div id="raid-terminal" class="terminal" style="max-height:260px;width:100%;box-sizing:border-box"></div>
</div>
</div></div>
<script>
(function(){
function escHtml(s) {
return String(s||'').replace(/&/g,'&amp;').replace(/</g,'&lt;').replace(/>/g,'&gt;').replace(/"/g,'&quot;');
}
var _raidControllers = [];
function raidLoad() {
var status = document.getElementById('raid-status');
var content = document.getElementById('raid-content');
status.textContent = 'Detecting RAID controllers...';
status.style.color = 'var(--muted)';
content.innerHTML = '';
fetch('/api/tools/raid/status', {cache:'no-store'})
.then(function(r) {
if (!r.ok) return r.json().then(function(e) { throw new Error(e.error || r.statusText); });
return r.json();
})
.then(function(data) {
_raidControllers = data.controllers || [];
if (_raidControllers.length === 0) {
status.textContent = 'No RAID controllers detected.';
return;
}
status.textContent = _raidControllers.length + ' controller(s) detected.';
content.innerHTML = _raidControllers.map(function(c, i) {
return raidRenderController(c, i);
}).join('<hr style="margin:16px 0;border:none;border-top:1px solid var(--border)">');
})
.catch(function(e) {
status.textContent = 'Error: ' + e.message;
status.style.color = 'var(--crit-fg)';
});
}
function raidRenderController(c, idx) {
var html = '';
var typeLabel = c.type === 'lsi' ? 'LSI / Broadcom' : 'Intel VROC';
html += '<div style="font-weight:600;font-size:13px;margin-bottom:10px">' + typeLabel + ' &mdash; ' + escHtml(c.model) + '</div>';
if (c.type === 'lsi') {
var foreign = c.foreign_drives || [];
if (foreign.length > 0) {
html += '<div style="background:var(--warn-bg,rgba(240,192,0,0.1));border:1px solid var(--warn-border,#c8a800);border-radius:4px;padding:10px 12px;margin-bottom:12px">';
html += '<div style="font-weight:600;font-size:13px;margin-bottom:6px">&#9888;&#xFE0E; Foreign Configuration Detected (' + foreign.length + ' drive(s))</div>';
html += '<table style="margin-bottom:10px"><tr><th>Slot</th><th>Model</th><th>Size</th><th>State</th></tr>';
foreign.forEach(function(d) {
html += '<tr>'
+ '<td style="font-family:monospace">' + escHtml(d.slot) + '</td>'
+ '<td>' + escHtml(d.model||'—') + '</td>'
+ '<td>' + (d.size_gb > 0 ? Math.round(d.size_gb) + ' GB' : '—') + '</td>'
+ '<td><span class="badge badge-warn">' + escHtml(d.state) + '</span></td>'
+ '</tr>';
});
html += '</table>';
html += '<div style="display:flex;gap:8px;flex-wrap:wrap">';
html += '<button class="btn btn-sm btn-primary" onclick="raidForeignAction(\'' + escHtml(c.id) + '\',\'import\',this)">Import Foreign Config</button>';
html += '<button class="btn btn-sm btn-secondary" style="color:var(--crit-fg)" onclick="raidForeignAction(\'' + escHtml(c.id) + '\',\'clear\',this)">Clear Foreign Config</button>';
html += '</div></div>';
}
html += raidRenderMirrorSection(c, idx, 'lsi');
}
if (c.type === 'vroc') {
var arrays = c.arrays || [];
if (arrays.length > 0) {
html += '<div style="font-size:12px;font-weight:600;color:var(--muted);margin-bottom:6px;text-transform:uppercase;letter-spacing:.04em">Active Arrays</div>';
html += '<table style="margin-bottom:14px"><tr><th>Name</th><th>Level</th><th>Members</th><th>Status</th></tr>';
arrays.forEach(function(a) {
var badge = a.degraded
? '<span class="badge badge-err">Degraded</span>'
: '<span class="badge badge-ok">OK</span>';
html += '<tr>'
+ '<td style="font-family:monospace">' + escHtml(a.name) + '</td>'
+ '<td>' + escHtml(a.level||'—') + '</td>'
+ '<td style="font-family:monospace;font-size:12px">' + (a.members||[]).map(escHtml).join(', ') + '</td>'
+ '<td>' + badge + '</td>'
+ '</tr>';
});
html += '</table>';
}
html += raidRenderMirrorSection(c, idx, 'vroc');
}
return html;
}
function raidRenderMirrorSection(c, idx, kind) {
var free = c.free_drives || [];
var html = '<div style="font-size:12px;font-weight:600;color:var(--muted);margin-bottom:6px;text-transform:uppercase;letter-spacing:.04em">Create RAID 1 Mirror</div>';
if (free.length < 2) {
html += '<p style="font-size:13px;color:var(--muted)">No unconfigured drives available (need at least 2).</p>';
return html;
}
html += '<p style="font-size:13px;color:var(--muted);margin-bottom:8px">Select exactly 2 drives:</p>';
html += '<div>';
free.forEach(function(d) {
var val = kind === 'lsi' ? d.slot : d.device;
var label = kind === 'lsi'
? escHtml(d.slot) + (d.model ? ' &mdash; ' + escHtml(d.model) : '') + (d.size_gb > 0 ? ' (' + Math.round(d.size_gb) + ' GB)' : '')
: escHtml(d.device) + (d.model ? ' &mdash; ' + escHtml(d.model) : '') + (d.serial ? ' [' + escHtml(d.serial) + ']' : '');
html += '<label style="display:block;margin-bottom:4px;font-size:13px;cursor:pointer">'
+ '<input type="checkbox" class="raid-mirror-check-' + idx + '" value="' + escHtml(val) + '"> '
+ label + '</label>';
});
html += '</div>';
if (kind === 'vroc') {
html += '<div style="margin-top:10px;display:flex;align-items:center;gap:8px;flex-wrap:wrap">'
+ '<label style="font-size:13px">Array name:&nbsp;<input type="text" id="vroc-arrayname-' + idx + '" value="bee-mirror0" style="font-family:monospace;padding:2px 6px;width:140px"></label>';
} else {
html += '<div style="margin-top:10px;display:flex;gap:8px">';
}
html += '<button class="btn btn-sm btn-primary raid-mirror-btn-' + idx + '" onclick="raidCreateMirror(\'' + escHtml(c.id) + '\',' + idx + ',\'' + kind + '\',this)">Create Mirror</button>';
html += '</div>';
return html;
}
function raidForeignAction(ctrlID, action, btn) {
if (action === 'clear' && !confirm('Clear foreign configuration on ' + ctrlID + '?\n\nThis will DELETE the foreign RAID metadata. Data on those drives may become inaccessible.')) {
return;
}
var original = btn ? btn.textContent : '';
if (btn) { btn.disabled = true; btn.textContent = action === 'import' ? 'Importing...' : 'Clearing...'; }
raidShowOutput('RAID foreign ' + action, '', '');
fetch('/api/tools/raid/foreign', {
method: 'POST',
headers: {'Content-Type': 'application/json'},
body: JSON.stringify({controller_id: ctrlID, action: action})
})
.then(function(r) { return r.json(); })
.then(function(d) {
if (d.error) throw new Error(d.error);
var actionLabel = action === 'import' ? 'Import foreign config' : 'Clear foreign config';
raidStreamTask(d.task_id, actionLabel, function() {
if (btn) { btn.disabled = false; btn.textContent = original; }
raidLoad();
});
})
.catch(function(e) {
raidShowOutput('Error', 'failed', e.message);
if (btn) { btn.disabled = false; btn.textContent = original; }
});
}
function raidCreateMirror(ctrlID, idx, kind, btn) {
var checks = document.querySelectorAll('.raid-mirror-check-' + idx + ':checked');
if (checks.length !== 2) {
alert('Select exactly 2 drives.');
return;
}
var devices = Array.from(checks).map(function(c) { return c.value; });
var arrayName = '';
if (kind === 'vroc') {
var nameEl = document.getElementById('vroc-arrayname-' + idx);
arrayName = nameEl ? nameEl.value.trim() : 'bee-mirror0';
if (!arrayName) arrayName = 'bee-mirror0';
}
var original = btn ? btn.textContent : '';
if (btn) { btn.disabled = true; btn.textContent = 'Creating...'; }
raidShowOutput('Create RAID 1', '', '');
fetch('/api/tools/raid/create-mirror', {
method: 'POST',
headers: {'Content-Type': 'application/json'},
body: JSON.stringify({controller_id: ctrlID, devices: devices, array_name: arrayName})
})
.then(function(r) { return r.json(); })
.then(function(d) {
if (d.error) throw new Error(d.error);
raidStreamTask(d.task_id, 'Create RAID 1 mirror', function() {
if (btn) { btn.disabled = false; btn.textContent = original; }
raidLoad();
});
})
.catch(function(e) {
raidShowOutput('Error', 'failed', e.message);
if (btn) { btn.disabled = false; btn.textContent = original; }
});
}
function raidShowOutput(label, status, text) {
var wrap = document.getElementById('raid-out-wrap');
var labelEl = document.getElementById('raid-out-label');
var statusEl = document.getElementById('raid-out-status');
var term = document.getElementById('raid-terminal');
wrap.style.display = 'block';
labelEl.textContent = label;
if (status === 'ok') {
statusEl.textContent = '✓ done';
statusEl.style.color = 'var(--ok-fg)';
} else if (status === 'failed') {
statusEl.textContent = '✗ failed';
statusEl.style.color = 'var(--crit-fg)';
} else {
statusEl.textContent = status;
statusEl.style.color = 'var(--muted)';
}
if (text !== undefined) {
term.textContent = text;
term.scrollTop = term.scrollHeight;
}
}
function raidStreamTask(taskID, taskName, onDone) {
var term = document.getElementById('raid-terminal');
term.textContent = '';
raidShowOutput(taskName || 'Running…', 'running…', undefined);
var es = new EventSource('/api/tasks/' + taskID + '/stream');
es.onmessage = function(e) {
term.textContent += e.data + '\n';
term.scrollTop = term.scrollHeight;
};
es.addEventListener('done', function(e) {
es.close();
if (!e.data) {
raidShowOutput(taskName, 'ok', undefined);
} else {
raidShowOutput(taskName, 'failed', undefined);
term.textContent += '\nFailed: ' + e.data;
term.scrollTop = term.scrollHeight;
}
if (onDone) onDone();
});
es.onerror = function() {
es.close();
raidShowOutput(taskName, 'failed', undefined);
if (onDone) onDone();
};
}
window.raidLoad = raidLoad;
raidLoad();
})();
</script>`
}

297
audit/internal/webui/saa_dmi.go Normal file
View File

@@ -0,0 +1,297 @@
package webui
import (
"context"
"encoding/json"
"fmt"
"net/http"
"os"
"os/exec"
"path/filepath"
"regexp"
"strings"
"time"
)
type dmiField struct {
Name string `json:"name"`
Shn string `json:"shn"`
Value string `json:"value"`
}
type saaChange struct {
Shn string `json:"shn"`
Value string `json:"value"`
}
var (
shnRE = regexp.MustCompile(`^[A-Za-z0-9_]{1,16}$`)
dmiSectionRE = regexp.MustCompile(`^\[(.+?)\]$`)
// Item Name {SHN} = value // comment
// SHN may contain parentheses, e.g. {PS(4)LC} for power supply fields
dmiItemRE = regexp.MustCompile(`^(.+?)\s+\{([A-Za-z0-9_()\-]{1,24})\}\s*=\s*(.*)$`)
dmiVersionRE = regexp.MustCompile(`(?i)^version\s*=`)
)
// parseDMIFile parses the DMI.txt produced by "saa GetDmiInfo".
// Real format (from SAA User Guide 4.8.1):
//
// [System]
// Version {SYVS} = "A Version" // string value
// Serial Number {SYSN} = $DEFAULT$ // string value
// UUID {SYUU} = 00112233-... // hex value
func parseDMIFile(content string) []dmiField {
var fields []dmiField
currentSection := ""
for _, line := range strings.Split(content, "\n") {
line = strings.TrimSpace(line)
if line == "" || strings.HasPrefix(line, "//") || strings.HasPrefix(line, "#") {
continue
}
if dmiVersionRE.MatchString(line) {
continue
}
if m := dmiSectionRE.FindStringSubmatch(line); m != nil {
currentSection = strings.TrimSpace(m[1])
continue
}
m := dmiItemRE.FindStringSubmatch(line)
if m == nil {
continue
}
itemName := strings.TrimSpace(m[1])
shn := m[2]
rawValue := strings.TrimSpace(m[3])
// strip trailing comment (space + //)
if idx := strings.LastIndex(rawValue, " //"); idx >= 0 {
rawValue = strings.TrimSpace(rawValue[:idx])
}
// strip surrounding double quotes from string values
if len(rawValue) >= 2 && rawValue[0] == '"' && rawValue[len(rawValue)-1] == '"' {
rawValue = rawValue[1 : len(rawValue)-1]
}
displayName := itemName
if currentSection != "" {
displayName = currentSection + " / " + itemName
}
fields = append(fields, dmiField{Name: displayName, Shn: shn, Value: rawValue})
}
return fields
}
func (h *handler) handleAPISAADMIRead(w http.ResponseWriter, r *http.Request) {
ctx, cancel := context.WithTimeout(r.Context(), 30*time.Second)
defer cancel()
tmpDir, err := os.MkdirTemp("", "bee-saa-*")
if err != nil {
writeError(w, http.StatusInternalServerError, "create temp dir: "+err.Error())
return
}
defer os.RemoveAll(tmpDir)
dmiFile := filepath.Join(tmpDir, "DMI.txt")
cmd := exec.CommandContext(ctx, "saa", "-c", "GetDmiInfo", "--file", dmiFile, "--overwrite")
cmd.Dir = "/usr/local/bin"
out, err := cmd.CombinedOutput()
if err != nil {
msg := strings.TrimSpace(string(out))
if msg == "" {
msg = err.Error()
}
writeError(w, http.StatusInternalServerError, "saa GetDmiInfo: "+msg)
return
}
raw, err := os.ReadFile(dmiFile)
if err != nil {
writeError(w, http.StatusInternalServerError, "read DMI file: "+err.Error())
return
}
fields := parseDMIFile(string(raw))
if len(fields) == 0 {
writeError(w, http.StatusInternalServerError, "no DMI fields found (file may be empty — reboot the server and try again)")
return
}
writeJSON(w, fields)
}
func (h *handler) handleAPISAADMIWrite(w http.ResponseWriter, r *http.Request) {
var req struct {
Changes []saaChange `json:"changes"`
}
if err := json.NewDecoder(r.Body).Decode(&req); err != nil {
writeError(w, http.StatusBadRequest, "invalid request body")
return
}
if len(req.Changes) == 0 {
writeError(w, http.StatusUnprocessableEntity, "no changes provided")
return
}
for _, c := range req.Changes {
if !shnRE.MatchString(c.Shn) {
writeError(w, http.StatusUnprocessableEntity, "invalid shn: "+c.Shn)
return
}
if len(c.Value) == 0 || len(c.Value) > 64 {
writeError(w, http.StatusUnprocessableEntity, "value length out of range for shn: "+c.Shn)
return
}
for _, ch := range c.Value {
if ch < 0x20 || ch > 0x7E {
writeError(w, http.StatusUnprocessableEntity, "value contains non-printable character for shn: "+c.Shn)
return
}
}
}
t := &Task{
ID: newJobID("saa-dmi-write"),
Name: fmt.Sprintf("SAA DMI Write (%d field(s))", len(req.Changes)),
Target: "saa-dmi-write",
Priority: defaultTaskPriority("saa-dmi-write", taskParams{}),
Status: TaskPending,
CreatedAt: time.Now(),
params: taskParams{
SAADmiChanges: req.Changes,
},
}
globalQueue.enqueue(t)
writeJSON(w, map[string]string{"task_id": t.ID})
}
func runSAADMIWriteTask(ctx context.Context, j *jobState, exportDir string, p taskParams) error {
tmpDir, err := os.MkdirTemp("", "bee-saa-*")
if err != nil {
return fmt.Errorf("create temp dir: %w", err)
}
defer os.RemoveAll(tmpDir)
dmiFile := filepath.Join(tmpDir, "DMI.txt")
j.append("Reading current DMI configuration...")
getCmd := exec.CommandContext(ctx, "saa", "-c", "GetDmiInfo", "--file", dmiFile, "--overwrite")
getCmd.Dir = "/usr/local/bin"
if err := streamCmdJob(j, getCmd); err != nil {
return fmt.Errorf("GetDmiInfo: %w", err)
}
backupDir := filepath.Join(exportDir, "dmi-backups")
if err := os.MkdirAll(backupDir, 0o755); err != nil {
return fmt.Errorf("create backup dir: %w", err)
}
backupName := "dmi-" + time.Now().UTC().Format("20060102-150405") + ".txt"
backupPath := filepath.Join(backupDir, backupName)
raw, err := os.ReadFile(dmiFile)
if err != nil {
return fmt.Errorf("read DMI file: %w", err)
}
if err := os.WriteFile(backupPath, raw, 0o644); err != nil {
return fmt.Errorf("write backup: %w", err)
}
j.append("Backup saved: dmi-backups/" + backupName)
for _, c := range p.SAADmiChanges {
j.append("Setting " + c.Shn + " = " + c.Value)
cmd := exec.CommandContext(ctx, "saa", "-c", "EditDmiInfo", "--file", dmiFile, "--shn", c.Shn, "--value", c.Value)
cmd.Dir = "/usr/local/bin"
if err := streamCmdJob(j, cmd); err != nil {
return fmt.Errorf("EditDmiInfo %s: %w", c.Shn, err)
}
}
j.append("Applying changes to hardware...")
changeCmd := exec.CommandContext(ctx, "saa", "-c", "ChangeDmiInfo", "--file", dmiFile)
changeCmd.Dir = "/usr/local/bin"
if err := streamCmdJob(j, changeCmd); err != nil {
return fmt.Errorf("ChangeDmiInfo: %w", err)
}
j.append("Done. Reboot the server for changes to take effect.")
return nil
}
func renderSAADMICard() string {
return `<div class="card"><div class="card-head card-head-actions">Supermicro &#8212; DMI<div class="card-head-buttons"><button class="btn btn-sm btn-secondary" onclick="saaDMIRead()">Read</button></div></div><div class="card-body">
<p style="font-size:13px;color:var(--muted);margin-bottom:12px">Reads and edits DMI fields via SAA (In-Band).</p>
<div id="saa-dmi-status" style="font-size:13px;color:var(--muted);margin-bottom:8px"></div>
<div id="saa-dmi-table"></div>
</div></div>
<script>
var _dmiActBtnStyle = 'width:22px;height:22px;padding:0;font-size:13px;line-height:1;border:1px solid var(--line);border-radius:3px;background:var(--surface);cursor:pointer;vertical-align:middle;';
var _dmiInputStyle = 'width:100%;padding:3px 6px;border:1.5px solid #888;border-radius:3px;font-size:13px;font-family:monospace;background:var(--surface);color:var(--ink);';
function dmiEsc(s){return String(s==null?'':s).replace(/&/g,'&amp;').replace(/</g,'&lt;').replace(/>/g,'&gt;').replace(/"/g,'&quot;');}
function saaDMIRead() {
var status = document.getElementById('saa-dmi-status');
status.textContent = 'Reading...'; status.style.color = 'var(--muted)';
document.getElementById('saa-dmi-table').innerHTML = '';
fetch('/api/tools/saa-dmi', {cache:'no-store'})
.then(function(r){return r.json().then(function(d){if(!r.ok)throw new Error(d.error||('HTTP '+r.status));return d;});})
.then(function(fields){
status.textContent = fields.length + ' field(s) loaded.';
var rows = fields.map(function(f){
var val = dmiEsc(f.value||'');
return '<tr>'
+ '<td style="font-size:13px;color:var(--muted);white-space:nowrap;padding-right:8px;vertical-align:middle">'+dmiEsc(f.name)+'</td>'
+ '<td style="font-family:monospace;font-size:12px;color:var(--muted);white-space:nowrap;padding-right:8px;vertical-align:middle">'+dmiEsc(f.shn)+'</td>'
+ '<td style="vertical-align:middle"><input class="dmi-inp" type="text" style="'+_dmiInputStyle+'"'
+ ' data-shn="'+dmiEsc(f.shn)+'" data-original="'+val+'" value="'+val+'" oninput="dmiChanged(this)"></td>'
+ '<td class="dmi-act" style="display:none;white-space:nowrap;padding-left:6px;vertical-align:middle">'
+ '<button style="'+_dmiActBtnStyle+'color:var(--ok-fg,green);margin-right:3px" title="Save" onclick="dmiSave(this)">✓</button>'
+ '<button style="'+_dmiActBtnStyle+'color:var(--crit-fg,#9f3a38)" title="Cancel" onclick="dmiCancel(this)">✗</button>'
+ '<span class="dmi-msg" style="font-size:11px;margin-left:5px;color:var(--muted)"></span>'
+ '</td></tr>';
}).join('');
document.getElementById('saa-dmi-table').innerHTML =
'<table style="width:100%;border-collapse:collapse">'
+ '<tr><th style="text-align:left;font-size:12px;color:var(--muted);padding-bottom:6px;font-weight:normal">Field</th>'
+ '<th style="text-align:left;font-size:12px;color:var(--muted);padding-bottom:6px;font-weight:normal">SHN</th>'
+ '<th style="text-align:left;font-size:12px;color:var(--muted);padding-bottom:6px;font-weight:normal">Value</th><th></th></tr>'
+ rows + '</table>';
})
.catch(function(e){ status.textContent='Error: '+e.message; status.style.color='var(--crit-fg,#9f3a38)'; });
}
function dmiChanged(inp) {
inp.closest('tr').querySelector('.dmi-act').style.display = inp.value !== inp.dataset.original ? '' : 'none';
}
function dmiCancel(btn) {
var row = btn.closest('tr');
var inp = row.querySelector('.dmi-inp');
inp.value = inp.dataset.original;
row.querySelector('.dmi-act').style.display = 'none';
row.querySelector('.dmi-msg').textContent = '';
}
function dmiSave(btn) {
var row = btn.closest('tr');
var inp = row.querySelector('.dmi-inp');
var msg = row.querySelector('.dmi-msg');
var cancelBtn = row.querySelectorAll('.dmi-act button')[1];
if(!window.confirm('Apply DMI change for '+inp.dataset.shn+'?\nServer will need to reboot for changes to take effect.'))return;
btn.disabled=true; cancelBtn.disabled=true;
msg.textContent='…'; msg.style.color='var(--muted)';
fetch('/api/tools/saa-dmi/write',{method:'POST',headers:{'Content-Type':'application/json'},
body:JSON.stringify({changes:[{shn:inp.dataset.shn,value:inp.value}]})})
.then(function(r){return r.json().then(function(d){if(!r.ok)throw new Error(d.error||('HTTP '+r.status));return d;});})
.then(function(d){
var poll=setInterval(function(){
fetch('/api/tasks',{cache:'no-store'}).then(function(r){return r.json();}).then(function(tasks){
var t=(tasks||[]).find(function(x){return x.id===d.task_id;});
if(!t)return;
if(t.status==='done'){
clearInterval(poll);
inp.dataset.original=inp.value;
row.querySelector('.dmi-act').style.display='none';
msg.textContent='Saved. Reboot to apply.'; msg.style.color='var(--ok-fg,green)';
} else if(t.status==='failed'||t.status==='cancelled'){
clearInterval(poll);
msg.textContent=t.error||t.status; msg.style.color='var(--crit-fg)';
btn.disabled=false; cancelBtn.disabled=false;
}
});
},1500);
})
.catch(function(e){msg.textContent='Error: '+e.message; msg.style.color='var(--crit-fg)'; btn.disabled=false; cancelBtn.disabled=false;});
}
</script>`
}

18
audit/internal/webui/server.go
View File

@@ -314,6 +314,13 @@ func NewHandler(opts HandlerOptions) http.Handler {
mux.HandleFunc("GET /api/tools/check", h.handleAPIToolsCheck)
mux.HandleFunc("GET /api/tools/nvme-formats", h.handleAPINVMeFormats)
mux.HandleFunc("POST /api/tools/nvme-format/run", h.handleAPINVMeFormatRun)
mux.HandleFunc("GET /api/tools/saa-dmi", h.handleAPISAADMIRead)
mux.HandleFunc("POST /api/tools/saa-dmi/write", h.handleAPISAADMIWrite)
mux.HandleFunc("GET /api/tools/ipmi-fru", h.handleAPIIPMIFRURead)
mux.HandleFunc("POST /api/tools/ipmi-fru/write", h.handleAPIIPMIFRUWrite)
mux.HandleFunc("GET /api/tools/raid/status", h.handleAPIRAIDStatus)
mux.HandleFunc("POST /api/tools/raid/foreign", h.handleAPIRAIDForeignAction)
mux.HandleFunc("POST /api/tools/raid/create-mirror", h.handleAPIRAIDCreateMirror)
// GPU presence / tools
mux.HandleFunc("GET /api/gpu/presence", h.handleAPIGPUPresence)
@@ -325,6 +332,8 @@ func NewHandler(opts HandlerOptions) http.Handler {
// System
mux.HandleFunc("GET /api/system/ram-status", h.handleAPIRAMStatus)
mux.HandleFunc("POST /api/system/install-to-ram", h.handleAPIInstallToRAM)
mux.HandleFunc("POST /api/system/reboot", h.handleAPISystemReboot)
mux.HandleFunc("POST /api/system/shutdown", h.handleAPISystemShutdown)
// Preflight
mux.HandleFunc("GET /api/preflight", h.handleAPIPreflight)
@@ -1419,14 +1428,17 @@ func (h *handler) handlePage(w http.ResponseWriter, r *http.Request) {
if page == "" {
page = "dashboard"
}
// Redirect old routes to new names
// Redirect legacy routes to new named pages
switch page {
case "tests":
http.Redirect(w, r, "/validate", http.StatusMovedPermanently)
case "validate", "tests":
http.Redirect(w, r, "/load", http.StatusMovedPermanently)
return
case "burn-in":
http.Redirect(w, r, "/burn", http.StatusMovedPermanently)
return
case "speed", "endurance":
http.Redirect(w, r, "/benchmark", http.StatusMovedPermanently)
return
}
body := renderPage(page, h.opts)
w.Header().Set("Cache-Control", "no-store")

88
audit/internal/webui/server_test.go
View File

@@ -666,41 +666,51 @@ func TestTasksPageRendersOpenLinksAndPaginationControls(t *testing.T) {
func TestToolsPageRendersNvidiaSelfHealSection(t *testing.T) {
handler := NewHandler(HandlerOptions{})
rec := httptest.NewRecorder()
handler.ServeHTTP(rec, httptest.NewRequest(http.MethodGet, "/tools", nil))
if rec.Code != http.StatusOK {
t.Fatalf("status=%d", rec.Code)
// /tools: only NVMe Block Format and Supermicro DMI remain
recTools := httptest.NewRecorder()
handler.ServeHTTP(recTools, httptest.NewRequest(http.MethodGet, "/tools", nil))
if recTools.Code != http.StatusOK {
t.Fatalf("tools status=%d", recTools.Code)
}
body := rec.Body.String()
if !strings.Contains(body, `NVIDIA Self Heal`) {
t.Fatalf("tools page missing nvidia self heal section: %s", body)
toolsBody := recTools.Body.String()
if !strings.Contains(toolsBody, `NVMe Block Format`) {
t.Fatalf("tools page missing nvme block format section: %s", toolsBody)
}
if !strings.Contains(body, `Restart GPU Drivers`) {
t.Fatalf("tools page missing restart gpu drivers button: %s", body)
if !strings.Contains(toolsBody, `/api/tools/nvme-formats`) || !strings.Contains(toolsBody, `/api/tools/nvme-format/run`) {
t.Fatalf("tools page missing nvme format api usage: %s", toolsBody)
}
if !strings.Contains(body, `nvidiaRestartDrivers()`) {
t.Fatalf("tools page missing nvidiaRestartDrivers action: %s", body)
// /settings: system install, support bundle, tool check, nvidia self heal, network, services
recSettings := httptest.NewRecorder()
handler.ServeHTTP(recSettings, httptest.NewRequest(http.MethodGet, "/settings", nil))
if recSettings.Code != http.StatusOK {
t.Fatalf("settings status=%d", recSettings.Code)
}
if !strings.Contains(body, `/api/gpu/nvidia-status`) {
t.Fatalf("tools page missing nvidia status api usage: %s", body)
settingsBody := recSettings.Body.String()
if !strings.Contains(settingsBody, `NVIDIA Self Heal`) {
t.Fatalf("settings page missing nvidia self heal section: %s", settingsBody)
}
if !strings.Contains(body, `nvidiaResetGPU(`) {
t.Fatalf("tools page missing nvidiaResetGPU action: %s", body)
if !strings.Contains(settingsBody, `Restart GPU Drivers`) {
t.Fatalf("settings page missing restart gpu drivers button: %s", settingsBody)
}
if !strings.Contains(body, `id="boot-source-text"`) {
t.Fatalf("tools page missing boot source field: %s", body)
if !strings.Contains(settingsBody, `nvidiaRestartDrivers()`) {
t.Fatalf("settings page missing nvidiaRestartDrivers action: %s", settingsBody)
}
if !strings.Contains(body, `USB Black-Box`) {
t.Fatalf("tools page missing usb black-box section: %s", body)
if !strings.Contains(settingsBody, `/api/gpu/nvidia-status`) {
t.Fatalf("settings page missing nvidia status api usage: %s", settingsBody)
}
if !strings.Contains(body, `/api/blackbox/status`) {
t.Fatalf("tools page missing black-box status api usage: %s", body)
if !strings.Contains(settingsBody, `nvidiaResetGPU(`) {
t.Fatalf("settings page missing nvidiaResetGPU action: %s", settingsBody)
}
if !strings.Contains(body, `NVMe Block Format`) {
t.Fatalf("tools page missing nvme block format section: %s", body)
if !strings.Contains(settingsBody, `id="boot-source-text"`) {
t.Fatalf("settings page missing boot source field: %s", settingsBody)
}
if !strings.Contains(body, `/api/tools/nvme-formats`) || !strings.Contains(body, `/api/tools/nvme-format/run`) {
t.Fatalf("tools page missing nvme format api usage: %s", body)
if !strings.Contains(settingsBody, `USB Black-Box`) {
t.Fatalf("settings page missing usb black-box section: %s", settingsBody)
}
if !strings.Contains(settingsBody, `/api/blackbox/status`) {
t.Fatalf("settings page missing black-box status api usage: %s", settingsBody)
}
}
@@ -791,46 +801,45 @@ func TestBenchmarkPageRendersSavedResultsTable(t *testing.T) {
}
}
func TestValidatePageRendersNvidiaTargetedStressCard(t *testing.T) {
func TestCheckPageRendersGPUSelectionAndNvidiaCards(t *testing.T) {
handler := NewHandler(HandlerOptions{})
rec := httptest.NewRecorder()
handler.ServeHTTP(rec, httptest.NewRequest(http.MethodGet, "/validate", nil))
handler.ServeHTTP(rec, httptest.NewRequest(http.MethodGet, "/check", nil))
if rec.Code != http.StatusOK {
t.Fatalf("status=%d", rec.Code)
}
body := rec.Body.String()
for _, needle := range []string{
`NVIDIA GPU Targeted Stress`,
`nvidia-targeted-stress`,
`controlled NVIDIA DCGM load`,
`<code>dcgmi diag targeted_stress</code>`,
`NVIDIA GPU Selection`,
`All NVIDIA validate tasks use only the GPUs selected here.`,
`Select All`,
`id="sat-gpu-list"`,
`Select All`,
`id="sat-btn-nvidia"`,
`NVIDIA Interconnect (NCCL)`,
`NVIDIA Bandwidth (NVBandwidth)`,
`Non-destructive`,
} {
if !strings.Contains(body, needle) {
t.Fatalf("validate page missing %q: %s", needle, body)
t.Fatalf("check page missing %q: %s", needle, body)
}
}
}
func TestValidatePageRendersNvidiaFabricCardsInValidateMode(t *testing.T) {
func TestCheckPageRendersNvidiaFabricCards(t *testing.T) {
handler := NewHandler(HandlerOptions{})
rec := httptest.NewRecorder()
handler.ServeHTTP(rec, httptest.NewRequest(http.MethodGet, "/validate", nil))
handler.ServeHTTP(rec, httptest.NewRequest(http.MethodGet, "/check", nil))
if rec.Code != http.StatusOK {
t.Fatalf("status=%d", rec.Code)
}
body := rec.Body.String()
for _, needle := range []string{
`NVIDIA Interconnect (NCCL)`,
`Validate and Stress:`,
`NVIDIA Bandwidth (NVBandwidth)`,
`nvbandwidth runs all built-in tests without a time limit`,
`nvbandwidth`,
`all_reduce_perf`,
} {
if !strings.Contains(body, needle) {
t.Fatalf("validate page missing %q: %s", needle, body)
t.Fatalf("check page missing %q: %s", needle, body)
}
}
}
@@ -847,7 +856,6 @@ func TestBurnPageRendersGoalBasedNVIDIACards(t *testing.T) {
`NVIDIA Max Compute Load`,
`dcgmproftester`,
`NCCL`,
`Validate → Stress mode`,
`id="burn-gpu-list"`,
} {
if !strings.Contains(body, needle) {

28
audit/internal/webui/task_runner.go
View File

@@ -382,6 +382,34 @@ func executeTaskWithOptions(opts *HandlerOptions, t *Task, j *jobState, ctx cont
break
}
err = runNVMeFormatTask(ctx, j, t.params.Device, t.params.LBAF)
case "saa-dmi-write":
if len(t.params.SAADmiChanges) == 0 {
err = fmt.Errorf("no changes provided")
break
}
err = runSAADMIWriteTask(ctx, j, opts.ExportDir, t.params)
case "ipmi-fru-write":
if len(t.params.FRUChanges) == 0 {
err = fmt.Errorf("no changes provided")
break
}
err = runIPMIFRUWriteTask(ctx, j, opts.ExportDir, t.params)
case "raid-foreign-clear":
err = runRAIDForeignClearTask(ctx, j, t.params.RAIDController)
case "raid-foreign-import":
err = runRAIDForeignImportTask(ctx, j, t.params.RAIDController)
case "raid-lsi-create-mirror":
if len(t.params.RAIDDevices) < 2 {
err = fmt.Errorf("at least 2 drives required")
break
}
err = runRAIDLSICreateMirrorTask(ctx, j, t.params.RAIDController, t.params.RAIDDevices)
case "raid-vroc-create-mirror":
if len(t.params.RAIDDevices) < 2 {
err = fmt.Errorf("at least 2 devices required")
break
}
err = runRAIDVROCCreateMirrorTask(ctx, j, t.params.RAIDDevices, t.params.RAIDArrayName)
default:
j.append("ERROR: unknown target: " + t.Target)
j.finish("unknown target")

11
audit/internal/webui/tasks.go
View File

@@ -137,9 +137,14 @@ type taskParams struct {
RampTotal int `json:"ramp_total,omitempty"`
RampRunID string `json:"ramp_run_id,omitempty"`
DisplayName string `json:"display_name,omitempty"`
Device string `json:"device,omitempty"` // for install
LBAF int `json:"lbaf,omitempty"`
PlatformComponents []string `json:"platform_components,omitempty"`
Device string `json:"device,omitempty"` // for install
LBAF int `json:"lbaf,omitempty"`
PlatformComponents []string `json:"platform_components,omitempty"`
SAADmiChanges []saaChange `json:"saa_dmi_changes,omitempty"`
FRUChanges []fruChange `json:"fru_changes,omitempty"`
RAIDController int `json:"raid_controller,omitempty"`
RAIDDevices []string `json:"raid_devices,omitempty"`
RAIDArrayName string `json:"raid_array_name,omitempty"`
}
type persistedTask struct {

2
bible

Submodule bible updated: d2600f1279...1977730d93

185
bible-local/architecture/api-surface.md Normal file
View File

@@ -0,0 +1,185 @@
# API Surface
HTTP endpoints exposed by `bee web` (binds `0.0.0.0:80`).
Handler registration: `audit/internal/webui/server.go``NewHandler()`.
---
## Health & readiness
| Method | Path | Description |
|--------|----------------|-----------------------------------------------------|
| GET | `/healthz` | Always 200. Used by load balancers / boot scripts. |
| GET | `/api/ready` | 200 when audit JSON exists and is readable. |
| GET | `/loading` | HTML loading page shown before first audit. |
---
## Audit
| Method | Path | Description |
|--------|-----------------------|--------------------------------------------------------------|
| GET | `/audit.json` | Latest audit JSON with SAT overlay applied. |
| GET | `/runtime-health.json`| Latest runtime preflight JSON. |
| POST | `/api/audit/run` | Enqueue a full `bee audit` run. Returns task ID. |
| GET | `/api/audit/stream` | SSE: audit run log lines (`data:` + newline per line). |
| GET | `/api/preflight` | Run runtime preflight check (synchronous, returns JSON). |
| GET | `/api/hardware-summary` | Hardware health summary (status counts + failures). |
| GET | `/api/components/{type}` | HTML fragment for component detail dialog (e.g. `cpu`, `memory`, `storage`, `pcie`). |
---
## SAT (System Acceptance Testing)
All SAT run endpoints enqueue an async task. Response: `{"task_id": "..."}`.
| Method | Path | Description |
|--------|--------------------------------------------|-----------------------------------|
| POST | `/api/sat/nvidia/run` | NVIDIA DCGM SAT |
| POST | `/api/sat/nvidia-targeted-stress/run` | NVIDIA targeted stress validate |
| POST | `/api/sat/nvidia-compute/run` | NVIDIA max compute load |
| POST | `/api/sat/nvidia-targeted-power/run` | NVIDIA targeted power |
| POST | `/api/sat/nvidia-pulse/run` | NVIDIA pulse test |
| POST | `/api/sat/nvidia-interconnect/run` | NCCL all_reduce_perf |
| POST | `/api/sat/nvidia-bandwidth/run` | NVBandwidth test |
| POST | `/api/sat/nvidia-stress/run` | NVIDIA stress pack |
| POST | `/api/sat/memory/run` | Memory acceptance |
| POST | `/api/sat/storage/run` | Storage acceptance (smartctl) |
| POST | `/api/sat/cpu/run` | CPU acceptance (stress-ng) |
| POST | `/api/sat/amd/run` | AMD GPU SAT (ROCm) |
| POST | `/api/sat/amd-mem/run` | AMD memory integrity + bandwidth |
| POST | `/api/sat/amd-bandwidth/run` | AMD memory bandwidth |
| POST | `/api/sat/amd-stress/run` | AMD GPU stress |
| POST | `/api/sat/memory-stress/run` | Memory stress |
| POST | `/api/sat/sat-stress/run` | Combined storage+memory stress |
| POST | `/api/sat/platform-stress/run` | Fan + thermal stress |
| GET | `/api/sat/stream` | SSE: live SAT log stream |
| POST | `/api/sat/abort` | Abort the running SAT task |
---
## Benchmarks
| Method | Path | Description |
|--------|-----------------------------------------|----------------------------------------------|
| POST | `/api/bee-bench/nvidia/perf/run` | NVIDIA performance benchmark |
| POST | `/api/bee-bench/nvidia/power/run` | NVIDIA power benchmark |
| POST | `/api/bee-bench/nvidia/autotune/run` | Power source autotune (prerequisite for benchmarks) |
| GET | `/api/bee-bench/nvidia/autotune/status` | Current autotune result / status |
| GET | `/api/benchmark/results` | List completed benchmark result archives |
---
## Tasks (async job queue)
| Method | Path | Description |
|--------|-----------------------------|----------------------------------------------------|
| GET | `/api/tasks` | List all tasks with status |
| POST | `/api/tasks/cancel-all` | Cancel all pending/running tasks |
| POST | `/api/tasks/kill-workers` | Force-kill worker goroutines |
| POST | `/api/tasks/{id}/cancel` | Cancel a specific task |
| POST | `/api/tasks/{id}/priority` | Elevate task priority |
| GET | `/api/tasks/{id}/stream` | SSE: live log stream for a task |
| GET | `/api/tasks/{id}/charts` | List chart names for a task |
| GET | `/api/tasks/{id}/chart/` | SVG chart for a task result |
| GET | `/tasks/{id}` | HTML task detail page |
---
## Services
| Method | Path | Description |
|--------|---------------------------|--------------------------------------------------|
| GET | `/api/services` | List bee-* systemd services and their states |
| POST | `/api/services/action` | start/stop/restart a service |
---
## Network
| Method | Path | Description |
|--------|----------------------------|-----------------------------------------------------|
| GET | `/api/network` | List interfaces with state and IPv4 addresses |
| POST | `/api/network/dhcp` | Run dhclient on one or all interfaces |
| POST | `/api/network/static` | Set static IPv4 address |
| POST | `/api/network/toggle` | Bring interface up or down |
| POST | `/api/network/confirm` | Confirm pending network change (clears rollback) |
| POST | `/api/network/rollback` | Restore pre-change network snapshot |
---
## Export
| Method | Path | Description |
|--------|-------------------------------|---------------------------------------------------|
| GET | `/export/support.tar.gz` | Download support bundle (live-generated) |
| GET | `/export/file` | Download a file from the export dir by path param |
| GET | `/export/` | Browse export dir (HTML index) |
| GET | `/api/export/list` | JSON list of files in export dir |
| GET | `/api/export/usb` | List removable USB targets available for export |
---
## GPU
| Method | Path | Description |
|--------|----------------------------|----------------------------------------------------|
| GET | `/api/gpu/presence` | `{"nvidia": bool, "amd": bool}` |
| GET | `/api/gpu/nvidia` | List NVIDIA GPUs from nvidia-smi |
| GET | `/api/gpu/nvidia-status` | Per-GPU status (ECC, power, throttle) |
| POST | `/api/gpu/nvidia-reset` | GPU reset by index |
| GET | `/api/gpu/tools` | nvidia-smi / rocm-smi tool availability |
---
## System
| Method | Path | Description |
|--------|------------------------------|---------------------------------------------------|
| GET | `/api/system/ram-status` | toram boot state and ISO copy status |
| POST | `/api/system/install-to-ram` | Copy ISO to RAM (background task) |
| GET | `/api/install/disks` | List block devices suitable for disk installation |
| POST | `/api/install/run` | Install bee to disk (background task) |
---
## Tools & NVMe
| Method | Path | Description |
|--------|-------------------------------|--------------------------------------------------|
| GET | `/api/tools/check` | Check availability of required CLI tools |
| GET | `/api/tools/nvme-formats` | List NVMe format options for a device |
| POST | `/api/tools/nvme-format/run` | Run nvme-format on a device |
---
## Live metrics
| Method | Path | Description |
|--------|------------------------------|---------------------------------------------------|
| GET | `/api/metrics/stream` | SSE: live metrics (GPU power, temp, utilization) |
| GET | `/api/metrics/latest` | Latest metrics snapshot (JSON) |
| GET | `/api/metrics/chart/` | SVG chart for a metric over time |
| GET | `/api/metrics/export.csv` | Download metrics history as CSV |
---
## Blackbox logging
| Method | Path | Description |
|--------|----------------------------|-----------------------------------------------|
| GET | `/api/blackbox/status` | Blackbox log state (enabled, size, path) |
| POST | `/api/blackbox/enable` | Start recording blackbox log |
| POST | `/api/blackbox/disable` | Stop recording, flush to disk |
---
## UI pages
| Method | Path | Description |
|--------|------------|-----------------------------------------------|
| GET | `/` | Main dashboard (serves all page routes) |
| GET | `/viewer` | Standalone JSON viewer for uploaded audit files |
All pages are rendered server-side as HTML. The `/` route handles sub-paths such as
`/network`, `/services`, `/sat`, `/benchmark`, `/install`, `/validate`, `/export`.

137
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@@ -0,0 +1,137 @@
# Data Model
The canonical output of `bee audit` is a `HardwareIngestRequest` JSON document accepted
by the Reanimator `/api/ingest/hardware` endpoint. The ingest endpoint uses a strict
decoder — unknown fields cause `400 Bad Request`.
Source of truth: `audit/internal/schema/hardware.go`
---
## Top-level: HardwareIngestRequest
```
HardwareIngestRequest
├── collected_at string RFC3339 UTC timestamp of collection
├── hardware HardwareSnapshot
├── runtime RuntimeHealth? from bee-runtime-preflight service
├── filename string?
├── source_type string?
├── protocol string?
└── target_host string?
```
`collected_at` is the primary sort key used by Reanimator to deduplicate ingests.
---
## HardwareSnapshot
All component arrays are `omitempty` — absent when the collector finds nothing.
| JSON key | Go type | Source |
|-------------------|----------------------------|------------------------------|
| `board` | HardwareBoard | dmidecode type 1/2 |
| `firmware` | []HardwareFirmwareRecord | dmidecode type 0/13 |
| `cpus` | []HardwareCPU | dmidecode type 4 |
| `memory` | []HardwareMemory | dmidecode type 17 |
| `storage` | []HardwareStorage | lsblk + nvme-cli + smartctl |
| `pcie_devices` | []HardwarePCIeDevice | lspci |
| `power_supplies` | []HardwarePowerSupply | ipmitool fru + sdr |
| `sensors` | *HardwareSensors | sensors -j |
| `event_logs` | []HardwareEventLog | ipmitool sel + journald |
| `platform_config` | *json.RawMessage | reserved, nil until used |
| `vroc_license` | *string | vroc-cli |
---
## Identity keys
Reanimator uses these fields to match components across successive audits:
| Component | Identity key |
|----------------|------------------------------------------------|
| Board | `board.serial_number` (required, never empty) |
| CPU | `serial_number` if present; else generated key |
| Memory DIMM | `serial_number` — absent DIMMs have `present: false` |
| Storage | `serial_number` if present; else `linux_device` from Telemetry |
| PCIe device | `bdf` (Bus:Device.Function address) |
| PSU | `slot` |
Components without a stable identity are still emitted but may not be matched across runs.
---
## HardwareComponentStatus (embedded in all components)
```go
type HardwareComponentStatus struct {
Status *string `json:"status,omitempty"` // OK | Warning | Critical | Unknown
ErrorDescription *string `json:"error_description,omitempty"`
}
```
Status is set by collectors and overwritten at render time by `ApplySATOverlay`
(latest SAT run results are always merged on top before display).
---
## HardwarePCIeDevice
The most enriched component type. Key fields:
| JSON key | Meaning |
|----------------------|------------------------------------------------|
| `bdf` | PCI address (identity key), e.g. `0000:4b:00.0` |
| `vendor_id` | Numeric PCI vendor ID (hex). Use this for classification — not `manufacturer`. |
| `device_id` | Numeric PCI device ID (hex) |
| `device_class` | Human-readable class, e.g. `VideoController` |
| `manufacturer` | String label from lspci — for display only |
| `model` | From nvidia-smi / rocm-smi — display name |
| `link_speed` | Current PCIe link speed, e.g. `Gen4` |
| `max_link_speed` | Max negotiated speed |
| `link_width` | Current lane count |
| `max_link_width` | Max lane count |
| `temperature_c` | From nvidia-smi / rocm-smi |
| `power_w` | Current power draw |
| `ecc_uncorrected_total` | Cumulative ECC uncorrected errors (NVIDIA) |
| `ecc_corrected_total` | Cumulative ECC corrected errors (NVIDIA) |
| `hw_slowdown` | HW throttle active (NVIDIA) |
| `telemetry` | Free-form map for vendor-specific extras |
**Classification rule**: use `vendor_id` (numeric PCI ID), never `manufacturer` string.
| Vendor | vendor_id |
|-----------|-----------|
| NVIDIA | `0x10de` |
| AMD | `0x1002` |
| Mellanox | `0x15b3` |
| Aspeed | `0x1a03` |
| Intel | `0x8086` |
Constants live in `audit/internal/collector/pci_vendors.go`.
---
## HardwareMemory
`location` field exists in the Go struct with `json:"-"` — it is intentionally excluded
from JSON output because the Reanimator schema does not include it. It is used internally
for DIMM telemetry matching only (`collector/memory_telemetry.go`).
---
## HardwareSensors
Sensor structs (`HardwareFanSensor`, `HardwareTemperatureSensor`,
`HardwarePowerSensor`, `HardwareOtherSensor`) do **not** have a `location` field.
Location was removed in contract v2.8. The Go types mirror the schema exactly.
---
## JSON naming convention
All JSON keys are `snake_case`. Go field names are `CamelCase`. The mapping is
maintained by struct tags in `audit/internal/schema/hardware.go`.
All pointer fields use `omitempty` — absent means not collected (not zero).

41
bible-local/decisions/2026-06-12-pcie-disabled-device-link-warning.md Normal file
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@@ -0,0 +1,41 @@
# Decision: Skip PCIe link-speed warnings for disabled devices
**Date:** 2026-06-12
**Status:** active
## Context
On HGX H100 SXM5 baseboards, the Microchip Switchtec PM41028 PSX PCIe switch
(vendor 11F8, device 4128, NVIDIA subsystem 10DE:1643) appears in `lspci` as a
"Memory controller". Its upstream link trains at Gen3 x2 while the device is
capable of Gen4 x16. The device is permanently in a disabled state: memory access
and bus-mastering are both off (Mem-, BusMaster-); `/sys/bus/pci/devices/<bdf>/enable`
reads `0`.
This chip is the PCIe fabric management endpoint for the NVSwitch interconnect — it
carries only management traffic at low bandwidth and is intentionally not activated
by any Linux driver. The bee audit was reporting a `statusWarning` with message
"PCIe link speed degraded" for this device, which is misleading because the device
is not in the data path.
## Decision
`applyPCIeLinkSpeedWarning` reads `/sys/bus/pci/devices/<bdf>/enable` via the
existing `readPCIIntAttribute` helper. If the value is `0` the function returns
early without setting any warning status.
The check is vendor-agnostic: it applies to any PCIe device that Linux has not
activated, regardless of make or model. This is consistent with the
`no-hardcoded-vendors` contract — no vendor ID, device ID, or name string is
used as a condition.
## Consequences
- PCIe fabric management endpoints, IPMI virtual devices, and other permanently
disabled PCIe functions no longer produce spurious link-degradation warnings.
- Real link degradation on active devices (GPUs, NICs, NVMe, NVLink bridges)
continues to be detected and reported as before.
- NVLink bridge cards retain their existing `statusCritical` path (they are always
enabled, so the early return is never taken for them).
- The Switchtec device on HGX H100 boards shows `statusOK` with no
`error_description` in the audit JSON.

1
bible-local/decisions/README.md
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@@ -7,3 +7,4 @@ One file per decision, named `YYYY-MM-DD-short-topic.md`.
| 2026-03-05 | Use NVIDIA proprietary driver | active |
| 2026-04-01 | Treat memtest as explicit ISO content | active |
| 2026-04-29 | Treat embedded submodules as read-only | active |
| 2026-06-12 | Skip PCIe link-speed warnings for disabled devices | active |

2
internal/chart

Submodule internal/chart updated: 2a15bc87f1...8105c7ec08

2
iso/builder/VERSIONS
View File

@@ -9,7 +9,7 @@ NCCL_TESTS_VERSION=2.13.10
NVCC_VERSION=12.8
CUBLAS_VERSION=13.1.1.3-1
CUDA_USERSPACE_VERSION=13.0.96-1
DCGM_VERSION=4.5.3-1
DCGM_VERSION=4.6.0-1
JOHN_JUMBO_COMMIT=67fcf9fe5a
ROCM_VERSION=6.3.4
ROCM_SMI_VERSION=7.4.0.60304-76~22.04

20
iso/builder/build.sh
View File

@@ -1419,6 +1419,13 @@ rm -rf \
if [ "$BEE_GPU_VENDOR" != "nvidia" ]; then
rm -f "${OVERLAY_STAGE_DIR}/usr/local/bin/bee-nvidia-load"
rm -f "${OVERLAY_STAGE_DIR}/etc/systemd/system/bee-nvidia.service"
rm -f "${OVERLAY_STAGE_DIR}/usr/local/bin/bee-gpu-burn"
rm -f "${OVERLAY_STAGE_DIR}/usr/local/bin/bee-john-gpu-stress"
rm -f "${OVERLAY_STAGE_DIR}/usr/local/bin/bee-nccl-gpu-stress"
rm -f "${OVERLAY_STAGE_DIR}/usr/local/bin/bee-nvidia-recover"
rm -f "${OVERLAY_STAGE_DIR}/usr/local/bin/bee-dcgmproftester-staggered"
rm -f "${OVERLAY_STAGE_DIR}/usr/local/bin/bee-check-nvswitch"
rm -rf "${OVERLAY_STAGE_DIR}/etc/systemd/system/nvidia-fabricmanager.service.d"
fi
# --- inject authorized_keys for SSH access ---
@@ -1473,7 +1480,7 @@ cp "${BUILDER_DIR}/smoketest.sh" "${OVERLAY_STAGE_DIR}/usr/local/bin/bee-smokete
chmod +x "${OVERLAY_STAGE_DIR}/usr/local/bin/bee-smoketest"
# --- vendor utilities (optional pre-fetched binaries) ---
for tool in storcli64 sas2ircu sas3ircu arcconf ssacli; do
for tool in storcli64 sas2ircu sas3ircu arcconf ssacli saa; do
if [ -f "${VENDOR_DIR}/${tool}" ]; then
cp "${VENDOR_DIR}/${tool}" "${OVERLAY_STAGE_DIR}/usr/local/bin/${tool}"
chmod +x "${OVERLAY_STAGE_DIR}/usr/local/bin/${tool}" || true
@@ -1483,6 +1490,17 @@ for tool in storcli64 sas2ircu sas3ircu arcconf ssacli; do
fi
done
# saa companion directories — saa searches for these relative to CWD (/usr/local/bin)
for saa_subdir in acpica_bin ExternalData tool stunnel GO_SNMP; do
if [ -d "${VENDOR_DIR}/${saa_subdir}" ]; then
cp -r "${VENDOR_DIR}/${saa_subdir}" "${OVERLAY_STAGE_DIR}/usr/local/bin/"
find "${OVERLAY_STAGE_DIR}/usr/local/bin/${saa_subdir}" -type f -exec chmod +x {} \; 2>/dev/null || true
echo "vendor saa: ${saa_subdir}/ (included)"
else
echo "vendor saa: ${saa_subdir}/ (not found, skipped)"
fi
done
# --- NVIDIA kernel modules and userspace libs ---
if [ "$BEE_GPU_VENDOR" = "nvidia" ]; then
run_step "build NVIDIA ${NVIDIA_DRIVER_VERSION} modules" "40-nvidia-module" \

5
iso/overlay/etc/systemd/system/nvidia-fabricmanager.service.d/bee-nvswitch-check.conf
View File

@@ -1,3 +1,8 @@
[Unit]
# bee-nvidia.service loads the NVIDIA kernel modules; fabricmanager must wait
# for them to be fully initialized before attempting to open /dev/nvidiactl.
After=bee-nvidia.service
[Service]
# Skip fabricmanager on systems without NVSwitch hardware.
# ExecCondition exits 1-254 → unit is silently skipped (inactive, not failed).

3
iso/overlay/usr/local/bin/bee-selfheal
View File

@@ -67,7 +67,8 @@ if ! mkdir "${LOCK_DIR}" 2>/dev/null; then
fi
trap 'rmdir "${LOCK_DIR}" >/dev/null 2>&1 || true' EXIT
if have_nvidia_gpu && [ ! -e /dev/nvidia0 ]; then
GPU_VENDOR=$(cat /etc/bee-gpu-vendor 2>/dev/null || echo "")
if [ "$GPU_VENDOR" = "nvidia" ] && have_nvidia_gpu && [ ! -e /dev/nvidia0 ]; then
log_event "NVIDIA GPU detected but /dev/nvidia0 is missing"
restart_service bee-nvidia.service || true
fi

1131
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File diff suppressed because it is too large Load Diff

2333
iso/vendor/ExternalData/VENID.txt vendored Normal file
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File diff suppressed because it is too large Load Diff

37
iso/vendor/ExternalData/supportAutoDST vendored Normal file
View File

@@ -0,0 +1,37 @@
(UTC-10:00) Aleutian Islands
(UTC-09:00) Alaska
(UTC-08:00) Baja California
(UTC-08:00) Pacific Time (US & Canada)
(UTC-07:00) Mountain Time (US & Canada)
(UTC-06:00) Central Time (US & Canada)
(UTC-06:00) Easter Island
(UTC-05:00) Eastern Time (US & Canada)
(UTC-05:00) Haiti
(UTC-05:00) Havana
(UTC-05:00) Indiana (East)
(UTC-05:00) Turks and Caicos
(UTC-04:00) Asuncion
(UTC-04:00) Atlantic Time (Canada)
(UTC-04:00) Santiago
(UTC-03:30) Newfoundland
(UTC-03:00) Saint Pierre and Miquelon
(UTC-01:00) Azores
(UTC+00:00) Dublin, Edinburgh, Lisbon, London
(UTC+01:00) Casablanca
(UTC+01:00) Amsterdam, Berlin, Bern, Rome, Stockholm, Vienna
(UTC+01:00) Belgrade, Bratislava, Budapest, Ljubljana, Prague
(UTC+01:00) Brussels, Copenhagen, Madrid, Paris
(UTC+01:00) Sarajevo, Skopje, Warsaw, Zagreb
(UTC+02:00) Athens, Bucharest
(UTC+02:00) Beirut
(UTC+02:00) Chisinau
(UTC+02:00) Gaza, Hebron
(UTC+02:00) Helsinki, Kyiv, Riga, Sofia, Tallinn, Vilnius
(UTC+02:00) Jerusalem
(UTC+09:30) Adelaide
(UTC+10:00) Canberra, Melbourne, Sydney
(UTC+10:00) Hobart
(UTC+10:30) Lord Howe Island
(UTC+11:00) Norfolk Island
(UTC+12:00) Auckland, Wellington
(UTC+12:45) Chatham Islands

139
iso/vendor/ExternalData/timezone.txt vendored Normal file
View File

@@ -0,0 +1,139 @@
(UTC-12:00) International Date Line West
(UTC-11:00) Coordinated Universal Time-11
(UTC-10:00) Aleutian Islands
(UTC-10:00) Hawaii
(UTC-09:30) Marquesas Islands
(UTC-09:00) Alaska
(UTC-09:00) Coordinated Universal Time-09
(UTC-08:00) Baja California
(UTC-08:00) Coordinated Universal Time-08
(UTC-08:00) Pacific Time (US & Canada)
(UTC-07:00) Arizona
(UTC-07:00) Chihuahua, La Paz, Mazatlan
(UTC-07:00) Mountain Time (US & Canada)
(UTC-07:00) Yukon
(UTC-06:00) Central America
(UTC-06:00) Central Time (US & Canada)
(UTC-06:00) Easter Island
(UTC-06:00) Guadalajara, Mexico City, Monterrey
(UTC-06:00) Saskatchewan
(UTC-05:00) Bogota, Lima, Quito, Rio Branco
(UTC-05:00) Chetumal
(UTC-05:00) Eastern Time (US & Canada)
(UTC-05:00) Haiti
(UTC-05:00) Havana
(UTC-05:00) Indiana (East)
(UTC-05:00) Turks and Caicos
(UTC-04:00) Atlantic Time (Canada)
(UTC-04:00) Caracas
(UTC-04:00) Cuiaba
(UTC-04:00) Georgetown, La Paz, Manaus, San Juan
(UTC-04:00) Santiago
(UTC-03:30) Newfoundland
(UTC-03:00) Asuncion
(UTC-03:00) Araguaina
(UTC-03:00) Brasilia
(UTC-03:00) Cayenne, Fortaleza
(UTC-03:00) City of Buenos Aires
(UTC-03:00) Greenland
(UTC-03:00) Montevideo
(UTC-03:00) Punta Arenas
(UTC-03:00) Saint Pierre and Miquelon
(UTC-03:00) Salvador
(UTC-02:00) Coordinated Universal Time-02
(UTC-01:00) Azores
(UTC-01:00) Cabo Verde Is.
(UTC+00:00) Coordinated Universal Time
(UTC+00:00) Dublin, Edinburgh, Lisbon, London
(UTC+00:00) Monrovia, Reykjavik
(UTC+00:00) Sao Tome
(UTC+01:00) Casablanca
(UTC+01:00) Amsterdam, Berlin, Bern, Rome, Stockholm, Vienna
(UTC+01:00) Belgrade, Bratislava, Budapest, Ljubljana, Prague
(UTC+01:00) Brussels, Copenhagen, Madrid, Paris
(UTC+01:00) Sarajevo, Skopje, Warsaw, Zagreb
(UTC+01:00) West Central Africa
(UTC+02:00) Amman
(UTC+02:00) Athens, Bucharest
(UTC+02:00) Beirut
(UTC+02:00) Cairo
(UTC+02:00) Chisinau
(UTC+02:00) Damascus
(UTC+02:00) Gaza, Hebron
(UTC+02:00) Harare, Pretoria
(UTC+02:00) Helsinki, Kyiv, Riga, Sofia, Tallinn, Vilnius
(UTC+02:00) Jerusalem
(UTC+02:00) Juba
(UTC+02:00) Kaliningrad
(UTC+02:00) Khartoum
(UTC+02:00) Tripoli
(UTC+02:00) Windhoek
(UTC+03:00) Baghdad
(UTC+03:00) Istanbul
(UTC+03:00) Kuwait, Riyadh
(UTC+03:00) Minsk
(UTC+03:00) Moscow, St. Petersburg
(UTC+03:00) Nairobi
(UTC+03:00) Volgograd
(UTC+03:30) Tehran
(UTC+04:00) Abu Dhabi, Muscat
(UTC+04:00) Astrakhan, Ulyanovsk
(UTC+04:00) Baku
(UTC+04:00) Izhevsk, Samara
(UTC+04:00) Port Louis
(UTC+04:00) Saratov
(UTC+04:00) Tbilisi
(UTC+04:00) Yerevan
(UTC+04:30) Kabul
(UTC+05:00) Ashgabat, Tashkent
(UTC+05:00) Astana
(UTC+05:00) Ekaterinburg
(UTC+05:00) Islamabad, Karachi
(UTC+05:00) Qyzylorda
(UTC+05:30) Chennai, Kolkata, Mumbai, New Delhi
(UTC+05:30) Sri Jayawardenepura
(UTC+05:45) Kathmandu
(UTC+06:00) Dhaka
(UTC+06:00) Omsk
(UTC+06:30) Yangon (Rangoon)
(UTC+07:00) Bangkok, Hanoi, Jakarta
(UTC+07:00) Barnaul, Gorno-Altaysk
(UTC+07:00) Hovd
(UTC+07:00) Krasnoyarsk
(UTC+07:00) Novosibirsk
(UTC+07:00) Tomsk
(UTC+08:00) Beijing, Chongqing, Hong Kong, Urumqi
(UTC+08:00) Irkutsk
(UTC+08:00) Kuala Lumpur, Singapore
(UTC+08:00) Perth
(UTC+08:00) Taipei
(UTC+08:00) Ulaanbaatar
(UTC+08:45) Eucla
(UTC+09:00) Chita
(UTC+09:00) Osaka, Sapporo, Tokyo
(UTC+09:00) Pyongyang
(UTC+09:00) Seoul
(UTC+09:00) Yakutsk
(UTC+09:30) Adelaide
(UTC+09:30) Darwin
(UTC+10:00) Brisbane
(UTC+10:00) Canberra, Melbourne, Sydney
(UTC+10:00) Guam, Port Moresby
(UTC+10:00) Hobart
(UTC+10:00) Vladivostok
(UTC+10:30) Lord Howe Island
(UTC+11:00) Bougainville Island
(UTC+11:00) Chokurdakh
(UTC+11:00) Magadan
(UTC+11:00) Norfolk Island
(UTC+11:00) Sakhalin
(UTC+11:00) Solomon Is., New Caledonia
(UTC+12:00) Anadyr, Petropavlovsk-Kamchatsky
(UTC+12:00) Auckland, Wellington
(UTC+12:00) Coordinated Universal Time+12
(UTC+12:00) Fiji
(UTC+12:45) Chatham Islands
(UTC+13:00) Coordinated Universal Time+13
(UTC+13:00) Nuku'alofa
(UTC+13:00) Samoa
(UTC+14:00) Kiritimati Island

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