chore: update bible and chart submodules

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>

bible-local/01-overview.md

@@ -30,9 +30,11 @@ All modes converge on the same normalized hardware model and exporter pipeline.
 - Reanimator Easy Bee support bundles
 - H3C SDS G5/G6
 - Inspur / Kaytus
+- HPE iLO AHS
 - NVIDIA HGX Field Diagnostics
 - NVIDIA Bug Report
 - Unraid
+- xFusion iBMC dump / file export
 - XigmaNAS
 - Generic fallback parser
 

bible-local/05-collectors.md

@@ -35,18 +35,27 @@ If the collector adds a fallback, probe, or normalization rule, replay must mirr
 
 ### Preflight and host power
 
-- `Probe()` may be used before collection to verify API connectivity and current host `PowerState`
+- `Probe()` is used before collection to verify API connectivity and report current host `PowerState`
-- if the host is off and the user chose power-on, the collector may issue `ComputerSystem.Reset`
+- if the host is off, the collector logs a warning and proceeds with collection; inventory data may
-  with `ResetType=On`
+  be incomplete when the host is powered off
-- power-on attempts are bounded and logged
+- power-on and power-off are not performed by the collector
-- after a successful power-on, the collector waits an extra stabilization window, then checks
+
-  `PowerState` again and only starts collection if the host is still on
+### Skip hung requests
-- if the collector powered on the host itself for collection, it must attempt to power it back off
+
-  after collection completes
+Redfish collection uses a two-level context model:
-- if the host was already on before collection, the collector must not power it off afterward
+
-- if power-on fails, collection still continues against the powered-off host
+- `ctx` — job lifetime context, cancelled only on explicit job cancel
-- all power-control decisions and attempts must be visible in the collection log so they are
+- `collectCtx` — collection phase context, derived from `ctx`; covers snapshot, prefetch, and plan-B
-  preserved in raw-export bundles
+
+`collectCtx` is cancelled when the user presses "Пропустить зависшие" (skip hung).
+On skip, all in-flight HTTP requests in the current phase are aborted immediately via context
+cancellation, the crawler and plan-B loops exit, and execution proceeds to the replay phase using
+whatever was collected in `rawTree`. The result is partial but valid.
+
+The skip signal travels: UI button → `POST /api/collect/{id}/skip` → `JobManager.SkipJob()` →
+closes `skipCh` → goroutine in `Collect()` → `cancelCollect()`.
+
+The skip button is visible during `running` state and hidden once the job reaches a terminal state.
 
 ### Discovery model
 

bible-local/06-parsers.md

@@ -53,10 +53,12 @@ When `vendor_id` and `device_id` are known but the model name is missing or gene
 | `easy_bee` | `bee-support-*.tar.gz` | Imports embedded `export/bee-audit.json` snapshot from reanimator-easy-bee bundles |
 | `h3c_g5` | H3C SDS G5 bundles | INI/XML/CSV-driven hardware and event parsing |
 | `h3c_g6` | H3C SDS G6 bundles | Similar flow with G6-specific files |
+| `hpe_ilo_ahs` | HPE iLO Active Health System (`.ahs`) | Proprietary `ABJR` container with gzip-compressed `zbb` members; parser combines SMBIOS-style inventory strings and embedded Redfish storage JSON |
 | `inspur` | onekeylog archives | FRU/SDR plus optional Redis enrichment |
 | `nvidia` | HGX Field Diagnostics | GPU- and fabric-heavy diagnostic input |
 | `nvidia_bug_report` | `nvidia-bug-report-*.log.gz` | dmidecode, lspci, NVIDIA driver sections |
 | `unraid` | Unraid diagnostics/log bundles | Server and storage-focused parsing |
+| `xfusion` | xFusion iBMC `tar.gz` dump / file export | AppDump + RTOSDump + LogDump merge for hardware and firmware |
 | `xigmanas` | XigmaNAS plain logs | FreeBSD/NAS-oriented inventory |
 | `generic` | fallback | Low-confidence text fallback when nothing else matches |
 
@@ -121,6 +123,55 @@ with content markers (e.g. `Unraid kernel build`, parity data markers).
 
 ---
 
+### HPE iLO AHS (`hpe_ilo_ahs`)
+
+**Status:** Ready (v1.0.0). Tested on HPE ProLiant Gen11 `.ahs` export from iLO 6.
+
+**Archive format:** `.ahs` single-file Active Health System export.
+
+**Detection:** Single-file input with `ABJR` container header and HPE AHS member names
+such as `CUST_INFO.DAT`, `*.zbb`, `ilo_boot_support.zbb`.
+
+**Extracted data (current):**
+- System board identity (manufacturer, model, serial, part number)
+- iLO / System ROM / SPS top-level firmware
+- CPU inventory (model-level)
+- Memory DIMM inventory for populated slots
+- PSU inventory
+- PCIe / OCP NIC inventory from SMBIOS-style slot records
+- Storage controller and physical drives from embedded Redfish JSON inside `zbb` members
+- Basic iLO event log entries with timestamps when present
+
+**Implementation note:** The format is proprietary. Parser support is intentionally hybrid:
+container parsing (`ABJR` + gzip) plus structured extraction from embedded Redfish objects and
+printable SMBIOS/FRU payloads. This is sufficient for inventory-grade parsing without decoding the
+entire internal `zbb` schema.
+
+---
+
+### xFusion iBMC Dump / File Export (`xfusion`)
+
+**Status:** Ready (v1.1.0). Tested on xFusion G5500 V7 `tar.gz` exports.
+
+**Archive format:** `tar.gz` dump exported from the iBMC UI, including `AppDump/`, `RTOSDump/`,
+and `LogDump/` trees.
+
+**Detection:** `AppDump/FruData/fruinfo.txt`, `AppDump/card_manage/card_info`,
+`RTOSDump/versioninfo/app_revision.txt`, and `LogDump/netcard/netcard_info.txt`.
+
+**Extracted data (current):**
+- Board / FRU inventory from `fruinfo.txt`
+- CPU inventory from `CpuMem/cpu_info`
+- Memory DIMM inventory from `CpuMem/mem_info`
+- GPU inventory from `card_info`
+- OCP NIC inventory by merging `card_info` with `LogDump/netcard/netcard_info.txt`
+- PSU inventory from `BMC/psu_info.txt`
+- Physical storage from `StorageMgnt/PhysicalDrivesInfo/*/disk_info`
+- System firmware entries from `RTOSDump/versioninfo/app_revision.txt`
+- Maintenance events from `LogDump/maintenance_log`
+
+---
+
 ### Generic text fallback (`generic`)
 
 **Status:** Ready (v1.0.0).
@@ -141,10 +192,12 @@ with content markers (e.g. `Unraid kernel build`, parity data markers).
 |--------|----|--------|-----------|
 | Dell TSR | `dell` | Ready | TSR nested zip archives |
 | Reanimator Easy Bee | `easy_bee` | Ready | `bee-support-*.tar.gz` support bundles |
+| HPE iLO AHS | `hpe_ilo_ahs` | Ready | iLO 6 `.ahs` exports |
 | Inspur / Kaytus | `inspur` | Ready | KR4268X2 onekeylog |
 | NVIDIA HGX Field Diag | `nvidia` | Ready | Various HGX servers |
 | NVIDIA Bug Report | `nvidia_bug_report` | Ready | H100 systems |
 | Unraid | `unraid` | Ready | Unraid diagnostics archives |
+| xFusion iBMC dump | `xfusion` | Ready | G5500 V7 file-export `tar.gz` bundles |
 | XigmaNAS | `xigmanas` | Ready | FreeBSD NAS logs |
 | H3C SDS G5 | `h3c_g5` | Ready | H3C UniServer R4900 G5 SDS archives |
 | H3C SDS G6 | `h3c_g6` | Ready | H3C UniServer R4700 G6 SDS archives |

bible-local/10-decisions.md

@@ -258,6 +258,9 @@ at parse time before storing in any model struct. Use the regex
 **Date:** 2026-03-12
 **Context:** `shouldAdaptiveNVMeProbe` was introduced in `2fa4a12` to recover NVMe drives on
 Supermicro BMCs that expose empty `Drives` collections but serve disks at direct `Disk.Bay.N`
+
+---
+
 paths. The function returns `true` for any chassis with an empty `Members` array. On
 Supermicro HGX systems (SYS-A21GE-NBRT and similar) ~35 sub-chassis (GPU, NVSwitch,
 PCIeRetimer, ERoT, IRoT, BMC, FPGA) all carry `ChassisType=Module/Component/Zone` and
@@ -976,3 +979,144 @@ the producer utility and archive importer.
 - Adding support required only a thin archive adapter instead of a full hardware parser.
 - If the upstream utility changes the embedded snapshot schema, the `easy_bee` adapter is the
   only place that must be updated.
+
+---
+
+## ADL-038 — HPE AHS parser uses hybrid extraction instead of full `zbb` schema decoding
+
+**Date:** 2026-03-30
+**Context:** HPE iLO Active Health System exports (`.ahs`) are proprietary `ABJR` containers
+with gzip-compressed `zbb` payloads. The sample inventory data contains two practical signal
+families: printable SMBIOS/FRU-style strings and embedded Redfish JSON subtrees, especially for
+storage controllers and drives. Full `zbb` binary schema decoding is not documented and would add
+significant complexity before proving user value.
+**Decision:** Support HPE AHS with a hybrid parser:
+- decode the outer `ABJR` container
+- gunzip embedded members when applicable
+- extract inventory from printable SMBIOS/FRU payloads
+- extract storage/controller/backplane details from embedded Redfish JSON objects
+- enrich firmware and PSU inventory from auxiliary package payloads such as `bcert.pkg`
+- do not attempt complete semantic decoding of the internal `zbb` record format
+**Consequences:**
+- Parser reaches inventory-grade usefulness quickly for HPE `.ahs` uploads.
+- Storage inventory is stronger than text-only parsing because it reuses structured Redfish data when present.
+- Auxiliary package payloads can supply missing firmware/PSU fields even when the main SMBIOS-like blob is incomplete.
+- Future deeper `zbb` decoding can be added incrementally without replacing the current parser contract.
+
+---
+
+## ADL-039 — Canonical inventory keeps DIMMs with unknown capacity when identity is known
+
+**Date:** 2026-03-30
+**Context:** Some sources, notably HPE iLO AHS SMBIOS-like blobs, expose installed DIMM identity
+(slot, serial, part number, manufacturer) but do not include capacity. The parser already extracts
+those modules into `Hardware.Memory`, but canonical device building and export previously dropped
+them because `size_mb == 0`.
+**Decision:** Treat a DIMM as installed inventory when `present=true` and it has identifying
+memory fields such as serial number or part number, even if `size_mb` is unknown.
+**Consequences:**
+- HPE AHS uploads now show real installed memory modules instead of hiding them.
+- Empty slots still stay filtered because they lack inventory identity or are marked absent.
+- Specification/export can include "size unknown" memory entries without inventing capacity data.
+
+---
+
+## ADL-040 — HPE Redfish normalization prefers chassis `Devices/*` over generic PCIe topology labels
+
+**Date:** 2026-03-30
+**Context:** HPE ProLiant Gen11 Redfish snapshots expose parallel inventory trees. `Chassis/*/PCIeDevices/*`
+is good for topology presence, but often reports only generic `DeviceType` values such as
+`SingleFunction`. `Chassis/*/Devices/*` carries the concrete slot label, richer device type, and
+product-vs-spare part identifiers for the same physical NIC/controller. Replay fallback over empty
+storage volume collections can also discover `Volumes/Capabilities` children, which are not real
+logical volumes.
+
+**Decision:**
+- Treat Redfish `SKU` as a valid fallback for `hardware.board.part_number` when `PartNumber` is empty.
+- Ignore `Volumes/Capabilities` documents during logical-volume parsing.
+- Enrich `Chassis/*/PCIeDevices/*` entries with matching `Chassis/*/Devices/*` documents by
+  serial/name/part identity.
+- Keep `pcie.device_class` semantic; do not replace it with model or part-number strings when
+  Redfish exposes only generic topology labels.
+
+**Consequences:**
+- HPE Redfish imports now keep the server SKU in `hardware.board.part_number`.
+- Empty volume collections no longer produce fake `Capabilities` volume records.
+- HPE PCIe inventory gets better slot labels like `OCP 3.0 Slot 15` plus concrete classes such as
+  `LOM/NIC` or `SAS/SATA Storage Controller`.
+- `part_number` remains available separately for model identity, without polluting the class field.
+
+---
+
+## ADL-041 — Redfish replay drops topology-only PCIe noise classes from canonical inventory
+
+**Date:** 2026-04-01
+**Context:** Some Redfish BMCs, especially MSI/AMI GPU systems, expose a very wide PCIe topology
+tree under `Chassis/*/PCIeDevices/*`. Besides real endpoint devices, the replay sees bridge stages,
+CPU-side helper functions, IMC/mesh signal-processing nodes, USB/SPI side controllers, and GPU
+display-function duplicates reported as generic `Display Device`. Keeping all of them in
+`hardware.pcie_devices` pollutes downstream exports such as Reanimator and hides the actual
+endpoint inventory signal.
+
+**Decision:**
+- Filter topology-only PCIe records during Redfish replay, not in the UI layer.
+- Drop PCIe entries with replay-resolved classes:
+  - `Bridge`
+  - `Processor`
+  - `SignalProcessingController`
+  - `SerialBusController`
+- Drop `DisplayController` entries when the source Redfish PCIe document is the generic MSI-style
+  `Description: "Display Device"` duplicate.
+- Drop PCIe network endpoints when their PCIe functions already link to `NetworkDeviceFunctions`,
+  because those devices are represented canonically in `hardware.network_adapters`.
+- When `Systems/*/NetworkInterfaces/*` links back to a chassis `NetworkAdapter`, match against the
+  fully enriched chassis NIC identity to avoid creating a second ghost NIC row with the raw
+  `NetworkAdapter_*` slot/name.
+- Treat generic Redfish object names such as `NetworkAdapter_*` and `PCIeDevice_*` as placeholder
+  models and replace them from PCI IDs when a concrete vendor/device match exists.
+- Drop MSI-style storage service PCIe endpoints whose resolved device names are only
+  `Volume Management Device NVMe RAID Controller` or `PCIe Switch management endpoint`; storage
+  inventory already comes from the Redfish storage tree.
+- Normalize Ethernet-class NICs into the single exported class `NetworkController`; do not split
+  `EthernetController` into a separate top-level inventory section.
+- Keep endpoint classes such as `NetworkController`, `MassStorageController`, and dedicated GPU
+  inventory coming from `hardware.gpus`.
+
+**Consequences:**
+- `hardware.pcie_devices` becomes closer to real endpoint inventory instead of raw PCIe topology.
+- Reanimator exports stop showing MSI bridge/processor/display duplicate noise.
+- Reanimator exports no longer duplicate the same MSI NIC as both `PCIeDevice_*` and
+  `NetworkAdapter_*`.
+- Replay no longer creates extra NIC rows from `Systems/NetworkInterfaces` when the same adapter
+  was already normalized from `Chassis/NetworkAdapters`.
+- MSI VMD / PCIe switch storage service endpoints no longer pollute PCIe inventory.
+- UI/Reanimator group all Ethernet NICs under the same `NETWORKCONTROLLER` section.
+- Canonical NIC inventory prefers resolved PCI product names over generic Redfish placeholder names.
+- The raw Redfish snapshot still remains available in `raw_payloads.redfish_tree` for low-level
+  troubleshooting if topology details are ever needed.
+
+---
+
+## ADL-042 — xFusion file-export archives merge AppDump inventory with RTOS/Log snapshots
+
+**Date:** 2026-04-04
+**Context:** xFusion iBMC `tar.gz` exports expose the base inventory in `AppDump/`, but the most
+useful NIC and firmware details live elsewhere: NIC firmware/MAC snapshots in
+`LogDump/netcard/netcard_info.txt` and system firmware versions in
+`RTOSDump/versioninfo/app_revision.txt`. Parsing only `AppDump/` left xFusion uploads detectable but
+incomplete for UI and Reanimator consumers.
+
+**Decision:**
+- Treat xFusion file-export `tar.gz` bundles as a first-class archive parser input.
+- Merge OCP NIC identity from `AppDump/card_manage/card_info` with the latest per-slot snapshot
+  from `LogDump/netcard/netcard_info.txt` to produce `hardware.network_adapters`.
+- Import system-level firmware from `RTOSDump/versioninfo/app_revision.txt` into
+  `hardware.firmware`.
+- Allow FRU fallback from `RTOSDump/versioninfo/fruinfo.txt` when `AppDump/FruData/fruinfo.txt`
+  is absent.
+
+**Consequences:**
+- xFusion uploads now preserve NIC BDF, MAC, firmware, and serial identity in normalized output.
+- System firmware such as BIOS and iBMC versions survives xFusion file exports.
+- xFusion archives participate more reliably in canonical device/export flows without special UI
+  cases.

internal/collector/redfish.go

@@ -112,12 +112,11 @@ func (c *RedfishConnector) Probe(ctx context.Context, req Request) (*ProbeResult
 	}
 	powerState := redfishSystemPowerState(systemDoc)
 	return &ProbeResult{
-		Reachable:             true,
+		Reachable:      true,
-		Protocol:              "redfish",
+		Protocol:       "redfish",
-		HostPowerState:        powerState,
+		HostPowerState: powerState,
-		HostPoweredOn:         isRedfishHostPoweredOn(powerState),
+		HostPoweredOn:  isRedfishHostPoweredOn(powerState),
-		PowerControlAvailable: redfishResetActionTarget(systemDoc) != "",
+		SystemPath:     primarySystem,
-		SystemPath:            primarySystem,
 	}, nil
 }
 
@@ -160,17 +159,6 @@ func (c *RedfishConnector) Collect(ctx context.Context, req Request, emit Progre
 
 	systemPaths := c.discoverMemberPaths(discoveryCtx, snapshotClient, req, baseURL, "/redfish/v1/Systems", "/redfish/v1/Systems/1")
 	primarySystem := firstNonEmptyPath(systemPaths, "/redfish/v1/Systems/1")
-	if primarySystem != "" {
-		c.ensureHostPowerForCollection(ctx, snapshotClient, req, baseURL, primarySystem, emit)
-	}
-	defer func() {
-		if primarySystem == "" || !req.StopHostAfterCollect {
-			return
-		}
-		shutdownCtx, cancel := context.WithTimeout(context.Background(), 45*time.Second)
-		defer cancel()
-		c.restoreHostPowerAfterCollection(shutdownCtx, snapshotClient, req, baseURL, primarySystem, emit)
-	}()
 	chassisPaths := c.discoverMemberPaths(discoveryCtx, snapshotClient, req, baseURL, "/redfish/v1/Chassis", "/redfish/v1/Chassis/1")
 	managerPaths := c.discoverMemberPaths(discoveryCtx, snapshotClient, req, baseURL, "/redfish/v1/Managers", "/redfish/v1/Managers/1")
 	primaryChassis := firstNonEmptyPath(chassisPaths, "/redfish/v1/Chassis/1")
@@ -269,12 +257,35 @@ func (c *RedfishConnector) Collect(ctx context.Context, req Request, emit Progre
 		emit(Progress{Status: "running", Progress: 80, Message: "Redfish: подготовка расширенного snapshot...", CurrentPhase: "snapshot", ETASeconds: acquisitionPlan.Tuning.ETABaseline.SnapshotSeconds})
 		emit(Progress{Status: "running", Progress: 90, Message: "Redfish: сбор расширенного snapshot...", CurrentPhase: "snapshot", ETASeconds: acquisitionPlan.Tuning.ETABaseline.SnapshotSeconds})
 	}
+	// collectCtx covers all data-fetching phases (snapshot, prefetch, plan-B).
+	// Cancelling it via the skip signal aborts only the collection phases while
+	// leaving the replay phase intact so results from already-fetched data are preserved.
+	collectCtx, cancelCollect := context.WithCancel(ctx)
+	defer cancelCollect()
+	if req.SkipHungCh != nil {
+		go func() {
+			select {
+			case <-req.SkipHungCh:
+				if emit != nil {
+					emit(Progress{
+						Status:   "running",
+						Progress: 97,
+						Message:  "Redfish: пропуск зависших запросов, анализ уже собранных данных...",
+					})
+				}
+				log.Printf("redfish: skip-hung triggered, cancelling collection phases")
+				cancelCollect()
+			case <-ctx.Done():
+			}
+		}()
+	}
+
 	c.debugSnapshotf("snapshot crawl start host=%s port=%d", req.Host, req.Port)
-	rawTree, fetchErrors, postProbeMetrics, snapshotTimingSummary := c.collectRawRedfishTree(withRedfishTelemetryPhase(ctx, "snapshot"), snapshotClient, req, baseURL, seedPaths, acquisitionPlan.Tuning, emit)
+	rawTree, fetchErrors, postProbeMetrics, snapshotTimingSummary := c.collectRawRedfishTree(withRedfishTelemetryPhase(collectCtx, "snapshot"), snapshotClient, req, baseURL, seedPaths, acquisitionPlan.Tuning, emit)
 	c.debugSnapshotf("snapshot crawl done docs=%d", len(rawTree))
 	fetchErrMap := redfishFetchErrorListToMap(fetchErrors)
 
-	prefetchedCritical, prefetchMetrics := c.prefetchCriticalRedfishDocs(withRedfishTelemetryPhase(ctx, "prefetch"), prefetchClient, req, baseURL, criticalPaths, rawTree, fetchErrMap, acquisitionPlan.Tuning, emit)
+	prefetchedCritical, prefetchMetrics := c.prefetchCriticalRedfishDocs(withRedfishTelemetryPhase(collectCtx, "prefetch"), prefetchClient, req, baseURL, criticalPaths, rawTree, fetchErrMap, acquisitionPlan.Tuning, emit)
 	for p, doc := range prefetchedCritical {
 		if _, exists := rawTree[p]; exists {
 			continue
@@ -295,10 +306,10 @@ func (c *RedfishConnector) Collect(ctx context.Context, req Request, emit Progre
 		prefetchMetrics.Duration.Round(time.Millisecond),
 		firstNonEmpty(prefetchMetrics.SkipReason, "-"),
 	)
-	if recoveredN := c.recoverCriticalRedfishDocsPlanB(withRedfishTelemetryPhase(ctx, "critical_plan_b"), criticalClient, req, baseURL, criticalPaths, rawTree, fetchErrMap, acquisitionPlan.Tuning, emit); recoveredN > 0 {
+	if recoveredN := c.recoverCriticalRedfishDocsPlanB(withRedfishTelemetryPhase(collectCtx, "critical_plan_b"), criticalClient, req, baseURL, criticalPaths, rawTree, fetchErrMap, acquisitionPlan.Tuning, emit); recoveredN > 0 {
 		c.debugSnapshotf("critical plan-b recovered docs=%d", recoveredN)
 	}
-	if recoveredN := c.recoverProfilePlanBDocs(withRedfishTelemetryPhase(ctx, "profile_plan_b"), criticalClient, req, baseURL, acquisitionPlan, rawTree, emit); recoveredN > 0 {
+	if recoveredN := c.recoverProfilePlanBDocs(withRedfishTelemetryPhase(collectCtx, "profile_plan_b"), criticalClient, req, baseURL, acquisitionPlan, rawTree, emit); recoveredN > 0 {
 		c.debugSnapshotf("profile plan-b recovered docs=%d", recoveredN)
 	}
 	// Hide transient fetch errors for endpoints that were eventually recovered into rawTree.
@@ -485,230 +496,6 @@ func (c *RedfishConnector) Collect(ctx context.Context, req Request, emit Progre
 	return result, nil
 }
 
-func (c *RedfishConnector) ensureHostPowerForCollection(ctx context.Context, client *http.Client, req Request, baseURL, systemPath string, emit ProgressFn) (hostOn bool, poweredOnByCollector bool) {
-	systemDoc, err := c.getJSON(ctx, client, req, baseURL, systemPath)
-	if err != nil {
-		if emit != nil {
-			emit(Progress{Status: "running", Progress: 18, Message: "Redfish: не удалось проверить PowerState host, сбор продолжается без power-control"})
-		}
-		return false, false
-	}
-
-	powerState := redfishSystemPowerState(systemDoc)
-	if isRedfishHostPoweredOn(powerState) {
-		if emit != nil {
-			emit(Progress{Status: "running", Progress: 18, Message: fmt.Sprintf("Redfish: host включен (%s)", firstNonEmpty(powerState, "On"))})
-		}
-		return true, false
-	}
-
-	if emit != nil {
-		emit(Progress{Status: "running", Progress: 18, Message: fmt.Sprintf("Redfish: host выключен (%s)", firstNonEmpty(powerState, "Off"))})
-	}
-	if !req.PowerOnIfHostOff {
-		if emit != nil {
-			emit(Progress{Status: "running", Progress: 19, Message: "Redfish: включение host не запрошено, сбор продолжается на выключенном host"})
-		}
-		return false, false
-	}
-
-	// Invalidate all inventory CRC groups before powering on so the BMC accepts
-	// fresh inventory from the host after boot. Best-effort: failure is logged but
-	// does not block power-on.
-	c.invalidateRedfishInventory(ctx, client, req, baseURL, systemPath, emit)
-
-	resetTarget := redfishResetActionTarget(systemDoc)
-	resetType := redfishPickResetType(systemDoc, "On", "ForceOn")
-	if resetTarget == "" || resetType == "" {
-		if emit != nil {
-			emit(Progress{Status: "running", Progress: 19, Message: "Redfish: action ComputerSystem.Reset недоступен, сбор продолжается на выключенном host"})
-		}
-		return false, false
-	}
-
-	waitWindows := []time.Duration{5 * time.Second, 10 * time.Second, 30 * time.Second}
-	for i, waitFor := range waitWindows {
-		if emit != nil {
-			emit(Progress{Status: "running", Progress: 19, Message: fmt.Sprintf("Redfish: попытка включения host (%d/%d), ожидание %s", i+1, len(waitWindows), waitFor)})
-		}
-		if err := c.postJSON(ctx, client, req, baseURL, resetTarget, map[string]any{"ResetType": resetType}); err != nil {
-			if emit != nil {
-				emit(Progress{Status: "running", Progress: 19, Message: fmt.Sprintf("Redfish: включение host не удалось (%v)", err)})
-			}
-			continue
-		}
-		if c.waitForHostPowerState(ctx, client, req, baseURL, systemPath, true, waitFor) {
-			if !c.waitForStablePoweredOnHost(ctx, client, req, baseURL, systemPath, emit) {
-				if emit != nil {
-					emit(Progress{Status: "running", Progress: 20, Message: "Redfish: host включился, но не подтвердил стабильное состояние; сбор продолжается на выключенном host"})
-				}
-				return false, false
-			}
-			if emit != nil {
-				emit(Progress{Status: "running", Progress: 20, Message: "Redfish: host успешно включен и стабилен перед сбором"})
-			}
-			return true, true
-		}
-		if emit != nil {
-			emit(Progress{Status: "running", Progress: 20, Message: fmt.Sprintf("Redfish: host не включился за %s", waitFor)})
-		}
-	}
-
-	if emit != nil {
-		emit(Progress{Status: "running", Progress: 20, Message: "Redfish: host не удалось включить, сбор продолжается на выключенном host"})
-	}
-	return false, false
-}
-
-func (c *RedfishConnector) waitForStablePoweredOnHost(ctx context.Context, client *http.Client, req Request, baseURL, systemPath string, emit ProgressFn) bool {
-	stabilizationDelay := redfishPowerOnStabilizationDelay()
-	if stabilizationDelay > 0 {
-		if emit != nil {
-			emit(Progress{
-				Status:   "running",
-				Progress: 20,
-				Message:  fmt.Sprintf("Redfish: host включен, ожидание стабилизации %s перед началом сбора", stabilizationDelay),
-			})
-		}
-		timer := time.NewTimer(stabilizationDelay)
-		select {
-		case <-ctx.Done():
-			timer.Stop()
-			return false
-		case <-timer.C:
-			timer.Stop()
-		}
-	}
-	if emit != nil {
-		emit(Progress{
-			Status:   "running",
-			Progress: 20,
-			Message:  "Redfish: повторная проверка PowerState после стабилизации host",
-		})
-	}
-	if !c.waitForHostPowerState(ctx, client, req, baseURL, systemPath, true, 5*time.Second) {
-		return false
-	}
-
-	// After the initial stabilization wait, the BMC may still be populating its
-	// hardware inventory (PCIeDevices, memory summary). Poll readiness with
-	// increasing back-off (default: +60s, +120s), then warn and proceed.
-	readinessWaits := redfishBMCReadinessWaits()
-	for attempt, extraWait := range readinessWaits {
-		ready, reason := c.isBMCInventoryReady(ctx, client, req, baseURL, systemPath)
-		if ready {
-			if emit != nil {
-				emit(Progress{
-					Status:   "running",
-					Progress: 20,
-					Message:  fmt.Sprintf("Redfish: BMC готов (%s)", reason),
-				})
-			}
-			return true
-		}
-		if emit != nil {
-			emit(Progress{
-				Status:   "running",
-				Progress: 20,
-				Message:  fmt.Sprintf("Redfish: BMC не готов (%s), ожидание %s (попытка %d/%d)", reason, extraWait, attempt+1, len(readinessWaits)),
-			})
-		}
-		timer := time.NewTimer(extraWait)
-		select {
-		case <-ctx.Done():
-			timer.Stop()
-			return false
-		case <-timer.C:
-			timer.Stop()
-		}
-		if emit != nil {
-			emit(Progress{
-				Status:   "running",
-				Progress: 20,
-				Message:  fmt.Sprintf("Redfish: повторная проверка готовности BMC (%d/%d)...", attempt+1, len(readinessWaits)),
-			})
-		}
-	}
-	ready, reason := c.isBMCInventoryReady(ctx, client, req, baseURL, systemPath)
-	if !ready {
-		if emit != nil {
-			emit(Progress{
-				Status:   "running",
-				Progress: 20,
-				Message:  fmt.Sprintf("Redfish: WARNING — BMC не подтвердил готовность (%s), сбор может быть неполным", reason),
-			})
-		}
-	} else if emit != nil {
-		emit(Progress{
-			Status:   "running",
-			Progress: 20,
-			Message:  fmt.Sprintf("Redfish: BMC готов (%s)", reason),
-		})
-	}
-	return true
-}
-
-// isBMCInventoryReady checks whether the BMC has finished populating its
-// hardware inventory after a power-on. Returns (ready, reason).
-// It considers the BMC ready if either the system memory summary reports
-// a non-zero total or the PCIeDevices collection is non-empty.
-func (c *RedfishConnector) isBMCInventoryReady(ctx context.Context, client *http.Client, req Request, baseURL, systemPath string) (bool, string) {
-	systemDoc, err := c.getJSON(ctx, client, req, baseURL, systemPath)
-	if err != nil {
-		return false, "не удалось прочитать System"
-	}
-	if summary, ok := systemDoc["MemorySummary"].(map[string]interface{}); ok {
-		if asFloat(summary["TotalSystemMemoryGiB"]) > 0 {
-			return true, "MemorySummary заполнен"
-		}
-	}
-	pcieDoc, err := c.getJSON(ctx, client, req, baseURL, joinPath(systemPath, "/PCIeDevices"))
-	if err == nil {
-		if asInt(pcieDoc["Members@odata.count"]) > 0 {
-			return true, "PCIeDevices не пуст"
-		}
-		if members, ok := pcieDoc["Members"].([]interface{}); ok && len(members) > 0 {
-			return true, "PCIeDevices не пуст"
-		}
-	}
-	return false, "MemorySummary=0, PCIeDevices пуст"
-}
-
-func (c *RedfishConnector) restoreHostPowerAfterCollection(ctx context.Context, client *http.Client, req Request, baseURL, systemPath string, emit ProgressFn) {
-	systemDoc, err := c.getJSON(ctx, client, req, baseURL, systemPath)
-	if err != nil {
-		if emit != nil {
-			emit(Progress{Status: "running", Progress: 100, Message: "Redfish: не удалось повторно прочитать system перед выключением host"})
-		}
-		return
-	}
-	resetTarget := redfishResetActionTarget(systemDoc)
-	resetType := redfishPickResetType(systemDoc, "GracefulShutdown", "ForceOff", "PushPowerButton")
-	if resetTarget == "" || resetType == "" {
-		if emit != nil {
-			emit(Progress{Status: "running", Progress: 100, Message: "Redfish: выключение host после сбора недоступно"})
-		}
-		return
-	}
-	if emit != nil {
-		emit(Progress{Status: "running", Progress: 100, Message: "Redfish: выключаем host после завершения сбора"})
-	}
-	if err := c.postJSON(ctx, client, req, baseURL, resetTarget, map[string]any{"ResetType": resetType}); err != nil {
-		if emit != nil {
-			emit(Progress{Status: "running", Progress: 100, Message: fmt.Sprintf("Redfish: не удалось выключить host после сбора (%v)", err)})
-		}
-		return
-	}
-	if c.waitForHostPowerState(ctx, client, req, baseURL, systemPath, false, 20*time.Second) {
-		if emit != nil {
-			emit(Progress{Status: "running", Progress: 100, Message: "Redfish: host выключен после завершения сбора"})
-		}
-		return
-	}
-	if emit != nil {
-		emit(Progress{Status: "running", Progress: 100, Message: "Redfish: не удалось подтвердить выключение host после сбора"})
-	}
-}
 
 // collectDebugPayloads fetches vendor-specific diagnostic endpoints on a best-effort basis.
 // Results are stored in rawPayloads["redfish_debug_payloads"] and exported with the bundle.
@@ -724,49 +511,6 @@ func (c *RedfishConnector) collectDebugPayloads(ctx context.Context, client *htt
 	return out
 }
 
-// invalidateRedfishInventory POSTs to the AMI/MSI InventoryCrc endpoint to zero out
-// all known CRC groups before a host power-on. This causes the BMC to accept fresh
-// inventory from the host after boot, preventing stale inventory (ghost GPUs, wrong
-// BIOS version, etc.) from persisting across hardware changes.
-// Best-effort: any error is logged and the call silently returns.
-func (c *RedfishConnector) invalidateRedfishInventory(ctx context.Context, client *http.Client, req Request, baseURL, systemPath string, emit ProgressFn) {
-	crcPath := joinPath(systemPath, "/Oem/Ami/Inventory/Crc")
-	body := map[string]any{
-		"GroupCrcList": []map[string]any{
-			{"CPU": 0},
-			{"DIMM": 0},
-			{"PCIE": 0},
-		},
-	}
-	if err := c.postJSON(ctx, client, req, baseURL, crcPath, body); err != nil {
-		log.Printf("redfish: inventory invalidation skipped (not AMI/MSI or endpoint unavailable): %v", err)
-		return
-	}
-	log.Printf("redfish: inventory CRC groups invalidated at %s before host power-on", crcPath)
-	if emit != nil {
-		emit(Progress{Status: "running", Progress: 19, Message: "Redfish: инвентарь BMC инвалидирован перед включением host (все CRC группы сброшены)"})
-	}
-}
-
-func (c *RedfishConnector) waitForHostPowerState(ctx context.Context, client *http.Client, req Request, baseURL, systemPath string, wantOn bool, timeout time.Duration) bool {
-	deadline := time.Now().Add(timeout)
-	for {
-		systemDoc, err := c.getJSON(ctx, client, req, baseURL, systemPath)
-		if err == nil {
-			if isRedfishHostPoweredOn(redfishSystemPowerState(systemDoc)) == wantOn {
-				return true
-			}
-		}
-		if time.Now().After(deadline) {
-			return false
-		}
-		select {
-		case <-ctx.Done():
-			return false
-		case <-time.After(1 * time.Second):
-		}
-	}
-}
 
 func firstNonEmptyPath(paths []string, fallback string) string {
 	for _, p := range paths {
@@ -799,48 +543,6 @@ func redfishSystemPowerState(systemDoc map[string]interface{}) string {
 	return ""
 }
 
-func redfishResetActionTarget(systemDoc map[string]interface{}) string {
-	if systemDoc == nil {
-		return ""
-	}
-	actions, _ := systemDoc["Actions"].(map[string]interface{})
-	reset, _ := actions["#ComputerSystem.Reset"].(map[string]interface{})
-	target := strings.TrimSpace(asString(reset["target"]))
-	if target != "" {
-		return target
-	}
-	odataID := strings.TrimSpace(asString(systemDoc["@odata.id"]))
-	if odataID == "" {
-		return ""
-	}
-	return joinPath(odataID, "/Actions/ComputerSystem.Reset")
-}
-
-func redfishPickResetType(systemDoc map[string]interface{}, preferred ...string) string {
-	actions, _ := systemDoc["Actions"].(map[string]interface{})
-	reset, _ := actions["#ComputerSystem.Reset"].(map[string]interface{})
-	allowedRaw, _ := reset["ResetType@Redfish.AllowableValues"].([]interface{})
-	if len(allowedRaw) == 0 {
-		if len(preferred) > 0 {
-			return preferred[0]
-		}
-		return ""
-	}
-	allowed := make([]string, 0, len(allowedRaw))
-	for _, item := range allowedRaw {
-		if v := strings.TrimSpace(asString(item)); v != "" {
-			allowed = append(allowed, v)
-		}
-	}
-	for _, want := range preferred {
-		for _, have := range allowed {
-			if strings.EqualFold(want, have) {
-				return have
-			}
-		}
-	}
-	return ""
-}
 
 func (c *RedfishConnector) postJSON(ctx context.Context, client *http.Client, req Request, baseURL, resourcePath string, payload map[string]any) error {
 	body, err := json.Marshal(payload)
@@ -1288,12 +990,17 @@ func (c *RedfishConnector) collectNICs(ctx context.Context, client *http.Client,
 		}
 		for _, doc := range adapterDocs {
 			nic := parseNIC(doc)
+			adapterFunctionDocs := c.getNetworkAdapterFunctionDocs(ctx, client, req, baseURL, doc)
 			for _, pciePath := range networkAdapterPCIeDevicePaths(doc) {
 				pcieDoc, err := c.getJSON(ctx, client, req, baseURL, pciePath)
 				if err != nil {
 					continue
 				}
 				functionDocs := c.getLinkedPCIeFunctions(ctx, client, req, baseURL, pcieDoc)
+				for _, adapterFnDoc := range adapterFunctionDocs {
+					functionDocs = append(functionDocs, c.getLinkedPCIeFunctions(ctx, client, req, baseURL, adapterFnDoc)...)
+				}
+				functionDocs = dedupeJSONDocsByPath(functionDocs)
 				supplementalDocs := c.getLinkedSupplementalDocs(ctx, client, req, baseURL, pcieDoc, "EnvironmentMetrics", "Metrics")
 				for _, fn := range functionDocs {
 					supplementalDocs = append(supplementalDocs, c.getLinkedSupplementalDocs(ctx, client, req, baseURL, fn, "EnvironmentMetrics", "Metrics")...)
@@ -1513,16 +1220,13 @@ func (c *RedfishConnector) collectPCIeDevices(ctx context.Context, client *http.
 }
 
 func (c *RedfishConnector) getChassisScopedPCIeSupplementalDocs(ctx context.Context, client *http.Client, req Request, baseURL string, doc map[string]interface{}) []map[string]interface{} {
-	if !looksLikeNVSwitchPCIeDoc(doc) {
-		return nil
-	}
 	docPath := normalizeRedfishPath(asString(doc["@odata.id"]))
 	chassisPath := chassisPathForPCIeDoc(docPath)
 	if chassisPath == "" {
 		return nil
 	}
 
-	out := make([]map[string]interface{}, 0, 4)
+	out := make([]map[string]interface{}, 0, 6)
 	seen := make(map[string]struct{})
 	add := func(path string) {
 		path = normalizeRedfishPath(path)
@@ -1540,8 +1244,19 @@ func (c *RedfishConnector) getChassisScopedPCIeSupplementalDocs(ctx context.Cont
 		out = append(out, supplementalDoc)
 	}
 
-	add(joinPath(chassisPath, "/EnvironmentMetrics"))
+	if looksLikeNVSwitchPCIeDoc(doc) {
-	add(joinPath(chassisPath, "/ThermalSubsystem/ThermalMetrics"))
+		add(joinPath(chassisPath, "/EnvironmentMetrics"))
+		add(joinPath(chassisPath, "/ThermalSubsystem/ThermalMetrics"))
+	}
+	deviceDocs, err := c.getCollectionMembers(ctx, client, req, baseURL, joinPath(chassisPath, "/Devices"))
+	if err == nil {
+		for _, deviceDoc := range deviceDocs {
+			if !redfishPCIeMatchesChassisDeviceDoc(doc, deviceDoc) {
+				continue
+			}
+			add(asString(deviceDoc["@odata.id"]))
+		}
+	}
 	return out
 }
 
@@ -1606,6 +1321,7 @@ func (c *RedfishConnector) collectRawRedfishTree(ctx context.Context, client *ht
 	crawlStart := time.Now()
 	memoryClient := c.httpClientWithTimeout(req, redfishSnapshotMemoryRequestTimeout())
 	memoryGate := make(chan struct{}, redfishSnapshotMemoryConcurrency())
+	postProbeClient := c.httpClientWithTimeout(req, redfishSnapshotPostProbeRequestTimeout())
 	branchLimiter := newRedfishSnapshotBranchLimiter(redfishSnapshotBranchConcurrency())
 	branchRetryPause := redfishSnapshotBranchRequeueBackoff()
 	timings := newRedfishPathTimingCollector(4)
@@ -1908,7 +1624,7 @@ func (c *RedfishConnector) collectRawRedfishTree(ctx context.Context, client *ht
 				ETASeconds:   int(estimateProgressETA(postProbeStart, i, len(postProbeCollections), 3*time.Second).Seconds()),
 			})
 		}
-		for childPath, doc := range c.probeDirectRedfishCollectionChildren(ctx, client, req, baseURL, path) {
+		for childPath, doc := range c.probeDirectRedfishCollectionChildren(ctx, postProbeClient, req, baseURL, path) {
 			if _, exists := out[childPath]; exists {
 				continue
 			}
@@ -2158,6 +1874,12 @@ func shouldAdaptivePostProbeCollectionPath(path string, collectionDoc map[string
 	if len(memberRefs) == 0 {
 		return true
 	}
+	// If the collection reports an explicit non-zero member count that already
+	// matches the number of discovered member refs, every member is accounted
+	// for and numeric probing cannot find anything new.
+	if odataCount := asInt(collectionDoc["Members@odata.count"]); odataCount > 0 && odataCount == len(memberRefs) {
+		return false
+	}
 	return redfishCollectionHasNumericMemberRefs(memberRefs)
 }
 
@@ -2350,6 +2072,18 @@ func redfishSnapshotRequestTimeout() time.Duration {
 	return 12 * time.Second
 }
 
+func redfishSnapshotPostProbeRequestTimeout() time.Duration {
+	if v := strings.TrimSpace(os.Getenv("LOGPILE_REDFISH_POSTPROBE_TIMEOUT")); v != "" {
+		if d, err := time.ParseDuration(v); err == nil && d > 0 {
+			return d
+		}
+	}
+	// Post-probe probes non-existent numeric paths expecting fast 404s.
+	// A short timeout prevents BMCs that hang on unknown paths from stalling
+	// the entire collection for minutes (e.g. HPE iLO on NetworkAdapters Ports).
+	return 4 * time.Second
+}
+
 func redfishSnapshotWorkers(tuning redfishprofile.AcquisitionTuning) int {
 	if tuning.SnapshotWorkers >= 1 && tuning.SnapshotWorkers <= 16 {
 		return tuning.SnapshotWorkers
@@ -2565,33 +2299,6 @@ func redfishCriticalSlowGap() time.Duration {
 	return 1200 * time.Millisecond
 }
 
-func redfishPowerOnStabilizationDelay() time.Duration {
-	if v := strings.TrimSpace(os.Getenv("LOGPILE_REDFISH_POWERON_STABILIZATION")); v != "" {
-		if d, err := time.ParseDuration(v); err == nil && d >= 0 {
-			return d
-		}
-	}
-	return 60 * time.Second
-}
-
-// redfishBMCReadinessWaits returns the extra wait durations used when polling
-// BMC inventory readiness after power-on. Defaults: [60s, 120s].
-// Override with LOGPILE_REDFISH_BMC_READY_WAITS (comma-separated durations,
-// e.g. "60s,120s").
-func redfishBMCReadinessWaits() []time.Duration {
-	if v := strings.TrimSpace(os.Getenv("LOGPILE_REDFISH_BMC_READY_WAITS")); v != "" {
-		var out []time.Duration
-		for _, part := range strings.Split(v, ",") {
-			if d, err := time.ParseDuration(strings.TrimSpace(part)); err == nil && d >= 0 {
-				out = append(out, d)
-			}
-		}
-		if len(out) > 0 {
-			return out
-		}
-	}
-	return []time.Duration{60 * time.Second, 120 * time.Second}
-}
 
 func redfishSnapshotMemoryRequestTimeout() time.Duration {
 	if v := strings.TrimSpace(os.Getenv("LOGPILE_REDFISH_MEMORY_TIMEOUT")); v != "" {
@@ -2785,9 +2492,10 @@ func shouldCrawlPath(path string) bool {
 	}
 	if strings.Contains(normalized, "/Chassis/") &&
 		strings.Contains(normalized, "/PCIeDevices/") &&
-		strings.Contains(normalized, "/PCIeFunctions/") {
+		strings.HasSuffix(normalized, "/PCIeFunctions") {
-		// Chassis-level PCIeFunctions links are frequently noisy/slow on some BMCs
+		// Avoid crawling entire chassis PCIeFunctions collections. Concrete member
-		// and duplicate data we already collect from PCIe devices/functions elsewhere.
+		// docs can still be reached through direct links such as
+		// NetworkDeviceFunction Links.PCIeFunction.
 		return false
 	}
 	if strings.Contains(normalized, "/Memory/") {
@@ -2852,6 +2560,8 @@ func shouldCrawlPath(path string) bool {
 		"/GetServerAllUSBStatus",
 		"/Oem/Public/KVM",
 		"/SecureBoot/SecureBootDatabases",
+		// HPE iLO WorkloadPerformanceAdvisor — operational/advisory data, not inventory.
+		"/WorkloadPerformanceAdvisor",
 	} {
 		if strings.Contains(normalized, part) {
 			return false
@@ -2960,6 +2670,15 @@ func (c *RedfishConnector) getLinkedPCIeFunctions(ctx context.Context, client *h
 			}
 			return out
 		}
+		if ref, ok := links["PCIeFunction"].(map[string]interface{}); ok {
+			memberPath := asString(ref["@odata.id"])
+			if memberPath != "" {
+				memberDoc, err := c.getJSON(ctx, client, req, baseURL, memberPath)
+				if err == nil {
+					return []map[string]interface{}{memberDoc}
+				}
+			}
+		}
 	}
 
 	// Some implementations expose a collection object in PCIeFunctions.@odata.id.
@@ -2975,6 +2694,22 @@ func (c *RedfishConnector) getLinkedPCIeFunctions(ctx context.Context, client *h
 	return nil
 }
 
+func (c *RedfishConnector) getNetworkAdapterFunctionDocs(ctx context.Context, client *http.Client, req Request, baseURL string, adapterDoc map[string]interface{}) []map[string]interface{} {
+	ndfCol, ok := adapterDoc["NetworkDeviceFunctions"].(map[string]interface{})
+	if !ok {
+		return nil
+	}
+	colPath := asString(ndfCol["@odata.id"])
+	if colPath == "" {
+		return nil
+	}
+	funcDocs, err := c.getCollectionMembers(ctx, client, req, baseURL, colPath)
+	if err != nil {
+		return nil
+	}
+	return funcDocs
+}
+
 func (c *RedfishConnector) getCollectionMembers(ctx context.Context, client *http.Client, req Request, baseURL, collectionPath string) ([]map[string]interface{}, error) {
 	collection, err := c.getJSON(ctx, client, req, baseURL, collectionPath)
 	if err != nil {
@@ -3413,8 +3148,11 @@ func parseBoardInfo(system map[string]interface{}) models.BoardInfo {
 			asString(system["Name"]),
 		)),
 		SerialNumber: normalizeRedfishIdentityField(asString(system["SerialNumber"])),
-		PartNumber:   normalizeRedfishIdentityField(asString(system["PartNumber"])),
+		PartNumber: normalizeRedfishIdentityField(firstNonEmpty(
-		UUID:         normalizeRedfishIdentityField(asString(system["UUID"])),
+			asString(system["PartNumber"]),
+			asString(system["SKU"]),
+		)),
+		UUID: normalizeRedfishIdentityField(asString(system["UUID"])),
 	}
 }
 
@@ -3797,6 +3535,22 @@ func parseStorageVolume(doc map[string]interface{}, controller string) models.St
 	}
 }
 
+func redfishVolumeCapabilitiesDoc(doc map[string]interface{}) bool {
+	if len(doc) == 0 {
+		return false
+	}
+	if strings.Contains(strings.ToLower(strings.TrimSpace(asString(doc["@odata.type"]))), "collectioncapabilities") {
+		return true
+	}
+	path := strings.ToLower(normalizeRedfishPath(asString(doc["@odata.id"])))
+	if strings.HasSuffix(path, "/volumes/capabilities") {
+		return true
+	}
+	id := strings.TrimSpace(asString(doc["Id"]))
+	name := strings.ToLower(strings.TrimSpace(asString(doc["Name"])))
+	return strings.EqualFold(id, "Capabilities") || strings.Contains(name, "capabilities for volumecollection")
+}
+
 func parseNIC(doc map[string]interface{}) models.NetworkAdapter {
 	vendorID := asHexOrInt(doc["VendorId"])
 	deviceID := asHexOrInt(doc["DeviceId"])
@@ -3819,23 +3573,31 @@ func parseNIC(doc map[string]interface{}) models.NetworkAdapter {
 	var linkSpeed string
 	var maxLinkSpeed string
 	if controllers, ok := doc["Controllers"].([]interface{}); ok && len(controllers) > 0 {
-		if ctrl, ok := controllers[0].(map[string]interface{}); ok {
+		totalPortCount := 0
+		for _, ctrlAny := range controllers {
+			ctrl, ok := ctrlAny.(map[string]interface{})
+			if !ok {
+				continue
+			}
 			ctrlLocation := redfishLocationLabel(ctrl["Location"])
 			location = firstNonEmpty(location, ctrlLocation)
 			if isWeakRedfishNICSlotLabel(slot) {
 				slot = firstNonEmpty(ctrlLocation, slot)
 			}
-			firmware = asString(ctrl["FirmwarePackageVersion"])
+			if normalizeRedfishIdentityField(firmware) == "" {
-			if caps, ok := ctrl["ControllerCapabilities"].(map[string]interface{}); ok {
+				firmware = findFirstNormalizedStringByKeys(ctrl, "FirmwarePackageVersion", "FirmwareVersion")
-				portCount = sanitizeNetworkPortCount(asInt(caps["NetworkPortCount"]))
 			}
-			if pcieIf, ok := ctrl["PCIeInterface"].(map[string]interface{}); ok {
+			if caps, ok := ctrl["ControllerCapabilities"].(map[string]interface{}); ok {
+				totalPortCount += sanitizeNetworkPortCount(asInt(caps["NetworkPortCount"]))
+			}
+			if pcieIf, ok := ctrl["PCIeInterface"].(map[string]interface{}); ok && linkWidth == 0 && maxLinkWidth == 0 && linkSpeed == "" && maxLinkSpeed == "" {
 				linkWidth = asInt(pcieIf["LanesInUse"])
 				maxLinkWidth = asInt(pcieIf["MaxLanes"])
 				linkSpeed = firstNonEmpty(asString(pcieIf["PCIeType"]), asString(pcieIf["CurrentLinkSpeedGTs"]), asString(pcieIf["CurrentLinkSpeed"]))
 				maxLinkSpeed = firstNonEmpty(asString(pcieIf["MaxPCIeType"]), asString(pcieIf["MaxLinkSpeedGTs"]), asString(pcieIf["MaxLinkSpeed"]))
 			}
 		}
+		portCount = sanitizeNetworkPortCount(totalPortCount)
 	}
 
 	return models.NetworkAdapter{
@@ -3865,10 +3627,14 @@ func isWeakRedfishNICSlotLabel(slot string) bool {
 	if slot == "" {
 		return true
 	}
+	lower := strings.ToLower(slot)
 	if isNumericString(slot) {
 		return true
 	}
-	if strings.EqualFold(slot, "nic") || strings.HasPrefix(strings.ToLower(slot), "nic") && !strings.Contains(strings.ToLower(slot), "slot") {
+	if strings.EqualFold(slot, "nic") || strings.HasPrefix(lower, "nic") && !strings.Contains(lower, "slot") {
+		return true
+	}
+	if strings.HasPrefix(lower, "devtype") {
 		return true
 	}
 	return false
@@ -3908,6 +3674,16 @@ func enrichNICFromPCIe(nic *models.NetworkAdapter, pcieDoc map[string]interface{
 	if nic == nil {
 		return
 	}
+	pcieSlot := redfishLocationLabel(pcieDoc["Slot"])
+	if pcieSlot == "" {
+		pcieSlot = redfishLocationLabel(pcieDoc["Location"])
+	}
+	if isWeakRedfishNICSlotLabel(nic.Slot) && pcieSlot != "" {
+		nic.Slot = pcieSlot
+	}
+	if strings.TrimSpace(nic.Location) == "" && pcieSlot != "" {
+		nic.Location = pcieSlot
+	}
 	if strings.TrimSpace(nic.BDF) == "" {
 		nic.BDF = firstNonEmpty(asString(pcieDoc["BDF"]), buildBDFfromOemPublic(pcieDoc))
 	}
@@ -3929,6 +3705,15 @@ func enrichNICFromPCIe(nic *models.NetworkAdapter, pcieDoc map[string]interface{
 	if strings.TrimSpace(nic.MaxLinkSpeed) == "" {
 		nic.MaxLinkSpeed = firstNonEmpty(asString(pcieDoc["MaxLinkSpeedGTs"]), asString(pcieDoc["MaxLinkSpeed"]))
 	}
+	if normalizeRedfishIdentityField(nic.SerialNumber) == "" {
+		nic.SerialNumber = findFirstNormalizedStringByKeys(pcieDoc, "SerialNumber")
+	}
+	if normalizeRedfishIdentityField(nic.PartNumber) == "" {
+		nic.PartNumber = findFirstNormalizedStringByKeys(pcieDoc, "PartNumber", "ProductPartNumber")
+	}
+	if normalizeRedfishIdentityField(nic.Firmware) == "" {
+		nic.Firmware = findFirstNormalizedStringByKeys(pcieDoc, "FirmwareVersion", "FirmwarePackageVersion")
+	}
 	for _, fn := range functionDocs {
 		if strings.TrimSpace(nic.BDF) == "" {
 			nic.BDF = sanitizeRedfishBDF(asString(fn["FunctionId"]))
@@ -3951,6 +3736,15 @@ func enrichNICFromPCIe(nic *models.NetworkAdapter, pcieDoc map[string]interface{
 		if strings.TrimSpace(nic.MaxLinkSpeed) == "" {
 			nic.MaxLinkSpeed = firstNonEmpty(asString(fn["MaxLinkSpeedGTs"]), asString(fn["MaxLinkSpeed"]))
 		}
+		if normalizeRedfishIdentityField(nic.SerialNumber) == "" {
+			nic.SerialNumber = findFirstNormalizedStringByKeys(fn, "SerialNumber")
+		}
+		if normalizeRedfishIdentityField(nic.PartNumber) == "" {
+			nic.PartNumber = findFirstNormalizedStringByKeys(fn, "PartNumber", "ProductPartNumber")
+		}
+		if normalizeRedfishIdentityField(nic.Firmware) == "" {
+			nic.Firmware = findFirstNormalizedStringByKeys(fn, "FirmwareVersion", "FirmwarePackageVersion")
+		}
 	}
 	if strings.TrimSpace(nic.Vendor) == "" {
 		nic.Vendor = pciids.VendorName(nic.VendorID)
@@ -4335,6 +4129,39 @@ func redfishFirstBoolAcrossDocs(docs []map[string]interface{}, keys ...string) *
 	return nil
 }
 
+func redfishFirstString(doc map[string]interface{}, keys ...string) string {
+	for _, key := range keys {
+		if v, ok := redfishLookupValue(doc, key); ok {
+			if s := strings.TrimSpace(asString(v)); s != "" {
+				return s
+			}
+		}
+	}
+	return ""
+}
+
+func redfishFirstStringAcrossDocs(docs []map[string]interface{}, keys ...string) string {
+	for _, doc := range docs {
+		if v := redfishFirstString(doc, keys...); v != "" {
+			return v
+		}
+	}
+	return ""
+}
+
+func redfishFirstLocationAcrossDocs(docs []map[string]interface{}, keys ...string) string {
+	for _, doc := range docs {
+		for _, key := range keys {
+			if v, ok := redfishLookupValue(doc, key); ok {
+				if loc := redfishLocationLabel(v); loc != "" {
+					return loc
+				}
+			}
+		}
+	}
+	return ""
+}
+
 func redfishLookupValue(doc map[string]interface{}, key string) (any, bool) {
 	if doc == nil || strings.TrimSpace(key) == "" {
 		return nil, false
@@ -4516,8 +4343,9 @@ func parsePCIeDevice(doc map[string]interface{}, functionDocs []map[string]inter
 }
 
 func parsePCIeDeviceWithSupplementalDocs(doc map[string]interface{}, functionDocs []map[string]interface{}, supplementalDocs []map[string]interface{}) models.PCIeDevice {
+	supplementalSlot := redfishFirstLocationAcrossDocs(supplementalDocs, "Slot", "Location", "PhysicalLocation")
 	dev := models.PCIeDevice{
-		Slot:         firstNonEmpty(redfishLocationLabel(doc["Slot"]), redfishLocationLabel(doc["Location"]), asString(doc["Name"]), asString(doc["Id"])),
+		Slot:         firstNonEmpty(redfishLocationLabel(doc["Slot"]), redfishLocationLabel(doc["Location"]), supplementalSlot, asString(doc["Name"]), asString(doc["Id"])),
 		BDF:          sanitizeRedfishBDF(asString(doc["BDF"])),
 		DeviceClass:  asString(doc["DeviceType"]),
 		Manufacturer: asString(doc["Manufacturer"]),
@@ -4557,6 +4385,9 @@ func parsePCIeDeviceWithSupplementalDocs(doc map[string]interface{}, functionDoc
 			dev.MaxLinkSpeed = firstNonEmpty(asString(fn["MaxLinkSpeedGTs"]), asString(fn["MaxLinkSpeed"]))
 		}
 	}
+	if dev.DeviceClass == "" || isGenericPCIeClassLabel(dev.DeviceClass) {
+		dev.DeviceClass = firstNonEmpty(redfishFirstStringAcrossDocs(supplementalDocs, "DeviceType"), dev.DeviceClass)
+	}
 
 	if dev.DeviceClass == "" {
 		dev.DeviceClass = "PCIe device"
@@ -4567,15 +4398,22 @@ func parsePCIeDeviceWithSupplementalDocs(doc map[string]interface{}, functionDoc
 		}
 	}
 	if isGenericPCIeClassLabel(dev.DeviceClass) {
-		// Redfish DeviceType (e.g. MultiFunction/Simulated) is a topology attribute,
+		dev.DeviceClass = "PCIe device"
-		// not a user-facing device name. Prefer model/part labels when class cannot be resolved.
-		dev.DeviceClass = firstNonEmpty(asString(doc["Model"]), dev.PartNumber, dev.DeviceClass)
 	}
 	if strings.TrimSpace(dev.Manufacturer) == "" {
-		dev.Manufacturer = pciids.VendorName(dev.VendorID)
+		dev.Manufacturer = firstNonEmpty(
+			redfishFirstStringAcrossDocs(supplementalDocs, "Manufacturer"),
+			pciids.VendorName(dev.VendorID),
+		)
 	}
 	if strings.TrimSpace(dev.PartNumber) == "" {
-		dev.PartNumber = pciids.DeviceName(dev.VendorID, dev.DeviceID)
+		dev.PartNumber = firstNonEmpty(
+			redfishFirstStringAcrossDocs(supplementalDocs, "ProductPartNumber", "PartNumber"),
+			pciids.DeviceName(dev.VendorID, dev.DeviceID),
+		)
+	}
+	if normalizeRedfishIdentityField(dev.SerialNumber) == "" {
+		dev.SerialNumber = redfishFirstStringAcrossDocs(supplementalDocs, "SerialNumber")
 	}
 	return dev
 }
@@ -4630,6 +4468,9 @@ func isMissingOrRawPCIModel(model string) bool {
 	if l == "unknown" || l == "n/a" || l == "na" || l == "none" {
 		return true
 	}
+	if isGenericRedfishInventoryName(l) {
+		return true
+	}
 	if strings.HasPrefix(l, "0x") && len(l) <= 6 {
 		return true
 	}
@@ -4648,6 +4489,26 @@ func isMissingOrRawPCIModel(model string) bool {
 	return false
 }
 
+func isGenericRedfishInventoryName(value string) bool {
+	value = strings.ToLower(strings.TrimSpace(value))
+	switch {
+	case value == "":
+		return false
+	case value == "networkadapter", strings.HasPrefix(value, "networkadapter_"), strings.HasPrefix(value, "networkadapter "):
+		return true
+	case value == "pciedevice", strings.HasPrefix(value, "pciedevice_"), strings.HasPrefix(value, "pciedevice "):
+		return true
+	case value == "pciefunction", strings.HasPrefix(value, "pciefunction_"), strings.HasPrefix(value, "pciefunction "):
+		return true
+	case value == "ethernetinterface", strings.HasPrefix(value, "ethernetinterface_"), strings.HasPrefix(value, "ethernetinterface "):
+		return true
+	case value == "networkport", strings.HasPrefix(value, "networkport_"), strings.HasPrefix(value, "networkport "):
+		return true
+	default:
+		return false
+	}
+}
+
 // isUnidentifiablePCIeDevice returns true for PCIe topology entries that carry no
 // useful inventory information: generic class (SingleFunction/MultiFunction), no
 // resolved model or serial, and no PCI vendor/device IDs for future resolution.
@@ -4678,6 +4539,70 @@ func isGenericPCIeClassLabel(v string) bool {
 	}
 }
 
+func redfishPCIeMatchesChassisDeviceDoc(doc, deviceDoc map[string]interface{}) bool {
+	if len(doc) == 0 || len(deviceDoc) == 0 || redfishChassisDeviceDocLooksEmpty(deviceDoc) {
+		return false
+	}
+	docSerial := normalizeRedfishIdentityField(findFirstNormalizedStringByKeys(doc, "SerialNumber"))
+	deviceSerial := normalizeRedfishIdentityField(findFirstNormalizedStringByKeys(deviceDoc, "SerialNumber"))
+	if docSerial != "" && deviceSerial != "" && strings.EqualFold(docSerial, deviceSerial) {
+		return true
+	}
+	docTokens := redfishPCIeMatchTokens(doc)
+	deviceTokens := redfishPCIeMatchTokens(deviceDoc)
+	if len(docTokens) == 0 || len(deviceTokens) == 0 {
+		return false
+	}
+	for _, token := range docTokens {
+		for _, candidate := range deviceTokens {
+			if strings.EqualFold(token, candidate) {
+				return true
+			}
+		}
+	}
+	return false
+}
+
+func redfishPCIeMatchTokens(doc map[string]interface{}) []string {
+	if len(doc) == 0 {
+		return nil
+	}
+	rawValues := []string{
+		asString(doc["Name"]),
+		asString(doc["Model"]),
+		asString(doc["PartNumber"]),
+		asString(doc["ProductPartNumber"]),
+	}
+	out := make([]string, 0, len(rawValues))
+	seen := make(map[string]struct{}, len(rawValues))
+	for _, raw := range rawValues {
+		value := normalizeRedfishIdentityField(raw)
+		if value == "" {
+			continue
+		}
+		key := strings.ToLower(value)
+		if _, ok := seen[key]; ok {
+			continue
+		}
+		seen[key] = struct{}{}
+		out = append(out, value)
+	}
+	return out
+}
+
+func redfishChassisDeviceDocLooksEmpty(doc map[string]interface{}) bool {
+	name := strings.ToLower(strings.TrimSpace(asString(doc["Name"])))
+	if strings.HasPrefix(name, "empty slot") {
+		return true
+	}
+	if strings.ToLower(strings.TrimSpace(asString(doc["DeviceType"]))) != "unknown" {
+		return false
+	}
+	return normalizeRedfishIdentityField(asString(doc["PartNumber"])) == "" &&
+		normalizeRedfishIdentityField(asString(doc["ProductPartNumber"])) == "" &&
+		normalizeRedfishIdentityField(findFirstNormalizedStringByKeys(doc, "SerialNumber")) == ""
+}
+
 func buildBDFfromOemPublic(doc map[string]interface{}) string {
 	if len(doc) == 0 {
 		return ""
@@ -5047,6 +4972,16 @@ func isVirtualStorageDrive(doc map[string]interface{}) bool {
 	return false
 }
 
+// isAbsentDriveDoc returns true when the drive document represents an empty bay
+// with no installed media (Status.State == "Absent"). These should be excluded
+// from the storage inventory.
+func isAbsentDriveDoc(doc map[string]interface{}) bool {
+	if status, ok := doc["Status"].(map[string]interface{}); ok {
+		return strings.EqualFold(asString(status["State"]), "Absent")
+	}
+	return strings.EqualFold(asString(doc["Status"]), "Absent")
+}
+
 func looksLikeDrive(doc map[string]interface{}) bool {
 	if asString(doc["MediaType"]) != "" {
 		return true
@@ -5095,6 +5030,9 @@ func classifyStorageType(doc map[string]interface{}) string {
 }
 
 func looksLikeVolume(doc map[string]interface{}) bool {
+	if redfishVolumeCapabilitiesDoc(doc) {
+		return false
+	}
 	if asString(doc["RAIDType"]) != "" || asString(doc["VolumeType"]) != "" {
 		return true
 	}
@@ -5410,6 +5348,9 @@ func normalizeNetworkAdapterModel(nic models.NetworkAdapter) string {
 	if model == "" {
 		return ""
 	}
+	if isMissingOrRawPCIModel(model) {
+		return ""
+	}
 	slot := strings.TrimSpace(nic.Slot)
 	if slot != "" && strings.EqualFold(slot, model) {
 		return ""

internal/collector/redfish_replay.go

@@ -96,6 +96,7 @@ func ReplayRedfishFromRawPayloads(rawPayloads map[string]any, emit ProgressFn) (
 	networkProtocolDoc, _ := r.getJSON(joinPath(primaryManager, "/NetworkProtocol"))
 	firmware := parseFirmware(systemDoc, biosDoc, managerDoc, networkProtocolDoc)
 	firmware = dedupeFirmwareInfo(append(firmware, r.collectFirmwareInventory()...))
+	firmware = filterStorageDriveFirmware(firmware, storageDevices)
 	bmcManagementSummary := r.collectBMCManagementSummary(managerPaths)
 	boardInfo.BMCMACAddress = strings.TrimSpace(firstNonEmpty(
 		asString(bmcManagementSummary["mac_address"]),
@@ -498,6 +499,10 @@ func (r redfishSnapshotReader) collectFirmwareInventory() []models.FirmwareInfo
 		if strings.TrimSpace(version) == "" {
 			continue
 		}
+		// Skip placeholder version strings that carry no useful information.
+		if strings.EqualFold(strings.TrimSpace(version), "N/A") {
+			continue
+		}
 		name := firmwareInventoryDeviceName(doc)
 		name = strings.TrimSpace(name)
 		if name == "" {
@@ -550,6 +555,32 @@ func dedupeFirmwareInfo(items []models.FirmwareInfo) []models.FirmwareInfo {
 	return out
 }
 
+// filterStorageDriveFirmware removes from fw any entries whose DeviceName+Version
+// already appear as a storage drive's Model+Firmware. Drive firmware is already
+// represented in the Storage section and should not be duplicated in the general
+// firmware list.
+func filterStorageDriveFirmware(fw []models.FirmwareInfo, storage []models.Storage) []models.FirmwareInfo {
+	if len(storage) == 0 {
+		return fw
+	}
+	driveFW := make(map[string]struct{}, len(storage))
+	for _, d := range storage {
+		model := strings.ToLower(strings.TrimSpace(d.Model))
+		rev := strings.ToLower(strings.TrimSpace(d.Firmware))
+		if model != "" && rev != "" {
+			driveFW[model+"|"+rev] = struct{}{}
+		}
+	}
+	out := fw[:0:0]
+	for _, f := range fw {
+		key := strings.ToLower(strings.TrimSpace(f.DeviceName)) + "|" + strings.ToLower(strings.TrimSpace(f.Version))
+		if _, skip := driveFW[key]; !skip {
+			out = append(out, f)
+		}
+	}
+	return out
+}
+
 func (r redfishSnapshotReader) collectThresholdSensors(chassisPaths []string) []models.SensorReading {
 	out := make([]models.SensorReading, 0)
 	seen := make(map[string]struct{})
@@ -1213,6 +1244,15 @@ func (r redfishSnapshotReader) getLinkedPCIeFunctions(doc map[string]interface{}
 			}
 			return out
 		}
+		if ref, ok := links["PCIeFunction"].(map[string]interface{}); ok {
+			memberPath := asString(ref["@odata.id"])
+			if memberPath != "" {
+				memberDoc, err := r.getJSON(memberPath)
+				if err == nil {
+					return []map[string]interface{}{memberDoc}
+				}
+			}
+		}
 	}
 	if pcieFunctions, ok := doc["PCIeFunctions"].(map[string]interface{}); ok {
 		if collectionPath := asString(pcieFunctions["@odata.id"]); collectionPath != "" {
@@ -1225,6 +1265,33 @@ func (r redfishSnapshotReader) getLinkedPCIeFunctions(doc map[string]interface{}
 	return nil
 }
 
+func dedupeJSONDocsByPath(docs []map[string]interface{}) []map[string]interface{} {
+	if len(docs) == 0 {
+		return nil
+	}
+	seen := make(map[string]struct{}, len(docs))
+	out := make([]map[string]interface{}, 0, len(docs))
+	for _, doc := range docs {
+		if len(doc) == 0 {
+			continue
+		}
+		key := normalizeRedfishPath(asString(doc["@odata.id"]))
+		if key == "" {
+			payload, err := json.Marshal(doc)
+			if err != nil {
+				continue
+			}
+			key = string(payload)
+		}
+		if _, ok := seen[key]; ok {
+			continue
+		}
+		seen[key] = struct{}{}
+		out = append(out, doc)
+	}
+	return out
+}
+
 func (r redfishSnapshotReader) getLinkedSupplementalDocs(doc map[string]interface{}, keys ...string) []map[string]interface{} {
 	if len(doc) == 0 || len(keys) == 0 {
 		return nil
@@ -1261,6 +1328,12 @@ func (r redfishSnapshotReader) collectProcessors(systemPath string) []models.CPU
 			!strings.EqualFold(pt, "CPU") && !strings.EqualFold(pt, "General") {
 			continue
 		}
+		// Skip absent processor sockets — empty slots with no CPU installed.
+		if status, ok := doc["Status"].(map[string]interface{}); ok {
+			if strings.EqualFold(asString(status["State"]), "Absent") {
+				continue
+			}
+		}
 		cpu := parseCPUs([]map[string]interface{}{doc})[0]
 		if cpu.Socket == 0 && socketIdx > 0 && strings.TrimSpace(asString(doc["Socket"])) == "" {
 			cpu.Socket = socketIdx
@@ -1287,6 +1360,10 @@ func (r redfishSnapshotReader) collectMemory(systemPath string) []models.MemoryD
 	out := make([]models.MemoryDIMM, 0, len(memberDocs))
 	for _, doc := range memberDocs {
 		dimm := parseMemory([]map[string]interface{}{doc})[0]
+		// Skip empty DIMM slots — no installed memory.
+		if !dimm.Present {
+			continue
+		}
 		supplementalDocs := r.getLinkedSupplementalDocs(doc, "MemoryMetrics", "EnvironmentMetrics", "Metrics")
 		if len(supplementalDocs) > 0 {
 			dimm.Details = mergeGenericDetails(dimm.Details, redfishMemoryDetailsAcrossDocs(doc, supplementalDocs...))

internal/collector/redfish_replay_inventory.go

@@ -31,7 +31,7 @@ func (r redfishSnapshotReader) enrichNICsFromNetworkInterfaces(nics *[]models.Ne
 				// the real NIC that came from Chassis/NetworkAdapters (e.g. "RISER 5
 				// slot 1 (7)"). Try to find the real NIC via the Links.NetworkAdapter
 				// cross-reference before creating a ghost entry.
-				if linkedIdx := r.findNICIndexByLinkedNetworkAdapter(iface, bySlot); linkedIdx >= 0 {
+				if linkedIdx := r.findNICIndexByLinkedNetworkAdapter(iface, *nics, bySlot); linkedIdx >= 0 {
 					idx = linkedIdx
 					ok = true
 				}
@@ -75,28 +75,53 @@ func (r redfishSnapshotReader) collectNICs(chassisPaths []string) []models.Netwo
 			continue
 		}
 		for _, doc := range adapterDocs {
-			nic := parseNIC(doc)
+			nics = append(nics, r.buildNICFromAdapterDoc(doc))
-			for _, pciePath := range networkAdapterPCIeDevicePaths(doc) {
-				pcieDoc, err := r.getJSON(pciePath)
-				if err != nil {
-					continue
-				}
-				functionDocs := r.getLinkedPCIeFunctions(pcieDoc)
-				supplementalDocs := r.getLinkedSupplementalDocs(pcieDoc, "EnvironmentMetrics", "Metrics")
-				for _, fn := range functionDocs {
-					supplementalDocs = append(supplementalDocs, r.getLinkedSupplementalDocs(fn, "EnvironmentMetrics", "Metrics")...)
-				}
-				enrichNICFromPCIe(&nic, pcieDoc, functionDocs, supplementalDocs)
-			}
-			if len(nic.MACAddresses) == 0 {
-				r.enrichNICMACsFromNetworkDeviceFunctions(&nic, doc)
-			}
-			nics = append(nics, nic)
 		}
 	}
 	return dedupeNetworkAdapters(nics)
 }
 
+func (r redfishSnapshotReader) buildNICFromAdapterDoc(adapterDoc map[string]interface{}) models.NetworkAdapter {
+	nic := parseNIC(adapterDoc)
+	adapterFunctionDocs := r.getNetworkAdapterFunctionDocs(adapterDoc)
+	for _, pciePath := range networkAdapterPCIeDevicePaths(adapterDoc) {
+		pcieDoc, err := r.getJSON(pciePath)
+		if err != nil {
+			continue
+		}
+		functionDocs := r.getLinkedPCIeFunctions(pcieDoc)
+		for _, adapterFnDoc := range adapterFunctionDocs {
+			functionDocs = append(functionDocs, r.getLinkedPCIeFunctions(adapterFnDoc)...)
+		}
+		functionDocs = dedupeJSONDocsByPath(functionDocs)
+		supplementalDocs := r.getLinkedSupplementalDocs(pcieDoc, "EnvironmentMetrics", "Metrics")
+		for _, fn := range functionDocs {
+			supplementalDocs = append(supplementalDocs, r.getLinkedSupplementalDocs(fn, "EnvironmentMetrics", "Metrics")...)
+		}
+		enrichNICFromPCIe(&nic, pcieDoc, functionDocs, supplementalDocs)
+	}
+	if len(nic.MACAddresses) == 0 {
+		r.enrichNICMACsFromNetworkDeviceFunctions(&nic, adapterDoc)
+	}
+	return nic
+}
+
+func (r redfishSnapshotReader) getNetworkAdapterFunctionDocs(adapterDoc map[string]interface{}) []map[string]interface{} {
+	ndfCol, ok := adapterDoc["NetworkDeviceFunctions"].(map[string]interface{})
+	if !ok {
+		return nil
+	}
+	colPath := asString(ndfCol["@odata.id"])
+	if colPath == "" {
+		return nil
+	}
+	funcDocs, err := r.getCollectionMembers(colPath)
+	if err != nil {
+		return nil
+	}
+	return funcDocs
+}
+
 func (r redfishSnapshotReader) collectPCIeDevices(systemPaths, chassisPaths []string) []models.PCIeDevice {
 	collections := make([]string, 0, len(systemPaths)+len(chassisPaths))
 	for _, systemPath := range systemPaths {
@@ -116,13 +141,16 @@ func (r redfishSnapshotReader) collectPCIeDevices(systemPaths, chassisPaths []st
 			if looksLikeGPU(doc, functionDocs) {
 				continue
 			}
+			if replayPCIeDeviceBackedByCanonicalNIC(doc, functionDocs) {
+				continue
+			}
 			supplementalDocs := r.getLinkedSupplementalDocs(doc, "EnvironmentMetrics", "Metrics")
 			supplementalDocs = append(supplementalDocs, r.getChassisScopedPCIeSupplementalDocs(doc)...)
 			for _, fn := range functionDocs {
 				supplementalDocs = append(supplementalDocs, r.getLinkedSupplementalDocs(fn, "EnvironmentMetrics", "Metrics")...)
 			}
 			dev := parsePCIeDeviceWithSupplementalDocs(doc, functionDocs, supplementalDocs)
-			if isUnidentifiablePCIeDevice(dev) {
+			if shouldSkipReplayPCIeDevice(doc, dev) {
 				continue
 			}
 			out = append(out, dev)
@@ -136,31 +164,162 @@ func (r redfishSnapshotReader) collectPCIeDevices(systemPaths, chassisPaths []st
 		for idx, fn := range functionDocs {
 			supplementalDocs := r.getLinkedSupplementalDocs(fn, "EnvironmentMetrics", "Metrics")
 			dev := parsePCIeFunctionWithSupplementalDocs(fn, supplementalDocs, idx+1)
+			if shouldSkipReplayPCIeDevice(fn, dev) {
+				continue
+			}
 			out = append(out, dev)
 		}
 	}
 	return dedupePCIeDevices(out)
 }
 
-func (r redfishSnapshotReader) getChassisScopedPCIeSupplementalDocs(doc map[string]interface{}) []map[string]interface{} {
+func shouldSkipReplayPCIeDevice(doc map[string]interface{}, dev models.PCIeDevice) bool {
-	if !looksLikeNVSwitchPCIeDoc(doc) {
+	if isUnidentifiablePCIeDevice(dev) {
-		return nil
+		return true
 	}
+	if replayNetworkFunctionBackedByCanonicalNIC(doc, dev) {
+		return true
+	}
+	if isReplayStorageServiceEndpoint(doc, dev) {
+		return true
+	}
+	if isReplayNoisePCIeClass(dev.DeviceClass) {
+		return true
+	}
+	if isReplayDisplayDeviceDuplicate(doc, dev) {
+		return true
+	}
+	return false
+}
+
+func replayPCIeDeviceBackedByCanonicalNIC(doc map[string]interface{}, functionDocs []map[string]interface{}) bool {
+	if !looksLikeReplayNetworkPCIeDevice(doc, functionDocs) {
+		return false
+	}
+	for _, fn := range functionDocs {
+		if hasRedfishLinkedMember(fn, "NetworkDeviceFunctions") {
+			return true
+		}
+	}
+	return false
+}
+
+func replayNetworkFunctionBackedByCanonicalNIC(doc map[string]interface{}, dev models.PCIeDevice) bool {
+	if !looksLikeReplayNetworkClass(dev.DeviceClass) {
+		return false
+	}
+	return hasRedfishLinkedMember(doc, "NetworkDeviceFunctions")
+}
+
+func looksLikeReplayNetworkPCIeDevice(doc map[string]interface{}, functionDocs []map[string]interface{}) bool {
+	for _, fn := range functionDocs {
+		if looksLikeReplayNetworkClass(asString(fn["DeviceClass"])) {
+			return true
+		}
+	}
+	joined := strings.ToLower(strings.TrimSpace(strings.Join([]string{
+		asString(doc["DeviceType"]),
+		asString(doc["Description"]),
+		asString(doc["Name"]),
+		asString(doc["Model"]),
+	}, " ")))
+	return strings.Contains(joined, "network")
+}
+
+func looksLikeReplayNetworkClass(class string) bool {
+	class = strings.ToLower(strings.TrimSpace(class))
+	return strings.Contains(class, "network") || strings.Contains(class, "ethernet")
+}
+
+func isReplayStorageServiceEndpoint(doc map[string]interface{}, dev models.PCIeDevice) bool {
+	class := strings.ToLower(strings.TrimSpace(dev.DeviceClass))
+	if class != "massstoragecontroller" && class != "mass storage controller" {
+		return false
+	}
+	name := strings.ToLower(strings.TrimSpace(firstNonEmpty(
+		dev.PartNumber,
+		asString(doc["PartNumber"]),
+		asString(doc["Description"]),
+	)))
+	if strings.Contains(name, "pcie switch management endpoint") {
+		return true
+	}
+	if strings.Contains(name, "volume management device nvme raid controller") {
+		return true
+	}
+	return false
+}
+
+func hasRedfishLinkedMember(doc map[string]interface{}, key string) bool {
+	links, ok := doc["Links"].(map[string]interface{})
+	if !ok {
+		return false
+	}
+	if asInt(links[key+"@odata.count"]) > 0 {
+		return true
+	}
+	linked, ok := links[key]
+	if !ok {
+		return false
+	}
+	switch v := linked.(type) {
+	case []interface{}:
+		return len(v) > 0
+	case map[string]interface{}:
+		if asString(v["@odata.id"]) != "" {
+			return true
+		}
+		return len(v) > 0
+	default:
+		return false
+	}
+}
+
+func isReplayNoisePCIeClass(class string) bool {
+	switch strings.ToLower(strings.TrimSpace(class)) {
+	case "bridge", "processor", "signalprocessingcontroller", "signal processing controller", "serialbuscontroller", "serial bus controller":
+		return true
+	default:
+		return false
+	}
+}
+
+func isReplayDisplayDeviceDuplicate(doc map[string]interface{}, dev models.PCIeDevice) bool {
+	class := strings.ToLower(strings.TrimSpace(dev.DeviceClass))
+	if class != "displaycontroller" && class != "display controller" {
+		return false
+	}
+	return strings.EqualFold(strings.TrimSpace(asString(doc["Description"])), "Display Device")
+}
+
+func (r redfishSnapshotReader) getChassisScopedPCIeSupplementalDocs(doc map[string]interface{}) []map[string]interface{} {
 	docPath := normalizeRedfishPath(asString(doc["@odata.id"]))
 	chassisPath := chassisPathForPCIeDoc(docPath)
 	if chassisPath == "" {
 		return nil
 	}
-	out := make([]map[string]interface{}, 0, 4)
+
-	for _, path := range []string{
+	out := make([]map[string]interface{}, 0, 6)
-		joinPath(chassisPath, "/EnvironmentMetrics"),
+	if looksLikeNVSwitchPCIeDoc(doc) {
-		joinPath(chassisPath, "/ThermalSubsystem/ThermalMetrics"),
+		for _, path := range []string{
-	} {
+			joinPath(chassisPath, "/EnvironmentMetrics"),
-		supplementalDoc, err := r.getJSON(path)
+			joinPath(chassisPath, "/ThermalSubsystem/ThermalMetrics"),
-		if err != nil || len(supplementalDoc) == 0 {
+		} {
-			continue
+			supplementalDoc, err := r.getJSON(path)
+			if err != nil || len(supplementalDoc) == 0 {
+				continue
+			}
+			out = append(out, supplementalDoc)
+		}
+	}
+	deviceDocs, err := r.getCollectionMembers(joinPath(chassisPath, "/Devices"))
+	if err == nil {
+		for _, deviceDoc := range deviceDocs {
+			if !redfishPCIeMatchesChassisDeviceDoc(doc, deviceDoc) {
+				continue
+			}
+			out = append(out, deviceDoc)
 		}
-		out = append(out, supplementalDoc)
 	}
 	return out
 }
@@ -332,8 +491,9 @@ func redfishManagerInterfaceScore(summary map[string]any) int {
 
 // findNICIndexByLinkedNetworkAdapter resolves a NetworkInterface document to an
 // existing NIC in bySlot by following Links.NetworkAdapter → the Chassis
-// NetworkAdapter doc → its slot label. Returns -1 if no match is found.
+// NetworkAdapter doc and reconstructing the canonical NIC identity. Returns -1
-func (r redfishSnapshotReader) findNICIndexByLinkedNetworkAdapter(iface map[string]interface{}, bySlot map[string]int) int {
+// if no match is found.
+func (r redfishSnapshotReader) findNICIndexByLinkedNetworkAdapter(iface map[string]interface{}, existing []models.NetworkAdapter, bySlot map[string]int) int {
 	links, ok := iface["Links"].(map[string]interface{})
 	if !ok {
 		return -1
@@ -350,15 +510,58 @@ func (r redfishSnapshotReader) findNICIndexByLinkedNetworkAdapter(iface map[stri
 	if err != nil || len(adapterDoc) == 0 {
 		return -1
 	}
-	adapterNIC := parseNIC(adapterDoc)
+	adapterNIC := r.buildNICFromAdapterDoc(adapterDoc)
+	if serial := normalizeRedfishIdentityField(adapterNIC.SerialNumber); serial != "" {
+		for idx, nic := range existing {
+			if strings.EqualFold(normalizeRedfishIdentityField(nic.SerialNumber), serial) {
+				return idx
+			}
+		}
+	}
+	if bdf := strings.TrimSpace(adapterNIC.BDF); bdf != "" {
+		for idx, nic := range existing {
+			if strings.EqualFold(strings.TrimSpace(nic.BDF), bdf) {
+				return idx
+			}
+		}
+	}
 	if slot := strings.ToLower(strings.TrimSpace(adapterNIC.Slot)); slot != "" {
 		if idx, ok := bySlot[slot]; ok {
 			return idx
 		}
 	}
+	for idx, nic := range existing {
+		if networkAdaptersShareMACs(nic, adapterNIC) {
+			return idx
+		}
+	}
 	return -1
 }
 
+func networkAdaptersShareMACs(a, b models.NetworkAdapter) bool {
+	if len(a.MACAddresses) == 0 || len(b.MACAddresses) == 0 {
+		return false
+	}
+	seen := make(map[string]struct{}, len(a.MACAddresses))
+	for _, mac := range a.MACAddresses {
+		normalized := strings.ToUpper(strings.TrimSpace(mac))
+		if normalized == "" {
+			continue
+		}
+		seen[normalized] = struct{}{}
+	}
+	for _, mac := range b.MACAddresses {
+		normalized := strings.ToUpper(strings.TrimSpace(mac))
+		if normalized == "" {
+			continue
+		}
+		if _, ok := seen[normalized]; ok {
+			return true
+		}
+	}
+	return false
+}
+
 // enrichNICMACsFromNetworkDeviceFunctions reads the NetworkDeviceFunctions
 // collection linked from a NetworkAdapter document and populates the NIC's
 // MACAddresses from each function's Ethernet.PermanentMACAddress / MACAddress.

internal/collector/redfish_replay_storage.go

@@ -14,13 +14,16 @@ func (r redfishSnapshotReader) collectStorage(systemPath string, plan redfishpro
 				driveDocs, err := r.getCollectionMembers(driveCollectionPath)
 				if err == nil {
 					for _, driveDoc := range driveDocs {
-						if !isVirtualStorageDrive(driveDoc) {
+						if !isAbsentDriveDoc(driveDoc) && !isVirtualStorageDrive(driveDoc) {
 							supplementalDocs := r.getLinkedSupplementalDocs(driveDoc, "DriveMetrics", "EnvironmentMetrics", "Metrics")
 							out = append(out, parseDriveWithSupplementalDocs(driveDoc, supplementalDocs...))
 						}
 					}
 					if len(driveDocs) == 0 {
 						for _, driveDoc := range r.probeDirectDiskBayChildren(driveCollectionPath) {
+							if isAbsentDriveDoc(driveDoc) {
+								continue
+							}
 							supplementalDocs := r.getLinkedSupplementalDocs(driveDoc, "DriveMetrics", "EnvironmentMetrics", "Metrics")
 							out = append(out, parseDriveWithSupplementalDocs(driveDoc, supplementalDocs...))
 						}
@@ -43,7 +46,7 @@ func (r redfishSnapshotReader) collectStorage(systemPath string, plan redfishpro
 				if err != nil {
 					continue
 				}
-				if !isVirtualStorageDrive(driveDoc) {
+				if !isAbsentDriveDoc(driveDoc) && !isVirtualStorageDrive(driveDoc) {
 					supplementalDocs := r.getLinkedSupplementalDocs(driveDoc, "DriveMetrics", "EnvironmentMetrics", "Metrics")
 					out = append(out, parseDriveWithSupplementalDocs(driveDoc, supplementalDocs...))
 				}
@@ -51,7 +54,7 @@ func (r redfishSnapshotReader) collectStorage(systemPath string, plan redfishpro
 			continue
 		}
 		if looksLikeDrive(member) {
-			if isVirtualStorageDrive(member) {
+			if isAbsentDriveDoc(member) || isVirtualStorageDrive(member) {
 				continue
 			}
 			supplementalDocs := r.getLinkedSupplementalDocs(member, "DriveMetrics", "EnvironmentMetrics", "Metrics")
@@ -63,14 +66,14 @@ func (r redfishSnapshotReader) collectStorage(systemPath string, plan redfishpro
 				driveDocs, err := r.getCollectionMembers(joinPath(enclosurePath, "/Drives"))
 				if err == nil {
 					for _, driveDoc := range driveDocs {
-						if looksLikeDrive(driveDoc) && !isVirtualStorageDrive(driveDoc) {
+						if looksLikeDrive(driveDoc) && !isAbsentDriveDoc(driveDoc) && !isVirtualStorageDrive(driveDoc) {
 							supplementalDocs := r.getLinkedSupplementalDocs(driveDoc, "DriveMetrics", "EnvironmentMetrics", "Metrics")
 							out = append(out, parseDriveWithSupplementalDocs(driveDoc, supplementalDocs...))
 						}
 					}
 					if len(driveDocs) == 0 {
 						for _, driveDoc := range r.probeDirectDiskBayChildren(joinPath(enclosurePath, "/Drives")) {
-							if isVirtualStorageDrive(driveDoc) {
+							if isAbsentDriveDoc(driveDoc) || isVirtualStorageDrive(driveDoc) {
 								continue
 							}
 							out = append(out, parseDrive(driveDoc))
@@ -83,7 +86,7 @@ func (r redfishSnapshotReader) collectStorage(systemPath string, plan redfishpro
 
 	if len(plan.KnownStorageDriveCollections) > 0 {
 		for _, driveDoc := range r.collectKnownStorageMembers(systemPath, plan.KnownStorageDriveCollections) {
-			if looksLikeDrive(driveDoc) && !isVirtualStorageDrive(driveDoc) {
+			if looksLikeDrive(driveDoc) && !isAbsentDriveDoc(driveDoc) && !isVirtualStorageDrive(driveDoc) {
 				supplementalDocs := r.getLinkedSupplementalDocs(driveDoc, "DriveMetrics", "EnvironmentMetrics", "Metrics")
 				out = append(out, parseDriveWithSupplementalDocs(driveDoc, supplementalDocs...))
 			}
@@ -98,7 +101,7 @@ func (r redfishSnapshotReader) collectStorage(systemPath string, plan redfishpro
 		}
 		for _, devAny := range devices {
 			devDoc, ok := devAny.(map[string]interface{})
-			if !ok || !looksLikeDrive(devDoc) || isVirtualStorageDrive(devDoc) {
+			if !ok || !looksLikeDrive(devDoc) || isAbsentDriveDoc(devDoc) || isVirtualStorageDrive(devDoc) {
 				continue
 			}
 			out = append(out, parseDrive(devDoc))
@@ -112,7 +115,7 @@ func (r redfishSnapshotReader) collectStorage(systemPath string, plan redfishpro
 			continue
 		}
 		for _, driveDoc := range driveDocs {
-			if !looksLikeDrive(driveDoc) || isVirtualStorageDrive(driveDoc) {
+			if !looksLikeDrive(driveDoc) || isAbsentDriveDoc(driveDoc) || isVirtualStorageDrive(driveDoc) {
 				continue
 			}
 			out = append(out, parseDrive(driveDoc))
@@ -124,7 +127,7 @@ func (r redfishSnapshotReader) collectStorage(systemPath string, plan redfishpro
 				continue
 			}
 			for _, driveDoc := range r.probeSupermicroNVMeDiskBays(chassisPath) {
-				if !looksLikeDrive(driveDoc) || isVirtualStorageDrive(driveDoc) {
+				if !looksLikeDrive(driveDoc) || isAbsentDriveDoc(driveDoc) || isVirtualStorageDrive(driveDoc) {
 					continue
 				}
 				out = append(out, parseDrive(driveDoc))

internal/collector/redfish_test.go

@@ -265,9 +265,6 @@ func TestRedfishConnectorProbe(t *testing.T) {
 	if got.HostPowerState != "Off" {
 		t.Fatalf("expected power state Off, got %q", got.HostPowerState)
 	}
-	if !got.PowerControlAvailable {
-		t.Fatalf("expected power control available")
-	}
 }
 
 func TestRedfishConnectorProbe_FallsBackToPowerSummary(t *testing.T) {
@@ -330,225 +327,6 @@ func TestRedfishConnectorProbe_FallsBackToPowerSummary(t *testing.T) {
 	if got.HostPowerState != "On" {
 		t.Fatalf("expected power state On, got %q", got.HostPowerState)
 	}
-	if !got.PowerControlAvailable {
-		t.Fatalf("expected power control available")
-	}
-}
-
-func TestEnsureHostPowerForCollection_WaitsForStablePowerOn(t *testing.T) {
-	t.Setenv("LOGPILE_REDFISH_POWERON_STABILIZATION", "1ms")
-	t.Setenv("LOGPILE_REDFISH_BMC_READY_WAITS", "1ms,1ms")
-
-	powerState := "Off"
-	resetCalls := 0
-
-	mux := http.NewServeMux()
-	mux.HandleFunc("/redfish/v1/Systems/1", func(w http.ResponseWriter, r *http.Request) {
-		w.Header().Set("Content-Type", "application/json")
-		_ = json.NewEncoder(w).Encode(map[string]interface{}{
-			"@odata.id":  "/redfish/v1/Systems/1",
-			"PowerState": powerState,
-			"MemorySummary": map[string]interface{}{
-				"TotalSystemMemoryGiB": 128,
-			},
-			"Actions": map[string]interface{}{
-				"#ComputerSystem.Reset": map[string]interface{}{
-					"target":                            "/redfish/v1/Systems/1/Actions/ComputerSystem.Reset",
-					"ResetType@Redfish.AllowableValues": []interface{}{"On"},
-				},
-			},
-		})
-	})
-	mux.HandleFunc("/redfish/v1/Systems/1/Actions/ComputerSystem.Reset", func(w http.ResponseWriter, r *http.Request) {
-		resetCalls++
-		powerState = "On"
-		w.WriteHeader(http.StatusOK)
-	})
-
-	ts := httptest.NewTLSServer(mux)
-	defer ts.Close()
-
-	u, err := url.Parse(ts.URL)
-	if err != nil {
-		t.Fatalf("parse server url: %v", err)
-	}
-	port := 443
-	if u.Port() != "" {
-		fmt.Sscanf(u.Port(), "%d", &port)
-	}
-
-	c := NewRedfishConnector()
-	hostOn, changed := c.ensureHostPowerForCollection(context.Background(), c.httpClientWithTimeout(Request{TLSMode: "insecure"}, 5*time.Second), Request{
-		Host:             u.Hostname(),
-		Protocol:         "redfish",
-		Port:             port,
-		Username:         "admin",
-		AuthType:         "password",
-		Password:         "secret",
-		TLSMode:          "insecure",
-		PowerOnIfHostOff: true,
-	}, ts.URL, "/redfish/v1/Systems/1", nil)
-	if !hostOn || !changed {
-		t.Fatalf("expected stable power-on result, got hostOn=%v changed=%v", hostOn, changed)
-	}
-	if resetCalls != 1 {
-		t.Fatalf("expected one reset call, got %d", resetCalls)
-	}
-}
-
-func TestEnsureHostPowerForCollection_FailsIfHostDoesNotStayOnAfterStabilization(t *testing.T) {
-	t.Setenv("LOGPILE_REDFISH_POWERON_STABILIZATION", "1ms")
-	t.Setenv("LOGPILE_REDFISH_BMC_READY_WAITS", "1ms,1ms")
-
-	powerState := "Off"
-
-	mux := http.NewServeMux()
-	mux.HandleFunc("/redfish/v1/Systems/1", func(w http.ResponseWriter, r *http.Request) {
-		w.Header().Set("Content-Type", "application/json")
-		current := powerState
-		if powerState == "On" {
-			powerState = "Off"
-		}
-		_ = json.NewEncoder(w).Encode(map[string]interface{}{
-			"@odata.id":  "/redfish/v1/Systems/1",
-			"PowerState": current,
-			"Actions": map[string]interface{}{
-				"#ComputerSystem.Reset": map[string]interface{}{
-					"target":                            "/redfish/v1/Systems/1/Actions/ComputerSystem.Reset",
-					"ResetType@Redfish.AllowableValues": []interface{}{"On"},
-				},
-			},
-		})
-	})
-	mux.HandleFunc("/redfish/v1/Systems/1/Actions/ComputerSystem.Reset", func(w http.ResponseWriter, r *http.Request) {
-		powerState = "On"
-		w.WriteHeader(http.StatusOK)
-	})
-
-	ts := httptest.NewTLSServer(mux)
-	defer ts.Close()
-
-	u, err := url.Parse(ts.URL)
-	if err != nil {
-		t.Fatalf("parse server url: %v", err)
-	}
-	port := 443
-	if u.Port() != "" {
-		fmt.Sscanf(u.Port(), "%d", &port)
-	}
-
-	c := NewRedfishConnector()
-	hostOn, changed := c.ensureHostPowerForCollection(context.Background(), c.httpClientWithTimeout(Request{TLSMode: "insecure"}, 5*time.Second), Request{
-		Host:             u.Hostname(),
-		Protocol:         "redfish",
-		Port:             port,
-		Username:         "admin",
-		AuthType:         "password",
-		Password:         "secret",
-		TLSMode:          "insecure",
-		PowerOnIfHostOff: true,
-	}, ts.URL, "/redfish/v1/Systems/1", nil)
-	if hostOn || changed {
-		t.Fatalf("expected unstable power-on result to fail, got hostOn=%v changed=%v", hostOn, changed)
-	}
-}
-
-func TestEnsureHostPowerForCollection_UsesPowerSummaryState(t *testing.T) {
-	t.Setenv("LOGPILE_REDFISH_POWERON_STABILIZATION", "1ms")
-	t.Setenv("LOGPILE_REDFISH_BMC_READY_WAITS", "1ms,1ms")
-
-	powerState := "On"
-
-	mux := http.NewServeMux()
-	mux.HandleFunc("/redfish/v1/Systems/1", func(w http.ResponseWriter, r *http.Request) {
-		w.Header().Set("Content-Type", "application/json")
-		_ = json.NewEncoder(w).Encode(map[string]interface{}{
-			"@odata.id": "/redfish/v1/Systems/1",
-			"PowerSummary": map[string]interface{}{
-				"PowerState": powerState,
-			},
-			"MemorySummary": map[string]interface{}{
-				"TotalSystemMemoryGiB": 128,
-			},
-			"Actions": map[string]interface{}{
-				"#ComputerSystem.Reset": map[string]interface{}{
-					"target":                            "/redfish/v1/Systems/1/Actions/ComputerSystem.Reset",
-					"ResetType@Redfish.AllowableValues": []interface{}{"On"},
-				},
-			},
-		})
-	})
-
-	ts := httptest.NewTLSServer(mux)
-	defer ts.Close()
-
-	u, err := url.Parse(ts.URL)
-	if err != nil {
-		t.Fatalf("parse server url: %v", err)
-	}
-	port := 443
-	if u.Port() != "" {
-		fmt.Sscanf(u.Port(), "%d", &port)
-	}
-
-	c := NewRedfishConnector()
-	hostOn, changed := c.ensureHostPowerForCollection(context.Background(), c.httpClientWithTimeout(Request{TLSMode: "insecure"}, 5*time.Second), Request{
-		Host:             u.Hostname(),
-		Protocol:         "redfish",
-		Port:             port,
-		Username:         "admin",
-		AuthType:         "password",
-		Password:         "secret",
-		TLSMode:          "insecure",
-		PowerOnIfHostOff: true,
-	}, ts.URL, "/redfish/v1/Systems/1", nil)
-	if !hostOn || changed {
-		t.Fatalf("expected already-on host from PowerSummary, got hostOn=%v changed=%v", hostOn, changed)
-	}
-}
-
-func TestWaitForHostPowerState_UsesPowerSummaryState(t *testing.T) {
-	powerState := "Off"
-	mux := http.NewServeMux()
-	mux.HandleFunc("/redfish/v1/Systems/1", func(w http.ResponseWriter, r *http.Request) {
-		w.Header().Set("Content-Type", "application/json")
-		current := powerState
-		if powerState == "Off" {
-			powerState = "On"
-		}
-		_ = json.NewEncoder(w).Encode(map[string]interface{}{
-			"@odata.id": "/redfish/v1/Systems/1",
-			"PowerSummary": map[string]interface{}{
-				"PowerState": current,
-			},
-		})
-	})
-
-	ts := httptest.NewTLSServer(mux)
-	defer ts.Close()
-
-	u, err := url.Parse(ts.URL)
-	if err != nil {
-		t.Fatalf("parse server url: %v", err)
-	}
-	port := 443
-	if u.Port() != "" {
-		fmt.Sscanf(u.Port(), "%d", &port)
-	}
-
-	c := NewRedfishConnector()
-	ok := c.waitForHostPowerState(context.Background(), c.httpClientWithTimeout(Request{TLSMode: "insecure"}, 5*time.Second), Request{
-		Host:     u.Hostname(),
-		Protocol: "redfish",
-		Port:     port,
-		Username: "admin",
-		AuthType: "password",
-		Password: "secret",
-		TLSMode:  "insecure",
-	}, ts.URL, "/redfish/v1/Systems/1", true, 3*time.Second)
-	if !ok {
-		t.Fatalf("expected waitForHostPowerState to use PowerSummary")
-	}
 }
 
 func TestParsePCIeDeviceSlot_FromNestedRedfishSlotLocation(t *testing.T) {
@@ -1197,6 +975,8 @@ func TestEnrichNICFromPCIeFunctions(t *testing.T) {
 			"FunctionId":          "0000:17:00.0",
 			"VendorId":            "0x15b3",
 			"DeviceId":            "0x1021",
+			"SerialNumber":        "MT-SN-0001",
+			"PartNumber":          "MCX623106AC-CDAT",
 			"CurrentLinkWidth":    16,
 			"CurrentLinkSpeedGTs": "32 GT/s",
 			"MaxLinkWidth":        16,
@@ -1214,6 +994,12 @@ func TestEnrichNICFromPCIeFunctions(t *testing.T) {
 	if nic.BDF != "0000:17:00.0" {
 		t.Fatalf("unexpected NIC BDF: %q", nic.BDF)
 	}
+	if nic.SerialNumber != "NIC-SN-1" {
+		t.Fatalf("expected existing NIC serial to be preserved, got %q", nic.SerialNumber)
+	}
+	if nic.PartNumber != "MCX623106AC-CDAT" {
+		t.Fatalf("expected NIC part number from PCIe function, got %q", nic.PartNumber)
+	}
 	if nic.LinkWidth != 16 || nic.MaxLinkWidth != 16 {
 		t.Fatalf("unexpected NIC link width state: current=%d max=%d", nic.LinkWidth, nic.MaxLinkWidth)
 	}
@@ -1222,6 +1008,286 @@ func TestEnrichNICFromPCIeFunctions(t *testing.T) {
 	}
 }
 
+func TestEnrichNICFromPCIeFunctions_FillsMissingIdentityFromFunctionDoc(t *testing.T) {
+	nic := parseNIC(map[string]interface{}{
+		"Id": "DevType7_NIC1",
+		"Controllers": []interface{}{
+			map[string]interface{}{
+				"ControllerCapabilities": map[string]interface{}{
+					"NetworkPortCount": 1,
+				},
+			},
+			map[string]interface{}{
+				"ControllerCapabilities": map[string]interface{}{
+					"NetworkPortCount": 1,
+				},
+			},
+		},
+	})
+
+	pcieDoc := map[string]interface{}{
+		"Slot": map[string]interface{}{
+			"Location": map[string]interface{}{
+				"PartLocation": map[string]interface{}{
+					"ServiceLabel": "RISER4",
+				},
+			},
+		},
+	}
+	functionDocs := []map[string]interface{}{
+		{
+			"FunctionId":   "0000:0f:00.0",
+			"VendorId":     "0x15b3",
+			"DeviceId":     "0x101f",
+			"SerialNumber": "MT2412X00001",
+			"PartNumber":   "MCX623432AC-GDA_Ax",
+		},
+	}
+
+	enrichNICFromPCIe(&nic, pcieDoc, functionDocs, nil)
+	if nic.Slot != "RISER4" {
+		t.Fatalf("expected slot from PCIe slot label, got %q", nic.Slot)
+	}
+	if nic.Location != "RISER4" {
+		t.Fatalf("expected location from PCIe slot label, got %q", nic.Location)
+	}
+	if nic.PortCount != 2 {
+		t.Fatalf("expected combined port count from controllers, got %d", nic.PortCount)
+	}
+	if nic.SerialNumber != "MT2412X00001" {
+		t.Fatalf("expected serial from PCIe function, got %q", nic.SerialNumber)
+	}
+	if nic.PartNumber != "MCX623432AC-GDA_Ax" {
+		t.Fatalf("expected part number from PCIe function, got %q", nic.PartNumber)
+	}
+	if nic.BDF != "0000:0f:00.0" {
+		t.Fatalf("expected BDF from PCIe function, got %q", nic.BDF)
+	}
+}
+
+func TestReplayCollectNICs_UsesNetworkDeviceFunctionPCIeFunctionLink(t *testing.T) {
+	tree := map[string]interface{}{
+		"/redfish/v1/Chassis/1/NetworkAdapters": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/NetworkAdapters/NIC1"},
+			},
+		},
+		"/redfish/v1/Chassis/1/NetworkAdapters/NIC1": map[string]interface{}{
+			"Id":   "DevType7_NIC1",
+			"Name": "NetworkAdapter_1",
+			"Controllers": []interface{}{
+				map[string]interface{}{
+					"ControllerCapabilities": map[string]interface{}{
+						"NetworkPortCount": 2,
+					},
+					"Links": map[string]interface{}{
+						"PCIeDevices": []interface{}{
+							map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/00_0F_00"},
+						},
+					},
+				},
+			},
+			"NetworkDeviceFunctions": map[string]interface{}{
+				"@odata.id": "/redfish/v1/Chassis/1/NetworkAdapters/NIC1/NetworkDeviceFunctions",
+			},
+		},
+		"/redfish/v1/Chassis/1/NetworkAdapters/NIC1/NetworkDeviceFunctions": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/NetworkAdapters/NIC1/NetworkDeviceFunctions/Function0"},
+			},
+		},
+		"/redfish/v1/Chassis/1/NetworkAdapters/NIC1/NetworkDeviceFunctions/Function0": map[string]interface{}{
+			"Id": "Function0",
+			"Links": map[string]interface{}{
+				"PCIeFunction": map[string]interface{}{
+					"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/00_0F_00/PCIeFunctions/Function0",
+				},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/00_0F_00": map[string]interface{}{
+			"Id":              "00_0F_00",
+			"Name":            "PCIeDevice_00_0F_00",
+			"Manufacturer":    "Mellanox Technologies",
+			"FirmwareVersion": "26.43.25.66",
+			"Slot": map[string]interface{}{
+				"Location": map[string]interface{}{
+					"PartLocation": map[string]interface{}{
+						"ServiceLabel": "RISER4",
+					},
+				},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/00_0F_00/PCIeFunctions/Function0": map[string]interface{}{
+			"Id":           "Function0",
+			"FunctionId":   "0000:0f:00.0",
+			"VendorId":     "0x15b3",
+			"DeviceId":     "0x101f",
+			"SerialNumber": "MT2412X00001",
+			"PartNumber":   "MCX623432AC-GDA_Ax",
+		},
+	}
+
+	r := redfishSnapshotReader{tree: tree}
+	nics := r.collectNICs([]string{"/redfish/v1/Chassis/1"})
+	if len(nics) != 1 {
+		t.Fatalf("expected one NIC, got %d", len(nics))
+	}
+	if nics[0].Slot != "RISER4" {
+		t.Fatalf("expected slot from PCIe device, got %q", nics[0].Slot)
+	}
+	if nics[0].SerialNumber != "MT2412X00001" {
+		t.Fatalf("expected serial from NetworkDeviceFunction PCIeFunction link, got %q", nics[0].SerialNumber)
+	}
+	if nics[0].PartNumber != "MCX623432AC-GDA_Ax" {
+		t.Fatalf("expected part number from linked PCIeFunction, got %q", nics[0].PartNumber)
+	}
+	if nics[0].BDF != "0000:0f:00.0" {
+		t.Fatalf("expected BDF from linked PCIeFunction, got %q", nics[0].BDF)
+	}
+	if nics[0].Model != "MT2894 Family [ConnectX-6 Lx]" {
+		t.Fatalf("expected model resolved from PCI IDs, got %q", nics[0].Model)
+	}
+}
+
+func TestReplayEnrichNICsFromNetworkInterfaces_DoesNotCreateGhostForLinkedAdapter(t *testing.T) {
+	tree := map[string]interface{}{
+		"/redfish/v1/Chassis/1/NetworkAdapters": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/NetworkAdapters/NIC1"},
+			},
+		},
+		"/redfish/v1/Chassis/1/NetworkAdapters/NIC1": map[string]interface{}{
+			"@odata.id": "/redfish/v1/Chassis/1/NetworkAdapters/NIC1",
+			"Id":        "DevType7_NIC1",
+			"Name":      "NetworkAdapter_1",
+			"Controllers": []interface{}{
+				map[string]interface{}{
+					"ControllerCapabilities": map[string]interface{}{
+						"NetworkPortCount": 1,
+					},
+					"Links": map[string]interface{}{
+						"PCIeDevices": []interface{}{
+							map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/00_0F_00"},
+						},
+					},
+				},
+				map[string]interface{}{
+					"ControllerCapabilities": map[string]interface{}{
+						"NetworkPortCount": 1,
+					},
+					"Links": map[string]interface{}{
+						"PCIeDevices": []interface{}{
+							map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/00_0F_00"},
+						},
+					},
+				},
+			},
+			"NetworkDeviceFunctions": map[string]interface{}{
+				"@odata.id": "/redfish/v1/Chassis/1/NetworkAdapters/NIC1/NetworkDeviceFunctions",
+			},
+		},
+		"/redfish/v1/Chassis/1/NetworkAdapters/NIC1/NetworkDeviceFunctions": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/NetworkAdapters/NIC1/NetworkDeviceFunctions/Function0"},
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/NetworkAdapters/NIC1/NetworkDeviceFunctions/Function1"},
+			},
+		},
+		"/redfish/v1/Chassis/1/NetworkAdapters/NIC1/NetworkDeviceFunctions/Function0": map[string]interface{}{
+			"Id": "Function0",
+			"Ethernet": map[string]interface{}{
+				"MACAddress":          "CC:40:F3:D6:9E:DE",
+				"PermanentMACAddress": "CC:40:F3:D6:9E:DE",
+			},
+			"Links": map[string]interface{}{
+				"PCIeFunction": map[string]interface{}{
+					"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/00_0F_00/PCIeFunctions/Function0",
+				},
+			},
+		},
+		"/redfish/v1/Chassis/1/NetworkAdapters/NIC1/NetworkDeviceFunctions/Function1": map[string]interface{}{
+			"Id": "Function1",
+			"Ethernet": map[string]interface{}{
+				"MACAddress":          "CC:40:F3:D6:9E:DF",
+				"PermanentMACAddress": "CC:40:F3:D6:9E:DF",
+			},
+			"Links": map[string]interface{}{
+				"PCIeFunction": map[string]interface{}{
+					"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/00_0F_00/PCIeFunctions/Function1",
+				},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/00_0F_00": map[string]interface{}{
+			"Id":              "00_0F_00",
+			"Name":            "PCIeDevice_00_0F_00",
+			"Manufacturer":    "Mellanox Technologies",
+			"FirmwareVersion": "26.43.25.66",
+			"Slot": map[string]interface{}{
+				"Location": map[string]interface{}{
+					"PartLocation": map[string]interface{}{
+						"ServiceLabel": "RISER4",
+					},
+				},
+			},
+			"PCIeFunctions": map[string]interface{}{
+				"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/00_0F_00/PCIeFunctions",
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/00_0F_00/PCIeFunctions": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/00_0F_00/PCIeFunctions/Function0"},
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/00_0F_00/PCIeFunctions/Function1"},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/00_0F_00/PCIeFunctions/Function0": map[string]interface{}{
+			"FunctionId":   "0000:0f:00.0",
+			"VendorId":     "0x15b3",
+			"DeviceId":     "0x101f",
+			"DeviceClass":  "NetworkController",
+			"SerialNumber": "N/A",
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/00_0F_00/PCIeFunctions/Function1": map[string]interface{}{
+			"FunctionId":  "0000:0f:00.1",
+			"VendorId":    "0x15b3",
+			"DeviceId":    "0x101f",
+			"DeviceClass": "NetworkController",
+		},
+		"/redfish/v1/Systems/1/NetworkInterfaces": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Systems/1/NetworkInterfaces/DevType7_NIC1"},
+			},
+		},
+		"/redfish/v1/Systems/1/NetworkInterfaces/DevType7_NIC1": map[string]interface{}{
+			"Id":   "DevType7_NIC1",
+			"Name": "NetworkAdapter_1",
+			"Links": map[string]interface{}{
+				"NetworkAdapter": map[string]interface{}{
+					"@odata.id": "/redfish/v1/Chassis/1/NetworkAdapters/NIC1",
+				},
+			},
+			"Status": map[string]interface{}{
+				"Health": "OK",
+				"State":  "Disabled",
+			},
+		},
+	}
+
+	r := redfishSnapshotReader{tree: tree}
+	nics := r.collectNICs([]string{"/redfish/v1/Chassis/1"})
+	r.enrichNICsFromNetworkInterfaces(&nics, []string{"/redfish/v1/Systems/1"})
+	if len(nics) != 1 {
+		t.Fatalf("expected linked network interface to reuse existing NIC, got %d: %+v", len(nics), nics)
+	}
+	if nics[0].Slot != "RISER4" {
+		t.Fatalf("expected enriched slot to stay canonical, got %q", nics[0].Slot)
+	}
+	if nics[0].Model != "MT2894 Family [ConnectX-6 Lx]" {
+		t.Fatalf("expected resolved Mellanox model, got %q", nics[0].Model)
+	}
+	if len(nics[0].MACAddresses) != 2 {
+		t.Fatalf("expected both MACs to stay on one NIC, got %+v", nics[0].MACAddresses)
+	}
+}
+
 func TestParseNIC_PortCountFromControllerCapabilities(t *testing.T) {
 	nic := parseNIC(map[string]interface{}{
 		"Id": "1",
@@ -1316,6 +1382,23 @@ func TestParsePCIeDevice_PrefersFunctionClassOverDeviceType(t *testing.T) {
 	}
 }
 
+func TestParsePCIeDevice_DoesNotPromotePartNumberToDeviceClass(t *testing.T) {
+	doc := map[string]interface{}{
+		"Id":         "NIC1",
+		"DeviceType": "SingleFunction",
+		"Model":      "MCX75310AAS-NEAT",
+		"PartNumber": "MCX75310AAS-NEAT",
+	}
+
+	got := parsePCIeDevice(doc, nil)
+	if got.DeviceClass != "PCIe device" {
+		t.Fatalf("expected generic PCIe class fallback, got %q", got.DeviceClass)
+	}
+	if got.PartNumber != "MCX75310AAS-NEAT" {
+		t.Fatalf("expected part number to stay intact, got %q", got.PartNumber)
+	}
+}
+
 func TestParsePCIeComponents_DoNotTreatNumericFunctionIDAsBDF(t *testing.T) {
 	pcieFn := parsePCIeFunction(map[string]interface{}{
 		"Id":          "1",
@@ -2160,6 +2243,94 @@ func TestReplayCollectStorage_UsesKnownControllerRecoveryWhenEnabled(t *testing.
 	}
 }
 
+func TestReplayCollectStorageVolumes_SkipsVolumeCapabilitiesFallbackMember(t *testing.T) {
+	r := redfishSnapshotReader{tree: map[string]interface{}{
+		"/redfish/v1/Systems/1/Storage": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Systems/1/Storage/DE00A000"},
+			},
+		},
+		"/redfish/v1/Systems/1/Storage/DE00A000": map[string]interface{}{
+			"Id":      "DE00A000",
+			"Volumes": map[string]interface{}{"@odata.id": "/redfish/v1/Systems/1/Storage/DE00A000/Volumes"},
+		},
+		"/redfish/v1/Systems/1/Storage/DE00A000/Volumes": map[string]interface{}{
+			"@odata.id":           "/redfish/v1/Systems/1/Storage/DE00A000/Volumes",
+			"@odata.type":         "#VolumeCollection.VolumeCollection",
+			"Members":             []interface{}{},
+			"Members@odata.count": 0,
+			"Name":                "MR Volume Collection",
+		},
+		"/redfish/v1/Systems/1/Storage/DE00A000/Volumes/Capabilities": map[string]interface{}{
+			"@odata.id":   "/redfish/v1/Systems/1/Storage/DE00A000/Volumes/Capabilities",
+			"@odata.type": "#Volume.v1_9_0.Volume",
+			"Id":          "Capabilities",
+			"Name":        "Capabilities for VolumeCollection",
+		},
+	}}
+
+	got := r.collectStorageVolumes("/redfish/v1/Systems/1", testAnalysisPlan(redfishprofile.AnalysisDirectives{}))
+	if len(got) != 0 {
+		t.Fatalf("expected capabilities-only volume collection to stay empty, got %+v", got)
+	}
+}
+
+func TestReplayCollectPCIeDevices_UsesChassisDeviceSupplementalDocs(t *testing.T) {
+	r := redfishSnapshotReader{tree: map[string]interface{}{
+		"/redfish/v1/Chassis/1/PCIeDevices": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/2"},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/2": map[string]interface{}{
+			"@odata.id":    "/redfish/v1/Chassis/1/PCIeDevices/2",
+			"Name":         "BCM 5719 1Gb 4p BASE-T OCP Adptr",
+			"Model":        "P51183-001",
+			"PartNumber":   "P51183-001",
+			"Manufacturer": "Broadcom",
+			"SerialNumber": "1CH0150001",
+			"DeviceType":   "SingleFunction",
+		},
+		"/redfish/v1/Chassis/1/Devices": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/Devices/2"},
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/Devices/4"},
+			},
+		},
+		"/redfish/v1/Chassis/1/Devices/2": map[string]interface{}{
+			"@odata.id":         "/redfish/v1/Chassis/1/Devices/2",
+			"Name":              "BCM 5719 1Gb 4p BASE-T OCP Adptr",
+			"DeviceType":        "LOM/NIC",
+			"Manufacturer":      "Broadcom",
+			"PartNumber":        "BCM95719N1905HC",
+			"ProductPartNumber": "P51183-001",
+			"SerialNumber":      "1CH0150001",
+			"Location":          "OCP 3.0 Slot 15",
+		},
+		"/redfish/v1/Chassis/1/Devices/4": map[string]interface{}{
+			"@odata.id":    "/redfish/v1/Chassis/1/Devices/4",
+			"Name":         "Empty slot 2",
+			"DeviceType":   "Unknown",
+			"Location":     "PCI-E Slot 2",
+			"SerialNumber": "",
+		},
+	}}
+
+	got := r.collectPCIeDevices(nil, []string{"/redfish/v1/Chassis/1"})
+	if len(got) != 1 {
+		t.Fatalf("expected one PCIe device, got %d", len(got))
+	}
+	if got[0].Slot != "OCP 3.0 Slot 15" {
+		t.Fatalf("expected chassis device location to override weak slot label, got %+v", got[0])
+	}
+	if got[0].DeviceClass != "LOM/NIC" {
+		t.Fatalf("expected chassis device type to enrich class, got %+v", got[0])
+	}
+	if got[0].DeviceClass == "P51183-001" {
+		t.Fatalf("device class should not degrade into part number: %+v", got[0])
+	}
+}
+
 func TestReplayCollectGPUs_DoesNotCollapseOnPlaceholderSerialAndSkipsNIC(t *testing.T) {
 	r := redfishSnapshotReader{tree: map[string]interface{}{
 		"/redfish/v1/Chassis/1/PCIeDevices": map[string]interface{}{
@@ -2218,6 +2389,279 @@ func TestReplayCollectGPUs_DoesNotCollapseOnPlaceholderSerialAndSkipsNIC(t *test
 	}
 }
 
+func TestReplayCollectPCIeDevices_SkipsMSITopologyNoiseClasses(t *testing.T) {
+	r := redfishSnapshotReader{tree: map[string]interface{}{
+		"/redfish/v1/Chassis/1/PCIeDevices": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/bridge"},
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/processor"},
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/signal"},
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/serial"},
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/display"},
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/network"},
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/storage"},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/bridge": map[string]interface{}{
+			"Id":           "bridge",
+			"Name":         "Bridge",
+			"Description":  "Bridge Device",
+			"Manufacturer": "Intel Corporation",
+			"PCIeFunctions": map[string]interface{}{
+				"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/bridge/PCIeFunctions",
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/bridge/PCIeFunctions": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/bridge/PCIeFunctions/1"},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/bridge/PCIeFunctions/1": map[string]interface{}{
+			"DeviceClass": "Bridge",
+			"VendorId":    "0x8086",
+			"DeviceId":    "0x0db0",
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/processor": map[string]interface{}{
+			"Id":           "processor",
+			"Name":         "Processor",
+			"Description":  "Processor Device",
+			"Manufacturer": "Intel Corporation",
+			"PCIeFunctions": map[string]interface{}{
+				"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/processor/PCIeFunctions",
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/processor/PCIeFunctions": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/processor/PCIeFunctions/1"},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/processor/PCIeFunctions/1": map[string]interface{}{
+			"DeviceClass": "Processor",
+			"VendorId":    "0x8086",
+			"DeviceId":    "0x4944",
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/signal": map[string]interface{}{
+			"Id":           "signal",
+			"Name":         "Signal",
+			"Manufacturer": "Intel Corporation",
+			"PCIeFunctions": map[string]interface{}{
+				"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/signal/PCIeFunctions",
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/signal/PCIeFunctions": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/signal/PCIeFunctions/1"},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/signal/PCIeFunctions/1": map[string]interface{}{
+			"DeviceClass": "SignalProcessingController",
+			"VendorId":    "0x8086",
+			"DeviceId":    "0x3254",
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/serial": map[string]interface{}{
+			"Id":           "serial",
+			"Name":         "Serial",
+			"Manufacturer": "Renesas",
+			"PCIeFunctions": map[string]interface{}{
+				"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/serial/PCIeFunctions",
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/serial/PCIeFunctions": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/serial/PCIeFunctions/1"},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/serial/PCIeFunctions/1": map[string]interface{}{
+			"DeviceClass": "SerialBusController",
+			"VendorId":    "0x1912",
+			"DeviceId":    "0x0014",
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/display": map[string]interface{}{
+			"Id":           "display",
+			"Name":         "Display",
+			"Description":  "Display Device",
+			"Manufacturer": "NVIDIA Corporation",
+			"PCIeFunctions": map[string]interface{}{
+				"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/display/PCIeFunctions",
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/display/PCIeFunctions": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/display/PCIeFunctions/1"},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/display/PCIeFunctions/1": map[string]interface{}{
+			"DeviceClass": "DisplayController",
+			"VendorId":    "0x10de",
+			"DeviceId":    "0x233b",
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/network": map[string]interface{}{
+			"Id":           "network",
+			"Name":         "NIC",
+			"Description":  "Network Device",
+			"Manufacturer": "Mellanox Technologies",
+			"PCIeFunctions": map[string]interface{}{
+				"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/network/PCIeFunctions",
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/network/PCIeFunctions": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/network/PCIeFunctions/1"},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/network/PCIeFunctions/1": map[string]interface{}{
+			"DeviceClass": "NetworkController",
+			"VendorId":    "0x15b3",
+			"DeviceId":    "0x101f",
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/storage": map[string]interface{}{
+			"Id":           "storage",
+			"Name":         "Storage",
+			"Description":  "Storage Device",
+			"Manufacturer": "Intel Corporation",
+			"PCIeFunctions": map[string]interface{}{
+				"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/storage/PCIeFunctions",
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/storage/PCIeFunctions": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/storage/PCIeFunctions/1"},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/storage/PCIeFunctions/1": map[string]interface{}{
+			"DeviceClass": "MassStorageController",
+			"VendorId":    "0x1234",
+			"DeviceId":    "0x5678",
+		},
+	}}
+
+	got := r.collectPCIeDevices(nil, []string{"/redfish/v1/Chassis/1"})
+	if len(got) != 2 {
+		t.Fatalf("expected only endpoint PCIe devices to remain, got %d: %+v", len(got), got)
+	}
+	classes := map[string]bool{}
+	for _, dev := range got {
+		classes[dev.DeviceClass] = true
+	}
+	if !classes["NetworkController"] || !classes["MassStorageController"] {
+		t.Fatalf("expected network and storage PCIe devices to remain, got %+v", got)
+	}
+	if classes["Bridge"] || classes["Processor"] || classes["SignalProcessingController"] || classes["SerialBusController"] || classes["DisplayController"] {
+		t.Fatalf("expected MSI topology noise classes to be filtered, got %+v", got)
+	}
+}
+
+func TestReplayCollectPCIeDevices_SkipsNICsAlreadyRepresentedAsNetworkAdapters(t *testing.T) {
+	r := redfishSnapshotReader{tree: map[string]interface{}{
+		"/redfish/v1/Chassis/1/PCIeDevices": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/nic"},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/nic": map[string]interface{}{
+			"Id":           "nic",
+			"Name":         "PCIeDevice_00_39_00",
+			"Description":  "Network Device",
+			"Manufacturer": "Mellanox Technologies",
+			"PCIeFunctions": map[string]interface{}{
+				"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/nic/PCIeFunctions",
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/nic/PCIeFunctions": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/nic/PCIeFunctions/1"},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/nic/PCIeFunctions/1": map[string]interface{}{
+			"DeviceClass": "NetworkController",
+			"VendorId":    "0x15b3",
+			"DeviceId":    "0x101f",
+			"Links": map[string]interface{}{
+				"NetworkDeviceFunctions": []interface{}{
+					map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/NetworkAdapters/NIC1/NetworkDeviceFunctions/Function0"},
+				},
+				"NetworkDeviceFunctions@odata.count": 1,
+			},
+		},
+	}}
+
+	got := r.collectPCIeDevices(nil, []string{"/redfish/v1/Chassis/1"})
+	if len(got) != 0 {
+		t.Fatalf("expected network-backed PCIe duplicate to be skipped, got %+v", got)
+	}
+}
+
+func TestReplayCollectPCIeDevices_SkipsStorageServiceEndpoints(t *testing.T) {
+	r := redfishSnapshotReader{tree: map[string]interface{}{
+		"/redfish/v1/Chassis/1/PCIeDevices": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/vmd"},
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/switch-mgmt"},
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/hba"},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/vmd": map[string]interface{}{
+			"Id":          "vmd",
+			"Description": "Storage Device",
+			"PCIeFunctions": map[string]interface{}{
+				"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/vmd/PCIeFunctions",
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/vmd/PCIeFunctions": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/vmd/PCIeFunctions/1"},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/vmd/PCIeFunctions/1": map[string]interface{}{
+			"DeviceClass": "MassStorageController",
+			"VendorId":    "0x8086",
+			"DeviceId":    "0x28c0",
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/switch-mgmt": map[string]interface{}{
+			"Id":          "switch-mgmt",
+			"Description": "Storage Device",
+			"PCIeFunctions": map[string]interface{}{
+				"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/switch-mgmt/PCIeFunctions",
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/switch-mgmt/PCIeFunctions": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/switch-mgmt/PCIeFunctions/1"},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/switch-mgmt/PCIeFunctions/1": map[string]interface{}{
+			"DeviceClass": "MassStorageController",
+			"VendorId":    "0x1000",
+			"DeviceId":    "0x00b2",
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/hba": map[string]interface{}{
+			"Id":          "hba",
+			"Description": "Storage Device",
+			"PCIeFunctions": map[string]interface{}{
+				"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/hba/PCIeFunctions",
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/hba/PCIeFunctions": map[string]interface{}{
+			"Members": []interface{}{
+				map[string]interface{}{"@odata.id": "/redfish/v1/Chassis/1/PCIeDevices/hba/PCIeFunctions/1"},
+			},
+		},
+		"/redfish/v1/Chassis/1/PCIeDevices/hba/PCIeFunctions/1": map[string]interface{}{
+			"DeviceClass": "MassStorageController",
+			"VendorId":    "0x1234",
+			"DeviceId":    "0x5678",
+		},
+	}}
+
+	got := r.collectPCIeDevices(nil, []string{"/redfish/v1/Chassis/1"})
+	if len(got) != 1 {
+		t.Fatalf("expected only non-service storage controller to remain, got %+v", got)
+	}
+	if got[0].VendorID != 0x1234 || got[0].DeviceID != 0x5678 {
+		t.Fatalf("expected generic HBA to remain, got %+v", got[0])
+	}
+}
+
 func TestParseBoardInfo_NormalizesNullPlaceholders(t *testing.T) {
 	got := parseBoardInfo(map[string]interface{}{
 		"Manufacturer": "NULL",
@@ -2240,6 +2684,18 @@ func TestParseBoardInfo_NormalizesNullPlaceholders(t *testing.T) {
 	}
 }
 
+func TestParseBoardInfo_UsesSKUAsPartNumberFallback(t *testing.T) {
+	got := parseBoardInfo(map[string]interface{}{
+		"Manufacturer": "HPE",
+		"Model":        "ProLiant DL380 Gen11",
+		"SerialNumber": "CZ2D1X0GS4",
+		"SKU":          "P52560-421",
+	})
+	if got.PartNumber != "P52560-421" {
+		t.Fatalf("expected SKU to populate part number, got %q", got.PartNumber)
+	}
+}
+
 func TestShouldCrawlPath_SkipsJsonSchemas(t *testing.T) {
 	if shouldCrawlPath("/redfish/v1/JsonSchemas") {
 		t.Fatalf("expected /JsonSchemas to be skipped")
@@ -3345,8 +3801,11 @@ func TestShouldCrawlPath_MemoryAndProcessorMetricsAreAllowed(t *testing.T) {
 	if !shouldCrawlPath("/redfish/v1/Systems/1/Processors/CPU0/ProcessorMetrics") {
 		t.Fatalf("expected CPU metrics subresource to be crawlable")
 	}
-	if shouldCrawlPath("/redfish/v1/Chassis/1/PCIeDevices/0/PCIeFunctions/1") {
+	if shouldCrawlPath("/redfish/v1/Chassis/1/PCIeDevices/0/PCIeFunctions") {
-		t.Fatalf("expected noisy chassis pciefunctions branch to be skipped")
+		t.Fatalf("expected broad chassis PCIeFunctions collection to be skipped")
+	}
+	if !shouldCrawlPath("/redfish/v1/Chassis/1/PCIeDevices/0/PCIeFunctions/1") {
+		t.Fatalf("expected direct chassis PCIeFunction member to remain crawlable")
 	}
 	if !shouldCrawlPath("/redfish/v1/Fabrics/HGX_NVLinkFabric_0/Switches/NVSwitch_0") {
 		t.Fatalf("expected NVSwitch fabric resource to be crawlable")

internal/collector/redfishprofile/profile_hpe.go

@@ -0,0 +1,67 @@
+package redfishprofile
+
+func hpeProfile() Profile {
+	return staticProfile{
+		name:            "hpe",
+		priority:        20,
+		safeForFallback: true,
+		matchFn: func(s MatchSignals) int {
+			score := 0
+			if containsFold(s.SystemManufacturer, "hpe") ||
+				containsFold(s.SystemManufacturer, "hewlett packard") ||
+				containsFold(s.ChassisManufacturer, "hpe") ||
+				containsFold(s.ChassisManufacturer, "hewlett packard") {
+				score += 80
+			}
+			for _, ns := range s.OEMNamespaces {
+				if containsFold(ns, "hpe") {
+					score += 30
+					break
+				}
+			}
+			if containsFold(s.ServiceRootProduct, "ilo") {
+				score += 30
+			}
+			if containsFold(s.ManagerManufacturer, "hpe") || containsFold(s.ManagerManufacturer, "ilo") {
+				score += 20
+			}
+			return min(score, 100)
+		},
+		extendAcquisition: func(plan *AcquisitionPlan, _ MatchSignals) {
+			// HPE ProLiant SmartStorage RAID controller inventory is not reachable
+			// via standard Redfish Storage paths — it requires the HPE OEM SmartStorage tree.
+			ensureScopedPathPolicy(plan, AcquisitionScopedPathPolicy{
+				SystemCriticalSuffixes: []string{
+					"/SmartStorage",
+					"/SmartStorageConfig",
+				},
+				ManagerCriticalSuffixes: []string{
+					"/LicenseService",
+				},
+			})
+			// HPE iLO responds more slowly than average BMCs under load; give the
+			// ETA estimator a realistic baseline so progress reports are accurate.
+			ensureETABaseline(plan, AcquisitionETABaseline{
+				DiscoverySeconds:     12,
+				SnapshotSeconds:      180,
+				PrefetchSeconds:      30,
+				CriticalPlanBSeconds: 40,
+				ProfilePlanBSeconds:  25,
+			})
+			ensureRecoveryPolicy(plan, AcquisitionRecoveryPolicy{
+				EnableProfilePlanB: true,
+			})
+			// HPE iLO starts throttling under high request rates.  Setting a higher
+			// latency tolerance prevents the adaptive throttler from treating normal
+			// iLO slowness as a reason to stall the collection.
+			ensureRatePolicy(plan, AcquisitionRatePolicy{
+				TargetP95LatencyMS:      1200,
+				ThrottleP95LatencyMS:    2500,
+				MinSnapshotWorkers:      2,
+				MinPrefetchWorkers:      1,
+				DisablePrefetchOnErrors: true,
+			})
+			addPlanNote(plan, "hpe ilo acquisition extensions enabled")
+		},
+	}
+}

internal/collector/redfishprofile/profiles_common.go

@@ -55,6 +55,7 @@ func BuiltinProfiles() []Profile {
 		msiProfile(),
 		supermicroProfile(),
 		dellProfile(),
+		hpeProfile(),
 		inspurGroupOEMPlatformsProfile(),
 		hgxProfile(),
 		xfusionProfile(),

internal/collector/types.go

@@ -15,9 +15,8 @@ type Request struct {
 	Password         string
 	Token            string
 	TLSMode          string
-	PowerOnIfHostOff     bool
+	DebugPayloads bool
-	StopHostAfterCollect bool
+	SkipHungCh    <-chan struct{}
-	DebugPayloads        bool
 }
 
 type Progress struct {
@@ -65,10 +64,9 @@ type PhaseTelemetry struct {
 type ProbeResult struct {
 	Reachable             bool
 	Protocol              string
-	HostPowerState        string
+	HostPowerState string
-	HostPoweredOn         bool
+	HostPoweredOn  bool
-	PowerControlAvailable bool
+	SystemPath     string
-	SystemPath            string
 }
 
 type Connector interface {

internal/exporter/reanimator_converter.go

@@ -43,13 +43,13 @@ func ConvertToReanimator(result *models.AnalysisResult) (*ReanimatorExport, erro
 		TargetHost:  targetHost,
 		CollectedAt: collectedAt,
 		Hardware: ReanimatorHardware{
-			Board:          convertBoard(result.Hardware.BoardInfo),
+			Board:         convertBoard(result.Hardware.BoardInfo),
-			Firmware:       dedupeFirmware(convertFirmware(result.Hardware.Firmware)),
+			Firmware:      dedupeFirmware(convertFirmware(result.Hardware.Firmware)),
-			CPUs:           dedupeCPUs(convertCPUsFromDevices(devices, collectedAt, result.Hardware.BoardInfo.SerialNumber, buildCPUMicrocodeBySocket(result.Hardware.Firmware))),
+			CPUs:          dedupeCPUs(convertCPUsFromDevices(devices, collectedAt, result.Hardware.BoardInfo.SerialNumber, buildCPUMicrocodeBySocket(result.Hardware.Firmware))),
-			Memory:         dedupeMemory(convertMemoryFromDevices(devices, collectedAt)),
+			Memory:        dedupeMemory(convertMemoryFromDevices(devices, collectedAt)),
-			Storage:        dedupeStorage(convertStorageFromDevices(devices, collectedAt)),
+			Storage:       dedupeStorage(convertStorageFromDevices(devices, collectedAt)),
-			PCIeDevices:    dedupePCIe(convertPCIeFromDevices(devices, collectedAt)),
+			PCIeDevices:   dedupePCIe(convertPCIeFromDevices(devices, collectedAt)),
-			PowerSupplies:  dedupePSUs(convertPSUsFromDevices(devices, collectedAt)),
+			PowerSupplies: dedupePSUs(convertPSUsFromDevices(devices, collectedAt)),
 			Sensors:       convertSensors(result.Sensors),
 			EventLogs:     convertEventLogs(result.Events, collectedAt),
 		},
@@ -358,10 +358,12 @@ func dedupeCanonicalDevices(items []models.HardwareDevice) []models.HardwareDevi
 		prev.score = canonicalScore(prev.item)
 		byKey[key] = prev
 	}
-	// Secondary pass: for items without serial/BDF (noKey), try to merge into an
+	// Secondary pass: for PCIe-class items without serial/BDF (noKey), try to merge
-	// existing keyed entry with the same model+manufacturer. This handles the case
+	// into an existing keyed entry with the same model+manufacturer. This handles
-	// where a device appears both in PCIeDevices (with BDF) and NetworkAdapters
+	// the case where a device appears both in PCIeDevices (with BDF) and
-	// (without BDF) — e.g. Inspur outboardPCIeCard vs PCIeCard with the same model.
+	// NetworkAdapters (without BDF) — e.g. Inspur outboardPCIeCard vs PCIeCard
+	// with the same model. Do not apply this to storage: repeated NVMe slots often
+	// share the same model string and would collapse incorrectly.
 	// deviceIdentity returns the best available model name for secondary matching,
 	// preferring Model over DeviceClass (which may hold a resolved device name).
 	deviceIdentity := func(d models.HardwareDevice) string {
@@ -377,6 +379,10 @@ func dedupeCanonicalDevices(items []models.HardwareDevice) []models.HardwareDevi
 	var unmatched []models.HardwareDevice
 	for _, item := range noKey {
 		mergeKind := canonicalMergeKind(item.Kind)
+		if mergeKind != "pcie-class" {
+			unmatched = append(unmatched, item)
+			continue
+		}
 		identity := deviceIdentity(item)
 		mfr := strings.ToLower(strings.TrimSpace(item.Manufacturer))
 		if identity == "" {
@@ -669,7 +675,17 @@ func convertMemoryFromDevices(devices []models.HardwareDevice, collectedAt strin
 		}
 		present := boolFromPresentPtr(d.Present, true)
 		status := normalizeStatus(d.Status, true)
-		if !present || d.SizeMB == 0 || status == "Empty" || strings.TrimSpace(d.SerialNumber) == "" {
+		mem := models.MemoryDIMM{
+			Present:      present,
+			SizeMB:       d.SizeMB,
+			Type:         d.Type,
+			Description:  stringFromDetailMap(d.Details, "description"),
+			Manufacturer: d.Manufacturer,
+			SerialNumber: d.SerialNumber,
+			PartNumber:   d.PartNumber,
+			Status:       d.Status,
+		}
+		if !mem.IsInstalledInventory() || status == "Empty" || strings.TrimSpace(d.SerialNumber) == "" {
 			continue
 		}
 		meta := buildStatusMeta(status, d.StatusCheckedAt, d.StatusChangedAt, d.StatusHistory, d.ErrorDescription, collectedAt)
@@ -711,18 +727,16 @@ func convertStorageFromDevices(devices []models.HardwareDevice, collectedAt stri
 		if isVirtualExportStorageDevice(d) {
 			continue
 		}
-		if strings.TrimSpace(d.SerialNumber) == "" {
+		if !shouldExportStorageDevice(d) {
-			continue
-		}
-		present := d.Present == nil || *d.Present
-		if !present {
 			continue
 		}
+		present := boolFromPresentPtr(d.Present, true)
 		status := inferStorageStatus(models.Storage{Present: present})
 		if strings.TrimSpace(d.Status) != "" {
-			status = normalizeStatus(d.Status, false)
+			status = normalizeStatus(d.Status, !present)
 		}
 		meta := buildStatusMeta(status, d.StatusCheckedAt, d.StatusChangedAt, d.StatusHistory, d.ErrorDescription, collectedAt)
+		presentValue := present
 		result = append(result, ReanimatorStorage{
 			Slot:                  d.Slot,
 			Type:                  d.Type,
@@ -732,6 +746,7 @@ func convertStorageFromDevices(devices []models.HardwareDevice, collectedAt stri
 			Manufacturer:          d.Manufacturer,
 			Firmware:              d.Firmware,
 			Interface:             d.Interface,
+			Present:               &presentValue,
 			TemperatureC:          floatFromDetailMap(d.Details, "temperature_c"),
 			PowerOnHours:          int64FromDetailMap(d.Details, "power_on_hours"),
 			PowerCycles:           int64FromDetailMap(d.Details, "power_cycles"),
@@ -1334,7 +1349,7 @@ func convertMemory(memory []models.MemoryDIMM, collectedAt string) []ReanimatorM
 
 	result := make([]ReanimatorMemory, 0, len(memory))
 	for _, mem := range memory {
-		if !mem.Present || mem.SizeMB == 0 || normalizeStatus(mem.Status, true) == "Empty" || strings.TrimSpace(mem.SerialNumber) == "" {
+		if !mem.IsInstalledInventory() || normalizeStatus(mem.Status, true) == "Empty" || strings.TrimSpace(mem.SerialNumber) == "" {
 			continue
 		}
 		status := normalizeStatus(mem.Status, true)
@@ -1376,14 +1391,16 @@ func convertStorage(storage []models.Storage, collectedAt string) []ReanimatorSt
 
 	result := make([]ReanimatorStorage, 0, len(storage))
 	for _, stor := range storage {
-		// Skip storage without serial number
+		if isVirtualLegacyStorageDevice(stor) {
-		if stor.SerialNumber == "" {
+			continue
+		}
+		if !shouldExportLegacyStorage(stor) {
 			continue
 		}
 
 		status := inferStorageStatus(stor)
 		if strings.TrimSpace(stor.Status) != "" {
-			status = normalizeStatus(stor.Status, false)
+			status = normalizeStatus(stor.Status, !stor.Present)
 		}
 		meta := buildStatusMeta(
 			status,
@@ -1393,6 +1410,7 @@ func convertStorage(storage []models.Storage, collectedAt string) []ReanimatorSt
 			stor.ErrorDescription,
 			collectedAt,
 		)
+		present := stor.Present
 
 		result = append(result, ReanimatorStorage{
 			Slot:                  stor.Slot,
@@ -1403,6 +1421,7 @@ func convertStorage(storage []models.Storage, collectedAt string) []ReanimatorSt
 			Manufacturer:          stor.Manufacturer,
 			Firmware:              stor.Firmware,
 			Interface:             stor.Interface,
+			Present:               &present,
 			RemainingEndurancePct: stor.RemainingEndurancePct,
 			Status:                status,
 			StatusCheckedAt:       meta.StatusCheckedAt,
@@ -1414,6 +1433,53 @@ func convertStorage(storage []models.Storage, collectedAt string) []ReanimatorSt
 	return result
 }
 
+func shouldExportStorageDevice(d models.HardwareDevice) bool {
+	if normalizedSerial(d.SerialNumber) != "" {
+		return true
+	}
+	if strings.TrimSpace(d.Slot) != "" {
+		return true
+	}
+	if hasMeaningfulExporterText(d.Model) {
+		return true
+	}
+	if hasMeaningfulExporterText(d.Type) || hasMeaningfulExporterText(d.Interface) {
+		return true
+	}
+	if d.SizeGB > 0 {
+		return true
+	}
+	return d.Present != nil
+}
+
+func shouldExportLegacyStorage(stor models.Storage) bool {
+	if normalizedSerial(stor.SerialNumber) != "" {
+		return true
+	}
+	if strings.TrimSpace(stor.Slot) != "" {
+		return true
+	}
+	if hasMeaningfulExporterText(stor.Model) {
+		return true
+	}
+	if hasMeaningfulExporterText(stor.Type) || hasMeaningfulExporterText(stor.Interface) {
+		return true
+	}
+	if stor.SizeGB > 0 {
+		return true
+	}
+	return stor.Present
+}
+
+func isVirtualLegacyStorageDevice(stor models.Storage) bool {
+	return isVirtualExportStorageDevice(models.HardwareDevice{
+		Kind:         models.DeviceKindStorage,
+		Slot:         stor.Slot,
+		Model:        stor.Model,
+		Manufacturer: stor.Manufacturer,
+	})
+}
+
 // convertPCIeDevices converts PCIe devices, GPUs, and network adapters to Reanimator format
 func convertPCIeDevices(hw *models.HardwareConfig, collectedAt string) []ReanimatorPCIe {
 	result := make([]ReanimatorPCIe, 0)
@@ -2180,10 +2246,8 @@ func normalizePCIeDeviceClass(d models.HardwareDevice) string {
 
 func normalizeLegacyPCIeDeviceClass(deviceClass string) string {
 	switch strings.ToLower(strings.TrimSpace(deviceClass)) {
-	case "", "network", "network controller", "networkcontroller":
+	case "", "network", "network controller", "networkcontroller", "ethernet", "ethernet controller", "ethernetcontroller":
 		return "NetworkController"
-	case "ethernet", "ethernet controller", "ethernetcontroller":
-		return "EthernetController"
 	case "fibre channel", "fibre channel controller", "fibrechannelcontroller", "fc":
 		return "FibreChannelController"
 	case "display", "displaycontroller", "display controller", "vga":
@@ -2204,8 +2268,6 @@ func normalizeLegacyPCIeDeviceClass(deviceClass string) string {
 func normalizeNetworkDeviceClass(portType, model, description string) string {
 	joined := strings.ToLower(strings.TrimSpace(strings.Join([]string{portType, model, description}, " ")))
 	switch {
-	case strings.Contains(joined, "ethernet"):
-		return "EthernetController"
 	case strings.Contains(joined, "fibre channel") || strings.Contains(joined, " fibrechannel") || strings.Contains(joined, "fc "):
 		return "FibreChannelController"
 	default:

internal/exporter/reanimator_converter_test.go

@@ -259,6 +259,29 @@ func TestConvertMemory(t *testing.T) {
 	}
 }
 
+func TestConvertMemory_KeepsInstalledDIMMWithUnknownSize(t *testing.T) {
+	memory := []models.MemoryDIMM{
+		{
+			Slot:         "PROC 1 DIMM 3",
+			Present:      true,
+			SizeMB:       0,
+			Manufacturer: "Hynix",
+			PartNumber:   "HMCG88AEBRA115N",
+			SerialNumber: "2B5F92C6",
+			Status:       "OK",
+		},
+	}
+
+	result := convertMemory(memory, "2026-03-30T10:00:00Z")
+
+	if len(result) != 1 {
+		t.Fatalf("expected 1 inventory-only DIMM, got %d", len(result))
+	}
+	if result[0].PartNumber != "HMCG88AEBRA115N" || result[0].SerialNumber != "2B5F92C6" || result[0].SizeMB != 0 {
+		t.Fatalf("unexpected converted memory: %+v", result[0])
+	}
+}
+
 func TestConvertToReanimator_CPUSerialIsNotSynthesizedAndSocketIsDeduped(t *testing.T) {
 	input := &models.AnalysisResult{
 		Filename: "cpu-dedupe.json",
@@ -424,20 +447,26 @@ func TestConvertStorage(t *testing.T) {
 			Slot:         "OB02",
 			Type:         "NVMe",
 			Model:        "INTEL SSDPF2KX076T1",
-			SerialNumber: "", // No serial - should be skipped
+			SerialNumber: "",
 			Present:      true,
 		},
 	}
 
 	result := convertStorage(storage, "2026-02-10T15:30:00Z")
 
-	if len(result) != 1 {
+	if len(result) != 2 {
-		t.Fatalf("expected 1 storage device (skipped one without serial), got %d", len(result))
+		t.Fatalf("expected both inventory slots to be exported, got %d", len(result))
 	}
 
 	if result[0].Status != "Unknown" {
 		t.Errorf("expected Unknown status, got %q", result[0].Status)
 	}
+	if result[1].SerialNumber != "" {
+		t.Errorf("expected empty serial for second storage slot, got %q", result[1].SerialNumber)
+	}
+	if result[1].Present == nil || !*result[1].Present {
+		t.Fatalf("expected present=true to be preserved for populated slot without serial")
+	}
 }
 
 func TestConvertToReanimator_SkipsAMIVirtualStorageDevices(t *testing.T) {
@@ -971,6 +1000,52 @@ func TestConvertToReanimator_StatusFallbackUsesCollectedAt(t *testing.T) {
 	}
 }
 
+func TestConvertToReanimator_ExportsStorageInventoryWithoutSerial(t *testing.T) {
+	collectedAt := time.Date(2026, 4, 1, 9, 0, 0, 0, time.UTC)
+	input := &models.AnalysisResult{
+		Filename:    "nvme-inventory.json",
+		CollectedAt: collectedAt,
+		Hardware: &models.HardwareConfig{
+			BoardInfo: models.BoardInfo{SerialNumber: "BOARD-001"},
+			Storage: []models.Storage{
+				{
+					Slot:         "OB01",
+					Type:         "NVMe",
+					Model:        "PM9A3",
+					SerialNumber: "SSD-001",
+					Present:      true,
+				},
+				{
+					Slot:    "OB02",
+					Type:    "NVMe",
+					Model:   "PM9A3",
+					Present: true,
+				},
+				{
+					Slot:    "OB03",
+					Type:    "NVMe",
+					Model:   "PM9A3",
+					Present: false,
+				},
+			},
+		},
+	}
+
+	out, err := ConvertToReanimator(input)
+	if err != nil {
+		t.Fatalf("ConvertToReanimator() failed: %v", err)
+	}
+	if len(out.Hardware.Storage) != 3 {
+		t.Fatalf("expected 3 storage entries including inventory slots without serial, got %d", len(out.Hardware.Storage))
+	}
+	if out.Hardware.Storage[1].Slot != "OB02" || out.Hardware.Storage[1].SerialNumber != "" {
+		t.Fatalf("expected OB02 storage slot without serial to survive export, got %#v", out.Hardware.Storage[1])
+	}
+	if out.Hardware.Storage[2].Present == nil || *out.Hardware.Storage[2].Present {
+		t.Fatalf("expected OB03 to preserve present=false, got %#v", out.Hardware.Storage[2])
+	}
+}
+
 func TestConvertToReanimator_FirmwareExcludesDeviceBoundEntries(t *testing.T) {
 	input := &models.AnalysisResult{
 		Filename: "fw-filter-test.json",
@@ -1658,6 +1733,43 @@ func TestConvertToReanimator_ExportsContractV24Telemetry(t *testing.T) {
 	}
 }
 
+func TestConvertToReanimator_UnifiesEthernetAndNetworkControllers(t *testing.T) {
+	input := &models.AnalysisResult{
+		Hardware: &models.HardwareConfig{
+			BoardInfo: models.BoardInfo{SerialNumber: "BOARD-123"},
+			Devices: []models.HardwareDevice{
+				{
+					Kind:         models.DeviceKindPCIe,
+					Slot:         "PCIe1",
+					DeviceClass:  "EthernetController",
+					Present:      boolPtr(true),
+					SerialNumber: "ETH-001",
+				},
+				{
+					Kind:         models.DeviceKindNetwork,
+					Slot:         "NIC1",
+					Model:        "Ethernet Adapter",
+					Present:      boolPtr(true),
+					SerialNumber: "NIC-001",
+				},
+			},
+		},
+	}
+
+	out, err := ConvertToReanimator(input)
+	if err != nil {
+		t.Fatalf("ConvertToReanimator() failed: %v", err)
+	}
+	if len(out.Hardware.PCIeDevices) != 2 {
+		t.Fatalf("expected two pcie-class exports, got %d", len(out.Hardware.PCIeDevices))
+	}
+	for _, dev := range out.Hardware.PCIeDevices {
+		if dev.DeviceClass != "NetworkController" {
+			t.Fatalf("expected unified NetworkController class, got %+v", dev)
+		}
+	}
+}
+
 func TestConvertToReanimator_PreservesLegacyStorageAndPSUDetails(t *testing.T) {
 	input := &models.AnalysisResult{
 		Filename: "legacy-details.json",

internal/models/memory.go

@@ -0,0 +1,29 @@
+package models
+
+import "strings"
+
+// HasInventoryIdentity reports whether the DIMM has enough identifying
+// inventory data to treat it as a populated module even when size is unknown.
+func (m MemoryDIMM) HasInventoryIdentity() bool {
+	return strings.TrimSpace(m.SerialNumber) != "" ||
+		strings.TrimSpace(m.PartNumber) != "" ||
+		strings.TrimSpace(m.Type) != "" ||
+		strings.TrimSpace(m.Technology) != "" ||
+		strings.TrimSpace(m.Description) != ""
+}
+
+// IsInstalledInventory reports whether the DIMM represents an installed module
+// that should be kept in canonical inventory and exports.
+func (m MemoryDIMM) IsInstalledInventory() bool {
+	if !m.Present {
+		return false
+	}
+
+	status := strings.ToLower(strings.TrimSpace(m.Status))
+	switch status {
+	case "empty", "absent", "not installed":
+		return false
+	}
+
+	return m.SizeMB > 0 || m.HasInventoryIdentity()
+}

internal/parser/archive.go

@@ -19,6 +19,7 @@ const maxZipArchiveSize = 50 * 1024 * 1024
 const maxGzipDecompressedSize = 50 * 1024 * 1024
 
 var supportedArchiveExt = map[string]struct{}{
+	".ahs": {},
 	".gz":  {},
 	".tgz": {},
 	".tar": {},
@@ -45,6 +46,8 @@ func ExtractArchive(archivePath string) ([]ExtractedFile, error) {
 	ext := strings.ToLower(filepath.Ext(archivePath))
 
 	switch ext {
+	case ".ahs":
+		return extractSingleFile(archivePath)
 	case ".gz", ".tgz":
 		return extractTarGz(archivePath)
 	case ".tar", ".sds":
@@ -66,6 +69,8 @@ func ExtractArchiveFromReader(r io.Reader, filename string) ([]ExtractedFile, er
 	ext := strings.ToLower(filepath.Ext(filename))
 
 	switch ext {
+	case ".ahs":
+		return extractSingleFileFromReader(r, filename)
 	case ".gz", ".tgz":
 		return extractTarGzFromReader(r, filename)
 	case ".tar", ".sds":

internal/parser/archive_test.go

@@ -76,6 +76,7 @@ func TestIsSupportedArchiveFilename(t *testing.T) {
 		name string
 		want bool
 	}{
+		{name: "HPE_CZ2D1X0GS3_20260330.ahs", want: true},
 		{name: "dump.tar.gz", want: true},
 		{name: "nvidia-bug-report-1651124000923.log.gz", want: true},
 		{name: "snapshot.zip", want: true},
@@ -124,3 +125,20 @@ func TestExtractArchiveFromReaderSDS(t *testing.T) {
 		t.Fatalf("expected bmc/pack.info, got %q", files[0].Path)
 	}
 }
+
+func TestExtractArchiveFromReaderAHS(t *testing.T) {
+	payload := []byte("ABJRtest")
+	files, err := ExtractArchiveFromReader(bytes.NewReader(payload), "sample.ahs")
+	if err != nil {
+		t.Fatalf("extract ahs from reader: %v", err)
+	}
+	if len(files) != 1 {
+		t.Fatalf("expected 1 extracted file, got %d", len(files))
+	}
+	if files[0].Path != "sample.ahs" {
+		t.Fatalf("expected sample.ahs, got %q", files[0].Path)
+	}
+	if string(files[0].Content) != string(payload) {
+		t.Fatalf("content mismatch")
+	}
+}

internal/parser/vendors/hpe_ilo_ahs/parser_test.go

@@ -0,0 +1,316 @@
+package hpe_ilo_ahs
+
+import (
+	"bytes"
+	"compress/gzip"
+	"encoding/binary"
+	"os"
+	"path/filepath"
+	"testing"
+
+	"git.mchus.pro/mchus/logpile/internal/parser"
+)
+
+func TestDetectAHS(t *testing.T) {
+	p := &Parser{}
+	score := p.Detect([]parser.ExtractedFile{{
+		Path:    "HPE_CZ2D1X0GS3_20260330.ahs",
+		Content: makeAHSArchive(t, []ahsTestEntry{{Name: "CUST_INFO.DAT", Payload: []byte("x")}}),
+	}})
+	if score < 80 {
+		t.Fatalf("expected high confidence detect, got %d", score)
+	}
+}
+
+func TestParseAHSInventory(t *testing.T) {
+	p := &Parser{}
+	content := makeAHSArchive(t, []ahsTestEntry{
+		{Name: "CUST_INFO.DAT", Payload: make([]byte, 16)},
+		{Name: "0000088-2026-03-30.zbb", Payload: gzipBytes(t, []byte(sampleInventoryBlob()))},
+		{Name: "bcert.pkg", Payload: []byte(sampleBCertBlob())},
+	})
+
+	result, err := p.Parse([]parser.ExtractedFile{{
+		Path:    "HPE_CZ2D1X0GS3_20260330.ahs",
+		Content: content,
+	}})
+	if err != nil {
+		t.Fatalf("parse failed: %v", err)
+	}
+	if result.Hardware == nil {
+		t.Fatalf("expected hardware section")
+	}
+
+	board := result.Hardware.BoardInfo
+	if board.Manufacturer != "HPE" {
+		t.Fatalf("unexpected board manufacturer: %q", board.Manufacturer)
+	}
+	if board.ProductName != "ProLiant DL380 Gen11" {
+		t.Fatalf("unexpected board product: %q", board.ProductName)
+	}
+	if board.SerialNumber != "CZ2D1X0GS3" {
+		t.Fatalf("unexpected board serial: %q", board.SerialNumber)
+	}
+	if board.PartNumber != "P52560-421" {
+		t.Fatalf("unexpected board part number: %q", board.PartNumber)
+	}
+
+	if len(result.Hardware.CPUs) != 1 || result.Hardware.CPUs[0].Model != "Intel(R) Xeon(R) Gold 6444Y" {
+		t.Fatalf("unexpected CPUs: %+v", result.Hardware.CPUs)
+	}
+	if len(result.Hardware.Memory) != 1 {
+		t.Fatalf("expected one DIMM, got %d", len(result.Hardware.Memory))
+	}
+	if result.Hardware.Memory[0].PartNumber != "HMCG88AEBRA115N" {
+		t.Fatalf("unexpected DIMM part number: %q", result.Hardware.Memory[0].PartNumber)
+	}
+
+	if len(result.Hardware.NetworkAdapters) != 2 {
+		t.Fatalf("expected two network adapters, got %d", len(result.Hardware.NetworkAdapters))
+	}
+	if len(result.Hardware.PowerSupply) != 1 {
+		t.Fatalf("expected one PSU, got %d", len(result.Hardware.PowerSupply))
+	}
+	if result.Hardware.PowerSupply[0].SerialNumber != "5XUWB0C4DJG4BV" {
+		t.Fatalf("unexpected PSU serial: %q", result.Hardware.PowerSupply[0].SerialNumber)
+	}
+	if result.Hardware.PowerSupply[0].Firmware != "2.00" {
+		t.Fatalf("unexpected PSU firmware: %q", result.Hardware.PowerSupply[0].Firmware)
+	}
+
+	if len(result.Hardware.Storage) != 1 {
+		t.Fatalf("expected one physical drive, got %d", len(result.Hardware.Storage))
+	}
+	drive := result.Hardware.Storage[0]
+	if drive.Model != "SAMSUNGMZ7L3480HCHQ-00A07" {
+		t.Fatalf("unexpected drive model: %q", drive.Model)
+	}
+	if drive.SerialNumber != "S664NC0Y502720" {
+		t.Fatalf("unexpected drive serial: %q", drive.SerialNumber)
+	}
+	if drive.SizeGB != 480 {
+		t.Fatalf("unexpected drive size: %d", drive.SizeGB)
+	}
+
+	if len(result.Hardware.Firmware) == 0 {
+		t.Fatalf("expected firmware inventory")
+	}
+	foundILO := false
+	foundControllerFW := false
+	foundNICFW := false
+	foundBackplaneFW := false
+	for _, item := range result.Hardware.Firmware {
+		if item.DeviceName == "iLO 6" && item.Version == "v1.63p20" {
+			foundILO = true
+		}
+		if item.DeviceName == "HPE MR408i-o Gen11" && item.Version == "52.26.3-5379" {
+			foundControllerFW = true
+		}
+		if item.DeviceName == "BCM 5719 1Gb 4p BASE-T OCP Adptr" && item.Version == "20.28.41" {
+			foundNICFW = true
+		}
+		if item.DeviceName == "8 SFF 24G x1NVMe/SAS UBM3 BC BP" && item.Version == "1.24" {
+			foundBackplaneFW = true
+		}
+	}
+	if !foundILO {
+		t.Fatalf("expected iLO firmware entry")
+	}
+	if !foundControllerFW {
+		t.Fatalf("expected controller firmware entry")
+	}
+	if !foundNICFW {
+		t.Fatalf("expected broadcom firmware entry")
+	}
+	if !foundBackplaneFW {
+		t.Fatalf("expected backplane firmware entry")
+	}
+
+	broadcomFound := false
+	backplaneFound := false
+	for _, nic := range result.Hardware.NetworkAdapters {
+		if nic.SerialNumber == "1CH0150001" && nic.Firmware == "20.28.41" {
+			broadcomFound = true
+		}
+	}
+	for _, dev := range result.Hardware.Devices {
+		if dev.DeviceClass == "storage_backplane" && dev.Firmware == "1.24" {
+			backplaneFound = true
+		}
+	}
+	if !broadcomFound {
+		t.Fatalf("expected broadcom adapter firmware to be enriched")
+	}
+	if !backplaneFound {
+		t.Fatalf("expected backplane canonical device")
+	}
+
+	if len(result.Hardware.Devices) < 6 {
+		t.Fatalf("expected canonical devices, got %d", len(result.Hardware.Devices))
+	}
+	if len(result.Events) == 0 {
+		t.Fatalf("expected parsed events")
+	}
+}
+
+func TestParseExampleAHS(t *testing.T) {
+	path := filepath.Join("..", "..", "..", "..", "example", "HPE_CZ2D1X0GS3_20260330.ahs")
+	content, err := os.ReadFile(path)
+	if err != nil {
+		t.Skipf("example fixture unavailable: %v", err)
+	}
+
+	p := &Parser{}
+	result, err := p.Parse([]parser.ExtractedFile{{
+		Path:    filepath.Base(path),
+		Content: content,
+	}})
+	if err != nil {
+		t.Fatalf("parse example failed: %v", err)
+	}
+	if result.Hardware == nil {
+		t.Fatalf("expected hardware section")
+	}
+
+	board := result.Hardware.BoardInfo
+	if board.ProductName != "ProLiant DL380 Gen11" {
+		t.Fatalf("unexpected board product: %q", board.ProductName)
+	}
+	if board.SerialNumber != "CZ2D1X0GS3" {
+		t.Fatalf("unexpected board serial: %q", board.SerialNumber)
+	}
+
+	if len(result.Hardware.Storage) < 2 {
+		t.Fatalf("expected at least two drives, got %d", len(result.Hardware.Storage))
+	}
+	if len(result.Hardware.PowerSupply) != 2 {
+		t.Fatalf("expected exactly two PSUs, got %d: %+v", len(result.Hardware.PowerSupply), result.Hardware.PowerSupply)
+	}
+
+	foundController := false
+	foundBackplaneFW := false
+	foundNICFW := false
+	for _, device := range result.Hardware.Devices {
+		if device.Model == "HPE MR408i-o Gen11" && device.SerialNumber == "PXSFQ0BBIJY3B3" {
+			foundController = true
+		}
+		if device.DeviceClass == "storage_backplane" && device.Firmware == "1.24" {
+			foundBackplaneFW = true
+		}
+	}
+	if !foundController {
+		t.Fatalf("expected MR408i-o controller in canonical devices")
+	}
+	for _, fw := range result.Hardware.Firmware {
+		if fw.DeviceName == "BCM 5719 1Gb 4p BASE-T OCP Adptr" && fw.Version == "20.28.41" {
+			foundNICFW = true
+		}
+	}
+	if !foundBackplaneFW {
+		t.Fatalf("expected backplane device in canonical devices")
+	}
+	if !foundNICFW {
+		t.Fatalf("expected broadcom firmware from bcert/pkg lockdown")
+	}
+}
+
+type ahsTestEntry struct {
+	Name    string
+	Payload []byte
+	Flag    uint32
+}
+
+func makeAHSArchive(t *testing.T, entries []ahsTestEntry) []byte {
+	t.Helper()
+
+	var buf bytes.Buffer
+	for _, entry := range entries {
+		header := make([]byte, ahsHeaderSize)
+		copy(header[:4], []byte("ABJR"))
+		binary.LittleEndian.PutUint16(header[4:6], 0x0300)
+		binary.LittleEndian.PutUint16(header[6:8], 0x0002)
+		binary.LittleEndian.PutUint32(header[8:12], uint32(len(entry.Payload)))
+		flag := entry.Flag
+		if flag == 0 {
+			flag = 0x80000002
+			if len(entry.Payload) >= 2 && entry.Payload[0] == 0x1f && entry.Payload[1] == 0x8b {
+				flag = 0x80000001
+			}
+		}
+		binary.LittleEndian.PutUint32(header[16:20], flag)
+		copy(header[20:52], []byte(entry.Name))
+		buf.Write(header)
+		buf.Write(entry.Payload)
+	}
+	return buf.Bytes()
+}
+
+func gzipBytes(t *testing.T, payload []byte) []byte {
+	t.Helper()
+
+	var buf bytes.Buffer
+	zw := gzip.NewWriter(&buf)
+	if _, err := zw.Write(payload); err != nil {
+		t.Fatalf("gzip payload: %v", err)
+	}
+	if err := zw.Close(); err != nil {
+		t.Fatalf("close gzip writer: %v", err)
+	}
+	return buf.Bytes()
+}
+
+func sampleInventoryBlob() string {
+	return stringsJoin(
+		"iLO 6 v1.63p20 built on Sep 13 2024",
+		"HPE",
+		"ProLiant DL380 Gen11",
+		"CZ2D1X0GS3",
+		"P52560-421",
+		"Proc 1",
+		"Intel(R) Corporation",
+		"Intel(R) Xeon(R) Gold 6444Y",
+		"PROC 1 DIMM 3",
+		"Hynix",
+		"HMCG88AEBRA115N",
+		"2B5F92C6",
+		"Power Supply 1",
+		"5XUWB0C4DJG4BV",
+		"P03178-B21",
+		"PciRoot(0x1)/Pci(0x5,0x0)/Pci(0x0,0x0)",
+		"NIC.Slot.1.1",
+		"Network Controller",
+		"Slot 1",
+		"MCX512A-ACAT",
+		"MT2230478382",
+		"PciRoot(0x3)/Pci(0x1,0x0)/Pci(0x0,0x0)",
+		"OCP.Slot.15.1",
+		"Broadcom NetXtreme Gigabit Ethernet - NIC",
+		"OCP Slot 15",
+		"P51183-001",
+		"1CH0150001",
+		"20.28.41",
+		"System ROM",
+		"v2.22 (06/19/2024)",
+		"03/30/2026 09:47:33",
+		"iLO network link down.",
+		`{"@odata.id":"/redfish/v1/Systems/1/Storage/DE00A000/Controllers/0","@odata.type":"#StorageController.v1_7_0.StorageController","Id":"0","Name":"HPE MR408i-o Gen11","FirmwareVersion":"52.26.3-5379","Manufacturer":"HPE","Model":"HPE MR408i-o Gen11","PartNumber":"P58543-001","SKU":"P58335-B21","SerialNumber":"PXSFQ0BBIJY3B3","Status":{"State":"Enabled","Health":"OK"},"Location":{"PartLocation":{"ServiceLabel":"Slot=14","LocationType":"Slot","LocationOrdinalValue":14}},"PCIeInterface":{"PCIeType":"Gen4","LanesInUse":8}}`,
+		`{"@odata.id":"/redfish/v1/Fabrics/DE00A000","@odata.type":"#Fabric.v1_3_0.Fabric","Id":"DE00A000","Name":"8 SFF 24G x1NVMe/SAS UBM3 BC BP","FabricType":"MultiProtocol"}`,
+		`{"@odata.id":"/redfish/v1/Fabrics/DE00A000/Switches/1","@odata.type":"#Switch.v1_9_1.Switch","Id":"1","Name":"Direct Attached","Model":"UBM3","FirmwareVersion":"1.24","SupportedProtocols":["SAS","SATA","NVMe"],"SwitchType":"MultiProtocol","Status":{"State":"Enabled","Health":"OK"}}`,
+		`{"@odata.id":"/redfish/v1/Chassis/DE00A000/Drives/0","@odata.type":"#Drive.v1_17_0.Drive","Id":"0","Name":"480GB 6G SATA SSD","Status":{"State":"StandbyOffline","Health":"OK"},"PhysicalLocation":{"PartLocation":{"ServiceLabel":"Slot=14:Port=1:Box=3:Bay=1","LocationType":"Bay","LocationOrdinalValue":1}},"CapacityBytes":480103981056,"MediaType":"SSD","Model":"SAMSUNGMZ7L3480HCHQ-00A07","Protocol":"SATA","Revision":"JXTC604Q","SerialNumber":"S664NC0Y502720","PredictedMediaLifeLeftPercent":100}`,
+		`{"@odata.id":"/redfish/v1/Chassis/DE00A000/Drives/64515","@odata.type":"#Drive.v1_17_0.Drive","Id":"64515","Name":"Empty Bay","Status":{"State":"Absent","Health":"OK"}}`,
+	)
+}
+
+func sampleBCertBlob() string {
+	return `<BC><MfgRecord><PowerSupplySlot id="0"><Present>Yes</Present><SerialNumber>5XUWB0C4DJG4BV</SerialNumber><FirmwareVersion>2.00</FirmwareVersion><SparePartNumber>P44412-001</SparePartNumber></PowerSupplySlot><FirmwareLockdown><SystemProgrammableLogicDevice>0x12</SystemProgrammableLogicDevice><ServerPlatformServicesSPSFirmware>6.1.4.47</ServerPlatformServicesSPSFirmware><STMicroGen11TPM>1.512</STMicroGen11TPM><HPEMR408i-oGen11>52.26.3-5379</HPEMR408i-oGen11><UBM3>UBM3/1.24</UBM3><BCM57191Gb4pBASE-TOCP3>20.28.41</BCM57191Gb4pBASE-TOCP3></FirmwareLockdown></MfgRecord></BC>`
+}
+
+func stringsJoin(parts ...string) string {
+	return string(bytes.Join(func() [][]byte {
+		out := make([][]byte, 0, len(parts))
+		for _, part := range parts {
+			out = append(out, []byte(part))
+		}
+		return out
+	}(), []byte{0}))
+}

internal/parser/vendors/vendors.go

@@ -7,6 +7,7 @@ import (
 	_ "git.mchus.pro/mchus/logpile/internal/parser/vendors/dell"
 	_ "git.mchus.pro/mchus/logpile/internal/parser/vendors/easy_bee"
 	_ "git.mchus.pro/mchus/logpile/internal/parser/vendors/h3c"
+	_ "git.mchus.pro/mchus/logpile/internal/parser/vendors/hpe_ilo_ahs"
 	_ "git.mchus.pro/mchus/logpile/internal/parser/vendors/inspur"
 	_ "git.mchus.pro/mchus/logpile/internal/parser/vendors/nvidia"
 	_ "git.mchus.pro/mchus/logpile/internal/parser/vendors/nvidia_bug_report"

internal/parser/vendors/xfusion/hardware.go

@@ -10,6 +10,33 @@ import (
 	"git.mchus.pro/mchus/logpile/internal/parser"
 )
 
+type xfusionNICCard struct {
+	Slot         string
+	Model        string
+	ProductName  string
+	Vendor       string
+	VendorID     int
+	DeviceID     int
+	BDF          string
+	SerialNumber string
+	PartNumber   string
+}
+
+type xfusionNetcardPort struct {
+	BDF       string
+	MAC       string
+	ActualMAC string
+}
+
+type xfusionNetcardSnapshot struct {
+	Timestamp    time.Time
+	Slot         string
+	ProductName  string
+	Manufacturer string
+	Firmware     string
+	Ports        []xfusionNetcardPort
+}
+
 // ── FRU ──────────────────────────────────────────────────────────────────────
 
 // parseFRUInfo parses fruinfo.txt and populates result.FRU and result.Hardware.BoardInfo.
@@ -232,15 +259,15 @@ func parseCPUInfo(content []byte) []models.CPU {
 		}
 
 		cpus = append(cpus, models.CPU{
-			Socket:    socketNum,
+			Socket:       socketNum,
-			Model:     model,
+			Model:        model,
-			Cores:     cores,
+			Cores:        cores,
-			Threads:   threads,
+			Threads:      threads,
-			L1CacheKB: l1,
+			L1CacheKB:    l1,
-			L2CacheKB: l2,
+			L2CacheKB:    l2,
-			L3CacheKB: l3,
+			L3CacheKB:    l3,
 			SerialNumber: sn,
-			Status:    "ok",
+			Status:       "ok",
 		})
 	}
 	return cpus
@@ -338,9 +365,9 @@ func parseMemInfo(content []byte) []models.MemoryDIMM {
 
 // ── Card Info (GPU + NIC) ─────────────────────────────────────────────────────
 
-// parseCardInfo parses card_info file, extracting GPU and NIC entries.
+// parseCardInfo parses card_info file, extracting GPU and OCP NIC card inventory.
 // The file has named sections ("GPU Card Info", "OCP Card Info", etc.) each with a pipe-table.
-func parseCardInfo(content []byte) (gpus []models.GPU, nics []models.NIC) {
+func parseCardInfo(content []byte) (gpus []models.GPU, nicCards []xfusionNICCard) {
 	sections := splitPipeSections(content)
 
 	// Build BDF and VendorID/DeviceID map from PCIe Card Info: slot → info
@@ -396,17 +423,22 @@ func parseCardInfo(content []byte) (gpus []models.GPU, nics []models.NIC) {
 	}
 
 	// OCP Card Info: NIC cards
-	for i, row := range sections["ocp card info"] {
+	for _, row := range sections["ocp card info"] {
-		desc := strings.TrimSpace(row["card desc"])
+		slot := strings.TrimSpace(row["slot"])
-		sn := strings.TrimSpace(row["serialnumber"])
+		pcie := slotPCIe[slot]
-		nics = append(nics, models.NIC{
+		nicCards = append(nicCards, xfusionNICCard{
-			Name:         fmt.Sprintf("OCP%d", i+1),
+			Slot:         slot,
-			Model:        desc,
+			Model:        strings.TrimSpace(row["card desc"]),
-			SerialNumber: sn,
+			ProductName:  strings.TrimSpace(row["card desc"]),
+			VendorID:     parseHexInt(row["vender id"]),
+			DeviceID:     parseHexInt(row["device id"]),
+			BDF:          pcie.bdf,
+			SerialNumber: strings.TrimSpace(row["serialnumber"]),
+			PartNumber:   strings.TrimSpace(row["partnum"]),
 		})
 	}
 
-	return gpus, nics
+	return gpus, nicCards
 }
 
 // splitPipeSections parses a multi-section file where each section starts with a
@@ -462,6 +494,301 @@ func parseHexInt(s string) int {
 	return int(n)
 }
 
+func parseNetcardInfo(content []byte) []xfusionNetcardSnapshot {
+	if len(content) == 0 {
+		return nil
+	}
+
+	var snapshots []xfusionNetcardSnapshot
+	var current *xfusionNetcardSnapshot
+	var currentPort *xfusionNetcardPort
+
+	flushPort := func() {
+		if current == nil || currentPort == nil {
+			return
+		}
+		current.Ports = append(current.Ports, *currentPort)
+		currentPort = nil
+	}
+	flushSnapshot := func() {
+		if current == nil || !current.hasData() {
+			return
+		}
+		flushPort()
+		snapshots = append(snapshots, *current)
+		current = nil
+	}
+
+	for _, rawLine := range strings.Split(string(content), "\n") {
+		line := strings.TrimSpace(rawLine)
+		if line == "" {
+			flushPort()
+			continue
+		}
+		if ts, ok := parseXFusionUTCTimestamp(line); ok {
+			if current == nil {
+				current = &xfusionNetcardSnapshot{Timestamp: ts}
+				continue
+			}
+			if current.hasData() {
+				flushSnapshot()
+				current = &xfusionNetcardSnapshot{Timestamp: ts}
+				continue
+			}
+			current.Timestamp = ts
+			continue
+		}
+		if current == nil {
+			current = &xfusionNetcardSnapshot{}
+		}
+		if port := parseNetcardPortHeader(line); port != nil {
+			flushPort()
+			currentPort = port
+			continue
+		}
+		if currentPort != nil {
+			if value, ok := parseSimpleKV(line, "MacAddr"); ok {
+				currentPort.MAC = value
+				continue
+			}
+			if value, ok := parseSimpleKV(line, "ActualMac"); ok {
+				currentPort.ActualMAC = value
+				continue
+			}
+		}
+		if value, ok := parseSimpleKV(line, "ProductName"); ok {
+			current.ProductName = value
+			continue
+		}
+		if value, ok := parseSimpleKV(line, "Manufacture"); ok {
+			current.Manufacturer = value
+			continue
+		}
+		if value, ok := parseSimpleKV(line, "FirmwareVersion"); ok {
+			current.Firmware = value
+			continue
+		}
+		if value, ok := parseSimpleKV(line, "SlotId"); ok {
+			current.Slot = value
+		}
+	}
+	flushSnapshot()
+
+	bestIndexBySlot := make(map[string]int)
+	for i, snapshot := range snapshots {
+		slot := strings.TrimSpace(snapshot.Slot)
+		if slot == "" {
+			continue
+		}
+		prevIdx, exists := bestIndexBySlot[slot]
+		if !exists || snapshot.isBetterThan(snapshots[prevIdx]) {
+			bestIndexBySlot[slot] = i
+		}
+	}
+
+	ordered := make([]xfusionNetcardSnapshot, 0, len(bestIndexBySlot))
+	for i, snapshot := range snapshots {
+		slot := strings.TrimSpace(snapshot.Slot)
+		bestIdx, ok := bestIndexBySlot[slot]
+		if !ok || bestIdx != i {
+			continue
+		}
+		ordered = append(ordered, snapshot)
+		delete(bestIndexBySlot, slot)
+	}
+	return ordered
+}
+
+func mergeNetworkAdapters(cards []xfusionNICCard, snapshots []xfusionNetcardSnapshot) ([]models.NetworkAdapter, []models.NIC) {
+	bySlotCard := make(map[string]xfusionNICCard, len(cards))
+	bySlotSnapshot := make(map[string]xfusionNetcardSnapshot, len(snapshots))
+	orderedSlots := make([]string, 0, len(cards)+len(snapshots))
+	seenSlots := make(map[string]struct{}, len(cards)+len(snapshots))
+
+	for _, card := range cards {
+		slot := strings.TrimSpace(card.Slot)
+		if slot == "" {
+			continue
+		}
+		bySlotCard[slot] = card
+		if _, seen := seenSlots[slot]; !seen {
+			orderedSlots = append(orderedSlots, slot)
+			seenSlots[slot] = struct{}{}
+		}
+	}
+	for _, snapshot := range snapshots {
+		slot := strings.TrimSpace(snapshot.Slot)
+		if slot == "" {
+			continue
+		}
+		bySlotSnapshot[slot] = snapshot
+		if _, seen := seenSlots[slot]; !seen {
+			orderedSlots = append(orderedSlots, slot)
+			seenSlots[slot] = struct{}{}
+		}
+	}
+
+	adapters := make([]models.NetworkAdapter, 0, len(orderedSlots))
+	legacyNICs := make([]models.NIC, 0, len(orderedSlots))
+	for _, slot := range orderedSlots {
+		card := bySlotCard[slot]
+		snapshot := bySlotSnapshot[slot]
+
+		model := firstNonEmpty(card.Model, snapshot.ProductName)
+		description := ""
+		if !strings.EqualFold(strings.TrimSpace(model), strings.TrimSpace(snapshot.ProductName)) {
+			description = strings.TrimSpace(snapshot.ProductName)
+		}
+		macs := snapshot.macAddresses()
+		bdf := firstNonEmpty(snapshot.primaryBDF(), card.BDF)
+		firmware := normalizeXFusionValue(snapshot.Firmware)
+		manufacturer := firstNonEmpty(snapshot.Manufacturer, card.Vendor)
+		portCount := len(snapshot.Ports)
+		if portCount == 0 && len(macs) > 0 {
+			portCount = len(macs)
+		}
+		if portCount == 0 {
+			portCount = 1
+		}
+
+		adapters = append(adapters, models.NetworkAdapter{
+			Slot:         slot,
+			Location:     "OCP",
+			Present:      true,
+			BDF:          bdf,
+			Model:        model,
+			Description:  description,
+			Vendor:       manufacturer,
+			VendorID:     card.VendorID,
+			DeviceID:     card.DeviceID,
+			SerialNumber: card.SerialNumber,
+			PartNumber:   card.PartNumber,
+			Firmware:     firmware,
+			PortCount:    portCount,
+			PortType:     "ethernet",
+			MACAddresses: macs,
+			Status:       "ok",
+		})
+		legacyNICs = append(legacyNICs, models.NIC{
+			Name:         fmt.Sprintf("OCP%s", slot),
+			Model:        model,
+			Description:  description,
+			MACAddress:   firstNonEmpty(macs...),
+			SerialNumber: card.SerialNumber,
+		})
+	}
+
+	return adapters, legacyNICs
+}
+
+func parseXFusionUTCTimestamp(line string) (time.Time, bool) {
+	ts, err := time.Parse("2006-01-02 15:04:05 MST", strings.TrimSpace(line))
+	if err != nil {
+		return time.Time{}, false
+	}
+	return ts, true
+}
+
+func parseNetcardPortHeader(line string) *xfusionNetcardPort {
+	fields := strings.Fields(strings.TrimSpace(line))
+	if len(fields) < 2 || !strings.HasPrefix(strings.ToLower(fields[0]), "port") {
+		return nil
+	}
+	joined := strings.Join(fields[1:], " ")
+	if !strings.HasPrefix(strings.ToLower(joined), "bdf:") {
+		return nil
+	}
+	return &xfusionNetcardPort{BDF: strings.TrimSpace(joined[len("BDF:"):])}
+}
+
+func parseSimpleKV(line, key string) (string, bool) {
+	idx := strings.Index(line, ":")
+	if idx < 0 {
+		return "", false
+	}
+	gotKey := strings.TrimSpace(line[:idx])
+	if !strings.EqualFold(gotKey, key) {
+		return "", false
+	}
+	return strings.TrimSpace(line[idx+1:]), true
+}
+
+func normalizeXFusionValue(value string) string {
+	value = strings.TrimSpace(value)
+	switch strings.ToUpper(value) {
+	case "", "N/A", "NA", "UNKNOWN":
+		return ""
+	default:
+		return value
+	}
+}
+
+func (s xfusionNetcardSnapshot) hasData() bool {
+	return strings.TrimSpace(s.Slot) != "" ||
+		strings.TrimSpace(s.ProductName) != "" ||
+		strings.TrimSpace(s.Manufacturer) != "" ||
+		strings.TrimSpace(s.Firmware) != "" ||
+		len(s.Ports) > 0
+}
+
+func (s xfusionNetcardSnapshot) score() int {
+	score := len(s.Ports)
+	if normalizeXFusionValue(s.Firmware) != "" {
+		score += 10
+	}
+	score += len(s.macAddresses()) * 2
+	return score
+}
+
+func (s xfusionNetcardSnapshot) isBetterThan(other xfusionNetcardSnapshot) bool {
+	if s.score() != other.score() {
+		return s.score() > other.score()
+	}
+	if !s.Timestamp.Equal(other.Timestamp) {
+		return s.Timestamp.After(other.Timestamp)
+	}
+	return len(s.Ports) > len(other.Ports)
+}
+
+func (s xfusionNetcardSnapshot) primaryBDF() string {
+	for _, port := range s.Ports {
+		if bdf := strings.TrimSpace(port.BDF); bdf != "" {
+			return bdf
+		}
+	}
+	return ""
+}
+
+func (s xfusionNetcardSnapshot) macAddresses() []string {
+	out := make([]string, 0, len(s.Ports))
+	seen := make(map[string]struct{}, len(s.Ports))
+	for _, port := range s.Ports {
+		for _, candidate := range []string{port.ActualMAC, port.MAC} {
+			mac := normalizeMAC(candidate)
+			if mac == "" {
+				continue
+			}
+			if _, exists := seen[mac]; exists {
+				continue
+			}
+			seen[mac] = struct{}{}
+			out = append(out, mac)
+			break
+		}
+	}
+	return out
+}
+
+func normalizeMAC(value string) string {
+	value = strings.ToUpper(strings.TrimSpace(value))
+	switch value {
+	case "", "N/A", "NA", "UNKNOWN", "00:00:00:00:00:00":
+		return ""
+	default:
+		return value
+	}
+}
+
 // ── PSU ───────────────────────────────────────────────────────────────────────
 
 // parsePSUInfo parses the pipe-delimited psu_info.txt.
@@ -525,6 +852,11 @@ func parsePSUInfo(content []byte) []models.PSU {
 func parseStorageControllerInfo(content []byte, result *models.AnalysisResult) {
 	// File may contain multiple controller blocks; parse key:value pairs from each.
 	// We only look at the first occurrence of each key (first controller).
+	seen := make(map[string]struct{}, len(result.Hardware.Firmware))
+	for _, fw := range result.Hardware.Firmware {
+		key := strings.ToLower(strings.TrimSpace(fw.DeviceName + "\x00" + fw.Version + "\x00" + fw.Description))
+		seen[key] = struct{}{}
+	}
 	text := string(content)
 	blocks := strings.Split(text, "RAID Controller #")
 	for _, block := range blocks[1:] { // skip pre-block preamble
@@ -532,7 +864,7 @@ func parseStorageControllerInfo(content []byte, result *models.AnalysisResult) {
 		name := firstNonEmpty(fields["Component Name"], fields["Controller Name"], fields["Controller Type"])
 		firmware := fields["Firmware Version"]
 		if name != "" && firmware != "" {
-			result.Hardware.Firmware = append(result.Hardware.Firmware, models.FirmwareInfo{
+			appendXFusionFirmware(result, seen, models.FirmwareInfo{
 				DeviceName:  name,
 				Description: fields["Controller Name"],
 				Version:     firmware,
@@ -541,6 +873,86 @@ func parseStorageControllerInfo(content []byte, result *models.AnalysisResult) {
 	}
 }
 
+func parseAppRevision(content []byte, result *models.AnalysisResult) {
+	type firmwareLine struct {
+		deviceName  string
+		description string
+		buildKey    string
+	}
+
+	known := map[string]firmwareLine{
+		"Active iBMC    Version":           {deviceName: "iBMC", description: "active iBMC", buildKey: "Active iBMC      Built"},
+		"Active BIOS    Version":           {deviceName: "BIOS", description: "active BIOS", buildKey: "Active BIOS      Built"},
+		"CPLD           Version":           {deviceName: "CPLD", description: "mainboard CPLD"},
+		"SDK            Version":           {deviceName: "SDK", description: "iBMC SDK", buildKey: "SDK              Built"},
+		"Active Uboot   Version":           {deviceName: "U-Boot", description: "active U-Boot"},
+		"Active Secure Bootloader Version": {deviceName: "Secure Bootloader", description: "active secure bootloader"},
+		"Active Secure Firmware   Version": {deviceName: "Secure Firmware", description: "active secure firmware"},
+	}
+
+	values := parseAlignedKeyValues(content)
+	if result.Hardware.BoardInfo.ProductName == "" {
+		if productName := values["Product           Name"]; productName != "" {
+			result.Hardware.BoardInfo.ProductName = productName
+		}
+	}
+
+	seen := make(map[string]struct{}, len(result.Hardware.Firmware))
+	for _, fw := range result.Hardware.Firmware {
+		key := strings.ToLower(strings.TrimSpace(fw.DeviceName + "\x00" + fw.Version + "\x00" + fw.Description))
+		seen[key] = struct{}{}
+	}
+
+	for key, meta := range known {
+		version := normalizeXFusionValue(values[key])
+		if version == "" {
+			continue
+		}
+		appendXFusionFirmware(result, seen, models.FirmwareInfo{
+			DeviceName:  meta.deviceName,
+			Description: meta.description,
+			Version:     version,
+			BuildTime:   normalizeXFusionValue(values[meta.buildKey]),
+		})
+	}
+}
+
+func parseAlignedKeyValues(content []byte) map[string]string {
+	values := make(map[string]string)
+	for _, rawLine := range strings.Split(string(content), "\n") {
+		line := strings.TrimRight(rawLine, "\r")
+		if !strings.Contains(line, ":") {
+			continue
+		}
+		idx := strings.Index(line, ":")
+		if idx < 0 {
+			continue
+		}
+		key := strings.TrimRight(line[:idx], " \t")
+		value := strings.TrimSpace(line[idx+1:])
+		if key == "" || value == "" || values[key] != "" {
+			continue
+		}
+		values[key] = value
+	}
+	return values
+}
+
+func appendXFusionFirmware(result *models.AnalysisResult, seen map[string]struct{}, fw models.FirmwareInfo) {
+	if result == nil || result.Hardware == nil {
+		return
+	}
+	key := strings.ToLower(strings.TrimSpace(fw.DeviceName + "\x00" + fw.Version + "\x00" + fw.Description))
+	if key == "" {
+		return
+	}
+	if _, exists := seen[key]; exists {
+		return
+	}
+	seen[key] = struct{}{}
+	result.Hardware.Firmware = append(result.Hardware.Firmware, fw)
+}
+
 // parseDiskInfo parses a single PhysicalDrivesInfo/DiskN/disk_info file.
 func parseDiskInfo(content []byte) *models.Storage {
 	fields := parseKeyValueBlock(content)

internal/parser/vendors/xfusion/parser.go

@@ -13,7 +13,7 @@ import (
 	"git.mchus.pro/mchus/logpile/internal/parser"
 )
 
-const parserVersion = "1.0"
+const parserVersion = "1.1"
 
 func init() {
 	parser.Register(&Parser{})
@@ -34,11 +34,15 @@ func (p *Parser) Detect(files []parser.ExtractedFile) int {
 		path := strings.ToLower(f.Path)
 		switch {
 		case strings.Contains(path, "appdump/frudata/fruinfo.txt"):
-			confidence += 60
+			confidence += 50
+		case strings.Contains(path, "rtosdump/versioninfo/app_revision.txt"):
+			confidence += 30
 		case strings.Contains(path, "appdump/sensor_alarm/sensor_info.txt"):
-			confidence += 20
+			confidence += 10
 		case strings.Contains(path, "appdump/card_manage/card_info"):
 			confidence += 20
+		case strings.Contains(path, "logdump/netcard/netcard_info.txt"):
+			confidence += 20
 		}
 		if confidence >= 100 {
 			return 100
@@ -54,17 +58,21 @@ func (p *Parser) Parse(files []parser.ExtractedFile) (*models.AnalysisResult, er
 		FRU:     make([]models.FRUInfo, 0),
 		Sensors: make([]models.SensorReading, 0),
 		Hardware: &models.HardwareConfig{
-			CPUs:        make([]models.CPU, 0),
+			Firmware:        make([]models.FirmwareInfo, 0),
-			Memory:      make([]models.MemoryDIMM, 0),
+			Devices:         make([]models.HardwareDevice, 0),
-			Storage:     make([]models.Storage, 0),
+			CPUs:            make([]models.CPU, 0),
-			GPUs:        make([]models.GPU, 0),
+			Memory:          make([]models.MemoryDIMM, 0),
-			NetworkCards: make([]models.NIC, 0),
+			Storage:         make([]models.Storage, 0),
-			PowerSupply: make([]models.PSU, 0),
+			Volumes:         make([]models.StorageVolume, 0),
-			Firmware:    make([]models.FirmwareInfo, 0),
+			PCIeDevices:     make([]models.PCIeDevice, 0),
+			GPUs:            make([]models.GPU, 0),
+			NetworkCards:    make([]models.NIC, 0),
+			NetworkAdapters: make([]models.NetworkAdapter, 0),
+			PowerSupply:     make([]models.PSU, 0),
 		},
 	}
 
-	if f := findByPath(files, "appdump/frudata/fruinfo.txt"); f != nil {
+	if f := findByAnyPath(files, "appdump/frudata/fruinfo.txt", "rtosdump/versioninfo/fruinfo.txt"); f != nil {
 		parseFRUInfo(f.Content, result)
 	}
 	if f := findByPath(files, "appdump/sensor_alarm/sensor_info.txt"); f != nil {
@@ -76,10 +84,20 @@ func (p *Parser) Parse(files []parser.ExtractedFile) (*models.AnalysisResult, er
 	if f := findByPath(files, "appdump/cpumem/mem_info"); f != nil {
 		result.Hardware.Memory = parseMemInfo(f.Content)
 	}
+	var nicCards []xfusionNICCard
 	if f := findByPath(files, "appdump/card_manage/card_info"); f != nil {
-		gpus, nics := parseCardInfo(f.Content)
+		gpus, cards := parseCardInfo(f.Content)
 		result.Hardware.GPUs = gpus
-		result.Hardware.NetworkCards = nics
+		nicCards = cards
+	}
+	if f := findByPath(files, "logdump/netcard/netcard_info.txt"); f != nil || len(nicCards) > 0 {
+		var content []byte
+		if f != nil {
+			content = f.Content
+		}
+		adapters, legacyNICs := mergeNetworkAdapters(nicCards, parseNetcardInfo(content))
+		result.Hardware.NetworkAdapters = adapters
+		result.Hardware.NetworkCards = legacyNICs
 	}
 	if f := findByPath(files, "appdump/bmc/psu_info.txt"); f != nil {
 		result.Hardware.PowerSupply = parsePSUInfo(f.Content)
@@ -87,6 +105,9 @@ func (p *Parser) Parse(files []parser.ExtractedFile) (*models.AnalysisResult, er
 	if f := findByPath(files, "appdump/storagemgnt/raid_controller_info.txt"); f != nil {
 		parseStorageControllerInfo(f.Content, result)
 	}
+	if f := findByPath(files, "rtosdump/versioninfo/app_revision.txt"); f != nil {
+		parseAppRevision(f.Content, result)
+	}
 	for _, f := range findDiskInfoFiles(files) {
 		disk := parseDiskInfo(f.Content)
 		if disk != nil {
@@ -99,6 +120,7 @@ func (p *Parser) Parse(files []parser.ExtractedFile) (*models.AnalysisResult, er
 
 	result.Protocol = "ipmi"
 	result.SourceType = models.SourceTypeArchive
+	parser.ApplyManufacturedYearWeekFromFRU(result.FRU, result.Hardware)
 
 	return result, nil
 }
@@ -113,6 +135,15 @@ func findByPath(files []parser.ExtractedFile, substring string) *parser.Extracte
 	return nil
 }
 
+func findByAnyPath(files []parser.ExtractedFile, substrings ...string) *parser.ExtractedFile {
+	for _, substring := range substrings {
+		if f := findByPath(files, substring); f != nil {
+			return f
+		}
+	}
+	return nil
+}
+
 // findDiskInfoFiles returns all PhysicalDrivesInfo disk_info files.
 func findDiskInfoFiles(files []parser.ExtractedFile) []parser.ExtractedFile {
 	var out []parser.ExtractedFile

internal/parser/vendors/xfusion/parser_test.go

@@ -1,8 +1,10 @@
 package xfusion
 
 import (
+	"strings"
 	"testing"
 
+	"git.mchus.pro/mchus/logpile/internal/models"
 	"git.mchus.pro/mchus/logpile/internal/parser"
 )
 
@@ -26,6 +28,29 @@ func TestDetect_G5500V7(t *testing.T) {
 	}
 }
 
+func TestDetect_ServerFileExportMarkers(t *testing.T) {
+	p := &Parser{}
+	score := p.Detect([]parser.ExtractedFile{
+		{Path: "dump_info/RTOSDump/versioninfo/app_revision.txt", Content: []byte("Product Name: G5500 V7")},
+		{Path: "dump_info/LogDump/netcard/netcard_info.txt", Content: []byte("2026-02-04 03:54:06 UTC")},
+		{Path: "dump_info/AppDump/card_manage/card_info", Content: []byte("OCP Card Info")},
+	})
+	if score < 70 {
+		t.Fatalf("expected Detect score >= 70 for xFusion file export markers, got %d", score)
+	}
+}
+
+func TestDetect_Negative(t *testing.T) {
+	p := &Parser{}
+	score := p.Detect([]parser.ExtractedFile{
+		{Path: "logs/messages.txt", Content: []byte("plain text")},
+		{Path: "inventory.json", Content: []byte(`{"vendor":"other"}`)},
+	})
+	if score != 0 {
+		t.Fatalf("expected Detect score 0 for non-xFusion input, got %d", score)
+	}
+}
+
 func TestParse_G5500V7_BoardInfo(t *testing.T) {
 	files := loadTestArchive(t, "../../../../example/G5500V7_210619KUGGXGS2000015_20260318-1128.tar.gz")
 	p := &Parser{}
@@ -126,6 +151,94 @@ func TestParse_G5500V7_NICs(t *testing.T) {
 	}
 }
 
+func TestParse_ServerFileExport_NetworkAdaptersAndFirmware(t *testing.T) {
+	p := &Parser{}
+	files := []parser.ExtractedFile{
+		{
+			Path: "dump_info/AppDump/card_manage/card_info",
+			Content: []byte(strings.TrimSpace(`
+Pcie Card Info
+Slot | Vender Id  | Device Id  | Sub Vender Id   | Sub Device Id   | Segment Number  | Bus Number   | Device Number  | Function Number  | Card Desc                     | Board Id   | PCB Version    | CPLD Version   | Sub Card Bom Id  | PartNum  | SerialNumber    | OriginalPartNum
+1    | 0x15b3     | 0x101f     | 0x1f24          | 0x2011          | 0x00            | 0x27         | 0x00           | 0x00             | MT2894 Family [ConnectX-6 Lx] | N/A        | N/A            | N/A            | N/A              | 0302Y238 | 02Y238X6RC000058 |
+
+OCP Card Info
+Slot | Vender Id  | Device Id  | Sub Vender Id   | Sub Device Id   | Segment Number  | Bus Number   | Device Number  | Function Number  | Card Desc                     | Board Id   | PCB Version    | CPLD Version   | Sub Card Bom Id  | PartNum  | SerialNumber    | OriginalPartNum
+1    | 0x15b3     | 0x101f     | 0x1f24          | 0x2011          | 0x00            | 0x27         | 0x00           | 0x00             | MT2894 Family [ConnectX-6 Lx] | N/A        | N/A            | N/A            | N/A              | 0302Y238 | 02Y238X6RC000058 |
+`)),
+		},
+		{
+			Path: "dump_info/LogDump/netcard/netcard_info.txt",
+			Content: []byte(strings.TrimSpace(`
+2026-02-04 03:54:06 UTC
+ProductName     :XC385
+Manufacture     :XFUSION
+FirmwareVersion :26.39.2048
+SlotId          :1
+Port0    BDF:0000:27:00.0
+         MacAddr:44:1A:4C:16:E8:03
+         ActualMac:44:1A:4C:16:E8:03
+Port1    BDF:0000:27:00.1
+         MacAddr:00:00:00:00:00:00
+         ActualMac:44:1A:4C:16:E8:04
+`)),
+		},
+		{
+			Path: "dump_info/RTOSDump/versioninfo/app_revision.txt",
+			Content: []byte(strings.TrimSpace(`
+------------------- iBMC INFO -------------------
+Active iBMC    Version:           (U68)3.08.05.85
+Active iBMC      Built:           16:46:26 Jan  4 2026
+SDK            Version:           13.16.30.16
+SDK              Built:           07:55:18 Dec 12 2025
+Active BIOS    Version:           (U6216)01.02.08.17
+Active BIOS      Built:           00:00:00 Jan 05 2026
+Product           Name:           G5500 V7
+`)),
+		},
+	}
+
+	result, err := p.Parse(files)
+	if err != nil {
+		t.Fatalf("Parse: %v", err)
+	}
+	if result.Protocol != "ipmi" || result.SourceType != models.SourceTypeArchive {
+		t.Fatalf("unexpected source metadata: protocol=%q source_type=%q", result.Protocol, result.SourceType)
+	}
+	if result.Hardware == nil {
+		t.Fatal("Hardware is nil")
+	}
+	if len(result.Hardware.NetworkAdapters) != 1 {
+		t.Fatalf("expected 1 network adapter, got %d", len(result.Hardware.NetworkAdapters))
+	}
+	adapter := result.Hardware.NetworkAdapters[0]
+	if adapter.BDF != "0000:27:00.0" {
+		t.Fatalf("expected network adapter BDF 0000:27:00.0, got %q", adapter.BDF)
+	}
+	if adapter.Firmware != "26.39.2048" {
+		t.Fatalf("expected network adapter firmware 26.39.2048, got %q", adapter.Firmware)
+	}
+	if adapter.SerialNumber != "02Y238X6RC000058" {
+		t.Fatalf("expected network adapter serial from card_info, got %q", adapter.SerialNumber)
+	}
+	if len(adapter.MACAddresses) != 2 || adapter.MACAddresses[0] != "44:1A:4C:16:E8:03" || adapter.MACAddresses[1] != "44:1A:4C:16:E8:04" {
+		t.Fatalf("unexpected MAC addresses: %#v", adapter.MACAddresses)
+	}
+
+	fwByDevice := make(map[string]models.FirmwareInfo)
+	for _, fw := range result.Hardware.Firmware {
+		fwByDevice[fw.DeviceName] = fw
+	}
+	if fwByDevice["iBMC"].Version != "(U68)3.08.05.85" {
+		t.Fatalf("expected iBMC firmware from app_revision.txt, got %#v", fwByDevice["iBMC"])
+	}
+	if fwByDevice["BIOS"].Version != "(U6216)01.02.08.17" {
+		t.Fatalf("expected BIOS firmware from app_revision.txt, got %#v", fwByDevice["BIOS"])
+	}
+	if result.Hardware.BoardInfo.ProductName != "G5500 V7" {
+		t.Fatalf("expected board product fallback from app_revision.txt, got %q", result.Hardware.BoardInfo.ProductName)
+	}
+}
+
 func TestParse_G5500V7_PSUs(t *testing.T) {
 	files := loadTestArchive(t, "../../../../example/G5500V7_210619KUGGXGS2000015_20260318-1128.tar.gz")
 	p := &Parser{}

internal/parser/vendors/xigmanas/parser_test.go

@@ -44,6 +44,9 @@ func TestParserParseExample(t *testing.T) {
 	examplePath := filepath.Join("..", "..", "..", "..", "example", "xigmanas.txt")
 	raw, err := os.ReadFile(examplePath)
 	if err != nil {
+		if os.IsNotExist(err) {
+			t.Skipf("example file %s not present", examplePath)
+		}
 		t.Fatalf("read example file: %v", err)
 	}
 

internal/server/collect_handlers_test.go

@@ -3,6 +3,8 @@ package server
 import (
 	"bytes"
 	"encoding/json"
+	"fmt"
+	"net"
 	"net/http"
 	"net/http/httptest"
 	"strings"
@@ -22,6 +24,7 @@ func newCollectTestServer() (*Server, *httptest.Server) {
 	mux.HandleFunc("POST /api/collect", s.handleCollectStart)
 	mux.HandleFunc("GET /api/collect/{id}", s.handleCollectStatus)
 	mux.HandleFunc("POST /api/collect/{id}/cancel", s.handleCollectCancel)
+	mux.HandleFunc("POST /api/collect/{id}/skip", s.handleCollectSkip)
 	return s, httptest.NewServer(mux)
 }
 
@@ -29,7 +32,17 @@ func TestCollectProbe(t *testing.T) {
 	_, ts := newCollectTestServer()
 	defer ts.Close()
 
-	body := `{"host":"bmc-off.local","protocol":"redfish","port":443,"username":"admin","auth_type":"password","password":"secret","tls_mode":"strict"}`
+	ln, err := net.Listen("tcp", "127.0.0.1:0")
+	if err != nil {
+		t.Fatalf("listen probe target: %v", err)
+	}
+	defer ln.Close()
+	addr, ok := ln.Addr().(*net.TCPAddr)
+	if !ok {
+		t.Fatalf("unexpected listener address type: %T", ln.Addr())
+	}
+
+	body := fmt.Sprintf(`{"host":"127.0.0.1","protocol":"redfish","port":%d,"username":"admin-off","auth_type":"password","password":"secret","tls_mode":"strict"}`, addr.Port)
 	resp, err := http.Post(ts.URL+"/api/collect/probe", "application/json", bytes.NewBufferString(body))
 	if err != nil {
 		t.Fatalf("post collect probe failed: %v", err)
@@ -53,9 +66,6 @@ func TestCollectProbe(t *testing.T) {
 	if payload.HostPowerState != "Off" {
 		t.Fatalf("expected host power state Off, got %q", payload.HostPowerState)
 	}
-	if !payload.PowerControlAvailable {
-		t.Fatalf("expected power control to be available")
-	}
 }
 
 func TestCollectLifecycleToTerminal(t *testing.T) {

internal/server/collect_test_helpers_test.go

@@ -21,13 +21,16 @@ func (c *mockConnector) Probe(ctx context.Context, req collector.Request) (*coll
 	if strings.Contains(strings.ToLower(req.Host), "fail") {
 		return nil, context.DeadlineExceeded
 	}
+	hostPoweredOn := true
+	if strings.Contains(strings.ToLower(req.Host), "off") || strings.Contains(strings.ToLower(req.Username), "off") {
+		hostPoweredOn = false
+	}
 	return &collector.ProbeResult{
-		Reachable:             true,
+		Reachable:      true,
-		Protocol:              c.protocol,
+		Protocol:       c.protocol,
-		HostPowerState:        map[bool]string{true: "On", false: "Off"}[!strings.Contains(strings.ToLower(req.Host), "off")],
+		HostPowerState: map[bool]string{true: "On", false: "Off"}[hostPoweredOn],
-		HostPoweredOn:         !strings.Contains(strings.ToLower(req.Host), "off"),
+		HostPoweredOn:  hostPoweredOn,
-		PowerControlAvailable: true,
+		SystemPath:     "/redfish/v1/Systems/1",
-		SystemPath:            "/redfish/v1/Systems/1",
 	}, nil
 }
 

internal/server/collect_types.go

@@ -19,18 +19,15 @@ type CollectRequest struct {
 	Password         string `json:"password,omitempty"`
 	Token            string `json:"token,omitempty"`
 	TLSMode          string `json:"tls_mode"`
-	PowerOnIfHostOff     bool `json:"power_on_if_host_off,omitempty"`
+	DebugPayloads bool `json:"debug_payloads,omitempty"`
-	StopHostAfterCollect bool `json:"stop_host_after_collect,omitempty"`
-	DebugPayloads        bool `json:"debug_payloads,omitempty"`
 }
 
 type CollectProbeResponse struct {
 	Reachable             bool   `json:"reachable"`
 	Protocol              string `json:"protocol,omitempty"`
-	HostPowerState        string `json:"host_power_state,omitempty"`
+	HostPowerState string `json:"host_power_state,omitempty"`
-	HostPoweredOn         bool   `json:"host_powered_on"`
+	HostPoweredOn  bool   `json:"host_powered_on"`
-	PowerControlAvailable bool   `json:"power_control_available"`
+	Message        string `json:"message,omitempty"`
-	Message               string `json:"message,omitempty"`
 }
 
 type CollectJobResponse struct {
@@ -78,7 +75,8 @@ type Job struct {
 	CreatedAt     time.Time
 	UpdatedAt     time.Time
 	RequestMeta   CollectRequestMeta
-	cancel        func()
+	cancel  func()
+	skipFn  func()
 }
 
 type CollectModuleStatus struct {

internal/server/device_repository.go

@@ -81,7 +81,7 @@ func BuildHardwareDevices(hw *models.HardwareConfig) []models.HardwareDevice {
 	}
 
 	for _, mem := range hw.Memory {
-		if !mem.Present || mem.SizeMB == 0 {
+		if !mem.IsInstalledInventory() {
 			continue
 		}
 		present := mem.Present
@@ -243,6 +243,8 @@ func BuildHardwareDevices(hw *models.HardwareConfig) []models.HardwareDevice {
 			Source:           "network_adapters",
 			Slot:             nic.Slot,
 			Location:         nic.Location,
+			BDF:              nic.BDF,
+			DeviceClass:      "NetworkController",
 			VendorID:         nic.VendorID,
 			DeviceID:         nic.DeviceID,
 			Model:            nic.Model,
@@ -253,6 +255,11 @@ func BuildHardwareDevices(hw *models.HardwareConfig) []models.HardwareDevice {
 			PortCount:        nic.PortCount,
 			PortType:         nic.PortType,
 			MACAddresses:     nic.MACAddresses,
+			LinkWidth:        nic.LinkWidth,
+			LinkSpeed:        nic.LinkSpeed,
+			MaxLinkWidth:     nic.MaxLinkWidth,
+			MaxLinkSpeed:     nic.MaxLinkSpeed,
+			NUMANode:         nic.NUMANode,
 			Present:          &present,
 			Status:           nic.Status,
 			StatusCheckedAt:  nic.StatusCheckedAt,

internal/server/device_repository_test.go

@@ -90,6 +90,98 @@ func TestBuildHardwareDevices_MemorySameSerialDifferentSlots_NotDeduped(t *testi
 	}
 }
 
+func TestBuildHardwareDevices_ZeroSizeMemoryWithInventoryIsIncluded(t *testing.T) {
+	hw := &models.HardwareConfig{
+		Memory: []models.MemoryDIMM{
+			{
+				Slot:         "PROC 1 DIMM 3",
+				Location:     "PROC 1 DIMM 3",
+				Present:      true,
+				SizeMB:       0,
+				Manufacturer: "Hynix",
+				SerialNumber: "2B5F92C6",
+				PartNumber:   "HMCG88AEBRA115N",
+				Status:       "ok",
+			},
+		},
+	}
+
+	devices := BuildHardwareDevices(hw)
+	memoryCount := 0
+	for _, d := range devices {
+		if d.Kind != models.DeviceKindMemory {
+			continue
+		}
+		memoryCount++
+		if d.Slot != "PROC 1 DIMM 3" || d.PartNumber != "HMCG88AEBRA115N" || d.SerialNumber != "2B5F92C6" {
+			t.Fatalf("unexpected memory device: %+v", d)
+		}
+	}
+	if memoryCount != 1 {
+		t.Fatalf("expected 1 installed zero-size memory record, got %d", memoryCount)
+	}
+}
+
+func TestBuildHardwareDevices_NetworkAdapterPreservesPCIeMetadata(t *testing.T) {
+	hw := &models.HardwareConfig{
+		NetworkAdapters: []models.NetworkAdapter{
+			{
+				Slot:         "1",
+				Location:     "OCP",
+				Present:      true,
+				BDF:          "0000:27:00.0",
+				Model:        "ConnectX-6 Lx",
+				VendorID:     0x15b3,
+				DeviceID:     0x101f,
+				SerialNumber: "NIC-001",
+				Firmware:     "26.39.2048",
+				MACAddresses: []string{"44:1A:4C:16:E8:03", "44:1A:4C:16:E8:04"},
+				LinkWidth:    16,
+				LinkSpeed:    "32 GT/s",
+				NUMANode:     1,
+				Status:       "ok",
+			},
+		},
+	}
+
+	devices := BuildHardwareDevices(hw)
+	for _, d := range devices {
+		if d.Kind != models.DeviceKindNetwork {
+			continue
+		}
+		if d.BDF != "0000:27:00.0" || d.LinkWidth != 16 || d.LinkSpeed != "32 GT/s" || d.NUMANode != 1 {
+			t.Fatalf("expected network PCIe metadata to be preserved, got %+v", d)
+		}
+		return
+	}
+	t.Fatal("expected network device in canonical inventory")
+}
+
+func TestBuildSpecification_ZeroSizeMemoryWithInventoryIsShown(t *testing.T) {
+	hw := &models.HardwareConfig{
+		Memory: []models.MemoryDIMM{
+			{
+				Slot:         "PROC 1 DIMM 3",
+				Present:      true,
+				SizeMB:       0,
+				Manufacturer: "Hynix",
+				PartNumber:   "HMCG88AEBRA115N",
+				SerialNumber: "2B5F92C6",
+				Status:       "ok",
+			},
+		},
+	}
+
+	spec := buildSpecification(hw)
+	for _, line := range spec {
+		if line.Category == "Память" && line.Name == "Hynix HMCG88AEBRA115N (size unknown)" && line.Quantity == 1 {
+			return
+		}
+	}
+
+	t.Fatalf("expected memory spec line for zero-size identified DIMM, got %+v", spec)
+}
+
 func TestBuildHardwareDevices_DuplicateSerials_AreAnnotated(t *testing.T) {
 	hw := &models.HardwareConfig{
 		Memory: []models.MemoryDIMM{
@@ -166,6 +258,31 @@ func TestBuildHardwareDevices_SkipsFirmwareOnlyNumericSlots(t *testing.T) {
 	}
 }
 
+func TestBuildHardwareDevices_NetworkDevicesUseUnifiedControllerClass(t *testing.T) {
+	hw := &models.HardwareConfig{
+		NetworkAdapters: []models.NetworkAdapter{
+			{
+				Slot:    "NIC1",
+				Model:   "Ethernet Adapter",
+				Vendor:  "Intel",
+				Present: true,
+			},
+		},
+	}
+
+	devices := BuildHardwareDevices(hw)
+	for _, d := range devices {
+		if d.Kind != models.DeviceKindNetwork {
+			continue
+		}
+		if d.DeviceClass != "NetworkController" {
+			t.Fatalf("expected unified network controller class, got %+v", d)
+		}
+		return
+	}
+	t.Fatalf("expected one canonical network device")
+}
+
 func TestHandleGetConfig_ReturnsCanonicalHardware(t *testing.T) {
 	srv := &Server{}
 	srv.SetResult(&models.AnalysisResult{

internal/server/handlers.go

@@ -18,6 +18,7 @@ import (
 	"sort"
 	"strconv"
 	"strings"
+	"sync"
 	"sync/atomic"
 	"time"
 
@@ -530,11 +531,21 @@ func buildSpecification(hw *models.HardwareConfig) []SpecLine {
 			continue
 		}
 		present := mem.Present != nil && *mem.Present
-		// Skip empty slots (not present or 0 size)
+		if !present {
-		if !present || mem.SizeMB == 0 {
 			continue
 		}
-		// Include frequency if available
+
+		if mem.SizeMB == 0 {
+			name := strings.TrimSpace(strings.Join(nonEmptyStrings(mem.Manufacturer, mem.PartNumber, mem.Type), " "))
+			if name == "" {
+				name = "Installed DIMM (size unknown)"
+			} else {
+				name += " (size unknown)"
+			}
+			memGroups[name]++
+			continue
+		}
+
 		key := ""
 		currentSpeed := intFromDetails(mem.Details, "current_speed_mhz")
 		if currentSpeed > 0 {
@@ -626,6 +637,18 @@ func buildSpecification(hw *models.HardwareConfig) []SpecLine {
 	return spec
 }
 
+func nonEmptyStrings(values ...string) []string {
+	out := make([]string, 0, len(values))
+	for _, value := range values {
+		value = strings.TrimSpace(value)
+		if value == "" {
+			continue
+		}
+		out = append(out, value)
+	}
+	return out
+}
+
 func (s *Server) handleGetSerials(w http.ResponseWriter, r *http.Request) {
 	result := s.GetResult()
 	if result == nil {
@@ -1652,34 +1675,28 @@ func (s *Server) handleCollectProbe(w http.ResponseWriter, r *http.Request) {
 
 	message := "Связь с BMC установлена"
 	if result != nil {
-		switch {
+		if result.HostPoweredOn {
-		case !result.HostPoweredOn && result.PowerControlAvailable:
+			message = "Связь с BMC установлена, host включён."
-			message = "Связь с BMC установлена, host выключен. Можно включить перед сбором."
+		} else {
-		case !result.HostPoweredOn:
+			message = "Связь с BMC установлена, host выключен. Данные инвентаря могут быть неполными."
-			message = "Связь с BMC установлена, host выключен."
-		default:
-			message = "Связь с BMC установлена, host включен."
 		}
 	}
 
 	hostPowerState := ""
 	hostPoweredOn := false
-	powerControlAvailable := false
 	reachable := false
 	if result != nil {
 		reachable = result.Reachable
 		hostPowerState = strings.TrimSpace(result.HostPowerState)
 		hostPoweredOn = result.HostPoweredOn
-		powerControlAvailable = result.PowerControlAvailable
 	}
 
 	jsonResponse(w, CollectProbeResponse{
-		Reachable:             reachable,
+		Reachable:      reachable,
-		Protocol:              req.Protocol,
+		Protocol:       req.Protocol,
-		HostPowerState:        hostPowerState,
+		HostPowerState: hostPowerState,
-		HostPoweredOn:         hostPoweredOn,
+		HostPoweredOn:  hostPoweredOn,
-		PowerControlAvailable: powerControlAvailable,
+		Message:        message,
-		Message:               message,
 	})
 }
 
@@ -1715,6 +1732,22 @@ func (s *Server) handleCollectCancel(w http.ResponseWriter, r *http.Request) {
 	jsonResponse(w, job.toStatusResponse())
 }
 
+func (s *Server) handleCollectSkip(w http.ResponseWriter, r *http.Request) {
+	jobID := strings.TrimSpace(r.PathValue("id"))
+	if !isValidCollectJobID(jobID) {
+		jsonError(w, "Invalid collect job id", http.StatusBadRequest)
+		return
+	}
+
+	job, ok := s.jobManager.SkipJob(jobID)
+	if !ok {
+		jsonError(w, "Collect job not found", http.StatusNotFound)
+		return
+	}
+
+	jsonResponse(w, job.toStatusResponse())
+}
+
 func (s *Server) startCollectionJob(jobID string, req CollectRequest) {
 	ctx, cancel := context.WithCancel(context.Background())
 	if attached := s.jobManager.AttachJobCancel(jobID, cancel); !attached {
@@ -1722,6 +1755,11 @@ func (s *Server) startCollectionJob(jobID string, req CollectRequest) {
 		return
 	}
 
+	skipCh := make(chan struct{})
+	var skipOnce sync.Once
+	skipFn := func() { skipOnce.Do(func() { close(skipCh) }) }
+	s.jobManager.AttachJobSkip(jobID, skipFn)
+
 	go func() {
 		connector, ok := s.getCollector(req.Protocol)
 		if !ok {
@@ -1789,7 +1827,9 @@ func (s *Server) startCollectionJob(jobID string, req CollectRequest) {
 			}
 		}
 
-		result, err := connector.Collect(ctx, toCollectorRequest(req), emitProgress)
+		collectorReq := toCollectorRequest(req)
+		collectorReq.SkipHungCh = skipCh
+		result, err := connector.Collect(ctx, collectorReq, emitProgress)
 		if err != nil {
 			if ctx.Err() != nil {
 				return
@@ -2013,9 +2053,7 @@ func toCollectorRequest(req CollectRequest) collector.Request {
 		Password:             req.Password,
 		Token:                req.Token,
 		TLSMode:              req.TLSMode,
-		PowerOnIfHostOff:     req.PowerOnIfHostOff,
+		DebugPayloads: req.DebugPayloads,
-		StopHostAfterCollect: req.StopHostAfterCollect,
-		DebugPayloads:        req.DebugPayloads,
 	}
 }
 

internal/server/job_manager.go

@@ -175,6 +175,43 @@ func (m *JobManager) UpdateJobDebugInfo(id string, info *CollectDebugInfo) (*Job
 	return cloned, true
 }
 
+func (m *JobManager) AttachJobSkip(id string, skipFn func()) bool {
+	m.mu.Lock()
+	defer m.mu.Unlock()
+
+	job, ok := m.jobs[id]
+	if !ok || job == nil || isTerminalCollectStatus(job.Status) {
+		return false
+	}
+	job.skipFn = skipFn
+	return true
+}
+
+func (m *JobManager) SkipJob(id string) (*Job, bool) {
+	m.mu.Lock()
+	job, ok := m.jobs[id]
+	if !ok || job == nil {
+		m.mu.Unlock()
+		return nil, false
+	}
+	if isTerminalCollectStatus(job.Status) {
+		cloned := cloneJob(job)
+		m.mu.Unlock()
+		return cloned, true
+	}
+	skipFn := job.skipFn
+	job.skipFn = nil
+	job.UpdatedAt = time.Now().UTC()
+	job.Logs = append(job.Logs, formatCollectLogLine(job.UpdatedAt, "Пропуск зависших запросов по команде пользователя"))
+	cloned := cloneJob(job)
+	m.mu.Unlock()
+
+	if skipFn != nil {
+		skipFn()
+	}
+	return cloned, true
+}
+
 func (m *JobManager) AttachJobCancel(id string, cancelFn context.CancelFunc) bool {
 	m.mu.Lock()
 	defer m.mu.Unlock()
@@ -229,5 +266,6 @@ func cloneJob(job *Job) *Job {
 	cloned.CurrentPhase = job.CurrentPhase
 	cloned.ETASeconds = job.ETASeconds
 	cloned.cancel = nil
+	cloned.skipFn = nil
 	return &cloned
 }

internal/server/server.go

@@ -99,6 +99,7 @@ func (s *Server) setupRoutes() {
 	s.mux.HandleFunc("POST /api/collect/probe", s.handleCollectProbe)
 	s.mux.HandleFunc("GET /api/collect/{id}", s.handleCollectStatus)
 	s.mux.HandleFunc("POST /api/collect/{id}/cancel", s.handleCollectCancel)
+	s.mux.HandleFunc("POST /api/collect/{id}/skip", s.handleCollectSkip)
 }
 
 func (s *Server) Run() error {

internal/server/upload_live_smoke_test.go

@@ -24,6 +24,7 @@ func newFlowTestServer() (*Server, *httptest.Server) {
 	mux.HandleFunc("POST /api/collect", s.handleCollectStart)
 	mux.HandleFunc("GET /api/collect/{id}", s.handleCollectStatus)
 	mux.HandleFunc("POST /api/collect/{id}/cancel", s.handleCollectCancel)
+	mux.HandleFunc("POST /api/collect/{id}/skip", s.handleCollectSkip)
 	return s, httptest.NewServer(mux)
 }
 

web/static/css/style.css

@@ -211,8 +211,6 @@ main {
 }
 
 #api-connect-btn,
-#api-power-on-collect-btn,
-#api-collect-off-btn,
 #convert-folder-btn,
 #convert-run-btn,
 #cancel-job-btn,
@@ -229,8 +227,6 @@ main {
 }
 
 #api-connect-btn:hover,
-#api-power-on-collect-btn:hover,
-#api-collect-off-btn:hover,
 #convert-folder-btn:hover,
 #convert-run-btn:hover,
 #cancel-job-btn:hover,
@@ -241,8 +237,6 @@ main {
 #convert-run-btn:disabled,
 #convert-folder-btn:disabled,
 #api-connect-btn:disabled,
-#api-power-on-collect-btn:disabled,
-#api-collect-off-btn:disabled,
 #cancel-job-btn:disabled,
 .upload-area button:disabled {
     opacity: 0.6;
@@ -311,64 +305,19 @@ main {
     border-top: 1px solid #e2e8f0;
 }
 
-.api-confirm-modal-backdrop {
+.api-host-off-warning {
-    position: fixed;
-    inset: 0;
-    background: rgba(0, 0, 0, 0.45);
     display: flex;
     align-items: center;
-    justify-content: center;
+    gap: 0.4rem;
-    z-index: 1000;
+    padding: 0.5rem 0.75rem;
-}
+    background: #fef3c7;
-
+    border: 1px solid #f59e0b;
-.api-confirm-modal {
-    background: #fff;
-    border-radius: 10px;
-    padding: 1.5rem 1.75rem;
-    max-width: 380px;
-    width: 90%;
-    box-shadow: 0 8px 32px rgba(0,0,0,0.18);
-}
-
-.api-confirm-modal p {
-    margin-bottom: 1.1rem;
-    font-size: 0.95rem;
-    color: #333;
-    line-height: 1.5;
-}
-
-.api-confirm-modal-actions {
-    display: flex;
-    gap: 0.6rem;
-    justify-content: flex-end;
-}
-
-.api-confirm-modal-actions button {
-    border: none;
     border-radius: 6px;
-    padding: 0.5rem 1rem;
+    font-size: 0.875rem;
-    font-size: 0.9rem;
+    color: #92400e;
-    font-weight: 600;
+    font-weight: 500;
-    cursor: pointer;
 }
 
-.api-confirm-modal-actions .btn-cancel {
-    background: #e2e8f0;
-    color: #333;
-}
-
-.api-confirm-modal-actions .btn-cancel:hover {
-    background: #cbd5e1;
-}
-
-.api-confirm-modal-actions .btn-confirm {
-    background: #dc3545;
-    color: #fff;
-}
-
-.api-confirm-modal-actions .btn-confirm:hover {
-    background: #b02a37;
-}
 
 .api-connect-status {
     margin-top: 0.75rem;
@@ -445,6 +394,33 @@ main {
     cursor: default;
 }
 
+.job-status-actions {
+    display: flex;
+    gap: 0.5rem;
+    align-items: center;
+}
+
+#skip-hung-btn {
+    background: #f59e0b;
+    color: #fff;
+    border: none;
+    border-radius: 6px;
+    padding: 0.5rem 0.9rem;
+    font-size: 0.875rem;
+    font-weight: 600;
+    cursor: pointer;
+    transition: background-color 0.2s ease, opacity 0.2s ease;
+}
+
+#skip-hung-btn:hover {
+    background: #d97706;
+}
+
+#skip-hung-btn:disabled {
+    opacity: 0.6;
+    cursor: not-allowed;
+}
+
 .job-status-meta {
     display: grid;
     grid-template-columns: repeat(auto-fit, minmax(230px, 1fr));

web/static/js/app.js

@@ -91,9 +91,9 @@ function initApiSource() {
     }
 
     const cancelJobButton = document.getElementById('cancel-job-btn');
+    const skipHungButton = document.getElementById('skip-hung-btn');
     const connectButton = document.getElementById('api-connect-btn');
     const collectButton = document.getElementById('api-collect-btn');
-    const powerOffCheckbox = document.getElementById('api-power-off');
     const fieldNames = ['host', 'port', 'username', 'password'];
 
     apiForm.addEventListener('submit', (event) => {
@@ -110,6 +110,11 @@ function initApiSource() {
             cancelCollectionJob();
         });
     }
+    if (skipHungButton) {
+        skipHungButton.addEventListener('click', () => {
+            skipHungCollectionJob();
+        });
+    }
     if (connectButton) {
         connectButton.addEventListener('click', () => {
             startApiProbe();
@@ -120,22 +125,6 @@ function initApiSource() {
             startCollectionWithOptions();
         });
     }
-    if (powerOffCheckbox) {
-        powerOffCheckbox.addEventListener('change', () => {
-            if (!powerOffCheckbox.checked) {
-                return;
-            }
-            // If host was already on when probed, warn before enabling shutdown
-            if (apiProbeResult && apiProbeResult.host_powered_on) {
-                showConfirmModal(
-                    'Хост был включён до начала сбора. Вы уверены, что хотите выключить его после завершения сбора?',
-                    () => { /* confirmed — leave checked */ },
-                    () => { powerOffCheckbox.checked = false; }
-                );
-            }
-        });
-    }
-
     fieldNames.forEach((fieldName) => {
         const field = apiForm.elements.namedItem(fieldName);
         if (!field) {
@@ -163,36 +152,6 @@ function initApiSource() {
     renderCollectionJob();
 }
 
-function showConfirmModal(message, onConfirm, onCancel) {
-    const backdrop = document.createElement('div');
-    backdrop.className = 'api-confirm-modal-backdrop';
-    backdrop.innerHTML = `
-        <div class="api-confirm-modal" role="dialog" aria-modal="true">
-            <p>${escapeHtml(message)}</p>
-            <div class="api-confirm-modal-actions">
-                <button class="btn-cancel">Отмена</button>
-                <button class="btn-confirm">Да, выключить</button>
-            </div>
-        </div>
-    `;
-    document.body.appendChild(backdrop);
-
-    const close = () => document.body.removeChild(backdrop);
-    backdrop.querySelector('.btn-cancel').addEventListener('click', () => {
-        close();
-        if (onCancel) onCancel();
-    });
-    backdrop.querySelector('.btn-confirm').addEventListener('click', () => {
-        close();
-        if (onConfirm) onConfirm();
-    });
-    backdrop.addEventListener('click', (e) => {
-        if (e.target === backdrop) {
-            close();
-            if (onCancel) onCancel();
-        }
-    });
-}
 
 function startApiProbe() {
     const { isValid, payload, errors } = validateCollectForm();
@@ -255,11 +214,7 @@ function startCollectionWithOptions() {
         return;
     }
 
-    const powerOnCheckbox = document.getElementById('api-power-on');
-    const powerOffCheckbox = document.getElementById('api-power-off');
     const debugPayloads = document.getElementById('api-debug-payloads');
-    payload.power_on_if_host_off = powerOnCheckbox ? powerOnCheckbox.checked : false;
-    payload.stop_host_after_collect = powerOffCheckbox ? powerOffCheckbox.checked : false;
     payload.debug_payloads = debugPayloads ? debugPayloads.checked : false;
     startCollectionJob(payload);
 }
@@ -268,8 +223,6 @@ function renderApiProbeState() {
     const connectButton = document.getElementById('api-connect-btn');
     const probeOptions = document.getElementById('api-probe-options');
     const status = document.getElementById('api-connect-status');
-    const powerOnCheckbox = document.getElementById('api-power-on');
-    const powerOffCheckbox = document.getElementById('api-power-off');
     if (!connectButton || !probeOptions || !status) {
         return;
     }
@@ -283,7 +236,6 @@ function renderApiProbeState() {
     }
 
     const hostOn = apiProbeResult.host_powered_on;
-    const powerControlAvailable = apiProbeResult.power_control_available;
 
     if (hostOn) {
         status.textContent = apiProbeResult.message || 'Связь с BMC есть, host включён.';
@@ -295,25 +247,15 @@ function renderApiProbeState() {
 
     probeOptions.classList.remove('hidden');
 
-    // "Включить" checkbox
+    const hostOffWarning = document.getElementById('api-host-off-warning');
-    if (powerOnCheckbox) {
+    if (hostOffWarning) {
         if (hostOn) {
-            // Host already on — checkbox is checked and disabled
+            hostOffWarning.classList.add('hidden');
-            powerOnCheckbox.checked = true;
-            powerOnCheckbox.disabled = true;
         } else {
-            // Host off — default: checked (will power on), enabled
+            hostOffWarning.classList.remove('hidden');
-            powerOnCheckbox.checked = true;
-            powerOnCheckbox.disabled = !powerControlAvailable;
         }
     }
 
-    // "Выключить" checkbox — default: unchecked
-    if (powerOffCheckbox) {
-        powerOffCheckbox.checked = false;
-        powerOffCheckbox.disabled = !powerControlAvailable;
-    }
-
     connectButton.textContent = 'Переподключиться';
 }
 
@@ -535,6 +477,36 @@ function pollCollectionJobStatus() {
         });
 }
 
+function skipHungCollectionJob() {
+    if (!collectionJob || isCollectionJobTerminal(collectionJob.status)) {
+        return;
+    }
+    const btn = document.getElementById('skip-hung-btn');
+    if (btn) {
+        btn.disabled = true;
+        btn.textContent = 'Пропуск...';
+    }
+    fetch(`/api/collect/${encodeURIComponent(collectionJob.id)}/skip`, {
+        method: 'POST'
+    })
+        .then(async (response) => {
+            const body = await response.json().catch(() => ({}));
+            if (!response.ok) {
+                throw new Error(body.error || 'Не удалось пропустить зависшие запросы');
+            }
+            syncServerLogs(body.logs);
+            renderCollectionJob();
+        })
+        .catch((err) => {
+            appendJobLog(`Ошибка пропуска: ${err.message}`);
+            if (btn) {
+                btn.disabled = false;
+                btn.textContent = 'Пропустить зависшие';
+            }
+            renderCollectionJob();
+        });
+}
+
 function cancelCollectionJob() {
     if (!collectionJob || isCollectionJobTerminal(collectionJob.status)) {
         return;
@@ -671,6 +643,19 @@ function renderCollectionJob() {
         )).join('');
 
     cancelButton.disabled = isTerminal;
+
+    const skipBtn = document.getElementById('skip-hung-btn');
+    if (skipBtn) {
+        const isCollecting = !isTerminal && collectionJob.status === 'running';
+        if (isCollecting) {
+            skipBtn.classList.remove('hidden');
+        } else {
+            skipBtn.classList.add('hidden');
+            skipBtn.disabled = false;
+            skipBtn.textContent = 'Пропустить зависшие';
+        }
+    }
+
     setApiFormBlocked(!isTerminal);
 }
 

web/templates/index.html

@@ -36,9 +36,9 @@
             <div id="archive-source-content">
                 <div class="upload-area" id="drop-zone">
                     <p>Перетащите архив, TXT/LOG или JSON snapshot сюда</p>
-                    <input type="file" id="file-input" accept="application/gzip,application/x-gzip,application/x-tar,application/zip,application/json,text/plain,.json,.tar,.tar.gz,.tgz,.sds,.zip,.txt,.log" hidden>
+                    <input type="file" id="file-input" accept="application/gzip,application/x-gzip,application/x-tar,application/zip,application/json,text/plain,.ahs,.json,.tar,.tar.gz,.tgz,.sds,.zip,.txt,.log" hidden>
                     <button type="button" onclick="document.getElementById('file-input').click()">Выберите файл</button>
-                    <p class="hint">Поддерживаемые форматы: tar.gz, tar, tgz, sds, zip, json, txt, log</p>
+                    <p class="hint">Поддерживаемые форматы: ahs, tar.gz, tar, tgz, sds, zip, json, txt, log</p>
                 </div>
                 <div id="upload-status"></div>
                 <div id="parsers-info" class="parsers-info"></div>
@@ -80,15 +80,9 @@
                     </div>
                     <div id="api-connect-status" class="api-connect-status"></div>
                     <div id="api-probe-options" class="api-probe-options hidden">
-                        <label class="api-form-checkbox" for="api-power-on">
+                        <div id="api-host-off-warning" class="api-host-off-warning hidden">
-                            <input id="api-power-on" name="power_on_if_host_off" type="checkbox">
+                            &#9888; Host выключен — данные инвентаря могут быть неполными
-                            <span>Включить перед сбором</span>
+                        </div>
-                        </label>
-                        <label class="api-form-checkbox" for="api-power-off">
-                            <input id="api-power-off" name="stop_host_after_collect" type="checkbox">
-                            <span>Выключить после сбора</span>
-                        </label>
-                        <div class="api-probe-options-separator"></div>
                         <label class="api-form-checkbox" for="api-debug-payloads">
                             <input id="api-debug-payloads" name="debug_payloads" type="checkbox">
                             <span>Сбор расширенных метрик для отладки</span>
@@ -102,7 +96,10 @@
                 <section id="api-job-status" class="job-status hidden" aria-live="polite">
                     <div class="job-status-header">
                         <h4>Статус задачи сбора</h4>
-                        <button id="cancel-job-btn" type="button">Отменить</button>
+                        <div class="job-status-actions">
+                            <button id="skip-hung-btn" type="button" class="hidden" title="Прервать зависшие запросы и перейти к анализу собранных данных">Пропустить зависшие</button>
+                            <button id="cancel-job-btn" type="button">Отменить</button>
+                        </div>
                     </div>
                     <div class="job-status-meta">
                         <div><span class="meta-label">jobId:</span> <code id="job-id-value">-</code></div>