package lenovo_xcc_test import ( "testing" "git.mchus.pro/mchus/logpile/internal/parser" lxcc "git.mchus.pro/mchus/logpile/internal/parser/vendors/lenovo_xcc" ) const exampleArchive = "/Users/mchusavitin/Documents/git/logpile/example/7D76CTO1WW_JF0002KT_xcc_mini-log_20260413-122150.zip" func TestDetect_LenovoXCCMiniLog(t *testing.T) { files, err := parser.ExtractArchive(exampleArchive) if err != nil { t.Skipf("example archive not available: %v", err) } p := &lxcc.Parser{} score := p.Detect(files) if score < 80 { t.Errorf("expected Detect score >= 80 for XCC mini-log archive, got %d", score) } } func TestParse_LenovoXCCMiniLog_BasicSysInfo(t *testing.T) { files, err := parser.ExtractArchive(exampleArchive) if err != nil { t.Skipf("example archive not available: %v", err) } p := &lxcc.Parser{} result, err := p.Parse(files) if err != nil { t.Fatalf("Parse returned error: %v", err) } if result == nil || result.Hardware == nil { t.Fatal("Parse returned nil result or hardware") } hw := result.Hardware if hw.BoardInfo.SerialNumber == "" { t.Error("BoardInfo.SerialNumber is empty") } if hw.BoardInfo.ProductName == "" { t.Error("BoardInfo.ProductName is empty") } t.Logf("BoardInfo: serial=%s model=%s uuid=%s", hw.BoardInfo.SerialNumber, hw.BoardInfo.ProductName, hw.BoardInfo.UUID) } func TestParse_LenovoXCCMiniLog_CPUs(t *testing.T) { files, err := parser.ExtractArchive(exampleArchive) if err != nil { t.Skipf("example archive not available: %v", err) } p := &lxcc.Parser{} result, _ := p.Parse(files) if result == nil || result.Hardware == nil { t.Fatal("Parse returned nil") } if len(result.Hardware.CPUs) == 0 { t.Error("expected at least one CPU, got none") } for i, cpu := range result.Hardware.CPUs { t.Logf("CPU[%d]: socket=%d model=%q cores=%d threads=%d freq=%dMHz", i, cpu.Socket, cpu.Model, cpu.Cores, cpu.Threads, cpu.FrequencyMHz) } } func TestParse_LenovoXCCMiniLog_Memory(t *testing.T) { files, err := parser.ExtractArchive(exampleArchive) if err != nil { t.Skipf("example archive not available: %v", err) } p := &lxcc.Parser{} result, _ := p.Parse(files) if result == nil || result.Hardware == nil { t.Fatal("Parse returned nil") } if len(result.Hardware.Memory) == 0 { t.Error("expected memory DIMMs, got none") } t.Logf("Memory: %d DIMMs", len(result.Hardware.Memory)) for i, m := range result.Hardware.Memory { t.Logf("DIMM[%d]: slot=%s present=%v size=%dMB sn=%s", i, m.Slot, m.Present, m.SizeMB, m.SerialNumber) } } func TestParse_LenovoXCCMiniLog_Storage(t *testing.T) { files, err := parser.ExtractArchive(exampleArchive) if err != nil { t.Skipf("example archive not available: %v", err) } p := &lxcc.Parser{} result, _ := p.Parse(files) if result == nil || result.Hardware == nil { t.Fatal("Parse returned nil") } t.Logf("Storage: %d disks", len(result.Hardware.Storage)) for i, s := range result.Hardware.Storage { t.Logf("Disk[%d]: slot=%s model=%q size=%dGB sn=%s", i, s.Slot, s.Model, s.SizeGB, s.SerialNumber) } } func TestParse_LenovoXCCMiniLog_PCIeCards(t *testing.T) { files, err := parser.ExtractArchive(exampleArchive) if err != nil { t.Skipf("example archive not available: %v", err) } p := &lxcc.Parser{} result, _ := p.Parse(files) if result == nil || result.Hardware == nil { t.Fatal("Parse returned nil") } t.Logf("PCIe cards: %d", len(result.Hardware.PCIeDevices)) for i, c := range result.Hardware.PCIeDevices { t.Logf("Card[%d]: slot=%s desc=%q bdf=%s", i, c.Slot, c.Description, c.BDF) } } func TestParse_LenovoXCCMiniLog_PSUs(t *testing.T) { files, err := parser.ExtractArchive(exampleArchive) if err != nil { t.Skipf("example archive not available: %v", err) } p := &lxcc.Parser{} result, _ := p.Parse(files) if result == nil || result.Hardware == nil { t.Fatal("Parse returned nil") } if len(result.Hardware.PowerSupply) == 0 { t.Error("expected PSUs, got none") } for i, p := range result.Hardware.PowerSupply { t.Logf("PSU[%d]: slot=%s wattage=%dW status=%s sn=%s", i, p.Slot, p.WattageW, p.Status, p.SerialNumber) } } func TestParse_LenovoXCCMiniLog_Sensors(t *testing.T) { files, err := parser.ExtractArchive(exampleArchive) if err != nil { t.Skipf("example archive not available: %v", err) } p := &lxcc.Parser{} result, _ := p.Parse(files) if result == nil { t.Fatal("Parse returned nil") } if len(result.Sensors) == 0 { t.Error("expected sensors, got none") } t.Logf("Sensors: %d", len(result.Sensors)) } func TestParse_LenovoXCCMiniLog_Events(t *testing.T) { files, err := parser.ExtractArchive(exampleArchive) if err != nil { t.Skipf("example archive not available: %v", err) } p := &lxcc.Parser{} result, _ := p.Parse(files) if result == nil { t.Fatal("Parse returned nil") } if len(result.Events) == 0 { t.Error("expected events, got none") } t.Logf("Events: %d", len(result.Events)) for i, e := range result.Events { if i >= 5 { break } t.Logf("Event[%d]: severity=%s ts=%s desc=%q", i, e.Severity, e.Timestamp.Format("2006-01-02T15:04:05"), e.Description) } } func TestParse_LenovoXCCMiniLog_FRU(t *testing.T) { files, err := parser.ExtractArchive(exampleArchive) if err != nil { t.Skipf("example archive not available: %v", err) } p := &lxcc.Parser{} result, _ := p.Parse(files) if result == nil { t.Fatal("Parse returned nil") } t.Logf("FRU: %d entries", len(result.FRU)) for i, f := range result.FRU { t.Logf("FRU[%d]: desc=%q product=%q serial=%q", i, f.Description, f.ProductName, f.SerialNumber) } } func TestParse_LenovoXCCMiniLog_Firmware(t *testing.T) { files, err := parser.ExtractArchive(exampleArchive) if err != nil { t.Skipf("example archive not available: %v", err) } p := &lxcc.Parser{} result, _ := p.Parse(files) if result == nil || result.Hardware == nil { t.Fatal("Parse returned nil") } if len(result.Hardware.Firmware) == 0 { t.Error("expected firmware entries, got none") } for i, f := range result.Hardware.Firmware { t.Logf("FW[%d]: name=%q version=%q buildtime=%q", i, f.DeviceName, f.Version, f.BuildTime) } }