package detect import ( "encoding/json" "fmt" "github.com/analogj/scrutiny/collector/pkg/common" "github.com/analogj/scrutiny/collector/pkg/config" "github.com/analogj/scrutiny/collector/pkg/models" "github.com/analogj/scrutiny/webapp/backend/pkg/models/collector" "github.com/sirupsen/logrus" "os" "strings" ) type Detect struct { Logger *logrus.Entry Config config.Interface } //private/common functions // This function calls smartctl --scan which can be used to detect storage devices. // It has a couple of issues however: // - --scan does not return any results on mac // // To handle these issues, we have OS specific wrapper functions that update/modify these detected devices. // models.Device returned from this function only contain the minimum data for smartctl to execute: device type and device name (device file). func (d *Detect) SmartctlScan() ([]models.Device, error) { //we use smartctl to detect all the drives available. detectedDeviceConnJson, err := common.ExecCmd(d.Logger, "smartctl", []string{"--scan", "-j"}, "", os.Environ()) if err != nil { d.Logger.Errorf("Error scanning for devices: %v", err) return nil, err } var detectedDeviceConns models.Scan err = json.Unmarshal([]byte(detectedDeviceConnJson), &detectedDeviceConns) if err != nil { d.Logger.Errorf("Error decoding detected devices: %v", err) return nil, err } detectedDevices := d.TransformDetectedDevices(detectedDeviceConns) return detectedDevices, nil } //updates a device model with information from smartctl --scan // It has a couple of issues however: // - WWN is provided as component data, rather than a "string". We'll have to generate the WWN value ourselves // - WWN from smartctl only provided for ATA protocol drives, NVMe and SCSI drives do not include WWN. func (d *Detect) SmartCtlInfo(device *models.Device) error { args := []string{"--info", "-j"} //only include the device type if its a non-standard one. In some cases ata drives are detected as scsi in docker, and metadata is lost. if len(device.DeviceType) > 0 && device.DeviceType != "scsi" && device.DeviceType != "ata" { args = append(args, "-d", device.DeviceType) } args = append(args, fmt.Sprintf("%s%s", DevicePrefix(), device.DeviceName)) availableDeviceInfoJson, err := common.ExecCmd(d.Logger, "smartctl", args, "", os.Environ()) if err != nil { d.Logger.Errorf("Could not retrieve device information for %s: %v", device.DeviceName, err) return err } var availableDeviceInfo collector.SmartInfo err = json.Unmarshal([]byte(availableDeviceInfoJson), &availableDeviceInfo) if err != nil { d.Logger.Errorf("Could not decode device information for %s: %v", device.DeviceName, err) return err } //WWN: this is a serial number/world-wide number that will not change. //DeviceType and DeviceName are already populated, however may change between collector runs (eg. config/host restart) //InterfaceType: device.ModelName = availableDeviceInfo.ModelName device.InterfaceSpeed = availableDeviceInfo.InterfaceSpeed.Current.String device.SerialNumber = availableDeviceInfo.SerialNumber device.Firmware = availableDeviceInfo.FirmwareVersion device.RotationSpeed = availableDeviceInfo.RotationRate device.Capacity = availableDeviceInfo.UserCapacity.Bytes device.FormFactor = availableDeviceInfo.FormFactor.Name device.DeviceProtocol = availableDeviceInfo.Device.Protocol if len(availableDeviceInfo.Vendor) > 0 { device.Manufacturer = availableDeviceInfo.Vendor } //populate WWN is possible if present if availableDeviceInfo.Wwn.Naa != 0 { //valid values are 1-6 (5 is what we handle correctly) d.Logger.Info("Generating WWN") wwn := Wwn{ Naa: availableDeviceInfo.Wwn.Naa, Oui: availableDeviceInfo.Wwn.Oui, Id: availableDeviceInfo.Wwn.ID, } device.WWN = strings.ToLower(wwn.ToString()) d.Logger.Debugf("NAA: %d OUI: %d Id: %d => WWN: %s", wwn.Naa, wwn.Oui, wwn.Id, device.WWN) } else { d.Logger.Info("Using WWN Fallback") d.wwnFallback(device) } return nil } // function will remove devices that are marked for "ignore" in config file // will also add devices that are specified in config file, but "missing" from smartctl --scan // this function will also update the deviceType to the option specified in config. func (d *Detect) TransformDetectedDevices(detectedDeviceConns models.Scan) []models.Device { groupedDevices := map[string][]models.Device{} for _, scannedDevice := range detectedDeviceConns.Devices { deviceFile := strings.ToLower(scannedDevice.Name) detectedDevice := models.Device{ HostId: d.Config.GetString("host.id"), DeviceType: scannedDevice.Type, DeviceName: strings.TrimPrefix(deviceFile, DevicePrefix()), } //find (or create) a slice to contain the devices in this group if groupedDevices[deviceFile] == nil { groupedDevices[deviceFile] = []models.Device{} } // add this scanned device to the group groupedDevices[deviceFile] = append(groupedDevices[deviceFile], detectedDevice) } //now tha we've "grouped" all the devices, lets override any groups specified in the config file. for _, overrideDevice := range d.Config.GetScanOverrides() { overrideDeviceFile := strings.ToLower(overrideDevice.Device) if overrideDevice.Ignore { // this device file should be deleted if it exists delete(groupedDevices, overrideDeviceFile) } else { //create a new device group, and replace the one generated by smartctl --scan overrideDeviceGroup := []models.Device{} for _, overrideDeviceType := range overrideDevice.DeviceType { overrideDeviceGroup = append(overrideDeviceGroup, models.Device{ HostId: d.Config.GetString("host.id"), DeviceType: overrideDeviceType, DeviceName: strings.TrimPrefix(overrideDeviceFile, DevicePrefix()), }) } groupedDevices[overrideDeviceFile] = overrideDeviceGroup } } //flatten map detectedDevices := []models.Device{} for _, group := range groupedDevices { detectedDevices = append(detectedDevices, group...) } return detectedDevices }