예제 #1
0
func (s *ListBlockDevicesSuite) testListBlockDevicesExtended(
	c *gc.C,
	udevadmInfo string,
	expect storage.BlockDevice,
) {
	testing.PatchExecutable(c, s, "lsblk", `#!/bin/bash --norc
cat <<EOF
KNAME="sda" SIZE="240057409536" LABEL="" UUID="" TYPE="disk"
EOF`)
	testing.PatchExecutable(c, s, "udevadm", `#!/bin/bash --norc
cat <<EOF
`+strings.TrimSpace(udevadmInfo)+`
EOF`)

	expect.DeviceName = "sda"
	expect.Size = 228936

	devices, err := diskmanager.ListBlockDevices()
	c.Assert(err, jc.ErrorIsNil)
	c.Assert(devices, jc.DeepEquals, []storage.BlockDevice{expect})
}
예제 #2
0
파일: lsblk.go 프로젝트: bac/juju
func listBlockDevices() ([]storage.BlockDevice, error) {
	columns := []string{
		"KNAME",      // kernel name
		"SIZE",       // size
		"LABEL",      // filesystem label
		"UUID",       // filesystem UUID
		"FSTYPE",     // filesystem type
		"TYPE",       // device type
		"MOUNTPOINT", // moint point
	}

	logger.Tracef("executing lsblk")
	output, err := exec.Command(
		"lsblk",
		"-b", // output size in bytes
		"-P", // output fields as key=value pairs
		"-o", strings.Join(columns, ","),
	).Output()
	if err != nil {
		return nil, errors.Annotate(
			err, "cannot list block devices: lsblk failed",
		)
	}

	var devices []storage.BlockDevice
	s := bufio.NewScanner(bytes.NewReader(output))
	for s.Scan() {
		pairs := pairsRE.FindAllStringSubmatch(s.Text(), -1)
		var dev storage.BlockDevice
		var deviceType string
		for _, pair := range pairs {
			switch pair[1] {
			case "KNAME":
				dev.DeviceName = pair[2]
			case "SIZE":
				size, err := strconv.ParseUint(pair[2], 10, 64)
				if err != nil {
					logger.Errorf(
						"invalid size %q from lsblk: %v", pair[2], err,
					)
				} else {
					dev.Size = size / bytesInMiB
				}
			case "LABEL":
				dev.Label = pair[2]
			case "UUID":
				dev.UUID = pair[2]
			case "FSTYPE":
				dev.FilesystemType = pair[2]
			case "TYPE":
				deviceType = pair[2]
			case "MOUNTPOINT":
				dev.MountPoint = pair[2]
			default:
				logger.Debugf("unexpected field from lsblk: %q", pair[1])
			}
		}

		// We may later want to expand this, e.g. to handle lvm,
		// dmraid, crypt, etc., but this is enough to cover bases
		// for now.
		switch deviceType {
		case typeDisk, typeLoop:
		default:
			logger.Tracef("ignoring %q type device: %+v", deviceType, dev)
			continue
		}

		// Check if the block device is in use. We need to know this so we can
		// issue an error if the user attempts to allocate an in-use disk to a
		// unit.
		dev.InUse, err = blockDeviceInUse(dev)
		if os.IsNotExist(err) {
			// In LXC containers, lsblk will show the block devices of the
			// host, but the devices will typically not be present.
			continue
		} else if err != nil {
			logger.Infof("could not check if %q is in use: %v", dev.DeviceName, err)
			// We cannot detect, so err on the side of caution and default to
			// "in use" so the device cannot be used.
			dev.InUse = true
		}

		// Add additional information from sysfs.
		if err := addHardwareInfo(&dev); err != nil {
			logger.Errorf(
				"error getting hardware info for %q from sysfs: %v",
				dev.DeviceName, err,
			)
		}
		devices = append(devices, dev)
	}
	if err := s.Err(); err != nil {
		return nil, errors.Annotate(err, "cannot parse lsblk output")
	}
	return devices, nil
}