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sfdisk_partitioner.go
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/
sfdisk_partitioner.go
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package disk
import (
"fmt"
"regexp"
"strconv"
"strings"
"code.cloudfoundry.org/clock"
bosherr "github.com/cloudfoundry/bosh-utils/errors"
boshlog "github.com/cloudfoundry/bosh-utils/logger"
boshretry "github.com/cloudfoundry/bosh-utils/retrystrategy"
boshsys "github.com/cloudfoundry/bosh-utils/system"
)
type sfdiskPartitioner struct {
logger boshlog.Logger
cmdRunner boshsys.CmdRunner
logTag string
timeService clock.Clock
}
func NewSfdiskPartitioner(logger boshlog.Logger, cmdRunner boshsys.CmdRunner, timeService clock.Clock) Partitioner {
return sfdiskPartitioner{
logger: logger,
cmdRunner: cmdRunner,
logTag: "SfdiskPartitioner",
timeService: timeService,
}
}
func (p sfdiskPartitioner) Partition(devicePath string, partitions []Partition) error {
partitionMatches, err := p.diskMatchesPartitions(devicePath, partitions)
if err != nil {
return err
}
if partitionMatches {
p.logger.Info(p.logTag, "%s already partitioned as expected, skipping", devicePath)
return nil
}
sfdiskPartitionTypes := map[PartitionType]string{
PartitionTypeSwap: "S",
PartitionTypeLinux: "L",
}
sfdiskInput := ""
for index, partition := range partitions {
sfdiskPartitionType := sfdiskPartitionTypes[partition.Type]
partitionSize := fmt.Sprintf("%d", ConvertFromBytesToMb(partition.SizeInBytes))
if index == len(partitions)-1 {
partitionSize = ""
}
sfdiskInput = sfdiskInput + fmt.Sprintf(",%s,%s\n", partitionSize, sfdiskPartitionType)
}
partitionRetryable := boshretry.NewRetryable(func() (bool, error) {
_, _, _, err := p.cmdRunner.RunCommandWithInput(sfdiskInput, "sfdisk", "-uM", devicePath)
if err != nil {
p.logger.Error(p.logTag, "Failed with an error: %s", err)
return true, bosherr.WrapError(err, "Shelling out to sfdisk")
}
p.logger.Info(p.logTag, "Succeeded in partitioning %s with %s", devicePath, sfdiskInput)
return false, nil
})
partitionRetryStrategy := NewPartitionStrategy(partitionRetryable, p.timeService, p.logger)
err = partitionRetryStrategy.Try()
if err != nil {
return err
}
if strings.Contains(devicePath, "/dev/mapper/") {
_, _, _, err = p.cmdRunner.RunCommand("/etc/init.d/open-iscsi", "restart")
if err != nil {
return bosherr.WrapError(err, "Shelling out to restart open-iscsi")
}
_, _, _, err = p.cmdRunner.RunCommand("/etc/init.d/multipath-tools", "restart")
if err != nil {
return bosherr.WrapError(err, "Restarting multipath after restarting open-iscsi")
}
detectPartitionRetryable := boshretry.NewRetryable(func() (bool, error) {
output, _, _, err := p.cmdRunner.RunCommand("dmsetup", "ls")
if err != nil {
return true, bosherr.WrapError(err, "Shelling out to dmsetup ls")
}
if strings.Contains(output, "No devices found") {
return true, bosherr.Errorf("No devices found")
}
device := strings.TrimPrefix(devicePath, "/dev/mapper/")
lines := strings.Split(strings.Trim(output, "\n"), "\n")
for i := 0; i < len(lines); i++ {
if match, _ := regexp.MatchString("-part1", lines[i]); match {
if strings.Contains(lines[i], device) {
p.logger.Info(p.logTag, "Succeeded in detecting partition %s", devicePath+"-part1")
return false, nil
}
}
}
return true, bosherr.Errorf("Partition %s does not show up", devicePath+"-part1")
})
detectPartitionRetryStrategy := NewPartitionStrategy(detectPartitionRetryable, p.timeService, p.logger)
err := detectPartitionRetryStrategy.Try()
if err != nil {
return err
}
}
return nil
}
func (p sfdiskPartitioner) GetDeviceSizeInBytes(devicePath string) (uint64, error) {
stdout, _, _, err := p.cmdRunner.RunCommand("sfdisk", "-s", devicePath)
if err != nil {
return 0, bosherr.WrapError(err, "Shelling out to sfdisk when getting device size")
}
sizeInKb, err := strconv.ParseUint(strings.Trim(stdout, "\n"), 10, 64)
if err != nil {
return 0, bosherr.WrapError(err, "Converting disk size to integer")
}
return ConvertFromKbToBytes(sizeInKb), nil
}
func (p sfdiskPartitioner) GetPartitions(devicePath string) (partitions []ExistingPartition, deviceFullSizeInBytes uint64, err error) {
deviceFullSizeInBytes, err = p.GetDeviceSizeInBytes(devicePath)
if err != nil {
return partitions, deviceFullSizeInBytes, bosherr.WrapErrorf(err, "Getting device size")
}
stdout, _, _, err := p.cmdRunner.RunCommand("sfdisk", "-d", devicePath)
if err != nil {
return partitions, deviceFullSizeInBytes, bosherr.WrapError(err, "Shelling out to sfdisk when getting partitions")
}
allLines := strings.Split(stdout, "\n")
if len(allLines) < 4 {
return partitions, deviceFullSizeInBytes, nil
}
partitionLines := allLines[3 : len(allLines)-1]
for _, partitionLine := range partitionLines {
partitionPath, partitionType := extractPartitionPathAndType(partitionLine)
if partitionType == PartitionTypeGPT {
return partitions, deviceFullSizeInBytes, ErrGPTPartitionEncountered
}
partition := ExistingPartition{Type: partitionType}
if partition.Type != PartitionTypeEmpty {
if strings.Contains(partitionPath, "/dev/mapper/") {
partitionPath = partitionPath[0:len(partitionPath)-1] + "-part1"
}
size, err := p.GetDeviceSizeInBytes(partitionPath)
if err == nil {
partition.SizeInBytes = size
}
}
partitions = append(partitions, partition)
}
return partitions, deviceFullSizeInBytes, nil
}
func (p sfdiskPartitioner) RemovePartitions(partitions []ExistingPartition, devicePath string) error {
panic("unimplemented")
}
func (p sfdiskPartitioner) diskMatchesPartitions(devicePath string, partitionsToMatch []Partition) (bool, error) {
existingPartitions, _, err := p.GetPartitions(devicePath)
if err != nil {
return false, err
}
if len(existingPartitions) < len(partitionsToMatch) {
return false, nil
}
remainingDiskSpace, err := p.GetDeviceSizeInBytes(devicePath)
if err != nil {
return false, err
}
for index, partitionToMatch := range partitionsToMatch {
if index == len(partitionsToMatch)-1 {
partitionToMatch.SizeInBytes = remainingDiskSpace
}
existingPartition := existingPartitions[index]
switch {
case existingPartition.Type != partitionToMatch.Type:
return false, nil
case !withinDelta(existingPartition.SizeInBytes, partitionToMatch.SizeInBytes, ConvertFromMbToBytes(deltaSize)):
return false, nil
}
remainingDiskSpace = remainingDiskSpace - partitionToMatch.SizeInBytes
}
return true, nil
}
var partitionTypesMap = map[string]PartitionType{
"82": PartitionTypeSwap,
"83": PartitionTypeLinux,
"0": PartitionTypeEmpty,
"ee": PartitionTypeGPT,
}
func extractPartitionPathAndType(line string) (partitionPath string, partitionType PartitionType) {
partitionFields := strings.Fields(line)
lastField := partitionFields[len(partitionFields)-1]
sfdiskPartitionType := strings.Replace(lastField, "Id=", "", 1)
partitionPath = partitionFields[0]
partitionType = partitionTypesMap[sfdiskPartitionType]
return
}