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chain-management_linux.go
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chain-management_linux.go
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package policies
// This file contains code for booting up and reconciling iptables
import (
"bytes"
"errors"
"fmt"
"strconv"
"strings"
"github.com/Azure/azure-container-networking/npm/metrics"
"github.com/Azure/azure-container-networking/npm/util"
npmerrors "github.com/Azure/azure-container-networking/npm/util/errors"
"github.com/Azure/azure-container-networking/npm/util/ioutil"
"k8s.io/klog"
utilexec "k8s.io/utils/exec"
)
const (
doesNotExistErrorCode int = 1 // stderr possibility: Bad rule (does a matching rule exist in that chain?)
couldntLoadTargetErrorCode int = 2 // Couldn't load target `AZURE-NPM-EGRESS':No such file or directory
// transferred from iptm.go and not sure why this length is important
minLineNumberStringLength int = 3
)
var (
// Must loop through a slice because we need a deterministic order for fexec commands for UTs.
iptablesAzureChains = []string{
util.IptablesAzureChain,
util.IptablesAzureIngressChain,
util.IptablesAzureIngressAllowMarkChain,
util.IptablesAzureEgressChain,
util.IptablesAzureAcceptChain,
}
// Should not be used directly. Initialized from iptablesAzureChains on first use of isAzureChain().
iptablesAzureChainsMap map[string]struct{}
jumpToAzureChainArgs = []string{
util.IptablesJumpFlag,
util.IptablesAzureChain,
util.IptablesModuleFlag,
util.IptablesCtstateModuleFlag,
util.IptablesCtstateFlag,
util.IptablesNewState,
}
jumpFromForwardToAzureChainArgs = append([]string{util.IptablesForwardChain}, jumpToAzureChainArgs...)
removeDeprecatedJumpIgnoredErrors = []*exitErrorInfo{
{
// doesNotExistErrorCode happens when AZURE-NPM chain exists, but this jump rule doesn't exist
exitCode: doesNotExistErrorCode,
stdErr: "No chain/target/match by that name",
messageToLog: "didn't delete deprecated jump rule from FORWARD chain to AZURE-NPM chain likely because NPM v1 was not used prior",
},
{
// couldntLoadTargetErrorCode happens when AZURE-NPM chain doesn't exist (and hence the jump rule doesn't exist too)
exitCode: couldntLoadTargetErrorCode,
stdErr: "Couldn't load target `AZURE-NPM':No such file or directory",
messageToLog: "didn't delete deprecated jump rule from FORWARD chain to AZURE-NPM chain likely because AZURE-NPM chain doesn't exist",
},
{
// nft version
// couldntLoadTargetErrorCode happens when AZURE-NPM chain doesn't exist (and hence the jump rule doesn't exist too)
exitCode: couldntLoadTargetErrorCode,
stdErr: "Chain 'AZURE-NPM' does not exist",
messageToLog: "in nft tables, didn't delete deprecated jump rule from FORWARD chain to AZURE-NPM chain likely because AZURE-NPM chain doesn't exist",
},
{
exitCode: doesNotExistErrorCode,
stdErr: "Bad rule (does a matching rule exist in that chain?)",
messageToLog: "probably tried to delete a jump rule that didn't exist in nft tables",
},
}
listForwardEntriesArgs = []string{
util.IptablesWaitFlag, util.IptablesDefaultWaitTime, util.IptablesTableFlag, util.IptablesFilterTable,
util.IptablesNumericFlag, util.IptablesListFlag, util.IptablesForwardChain, util.IptablesLineNumbersFlag,
}
spaceByte = []byte(" ")
errNoLineNumber = errors.New("no line number found")
errUnexpectedLineNumberString = errors.New("unexpected line number string")
deprecatedJumpFromForwardToAzureChainArgs = []string{
util.IptablesForwardChain,
util.IptablesJumpFlag,
util.IptablesAzureChain,
}
)
type exitErrorInfo struct {
exitCode int
stdErr string
messageToLog string
}
type staleChains struct {
chainsToCleanup map[string]struct{}
}
func newStaleChains() *staleChains {
return &staleChains{
chainsToCleanup: make(map[string]struct{}),
}
}
// forceLock stops reconciling if it is running, and then locks the reconcileManager
func (rm *reconcileManager) forceLock() {
rm.releaseLockSignal <- struct{}{}
rm.Lock()
}
// forceUnlock makes sure that the releaseLockSignal channel is empty (in case reconciling
// wasn't running when forceLock was called), and then unlocks the reconcileManager.
func (rm *reconcileManager) forceUnlock() {
select {
case <-rm.releaseLockSignal:
default:
}
rm.Unlock()
}
// Adds the chain if it isn't one of the iptablesAzureChains.
// This protects against trying to delete any core NPM chain.
func (s *staleChains) add(chain string) {
if !isBaseChain(chain) {
s.chainsToCleanup[chain] = struct{}{}
}
}
func (s *staleChains) remove(chain string) {
delete(s.chainsToCleanup, chain)
}
func (s *staleChains) emptyAndGetAll() []string {
result := make([]string, len(s.chainsToCleanup))
k := 0
for chain := range s.chainsToCleanup {
result[k] = chain
s.remove(chain)
k++
}
return result
}
func (s *staleChains) empty() {
s.chainsToCleanup = make(map[string]struct{})
}
func isBaseChain(chain string) bool {
if iptablesAzureChainsMap == nil {
iptablesAzureChainsMap = make(map[string]struct{})
for _, chain := range iptablesAzureChains {
iptablesAzureChainsMap[chain] = struct{}{}
}
}
_, exist := iptablesAzureChainsMap[chain]
return exist
}
/*
Called once at startup.
Like the rest of PolicyManager, minimizes the number of OS calls by consolidating all possible actions into one iptables-restore call.
1. Delete the deprecated jump from FORWARD to AZURE-NPM chain (if it exists).
2. Cleanup old NPM chains, and configure base chains and their rules.
1. Do the following via iptables-restore --noflush:
- flush all deprecated chains
- flush old v2 policy chains
- create/flush the base chains
- add rules for the base chains, except for AZURE-NPM (so that PolicyManager will be deactivated)
2. In the background:
- delete all deprecated chains
- delete old v2 policy chains
3. Add/reposition the jump from FORWARD chain to AZURE-NPM chain.
TODO: could use one grep call instead of separate calls for getting jump line nums and for getting deprecated chains and old v2 policy chains
- would use a grep pattern like so: <line num...AZURE-NPM>|<Chain AZURE-NPM>
*/
func (pMgr *PolicyManager) bootup(_ []string) error {
klog.Infof("booting up iptables Azure chains")
// Stop reconciling so we don't contend for iptables, and so we don't update the staleChains at the same time as reconcile()
// Reconciling would only be happening if this function were called to reset iptables well into the azure-npm pod lifecycle.
pMgr.reconcileManager.forceLock()
defer pMgr.reconcileManager.forceUnlock()
if strings.Contains(util.Iptables, "nft") {
klog.Info("detected nft iptables. cleaning up legacy iptables")
util.Iptables = util.IptablesLegacy
util.IptablesSave = util.IptablesSaveLegacy
util.IptablesRestore = util.IptablesRestoreLegacy
// 0. delete the deprecated jump to deprecated AZURE-NPM in legacy iptables
deprecatedErrCode, deprecatedErr := pMgr.ignoreErrorsAndRunIPTablesCommand(removeDeprecatedJumpIgnoredErrors, util.IptablesDeletionFlag, deprecatedJumpFromForwardToAzureChainArgs...)
if deprecatedErrCode == 0 {
klog.Infof("deleted deprecated jump rule from FORWARD chain to AZURE-NPM chain")
} else if deprecatedErr != nil {
metrics.SendErrorLogAndMetric(util.IptmID,
"failed to delete deprecated jump rule from FORWARD chain to AZURE-NPM chain for unexpected reason with exit code %d and error: %s",
deprecatedErrCode, deprecatedErr.Error())
}
// 0. delete the deprecated jump to current AZURE-NPM in legacy iptables
deprecatedErrCode, deprecatedErr = pMgr.ignoreErrorsAndRunIPTablesCommand(removeDeprecatedJumpIgnoredErrors, util.IptablesDeletionFlag, jumpFromForwardToAzureChainArgs...)
if deprecatedErrCode == 0 {
klog.Infof("deleted deprecated jump rule from FORWARD chain to AZURE-NPM chain")
} else if deprecatedErr != nil {
metrics.SendErrorLogAndMetric(util.IptmID,
"failed to delete deprecated jump rule from FORWARD chain to AZURE-NPM chain for unexpected reason with exit code %d and error: %s",
deprecatedErrCode, deprecatedErr.Error())
}
// clean up current chains in legacy iptables
currentChains, err := ioutil.AllCurrentAzureChains(pMgr.ioShim.Exec, util.IptablesDefaultWaitTime)
if err != nil {
return npmerrors.SimpleErrorWrapper("failed to get current chains for bootup", err)
}
// We have only one chance to clean existing legacy iptables chains.
// So flush all the chains and then destroy them
var aggregateError error
for chain := range currentChains {
errCode, err := pMgr.runIPTablesCommand(util.IptablesFlushFlag, chain)
if err != nil && errCode != doesNotExistErrorCode {
// add to staleChains if it's not one of the iptablesAzureChains
pMgr.staleChains.add(chain)
currentErrString := fmt.Sprintf("failed to flush chain %s with err [%v]", chain, err)
if aggregateError == nil {
aggregateError = npmerrors.SimpleError(currentErrString)
} else {
aggregateError = npmerrors.SimpleErrorWrapper(fmt.Sprintf("%s and had previous error", currentErrString), aggregateError)
}
}
}
for chain := range currentChains {
errCode, err := pMgr.runIPTablesCommand(util.IptablesDestroyFlag, chain)
if err != nil && errCode != doesNotExistErrorCode {
// add to staleChains if it's not one of the iptablesAzureChains
pMgr.staleChains.add(chain)
currentErrString := fmt.Sprintf("failed to delete chain %s with err [%v]", chain, err)
if aggregateError == nil {
aggregateError = npmerrors.SimpleError(currentErrString)
} else {
aggregateError = npmerrors.SimpleErrorWrapper(fmt.Sprintf("%s and had previous error", currentErrString), aggregateError)
}
}
}
if aggregateError != nil {
metrics.SendErrorLogAndMetric(util.IptmID,
"failed to flush and delete stale chain in legacy iptables with error: %s",
aggregateError.Error())
}
util.Iptables = util.IptablesNft
util.IptablesSave = util.IptablesSaveNft
util.IptablesRestore = util.IptablesRestoreNft
}
klog.Info("cleaning up default iptables")
// 1. delete the deprecated jump to AZURE-NPM
deprecatedErrCode, deprecatedErr := pMgr.ignoreErrorsAndRunIPTablesCommand(removeDeprecatedJumpIgnoredErrors, util.IptablesDeletionFlag, deprecatedJumpFromForwardToAzureChainArgs...)
if deprecatedErrCode == 0 {
klog.Infof("deleted deprecated jump rule from FORWARD chain to AZURE-NPM chain")
} else if deprecatedErr != nil {
metrics.SendErrorLogAndMetric(util.IptmID,
"failed to delete deprecated jump rule from FORWARD chain to AZURE-NPM chain for unexpected reason with exit code %d and error: %s",
deprecatedErrCode, deprecatedErr.Error())
}
currentChains, err := ioutil.AllCurrentAzureChains(pMgr.ioShim.Exec, util.IptablesDefaultWaitTime)
if err != nil {
return npmerrors.SimpleErrorWrapper("failed to get current chains for bootup", err)
}
klog.Infof("found %d current chains in the default iptables", len(currentChains))
// 2. cleanup old NPM chains, and configure base chains and their rules.
creator := pMgr.creatorForBootup(currentChains)
if err := restore(creator); err != nil {
return npmerrors.SimpleErrorWrapper("failed to run iptables-restore for bootup", err)
}
// 3. add/reposition the jump to AZURE-NPM
if err := pMgr.positionAzureChainJumpRule(); err != nil {
baseErrString := "failed to add/reposition jump from FORWARD chain to AZURE-NPM chain"
metrics.SendErrorLogAndMetric(util.IptmID, "error: %s with error: %s", baseErrString, err.Error())
return npmerrors.SimpleErrorWrapper(baseErrString, err) // we used to ignore this error in v1
}
return nil
}
// reconcile does the following:
// - creates the jump rule from FORWARD chain to AZURE-NPM chain (if it does not exist) and makes sure it's after the jumps to KUBE-FORWARD & KUBE-SERVICES chains (if they exist).
// - cleans up stale policy chains. It can be forced to stop this process if reconcileManager.forceLock() is called.
func (pMgr *PolicyManager) reconcile() {
if err := pMgr.positionAzureChainJumpRule(); err != nil {
msg := fmt.Sprintf("failed to reconcile jump rule to Azure-NPM due to %s", err.Error())
metrics.SendErrorLogAndMetric(util.IptmID, "error: %s", msg)
klog.Error(msg)
}
pMgr.reconcileManager.Lock()
defer pMgr.reconcileManager.Unlock()
staleChains := pMgr.staleChains.emptyAndGetAll()
if len(staleChains) == 0 {
return
}
klog.Infof("cleaning up these stale chains: %+v", staleChains)
if err := pMgr.cleanupChains(staleChains); err != nil {
msg := fmt.Sprintf("failed to clean up old policy chains with the following error: %s", err.Error())
metrics.SendErrorLogAndMetric(util.IptmID, "error: %s", msg)
klog.Error(msg)
}
}
// cleanupChains deletes all the chains in the given list.
// If a chain fails to delete and it isn't one of the iptablesAzureChains, then it is added to the staleChains.
// This is a separate function for with a slice argument so that UTs can have deterministic behavior for ioshim.
func (pMgr *PolicyManager) cleanupChains(chains []string) error {
var aggregateError error
deleteLoop:
for k, chain := range chains {
select {
case <-pMgr.reconcileManager.releaseLockSignal:
// if reconcileManager.forceLock() was called, then stop deleting stale chains so that reconcileManager can be unlocked right away
for j := k; j < len(chains); j++ {
pMgr.staleChains.add(chains[j])
}
break deleteLoop
default:
errCode, err := pMgr.runIPTablesCommand(util.IptablesDestroyFlag, chain)
if err != nil && errCode != doesNotExistErrorCode {
// add to staleChains if it's not one of the iptablesAzureChains
pMgr.staleChains.add(chain)
currentErrString := fmt.Sprintf("failed to clean up chain %s with err [%v]", chain, err)
if aggregateError == nil {
aggregateError = npmerrors.SimpleError(currentErrString)
} else {
aggregateError = npmerrors.SimpleErrorWrapper(fmt.Sprintf("%s and had previous error", currentErrString), aggregateError)
}
}
}
}
if aggregateError != nil {
return npmerrors.SimpleErrorWrapper("failed to clean up some chains", aggregateError)
}
return nil
}
// this function has a direct comparison in NPM v1 iptables manager (iptm.go)
func (pMgr *PolicyManager) runIPTablesCommand(operationFlag string, args ...string) (int, error) {
return pMgr.ignoreErrorsAndRunIPTablesCommand(nil, operationFlag, args...)
}
func (pMgr *PolicyManager) ignoreErrorsAndRunIPTablesCommand(ignored []*exitErrorInfo, operationFlag string, args ...string) (int, error) {
allArgs := []string{util.IptablesWaitFlag, util.IptablesDefaultWaitTime, operationFlag}
allArgs = append(allArgs, args...)
klog.Infof("Executing iptables command with args %v", allArgs)
command := pMgr.ioShim.Exec.Command(util.Iptables, allArgs...)
output, err := command.CombinedOutput()
var exitError utilexec.ExitError
if ok := errors.As(err, &exitError); ok {
errCode := exitError.ExitStatus()
allArgsString := strings.Join(allArgs, " ")
outputString := strings.TrimSuffix(string(output), "\n")
for _, info := range ignored {
if errCode == info.exitCode && strings.Contains(outputString, info.stdErr) {
klog.Infof("%s. not able to run iptables command [%s %s]. exit code: %d, output: %s", info.messageToLog, util.Iptables, allArgsString, errCode, outputString)
return errCode, nil
}
}
if errCode > 0 {
metrics.SendErrorLogAndMetric(util.IptmID, "error: There was an error running command: [%s %s] Stderr: [%v, %s]", util.Iptables, allArgsString, exitError, outputString)
}
return errCode, fmt.Errorf("failed to run iptables command [%s %s] Stderr: [%s]. err: [%w]", util.Iptables, allArgsString, outputString, exitError)
}
return 0, nil
}
// Writes the restore file for bootup, and marks the following as stale: deprecated chains and old v2 policy chains.
// This is a separate function to help with UTs.
func (pMgr *PolicyManager) creatorForBootup(currentChains map[string]struct{}) *ioutil.FileCreator {
chainsToCreate := make([]string, 0, len(iptablesAzureChains))
for _, chain := range iptablesAzureChains {
_, exists := currentChains[chain]
if !exists {
chainsToCreate = append(chainsToCreate, chain)
}
}
// Step 2.1 in bootup() comment: cleanup old NPM chains, and configure base chains and their rules
// To leave NPM deactivated, don't specify any rules for AZURE-NPM chain.
creator := pMgr.newCreatorWithChains(chainsToCreate)
pMgr.staleChains.empty()
for chain := range currentChains {
creator.AddLine("", nil, fmt.Sprintf("-F %s", chain))
// Step 2.2 in bootup() comment: delete deprecated chains and old v2 policy chains in the background
pMgr.staleChains.add(chain) // won't add base chains
}
// add AZURE-NPM-INGRESS chain rules
ingressDropSpecs := []string{util.IptablesAppendFlag, util.IptablesAzureIngressChain, util.IptablesJumpFlag, util.IptablesDrop}
ingressDropSpecs = append(ingressDropSpecs, onMarkSpecs(util.IptablesAzureIngressDropMarkHex)...)
ingressDropSpecs = append(ingressDropSpecs, commentSpecs(fmt.Sprintf("DROP-ON-INGRESS-DROP-MARK-%s", util.IptablesAzureIngressDropMarkHex))...)
creator.AddLine("", nil, ingressDropSpecs...)
// add AZURE-NPM-INGRESS-ALLOW-MARK chain
markIngressAllowSpecs := []string{util.IptablesAppendFlag, util.IptablesAzureIngressAllowMarkChain}
markIngressAllowSpecs = append(markIngressAllowSpecs, setMarkSpecs(util.IptablesAzureIngressAllowMarkHex)...)
markIngressAllowSpecs = append(markIngressAllowSpecs, commentSpecs(fmt.Sprintf("SET-INGRESS-ALLOW-MARK-%s", util.IptablesAzureIngressAllowMarkHex))...)
creator.AddLine("", nil, markIngressAllowSpecs...)
creator.AddLine("", nil, util.IptablesAppendFlag, util.IptablesAzureIngressAllowMarkChain, util.IptablesJumpFlag, util.IptablesAzureEgressChain)
// add AZURE-NPM-EGRESS chain rules
egressDropSpecs := []string{util.IptablesAppendFlag, util.IptablesAzureEgressChain, util.IptablesJumpFlag, util.IptablesDrop}
egressDropSpecs = append(egressDropSpecs, onMarkSpecs(util.IptablesAzureEgressDropMarkHex)...)
egressDropSpecs = append(egressDropSpecs, commentSpecs(fmt.Sprintf("DROP-ON-EGRESS-DROP-MARK-%s", util.IptablesAzureEgressDropMarkHex))...)
creator.AddLine("", nil, egressDropSpecs...)
jumpOnIngressMatchSpecs := []string{util.IptablesAppendFlag, util.IptablesAzureEgressChain, util.IptablesJumpFlag, util.IptablesAzureAcceptChain}
jumpOnIngressMatchSpecs = append(jumpOnIngressMatchSpecs, onMarkSpecs(util.IptablesAzureIngressAllowMarkHex)...)
jumpOnIngressMatchSpecs = append(jumpOnIngressMatchSpecs, commentSpecs(fmt.Sprintf("ACCEPT-ON-INGRESS-ALLOW-MARK-%s", util.IptablesAzureIngressAllowMarkHex))...)
creator.AddLine("", nil, jumpOnIngressMatchSpecs...)
// add AZURE-NPM-ACCEPT chain rules
creator.AddLine("", nil, util.IptablesAppendFlag, util.IptablesAzureAcceptChain, util.IptablesJumpFlag, util.IptablesAccept)
creator.AddLine("", nil, util.IptablesRestoreCommit)
return creator
}
// add/reposition the jump from FORWARD chain to AZURE-NPM chain to be in the correct position based on config:
// option 1) jump to AZURE-NPM chain should be the first rule
// option 2) jump to AZURE-NPM chain should be after the jump to KUBE-SERVICES chain
func (pMgr *PolicyManager) positionAzureChainJumpRule() error {
// get the line number for the azure jump
azureChainLineNum, err := pMgr.chainLineNumber(util.IptablesAzureChain)
if err != nil {
baseErrString := "failed to get index of jump from FORWARD chain to AZURE-NPM chain"
metrics.SendErrorLogAndMetric(util.IptmID, "error: %s: %s", baseErrString, err.Error())
return npmerrors.SimpleErrorWrapper(baseErrString, err)
}
if pMgr.PlaceAzureChainFirst == util.PlaceAzureChainFirst && azureChainLineNum == 1 {
// the azure jump is in the right position, so we're done
return nil
}
// place the azure jump in the first position, unless we want option 2 above and the kube jump exists
targetIndex := 1
if pMgr.PlaceAzureChainFirst == util.PlaceAzureChainAfterKubeServices {
kubeChainLineNum, err := pMgr.chainLineNumber(util.IptablesKubeServicesChain)
if err != nil {
baseErrString := "failed to get index of jump from FORWARD chain to KUBE-SERVICES chain"
metrics.SendErrorLogAndMetric(util.IptmID, "error: %s: %s", baseErrString, err.Error())
return npmerrors.SimpleErrorWrapper(baseErrString, err)
}
if kubeChainLineNum != 0 {
// kube jump exists
// the azure jump should be immediately after the kube jump
targetIndex = kubeChainLineNum + 1
}
}
if azureChainLineNum == targetIndex {
// the azure jump is in the right position, so we're done
return nil
}
// delete the azure jump if it exists and update the target index
if azureChainLineNum != 0 {
metrics.SendErrorLogAndMetric(util.IptmID, "Info: Reconciler deleting and re-adding jump from FORWARD chain to AZURE-NPM chain table.")
if deleteErrCode, deleteErr := pMgr.runIPTablesCommand(util.IptablesDeletionFlag, jumpFromForwardToAzureChainArgs...); deleteErr != nil {
baseErrString := "failed to delete jump from FORWARD chain to AZURE-NPM chain"
metrics.SendErrorLogAndMetric(util.IptmID, "error: %s with error code %d and error %s", baseErrString, deleteErrCode, deleteErr.Error())
return npmerrors.SimpleErrorWrapper(baseErrString, deleteErr)
}
if azureChainLineNum < targetIndex {
// this means kube jump existed and was below the deleted azure jump, so decrement the target index
// this can only occur if PlaceAzureChainFirst == PlaceAfterKube
// this logic depends on targetIndex being 1 or kubeChainLineNum + 1
targetIndex--
}
}
// add (back) the azure jump
klog.Infof("Inserting jump from FORWARD chain to AZURE-NPM chain")
var args []string
if targetIndex == 1 {
// when no index is provided, index of 1 is implied
args = jumpFromForwardToAzureChainArgs
} else {
args = []string{util.IptablesForwardChain, strconv.Itoa(targetIndex)}
args = append(args, jumpToAzureChainArgs...)
}
if insertErrCode, err := pMgr.runIPTablesCommand(util.IptablesInsertionFlag, args...); err != nil {
baseErrString := "failed to insert jump from FORWARD chain to AZURE-NPM chain"
metrics.SendErrorLogAndMetric(util.IptmID, "error: %s with error code %d and error %s", baseErrString, insertErrCode, err.Error())
return npmerrors.SimpleErrorWrapper(baseErrString, err)
}
return nil
}
// returns 0 if the chain does not exist
// this function has a direct comparison in NPM v1 iptables manager (iptm.go)
func (pMgr *PolicyManager) chainLineNumber(chain string) (int, error) {
listForwardEntriesCommand := pMgr.ioShim.Exec.Command(util.Iptables, listForwardEntriesArgs...)
grepCommand := pMgr.ioShim.Exec.Command(ioutil.Grep, chain)
searchResults, gotMatches, err := ioutil.PipeCommandToGrep(listForwardEntriesCommand, grepCommand)
if err != nil {
return 0, npmerrors.SimpleErrorWrapper(fmt.Sprintf("failed to determine line number for jump from FORWARD chain to %s chain", chain), err)
}
if !gotMatches {
return 0, nil
}
if len(searchResults) >= minLineNumberStringLength {
firstSpaceIndex := bytes.Index(searchResults, spaceByte)
if firstSpaceIndex > 0 && firstSpaceIndex < len(searchResults) {
lineNumberString := string(searchResults[0:firstSpaceIndex])
lineNum, err := strconv.Atoi(lineNumberString)
if err != nil {
return 0, npmerrors.SimpleErrorWrapper(fmt.Sprintf("unable to parse line number. lineNumberString: [%s]. searchResults: [%s]", lineNumberString, string(searchResults)), errNoLineNumber)
}
return lineNum, nil
}
}
return 0, npmerrors.SimpleErrorWrapper(fmt.Sprintf("unable to parse line number. searchResults: [%s]", string(searchResults)), errUnexpectedLineNumberString)
}
func onMarkSpecs(mark string) []string {
return []string{
util.IptablesModuleFlag,
util.IptablesMarkVerb,
util.IptablesMarkFlag,
mark,
}
}