open-vault/vault/expiration.go

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package vault
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import (
"context"
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"encoding/json"
"errors"
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"fmt"
"os"
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"path"
"strings"
"sync"
"sync/atomic"
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"time"
"github.com/armon/go-metrics"
log "github.com/hashicorp/go-hclog"
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"github.com/hashicorp/errwrap"
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multierror "github.com/hashicorp/go-multierror"
"github.com/hashicorp/go-uuid"
"github.com/hashicorp/vault/helper/consts"
"github.com/hashicorp/vault/helper/jsonutil"
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"github.com/hashicorp/vault/helper/locksutil"
"github.com/hashicorp/vault/logical"
"github.com/hashicorp/vault/logical/framework"
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)
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const (
// expirationSubPath is the sub-path used for the expiration manager
// view. This is nested under the system view.
expirationSubPath = "expire/"
// leaseViewPrefix is the prefix used for the ID based lookup of leases.
leaseViewPrefix = "id/"
// tokenViewPrefix is the prefix used for the token based lookup of leases.
tokenViewPrefix = "token/"
// maxRevokeAttempts limits how many revoke attempts are made
maxRevokeAttempts = 6
// revokeRetryBase is a baseline retry time
revokeRetryBase = 10 * time.Second
// maxLeaseDuration is the default maximum lease duration
maxLeaseTTL = 32 * 24 * time.Hour
// defaultLeaseDuration is the default lease duration used when no lease is specified
defaultLeaseTTL = maxLeaseTTL
//maxLeaseThreshold is the maximum lease count before generating log warning
maxLeaseThreshold = 256000
)
// ExpirationManager is used by the Core to manage leases. Secrets
// can provide a lease, meaning that they can be renewed or revoked.
// If a secret is not renewed in timely manner, it may be expired, and
// the ExpirationManager will handle doing automatic revocation.
type ExpirationManager struct {
router *Router
idView *BarrierView
tokenView *BarrierView
tokenStore *TokenStore
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logger log.Logger
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pending map[string]*time.Timer
pendingLock sync.RWMutex
tidyLock int32
restoreMode int32
restoreModeLock sync.RWMutex
restoreRequestLock sync.RWMutex
restoreLocks []*locksutil.LockEntry
restoreLoaded sync.Map
quitCh chan struct{}
coreStateLock *sync.RWMutex
quitContext context.Context
leaseCheckCounter uint32
logLeaseExpirations bool
}
// NewExpirationManager creates a new ExpirationManager that is backed
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// using a given view, and uses the provided router for revocation.
func NewExpirationManager(c *Core, view *BarrierView, logger log.Logger) *ExpirationManager {
exp := &ExpirationManager{
router: c.router,
idView: view.SubView(leaseViewPrefix),
tokenView: view.SubView(tokenViewPrefix),
tokenStore: c.tokenStore,
logger: logger,
pending: make(map[string]*time.Timer),
// new instances of the expiration manager will go immediately into
// restore mode
restoreMode: 1,
restoreLocks: locksutil.CreateLocks(),
quitCh: make(chan struct{}),
coreStateLock: &c.stateLock,
quitContext: c.activeContext,
leaseCheckCounter: 0,
logLeaseExpirations: os.Getenv("VAULT_SKIP_LOGGING_LEASE_EXPIRATIONS") == "",
}
if exp.logger == nil {
opts := log.LoggerOptions{Name: "expiration_manager"}
exp.logger = log.New(&opts)
}
return exp
}
// setupExpiration is invoked after we've loaded the mount table to
// initialize the expiration manager
func (c *Core) setupExpiration() error {
c.metricsMutex.Lock()
defer c.metricsMutex.Unlock()
// Create a sub-view
view := c.systemBarrierView.SubView(expirationSubPath)
// Create the manager
mgr := NewExpirationManager(c, view, c.logger.ResetNamed("expiration"))
c.expiration = mgr
// Link the token store to this
c.tokenStore.SetExpirationManager(mgr)
// Restore the existing state
c.logger.Info("restoring leases")
errorFunc := func() {
c.logger.Error("shutting down")
if err := c.Shutdown(); err != nil {
c.logger.Error("error shutting down core: %v", err)
}
}
go c.expiration.Restore(errorFunc)
return nil
}
// stopExpiration is used to stop the expiration manager before
// sealing the Vault.
func (c *Core) stopExpiration() error {
if c.expiration != nil {
if err := c.expiration.Stop(); err != nil {
return err
}
c.metricsMutex.Lock()
defer c.metricsMutex.Unlock()
c.expiration = nil
}
return nil
}
// lockLease takes out a lock for a given lease ID
func (m *ExpirationManager) lockLease(leaseID string) {
locksutil.LockForKey(m.restoreLocks, leaseID).Lock()
}
// unlockLease unlocks a given lease ID
func (m *ExpirationManager) unlockLease(leaseID string) {
locksutil.LockForKey(m.restoreLocks, leaseID).Unlock()
}
// inRestoreMode returns if we are currently in restore mode
func (m *ExpirationManager) inRestoreMode() bool {
return atomic.LoadInt32(&m.restoreMode) == 1
}
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// Tidy cleans up the dangling storage entries for leases. It scans the storage
// view to find all the available leases, checks if the token embedded in it is
// either empty or invalid and in both the cases, it revokes them. It also uses
// a token cache to avoid multiple lookups of the same token ID. It is normally
// not required to use the API that invokes this. This is only intended to
// clean up the corrupt storage due to bugs.
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func (m *ExpirationManager) Tidy() error {
if m.inRestoreMode() {
return errors.New("cannot run tidy while restoring leases")
}
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var tidyErrors *multierror.Error
if !atomic.CompareAndSwapInt32(&m.tidyLock, 0, 1) {
m.logger.Warn("tidy operation on leases is already in progress")
return fmt.Errorf("tidy operation on leases is already in progress")
}
defer atomic.CompareAndSwapInt32(&m.tidyLock, 1, 0)
m.logger.Info("beginning tidy operation on leases")
defer m.logger.Info("finished tidy operation on leases")
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// Create a cache to keep track of looked up tokens
tokenCache := make(map[string]bool)
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var countLease, revokedCount, deletedCountInvalidToken, deletedCountEmptyToken int64
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tidyFunc := func(leaseID string) {
countLease++
if countLease%500 == 0 {
m.logger.Info("tidying leases", "progress", countLease)
}
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le, err := m.loadEntry(leaseID)
if err != nil {
tidyErrors = multierror.Append(tidyErrors, errwrap.Wrapf(fmt.Sprintf("failed to load the lease ID %q: {{err}}", leaseID), err))
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return
}
if le == nil {
tidyErrors = multierror.Append(tidyErrors, errwrap.Wrapf(fmt.Sprintf("nil entry for lease ID %q: {{err}}", leaseID), err))
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return
}
var isValid, ok bool
revokeLease := false
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if le.ClientToken == "" {
m.logger.Debug("revoking lease which has an empty token", "lease_id", leaseID)
revokeLease = true
deletedCountEmptyToken++
goto REVOKE_CHECK
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}
isValid, ok = tokenCache[le.ClientToken]
if !ok {
saltedID, err := m.tokenStore.SaltID(m.quitContext, le.ClientToken)
if err != nil {
tidyErrors = multierror.Append(tidyErrors, errwrap.Wrapf("failed to lookup salt id: {{err}}", err))
return
}
lock := locksutil.LockForKey(m.tokenStore.tokenLocks, le.ClientToken)
lock.RLock()
te, err := m.tokenStore.lookupSalted(m.quitContext, saltedID, true)
lock.RUnlock()
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if err != nil {
tidyErrors = multierror.Append(tidyErrors, errwrap.Wrapf("failed to lookup token: {{err}}", err))
return
}
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if te == nil {
m.logger.Debug("revoking lease which holds an invalid token", "lease_id", leaseID)
revokeLease = true
deletedCountInvalidToken++
tokenCache[le.ClientToken] = false
} else {
tokenCache[le.ClientToken] = true
}
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goto REVOKE_CHECK
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} else {
if isValid {
return
}
m.logger.Debug("revoking lease which contains an invalid token", "lease_id", leaseID)
revokeLease = true
deletedCountInvalidToken++
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goto REVOKE_CHECK
}
REVOKE_CHECK:
if revokeLease {
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// Force the revocation and skip going through the token store
// again
err = m.revokeCommon(leaseID, true, true)
if err != nil {
tidyErrors = multierror.Append(tidyErrors, errwrap.Wrapf(fmt.Sprintf("failed to revoke an invalid lease with ID %q: {{err}}", leaseID), err))
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return
}
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revokedCount++
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}
}
if err := logical.ScanView(m.quitContext, m.idView, tidyFunc); err != nil {
return err
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}
m.logger.Info("number of leases scanned", "count", countLease)
m.logger.Info("number of leases which had empty tokens", "count", deletedCountEmptyToken)
m.logger.Info("number of leases which had invalid tokens", "count", deletedCountInvalidToken)
m.logger.Info("number of leases successfully revoked", "count", revokedCount)
return tidyErrors.ErrorOrNil()
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}
// Restore is used to recover the lease states when starting.
// This is used after starting the vault.
func (m *ExpirationManager) Restore(errorFunc func()) (retErr error) {
defer func() {
// Turn off restore mode. We can do this safely without the lock because
// if restore mode finished successfully, restore mode was already
// disabled with the lock. In an error state, this will allow the
// Stop() function to shut everything down.
atomic.StoreInt32(&m.restoreMode, 0)
switch {
case retErr == nil:
case errwrap.Contains(retErr, ErrBarrierSealed.Error()):
// Don't run error func because we're likely already shutting down
m.logger.Warn("barrier sealed while restoring leases, stopping lease loading")
retErr = nil
default:
m.logger.Error("error restoring leases", "error", retErr)
if errorFunc != nil {
errorFunc()
}
}
}()
// Accumulate existing leases
m.logger.Debug("collecting leases")
existing, err := logical.CollectKeys(m.quitContext, m.idView)
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if err != nil {
return errwrap.Wrapf("failed to scan for leases: {{err}}", err)
}
m.logger.Debug("leases collected", "num_existing", len(existing))
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// Make the channels used for the worker pool
broker := make(chan string)
quit := make(chan bool)
// Buffer these channels to prevent deadlocks
errs := make(chan error, len(existing))
result := make(chan struct{}, len(existing))
// Use a wait group
wg := &sync.WaitGroup{}
// Create 64 workers to distribute work to
for i := 0; i < consts.ExpirationRestoreWorkerCount; i++ {
wg.Add(1)
go func() {
defer wg.Done()
for {
select {
case leaseID, ok := <-broker:
// broker has been closed, we are done
if !ok {
return
}
err := m.processRestore(leaseID)
if err != nil {
errs <- err
continue
}
// Send message that lease is done
result <- struct{}{}
// quit early
case <-quit:
return
case <-m.quitCh:
return
}
}
}()
}
// Distribute the collected keys to the workers in a go routine
wg.Add(1)
go func() {
defer wg.Done()
for i, leaseID := range existing {
if i > 0 && i%500 == 0 {
m.logger.Debug("leases loading", "progress", i)
}
select {
case <-quit:
return
case <-m.quitCh:
return
default:
broker <- leaseID
}
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}
// Close the broker, causing worker routines to exit
close(broker)
}()
// Ensure all keys on the chan are processed
for i := 0; i < len(existing); i++ {
select {
case err := <-errs:
// Close all go routines
close(quit)
return err
case <-m.quitCh:
close(quit)
return nil
case <-result:
}
}
// Let all go routines finish
wg.Wait()
m.restoreModeLock.Lock()
m.restoreLoaded = sync.Map{}
m.restoreLocks = nil
atomic.StoreInt32(&m.restoreMode, 0)
m.restoreModeLock.Unlock()
m.logger.Info("lease restore complete")
return nil
}
// processRestore takes a lease and restores it in the expiration manager if it has
// not already been seen
func (m *ExpirationManager) processRestore(leaseID string) error {
m.restoreRequestLock.RLock()
defer m.restoreRequestLock.RUnlock()
// Check if the lease has been seen
if _, ok := m.restoreLoaded.Load(leaseID); ok {
return nil
}
m.lockLease(leaseID)
defer m.unlockLease(leaseID)
// Check again with the lease locked
if _, ok := m.restoreLoaded.Load(leaseID); ok {
return nil
}
// Load lease and restore expiration timer
_, err := m.loadEntryInternal(leaseID, true, false)
if err != nil {
return err
}
return nil
}
// Stop is used to prevent further automatic revocations.
// This must be called before sealing the view.
func (m *ExpirationManager) Stop() error {
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// Stop all the pending expiration timers
m.logger.Debug("stop triggered")
defer m.logger.Debug("finished stopping")
// Do this before stopping pending timers to avoid potential races with
// expiring timers
close(m.quitCh)
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m.pendingLock.Lock()
for _, timer := range m.pending {
timer.Stop()
}
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m.pending = make(map[string]*time.Timer)
m.pendingLock.Unlock()
if m.inRestoreMode() {
for {
if !m.inRestoreMode() {
break
}
time.Sleep(10 * time.Millisecond)
}
}
return nil
}
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// Revoke is used to revoke a secret named by the given LeaseID
func (m *ExpirationManager) Revoke(leaseID string) error {
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defer metrics.MeasureSince([]string{"expire", "revoke"}, time.Now())
return m.revokeCommon(leaseID, false, false)
}
// revokeCommon does the heavy lifting. If force is true, we ignore a problem
// during revocation and still remove entries/index/lease timers
func (m *ExpirationManager) revokeCommon(leaseID string, force, skipToken bool) error {
defer metrics.MeasureSince([]string{"expire", "revoke-common"}, time.Now())
// Load the entry
le, err := m.loadEntry(leaseID)
if err != nil {
return err
}
// If there is no entry, nothing to revoke
if le == nil {
return nil
}
// Revoke the entry
if !skipToken || le.Auth == nil {
if err := m.revokeEntry(le); err != nil {
if !force {
return err
}
if m.logger.IsWarn() {
m.logger.Warn("revocation from the backend failed, but in force mode so ignoring", "error", err)
}
}
}
// Delete the entry
if err := m.deleteEntry(leaseID); err != nil {
return err
}
// Delete the secondary index, but only if it's a leased secret (not auth)
if le.Secret != nil {
if err := m.removeIndexByToken(le.ClientToken, le.LeaseID); err != nil {
return err
}
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}
// Clear the expiration handler
m.pendingLock.Lock()
if timer, ok := m.pending[leaseID]; ok {
timer.Stop()
delete(m.pending, leaseID)
}
m.pendingLock.Unlock()
if m.logger.IsInfo() && !skipToken && m.logLeaseExpirations {
m.logger.Info("revoked lease", "lease_id", leaseID)
}
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return nil
}
// RevokeForce works similarly to RevokePrefix but continues in the case of a
// revocation error; this is mostly meant for recovery operations
func (m *ExpirationManager) RevokeForce(prefix string) error {
defer metrics.MeasureSince([]string{"expire", "revoke-force"}, time.Now())
return m.revokePrefixCommon(prefix, true)
}
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// RevokePrefix is used to revoke all secrets with a given prefix.
// The prefix maps to that of the mount table to make this simpler
// to reason about.
func (m *ExpirationManager) RevokePrefix(prefix string) error {
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defer metrics.MeasureSince([]string{"expire", "revoke-prefix"}, time.Now())
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return m.revokePrefixCommon(prefix, false)
}
// RevokeByToken is used to revoke all the secrets issued with a given token.
// This is done by using the secondary index. It also removes the lease entry
// for the token itself. As a result it should *ONLY* ever be called from the
// token store's revokeSalted function.
func (m *ExpirationManager) RevokeByToken(te *TokenEntry) error {
defer metrics.MeasureSince([]string{"expire", "revoke-by-token"}, time.Now())
// Lookup the leases
existing, err := m.lookupLeasesByToken(te.ID)
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if err != nil {
return errwrap.Wrapf("failed to scan for leases: {{err}}", err)
}
// Revoke all the keys
for _, leaseID := range existing {
// Load the entry
le, err := m.loadEntry(leaseID)
if err != nil {
return err
}
// If there's a lease, set expiration to now, persist, and call
// updatePending to hand off revocation to the expiration manager's pending
// timer map
if le != nil {
le.ExpireTime = time.Now()
if err := m.persistEntry(le); err != nil {
return err
}
m.updatePending(le, 0)
}
}
// te.Path should never be empty, but we check just in case
if te.Path != "" {
saltedID, err := m.tokenStore.SaltID(m.quitContext, te.ID)
if err != nil {
return err
}
tokenLeaseID := path.Join(te.Path, saltedID)
// We want to skip the revokeEntry call as that will call back into
// revocation logic in the token store, which is what is running this
// function in the first place -- it'd be a deadlock loop. Since the only
// place that this function is called is revokeSalted in the token store,
// we're already revoking the token, so we just want to clean up the lease.
// This avoids spurious revocations later in the log when the timer runs
// out, and eases up resource usage.
return m.revokeCommon(tokenLeaseID, false, true)
}
return nil
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}
func (m *ExpirationManager) revokePrefixCommon(prefix string, force bool) error {
if m.inRestoreMode() {
m.restoreRequestLock.Lock()
defer m.restoreRequestLock.Unlock()
}
// Ensure there is a trailing slash; or, if there is no slash, see if there
// is a matching specific ID
if !strings.HasSuffix(prefix, "/") {
le, err := m.loadEntry(prefix)
if err == nil && le != nil {
if err := m.revokeCommon(prefix, force, false); err != nil {
return errwrap.Wrapf(fmt.Sprintf("failed to revoke %q: {{err}}", prefix), err)
}
return nil
} else {
prefix = prefix + "/"
}
}
// Accumulate existing leases
sub := m.idView.SubView(prefix)
existing, err := logical.CollectKeys(m.quitContext, sub)
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if err != nil {
return errwrap.Wrapf("failed to scan for leases: {{err}}", err)
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}
// Revoke all the keys
for idx, suffix := range existing {
leaseID := prefix + suffix
if err := m.revokeCommon(leaseID, force, false); err != nil {
return errwrap.Wrapf(fmt.Sprintf("failed to revoke %q (%d / %d): {{err}}", leaseID, idx+1, len(existing)), err)
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}
}
return nil
}
// Renew is used to renew a secret using the given leaseID
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// and a renew interval. The increment may be ignored.
func (m *ExpirationManager) Renew(leaseID string, increment time.Duration) (*logical.Response, error) {
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defer metrics.MeasureSince([]string{"expire", "renew"}, time.Now())
// Load the entry
le, err := m.loadEntry(leaseID)
if err != nil {
return nil, err
}
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// Check if the lease is renewable
if _, err := le.renewable(); err != nil {
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return nil, err
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}
if le.Secret == nil {
if le.Auth != nil {
return logical.ErrorResponse("tokens cannot be renewed through this endpoint"), logical.ErrPermissionDenied
}
return logical.ErrorResponse("lease does not correspond to a secret"), nil
}
sysView := m.router.MatchingSystemView(le.Path)
if sysView == nil {
return nil, fmt.Errorf("unable to retrieve system view from router")
}
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// Attempt to renew the entry
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resp, err := m.renewEntry(le, increment)
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if err != nil {
return nil, err
}
if resp == nil {
return nil, nil
}
if resp.IsError() {
return &logical.Response{
Data: resp.Data,
}, nil
}
if resp.Secret == nil {
return nil, nil
}
ttl, warnings, err := framework.CalculateTTL(sysView, increment, resp.Secret.TTL, 0, resp.Secret.MaxTTL, 0, le.IssueTime)
if err != nil {
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return nil, err
}
for _, warning := range warnings {
resp.AddWarning(warning)
}
resp.Secret.TTL = ttl
// Attach the LeaseID
resp.Secret.LeaseID = leaseID
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// Update the lease entry
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le.Data = resp.Data
vault: clean up VaultID duplications, make secret responses clearer /cc @armon - This is a reasonably major refactor that I think cleans up a lot of the logic with secrets in responses. The reason for the refactor is that while implementing Renew/Revoke in logical/framework I found the existing API to be really awkward to work with. Primarily, we needed a way to send down internal data for Vault core to store since not all the data you need to revoke a key is always sent down to the user (for example the user than AWS key belongs to). At first, I was doing this manually in logical/framework with req.Storage, but this is going to be such a common event that I think its something core should assist with. Additionally, I think the added context for secrets will be useful in the future when we have a Vault API for returning orphaned out keys: we can also return the internal data that might help an operator. So this leads me to this refactor. I've removed most of the fields in `logical.Response` and replaced it with a single `*Secret` pointer. If this is non-nil, then the response represents a secret. The Secret struct encapsulates all the lease info and such. It also has some fields on it that are only populated at _request_ time for Revoke/Renew operations. There is precedent for this sort of behavior in the Go stdlib where http.Request/http.Response have fields that differ based on client/server. I copied this style. All core unit tests pass. The APIs fail for obvious reasons but I'll fix that up in the next commit.
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le.Secret = resp.Secret
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le.ExpireTime = resp.Secret.ExpirationTime()
le.LastRenewalTime = time.Now()
if err := m.persistEntry(le); err != nil {
return nil, err
}
// Update the expiration time
m.updatePending(le, resp.Secret.LeaseTotal())
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// Return the response
return resp, nil
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}
// RestoreSaltedTokenCheck verifies that the token is not expired while running
// in restore mode. If we are not in restore mode, the lease has already been
// restored or the lease still has time left, it returns true.
func (m *ExpirationManager) RestoreSaltedTokenCheck(source string, saltedID string) (bool, error) {
defer metrics.MeasureSince([]string{"expire", "restore-token-check"}, time.Now())
// Return immediately if we are not in restore mode, expiration manager is
// already loaded
if !m.inRestoreMode() {
return true, nil
}
m.restoreModeLock.RLock()
defer m.restoreModeLock.RUnlock()
// Check again after we obtain the lock
if !m.inRestoreMode() {
return true, nil
}
leaseID := path.Join(source, saltedID)
m.lockLease(leaseID)
defer m.unlockLease(leaseID)
le, err := m.loadEntryInternal(leaseID, true, true)
if err != nil {
return false, err
}
if le != nil && !le.ExpireTime.IsZero() {
expires := le.ExpireTime.Sub(time.Now())
if expires <= 0 {
return false, nil
}
}
return true, nil
}
// RenewToken is used to renew a token which does not need to
// invoke a logical backend.
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func (m *ExpirationManager) RenewToken(req *logical.Request, source string, token string,
increment time.Duration) (*logical.Response, error) {
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defer metrics.MeasureSince([]string{"expire", "renew-token"}, time.Now())
// Compute the Lease ID
saltedID, err := m.tokenStore.SaltID(m.quitContext, token)
if err != nil {
return nil, err
}
leaseID := path.Join(source, saltedID)
// Load the entry
le, err := m.loadEntry(leaseID)
if err != nil {
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return nil, err
}
// Check if the lease is renewable. Note that this also checks for a nil
// lease and errors in that case as well.
if _, err := le.renewable(); err != nil {
return logical.ErrorResponse(err.Error()), logical.ErrInvalidRequest
}
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// Attempt to renew the auth entry
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resp, err := m.renewAuthEntry(req, le, increment)
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if err != nil {
return nil, err
}
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if resp == nil {
return nil, nil
}
if resp.IsError() {
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return &logical.Response{
Data: resp.Data,
}, nil
}
if resp.Auth == nil {
return nil, nil
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}
sysView := m.router.MatchingSystemView(le.Path)
if sysView == nil {
return nil, fmt.Errorf("unable to retrieve system view from router")
}
ttl, warnings, err := framework.CalculateTTL(sysView, increment, resp.Auth.TTL, resp.Auth.Period, resp.Auth.MaxTTL, resp.Auth.ExplicitMaxTTL, le.IssueTime)
if err != nil {
return nil, err
}
retResp := &logical.Response{}
for _, warning := range warnings {
retResp.AddWarning(warning)
}
resp.Auth.TTL = ttl
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// Attach the ClientToken
resp.Auth.ClientToken = token
// Update the lease entry
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le.Auth = resp.Auth
le.ExpireTime = resp.Auth.ExpirationTime()
le.LastRenewalTime = time.Now()
if err := m.persistEntry(le); err != nil {
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return nil, err
}
// Update the expiration time
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m.updatePending(le, resp.Auth.LeaseTotal())
retResp.Auth = resp.Auth
return retResp, nil
}
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// Register is used to take a request and response with an associated
// lease. The secret gets assigned a LeaseID and the management of
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// of lease is assumed by the expiration manager.
func (m *ExpirationManager) Register(req *logical.Request, resp *logical.Response) (id string, retErr error) {
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defer metrics.MeasureSince([]string{"expire", "register"}, time.Now())
if req.ClientToken == "" {
return "", fmt.Errorf("cannot register a lease with an empty client token")
}
vault: clean up VaultID duplications, make secret responses clearer /cc @armon - This is a reasonably major refactor that I think cleans up a lot of the logic with secrets in responses. The reason for the refactor is that while implementing Renew/Revoke in logical/framework I found the existing API to be really awkward to work with. Primarily, we needed a way to send down internal data for Vault core to store since not all the data you need to revoke a key is always sent down to the user (for example the user than AWS key belongs to). At first, I was doing this manually in logical/framework with req.Storage, but this is going to be such a common event that I think its something core should assist with. Additionally, I think the added context for secrets will be useful in the future when we have a Vault API for returning orphaned out keys: we can also return the internal data that might help an operator. So this leads me to this refactor. I've removed most of the fields in `logical.Response` and replaced it with a single `*Secret` pointer. If this is non-nil, then the response represents a secret. The Secret struct encapsulates all the lease info and such. It also has some fields on it that are only populated at _request_ time for Revoke/Renew operations. There is precedent for this sort of behavior in the Go stdlib where http.Request/http.Response have fields that differ based on client/server. I copied this style. All core unit tests pass. The APIs fail for obvious reasons but I'll fix that up in the next commit.
2015-03-19 22:11:42 +00:00
// Ignore if there is no leased secret
if resp == nil || resp.Secret == nil {
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return "", nil
}
vault: clean up VaultID duplications, make secret responses clearer /cc @armon - This is a reasonably major refactor that I think cleans up a lot of the logic with secrets in responses. The reason for the refactor is that while implementing Renew/Revoke in logical/framework I found the existing API to be really awkward to work with. Primarily, we needed a way to send down internal data for Vault core to store since not all the data you need to revoke a key is always sent down to the user (for example the user than AWS key belongs to). At first, I was doing this manually in logical/framework with req.Storage, but this is going to be such a common event that I think its something core should assist with. Additionally, I think the added context for secrets will be useful in the future when we have a Vault API for returning orphaned out keys: we can also return the internal data that might help an operator. So this leads me to this refactor. I've removed most of the fields in `logical.Response` and replaced it with a single `*Secret` pointer. If this is non-nil, then the response represents a secret. The Secret struct encapsulates all the lease info and such. It also has some fields on it that are only populated at _request_ time for Revoke/Renew operations. There is precedent for this sort of behavior in the Go stdlib where http.Request/http.Response have fields that differ based on client/server. I copied this style. All core unit tests pass. The APIs fail for obvious reasons but I'll fix that up in the next commit.
2015-03-19 22:11:42 +00:00
// Validate the secret
if err := resp.Secret.Validate(); err != nil {
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return "", err
}
// Create a lease entry
leaseUUID, err := uuid.GenerateUUID()
if err != nil {
return "", err
}
leaseID := path.Join(req.Path, leaseUUID)
defer func() {
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// If there is an error we want to rollback as much as possible (note
// that errors here are ignored to do as much cleanup as we can). We
// want to revoke a generated secret (since an error means we may not
// be successfully tracking it), remove indexes, and delete the entry.
if retErr != nil {
revResp, err := m.router.Route(m.quitContext, logical.RevokeRequest(req.Path, resp.Secret, resp.Data))
if err != nil {
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retErr = multierror.Append(retErr, errwrap.Wrapf("an additional internal error was encountered revoking the newly-generated secret: {{err}}", err))
} else if revResp != nil && revResp.IsError() {
retErr = multierror.Append(retErr, errwrap.Wrapf("an additional error was encountered revoking the newly-generated secret: {{err}}", revResp.Error()))
}
if err := m.deleteEntry(leaseID); err != nil {
2017-05-04 16:44:31 +00:00
retErr = multierror.Append(retErr, errwrap.Wrapf("an additional error was encountered deleting any lease associated with the newly-generated secret: {{err}}", err))
}
if err := m.removeIndexByToken(req.ClientToken, leaseID); err != nil {
2017-05-04 16:44:31 +00:00
retErr = multierror.Append(retErr, errwrap.Wrapf("an additional error was encountered removing lease indexes associated with the newly-generated secret: {{err}}", err))
}
}
}()
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le := leaseEntry{
LeaseID: leaseID,
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ClientToken: req.ClientToken,
Path: req.Path,
Data: resp.Data,
Secret: resp.Secret,
IssueTime: time.Now(),
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ExpireTime: resp.Secret.ExpirationTime(),
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}
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// Encode the entry
if err := m.persistEntry(&le); err != nil {
return "", err
}
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// Maintain secondary index by token
if err := m.createIndexByToken(le.ClientToken, le.LeaseID); err != nil {
2015-04-10 21:48:08 +00:00
return "", err
}
// Setup revocation timer if there is a lease
m.updatePending(&le, resp.Secret.LeaseTotal())
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// Done
return le.LeaseID, nil
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}
// RegisterAuth is used to take an Auth response with an associated lease.
// The token does not get a LeaseID, but the lease management is handled by
// the expiration manager.
func (m *ExpirationManager) RegisterAuth(source string, auth *logical.Auth) error {
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defer metrics.MeasureSince([]string{"expire", "register-auth"}, time.Now())
if auth.ClientToken == "" {
return fmt.Errorf("cannot register an auth lease with an empty token")
}
if strings.Contains(source, "..") {
return consts.ErrPathContainsParentReferences
}
saltedID, err := m.tokenStore.SaltID(m.quitContext, auth.ClientToken)
if err != nil {
return err
}
// Create a lease entry
le := leaseEntry{
LeaseID: path.Join(source, saltedID),
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ClientToken: auth.ClientToken,
Auth: auth,
Path: source,
IssueTime: time.Now(),
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ExpireTime: auth.ExpirationTime(),
}
// Encode the entry
if err := m.persistEntry(&le); err != nil {
return err
}
// Setup revocation timer
m.updatePending(&le, auth.LeaseTotal())
return nil
}
// FetchLeaseTimesByToken is a helper function to use token values to compute
// the leaseID, rather than pushing that logic back into the token store.
func (m *ExpirationManager) FetchLeaseTimesByToken(source, token string) (*leaseEntry, error) {
defer metrics.MeasureSince([]string{"expire", "fetch-lease-times-by-token"}, time.Now())
// Compute the Lease ID
saltedID, err := m.tokenStore.SaltID(m.quitContext, token)
if err != nil {
return nil, err
}
leaseID := path.Join(source, saltedID)
return m.FetchLeaseTimes(leaseID)
}
// FetchLeaseTimes is used to fetch the issue time, expiration time, and last
// renewed time of a lease entry. It returns a leaseEntry itself, but with only
// those values copied over.
func (m *ExpirationManager) FetchLeaseTimes(leaseID string) (*leaseEntry, error) {
defer metrics.MeasureSince([]string{"expire", "fetch-lease-times"}, time.Now())
// Load the entry
le, err := m.loadEntry(leaseID)
if err != nil {
return nil, err
}
if le == nil {
return nil, nil
}
ret := &leaseEntry{
IssueTime: le.IssueTime,
ExpireTime: le.ExpireTime,
LastRenewalTime: le.LastRenewalTime,
}
if le.Secret != nil {
ret.Secret = &logical.Secret{}
ret.Secret.Renewable = le.Secret.Renewable
ret.Secret.TTL = le.Secret.TTL
}
if le.Auth != nil {
ret.Auth = &logical.Auth{}
ret.Auth.Renewable = le.Auth.Renewable
ret.Auth.TTL = le.Auth.TTL
}
return ret, nil
}
// updatePending is used to update a pending invocation for a lease
func (m *ExpirationManager) updatePending(le *leaseEntry, leaseTotal time.Duration) {
m.pendingLock.Lock()
defer m.pendingLock.Unlock()
// Check for an existing timer
timer, ok := m.pending[le.LeaseID]
// If there is no expiry time, don't do anything
if le.ExpireTime.IsZero() {
// if the timer happened to exist, stop the time and delete it from the
// pending timers.
if ok {
timer.Stop()
delete(m.pending, le.LeaseID)
}
return
}
// Create entry if it does not exist
if !ok {
timer := time.AfterFunc(leaseTotal, func() {
2015-04-08 22:43:26 +00:00
m.expireID(le.LeaseID)
})
m.pending[le.LeaseID] = timer
return
}
// Extend the timer by the lease total
timer.Reset(leaseTotal)
}
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// expireID is invoked when a given ID is expired
func (m *ExpirationManager) expireID(leaseID string) {
2015-03-16 01:06:19 +00:00
// Clear from the pending expiration
m.pendingLock.Lock()
delete(m.pending, leaseID)
2015-03-16 01:06:19 +00:00
m.pendingLock.Unlock()
for attempt := uint(0); attempt < maxRevokeAttempts; attempt++ {
select {
case <-m.quitCh:
m.logger.Error("shutting down, not attempting further revocation of lease", "lease_id", leaseID)
return
default:
}
m.coreStateLock.RLock()
if m.quitContext.Err() == context.Canceled {
m.logger.Error("core context canceled, not attempting further revocation of lease", "lease_id", leaseID)
m.coreStateLock.RUnlock()
return
}
err := m.Revoke(leaseID)
if err == nil {
m.coreStateLock.RUnlock()
return
}
m.coreStateLock.RUnlock()
m.logger.Error("failed to revoke lease", "lease_id", leaseID, "error", err)
time.Sleep((1 << attempt) * revokeRetryBase)
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}
m.logger.Error("maximum revoke attempts reached", "lease_id", leaseID)
2015-03-16 01:06:19 +00:00
}
// revokeEntry is used to attempt revocation of an internal entry
func (m *ExpirationManager) revokeEntry(le *leaseEntry) error {
// Revocation of login tokens is special since we can by-pass the
// backend and directly interact with the token store
if le.Auth != nil {
if err := m.tokenStore.revokeTree(m.quitContext, le.ClientToken); err != nil {
return errwrap.Wrapf("failed to revoke token: {{err}}", err)
}
return nil
}
// Handle standard revocation via backends
resp, err := m.router.Route(m.quitContext, logical.RevokeRequest(le.Path, le.Secret, le.Data))
if err != nil || (resp != nil && resp.IsError()) {
return errwrap.Wrapf(fmt.Sprintf("failed to revoke entry: resp: %#v err: {{err}}", resp), err)
}
return nil
2015-03-16 01:06:19 +00:00
}
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// renewEntry is used to attempt renew of an internal entry
2015-03-16 21:59:37 +00:00
func (m *ExpirationManager) renewEntry(le *leaseEntry, increment time.Duration) (*logical.Response, error) {
vault: clean up VaultID duplications, make secret responses clearer /cc @armon - This is a reasonably major refactor that I think cleans up a lot of the logic with secrets in responses. The reason for the refactor is that while implementing Renew/Revoke in logical/framework I found the existing API to be really awkward to work with. Primarily, we needed a way to send down internal data for Vault core to store since not all the data you need to revoke a key is always sent down to the user (for example the user than AWS key belongs to). At first, I was doing this manually in logical/framework with req.Storage, but this is going to be such a common event that I think its something core should assist with. Additionally, I think the added context for secrets will be useful in the future when we have a Vault API for returning orphaned out keys: we can also return the internal data that might help an operator. So this leads me to this refactor. I've removed most of the fields in `logical.Response` and replaced it with a single `*Secret` pointer. If this is non-nil, then the response represents a secret. The Secret struct encapsulates all the lease info and such. It also has some fields on it that are only populated at _request_ time for Revoke/Renew operations. There is precedent for this sort of behavior in the Go stdlib where http.Request/http.Response have fields that differ based on client/server. I copied this style. All core unit tests pass. The APIs fail for obvious reasons but I'll fix that up in the next commit.
2015-03-19 22:11:42 +00:00
secret := *le.Secret
secret.IssueTime = le.IssueTime
secret.Increment = increment
secret.LeaseID = ""
2015-04-09 21:23:37 +00:00
req := logical.RenewRequest(le.Path, &secret, le.Data)
resp, err := m.router.Route(m.quitContext, req)
if err != nil || (resp != nil && resp.IsError()) {
return nil, errwrap.Wrapf(fmt.Sprintf("failed to renew entry: resp: %#v err: {{err}}", resp), err)
2015-04-09 21:23:37 +00:00
}
return resp, nil
}
2016-03-09 16:07:13 +00:00
// renewAuthEntry is used to attempt renew of an auth entry. Only the token
// store should get the actual token ID intact.
2016-02-18 16:22:04 +00:00
func (m *ExpirationManager) renewAuthEntry(req *logical.Request, le *leaseEntry, increment time.Duration) (*logical.Response, error) {
2015-04-09 21:23:37 +00:00
auth := *le.Auth
auth.IssueTime = le.IssueTime
auth.Increment = increment
2016-03-09 16:07:13 +00:00
if strings.HasPrefix(le.Path, "auth/token/") {
auth.ClientToken = le.ClientToken
} else {
auth.ClientToken = ""
}
2015-04-09 21:23:37 +00:00
2016-02-18 16:22:04 +00:00
authReq := logical.RenewAuthRequest(le.Path, &auth, nil)
authReq.Connection = req.Connection
resp, err := m.router.Route(m.quitContext, authReq)
2015-03-16 20:29:51 +00:00
if err != nil {
return nil, errwrap.Wrapf("failed to renew entry: {{err}}", err)
2015-03-16 20:29:51 +00:00
}
return resp, nil
}
2015-03-16 01:06:19 +00:00
// loadEntry is used to read a lease entry
func (m *ExpirationManager) loadEntry(leaseID string) (*leaseEntry, error) {
// Take out the lease locks after we ensure we are in restore mode
restoreMode := m.inRestoreMode()
if restoreMode {
m.restoreModeLock.RLock()
defer m.restoreModeLock.RUnlock()
restoreMode = m.inRestoreMode()
if restoreMode {
m.lockLease(leaseID)
defer m.unlockLease(leaseID)
}
}
return m.loadEntryInternal(leaseID, restoreMode, true)
}
// loadEntryInternal is used when you need to load an entry but also need to
// control the lifecycle of the restoreLock
func (m *ExpirationManager) loadEntryInternal(leaseID string, restoreMode bool, checkRestored bool) (*leaseEntry, error) {
out, err := m.idView.Get(m.quitContext, leaseID)
2015-03-16 01:06:19 +00:00
if err != nil {
return nil, errwrap.Wrapf("failed to read lease entry: {{err}}", err)
2015-03-16 01:06:19 +00:00
}
if out == nil {
return nil, nil
}
le, err := decodeLeaseEntry(out.Value)
if err != nil {
return nil, errwrap.Wrapf("failed to decode lease entry: {{err}}", err)
2015-03-16 01:06:19 +00:00
}
if restoreMode {
if checkRestored {
// If we have already loaded this lease, we don't need to update on
// load. In the case of renewal and revocation, updatePending will be
// done after making the appropriate modifications to the lease.
if _, ok := m.restoreLoaded.Load(leaseID); ok {
return le, nil
}
}
// Update the cache of restored leases, either synchronously or through
// the lazy loaded restore process
m.restoreLoaded.Store(le.LeaseID, struct{}{})
// Setup revocation timer
m.updatePending(le, le.ExpireTime.Sub(time.Now()))
}
2015-03-16 01:06:19 +00:00
return le, nil
}
// persistEntry is used to persist a lease entry
func (m *ExpirationManager) persistEntry(le *leaseEntry) error {
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// Encode the entry
buf, err := le.encode()
if err != nil {
return errwrap.Wrapf("failed to encode lease entry: {{err}}", err)
2015-03-13 17:55:54 +00:00
}
// Write out to the view
ent := logical.StorageEntry{
Key: le.LeaseID,
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Value: buf,
}
if le.Auth != nil && len(le.Auth.Policies) == 1 && le.Auth.Policies[0] == "root" {
ent.SealWrap = true
}
if err := m.idView.Put(m.quitContext, &ent); err != nil {
return errwrap.Wrapf("failed to persist lease entry: {{err}}", err)
2015-03-13 17:55:54 +00:00
}
2015-03-16 01:06:19 +00:00
return nil
}
2015-03-13 17:55:54 +00:00
2015-03-16 01:06:19 +00:00
// deleteEntry is used to delete a lease entry
func (m *ExpirationManager) deleteEntry(leaseID string) error {
if err := m.idView.Delete(m.quitContext, leaseID); err != nil {
return errwrap.Wrapf("failed to delete lease entry: {{err}}", err)
2015-03-16 01:06:19 +00:00
}
return nil
2015-03-13 17:55:54 +00:00
}
// createIndexByToken creates a secondary index from the token to a lease entry
func (m *ExpirationManager) createIndexByToken(token, leaseID string) error {
saltedID, err := m.tokenStore.SaltID(m.quitContext, token)
if err != nil {
return err
}
leaseSaltedID, err := m.tokenStore.SaltID(m.quitContext, leaseID)
if err != nil {
return err
}
2015-04-10 21:48:08 +00:00
ent := logical.StorageEntry{
Key: saltedID + "/" + leaseSaltedID,
2015-04-10 21:48:08 +00:00
Value: []byte(leaseID),
}
if err := m.tokenView.Put(m.quitContext, &ent); err != nil {
return errwrap.Wrapf("failed to persist lease index entry: {{err}}", err)
2015-04-10 21:48:08 +00:00
}
return nil
}
// indexByToken looks up the secondary index from the token to a lease entry
func (m *ExpirationManager) indexByToken(token, leaseID string) (*logical.StorageEntry, error) {
saltedID, err := m.tokenStore.SaltID(m.quitContext, token)
if err != nil {
return nil, err
}
leaseSaltedID, err := m.tokenStore.SaltID(m.quitContext, leaseID)
if err != nil {
return nil, err
}
key := saltedID + "/" + leaseSaltedID
entry, err := m.tokenView.Get(m.quitContext, key)
if err != nil {
return nil, fmt.Errorf("failed to look up secondary index entry")
}
return entry, nil
}
2015-04-10 21:48:08 +00:00
// removeIndexByToken removes the secondary index from the token to a lease entry
func (m *ExpirationManager) removeIndexByToken(token, leaseID string) error {
saltedID, err := m.tokenStore.SaltID(m.quitContext, token)
if err != nil {
return err
}
leaseSaltedID, err := m.tokenStore.SaltID(m.quitContext, leaseID)
if err != nil {
return err
}
key := saltedID + "/" + leaseSaltedID
if err := m.tokenView.Delete(m.quitContext, key); err != nil {
return errwrap.Wrapf("failed to delete lease index entry: {{err}}", err)
2015-04-10 21:48:08 +00:00
}
return nil
}
// CreateOrFetchRevocationLeaseByToken is used to create or fetch the matching
// leaseID for a particular token. The lease is set to expire immediately after
// it's created.
func (m *ExpirationManager) CreateOrFetchRevocationLeaseByToken(te *TokenEntry) (string, error) {
// Fetch the saltedID of the token and construct the leaseID
saltedID, err := m.tokenStore.SaltID(m.quitContext, te.ID)
if err != nil {
return "", err
}
leaseID := path.Join(te.Path, saltedID)
// Load the entry
le, err := m.loadEntry(leaseID)
if err != nil {
return "", err
}
// If there's no associated leaseEntry for the token, we create one
if le == nil {
auth := &logical.Auth{
ClientToken: te.ID,
LeaseOptions: logical.LeaseOptions{
TTL: time.Nanosecond,
},
}
if strings.Contains(te.Path, "..") {
return "", consts.ErrPathContainsParentReferences
}
// Create a lease entry
now := time.Now()
le = &leaseEntry{
LeaseID: leaseID,
ClientToken: auth.ClientToken,
Auth: auth,
Path: te.Path,
IssueTime: now,
ExpireTime: now.Add(time.Nanosecond),
}
// Encode the entry
if err := m.persistEntry(le); err != nil {
return "", err
}
}
return le.LeaseID, nil
}
// lookupLeasesByToken is used to lookup all the leaseID's via the tokenID
func (m *ExpirationManager) lookupLeasesByToken(token string) ([]string, error) {
saltedID, err := m.tokenStore.SaltID(m.quitContext, token)
if err != nil {
return nil, err
}
2015-04-10 21:48:08 +00:00
// Scan via the index for sub-leases
prefix := saltedID + "/"
subKeys, err := m.tokenView.List(m.quitContext, prefix)
2015-04-10 21:48:08 +00:00
if err != nil {
return nil, errwrap.Wrapf("failed to list leases: {{err}}", err)
2015-04-10 21:48:08 +00:00
}
// Read each index entry
leaseIDs := make([]string, 0, len(subKeys))
for _, sub := range subKeys {
out, err := m.tokenView.Get(m.quitContext, prefix+sub)
2015-04-10 21:48:08 +00:00
if err != nil {
return nil, errwrap.Wrapf("failed to read lease index: {{err}}", err)
2015-04-10 21:48:08 +00:00
}
if out == nil {
continue
}
leaseIDs = append(leaseIDs, string(out.Value))
}
return leaseIDs, nil
}
2015-04-08 23:43:17 +00:00
// emitMetrics is invoked periodically to emit statistics
func (m *ExpirationManager) emitMetrics() {
m.pendingLock.RLock()
2015-04-08 23:43:17 +00:00
num := len(m.pending)
m.pendingLock.RUnlock()
2015-04-08 23:43:17 +00:00
metrics.SetGauge([]string{"expire", "num_leases"}, float32(num))
// Check if lease count is greater than the threshold
if num > maxLeaseThreshold {
if atomic.LoadUint32(&m.leaseCheckCounter) > 59 {
m.logger.Warn("lease count exceeds warning lease threshold")
atomic.StoreUint32(&m.leaseCheckCounter, 0)
} else {
atomic.AddUint32(&m.leaseCheckCounter, 1)
}
}
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}
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// leaseEntry is used to structure the values the expiration
// manager stores. This is used to handle renew and revocation.
type leaseEntry struct {
LeaseID string `json:"lease_id"`
ClientToken string `json:"client_token"`
Path string `json:"path"`
Data map[string]interface{} `json:"data"`
Secret *logical.Secret `json:"secret"`
Auth *logical.Auth `json:"auth"`
IssueTime time.Time `json:"issue_time"`
ExpireTime time.Time `json:"expire_time"`
LastRenewalTime time.Time `json:"last_renewal_time"`
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}
// encode is used to JSON encode the lease entry
func (le *leaseEntry) encode() ([]byte, error) {
return json.Marshal(le)
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}
func (le *leaseEntry) renewable() (bool, error) {
var err error
switch {
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// If there is no entry, cannot review
case le == nil || le.ExpireTime.IsZero():
err = fmt.Errorf("lease not found or lease is not renewable")
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// Determine if the lease is expired
case le.ExpireTime.Before(time.Now()):
err = fmt.Errorf("lease expired")
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// Determine if the lease is renewable
case le.Secret != nil && !le.Secret.Renewable:
err = fmt.Errorf("lease is not renewable")
case le.Auth != nil && !le.Auth.Renewable:
err = fmt.Errorf("lease is not renewable")
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}
if err != nil {
return false, err
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}
return true, nil
}
func (le *leaseEntry) ttl() int64 {
return int64(le.ExpireTime.Sub(time.Now().Round(time.Second)).Seconds())
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}
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// decodeLeaseEntry is used to reverse encode and return a new entry
func decodeLeaseEntry(buf []byte) (*leaseEntry, error) {
out := new(leaseEntry)
return out, jsonutil.DecodeJSON(buf, out)
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}