open-vault/vault/token_store.go

732 lines
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package vault
import (
"crypto/sha1"
"encoding/hex"
"encoding/json"
"fmt"
"regexp"
"strings"
"time"
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"github.com/armon/go-metrics"
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"github.com/hashicorp/vault/logical"
"github.com/hashicorp/vault/logical/framework"
"github.com/mitchellh/mapstructure"
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)
const (
// lookupPrefix is the prefix used to store tokens for their
// primary ID based index
lookupPrefix = "id/"
// parentPrefix is the prefix used to store tokens for their
// secondar parent based index
parentPrefix = "parent/"
// tokenSaltLocation is the path in the view we store our key salt.
// This is used to ensure the paths we write out are obfuscated so
// that token names cannot be guessed as that would compromise their
// use.
tokenSaltLocation = "salt"
// tokenSubPath is the sub-path used for the token store
// view. This is nested under the system view.
tokenSubPath = "token/"
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)
var (
// displayNameSanitize is used to sanitize a display name given to a token.
displayNameSanitize = regexp.MustCompile("[^a-zA-Z0-9-]")
)
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// TokenStore is used to manage client tokens. Tokens are used for
// clients to authenticate, and each token is mapped to an applicable
// set of policy which is used for authorization.
type TokenStore struct {
*framework.Backend
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view *BarrierView
salt string
expiration *ExpirationManager
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}
// NewTokenStore is used to construct a token store that is
// backed by the given barrier view.
func NewTokenStore(c *Core) (*TokenStore, error) {
// Create a sub-view
view := c.systemView.SubView(tokenSubPath)
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// Initialize the store
t := &TokenStore{
view: view,
}
// Look for the salt
raw, err := view.Get(tokenSaltLocation)
if err != nil {
return nil, fmt.Errorf("failed to read salt: %v", err)
}
// Restore the salt if it exists
if raw != nil {
t.salt = string(raw.Value)
}
// Generate a new salt if necessary
if t.salt == "" {
t.salt = generateUUID()
raw = &logical.StorageEntry{Key: tokenSaltLocation, Value: []byte(t.salt)}
if err := view.Put(raw); err != nil {
return nil, fmt.Errorf("failed to persist salt: %v", err)
}
}
// Setup the framework endpoints
t.Backend = &framework.Backend{
// Allow a token lease to be extended indefinitely, but each time for only
// as much as the original lease allowed for. If the lease has a 1 hour expiration,
// it can only be extended up to another hour each time this means.
AuthRenew: framework.LeaseExtend(0, 0, true),
PathsSpecial: &logical.Paths{
Root: []string{
"revoke-prefix/*",
},
Unauthenticated: []string{
"lookup-self",
},
},
Paths: []*framework.Path{
&framework.Path{
Pattern: "create$",
Callbacks: map[logical.Operation]framework.OperationFunc{
logical.WriteOperation: t.handleCreate,
},
HelpSynopsis: strings.TrimSpace(tokenCreateHelp),
HelpDescription: strings.TrimSpace(tokenCreateHelp),
},
&framework.Path{
Pattern: "lookup/(?P<token>.+)",
Fields: map[string]*framework.FieldSchema{
"token": &framework.FieldSchema{
Type: framework.TypeString,
Description: "Token to lookup",
},
},
Callbacks: map[logical.Operation]framework.OperationFunc{
logical.ReadOperation: t.handleLookup,
},
HelpSynopsis: strings.TrimSpace(tokenLookupHelp),
HelpDescription: strings.TrimSpace(tokenLookupHelp),
},
&framework.Path{
Pattern: "lookup-self$",
Fields: map[string]*framework.FieldSchema{
"token": &framework.FieldSchema{
Type: framework.TypeString,
Description: "Token to lookup",
},
},
Callbacks: map[logical.Operation]framework.OperationFunc{
logical.ReadOperation: t.handleLookup,
},
HelpSynopsis: strings.TrimSpace(tokenLookupHelp),
HelpDescription: strings.TrimSpace(tokenLookupHelp),
},
&framework.Path{
Pattern: "revoke/(?P<token>.+)",
Fields: map[string]*framework.FieldSchema{
"token": &framework.FieldSchema{
Type: framework.TypeString,
Description: "Token to revoke",
},
},
Callbacks: map[logical.Operation]framework.OperationFunc{
logical.WriteOperation: t.handleRevokeTree,
},
HelpSynopsis: strings.TrimSpace(tokenRevokeHelp),
HelpDescription: strings.TrimSpace(tokenRevokeHelp),
},
&framework.Path{
Pattern: "revoke-orphan/(?P<token>.+)",
Fields: map[string]*framework.FieldSchema{
"token": &framework.FieldSchema{
Type: framework.TypeString,
Description: "Token to revoke",
},
},
Callbacks: map[logical.Operation]framework.OperationFunc{
logical.WriteOperation: t.handleRevokeOrphan,
},
HelpSynopsis: strings.TrimSpace(tokenRevokeOrphanHelp),
HelpDescription: strings.TrimSpace(tokenRevokeOrphanHelp),
},
&framework.Path{
Pattern: "revoke-prefix/(?P<prefix>.+)",
Fields: map[string]*framework.FieldSchema{
"prefix": &framework.FieldSchema{
Type: framework.TypeString,
Description: "Token source prefix to revoke",
},
},
Callbacks: map[logical.Operation]framework.OperationFunc{
logical.WriteOperation: t.handleRevokePrefix,
},
HelpSynopsis: strings.TrimSpace(tokenRevokePrefixHelp),
HelpDescription: strings.TrimSpace(tokenRevokePrefixHelp),
},
&framework.Path{
Pattern: "renew/(?P<token>.+)",
Fields: map[string]*framework.FieldSchema{
"token": &framework.FieldSchema{
Type: framework.TypeString,
Description: "Token to renew",
},
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"increment": &framework.FieldSchema{
Type: framework.TypeDurationSecond,
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Description: "The desired increment in seconds to the token expiration",
},
},
Callbacks: map[logical.Operation]framework.OperationFunc{
logical.WriteOperation: t.handleRenew,
},
HelpSynopsis: strings.TrimSpace(tokenRenewHelp),
HelpDescription: strings.TrimSpace(tokenRenewHelp),
},
},
}
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return t, nil
}
// TokenEntry is used to represent a given token
type TokenEntry struct {
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ID string // ID of this entry, generally a random UUID
Parent string // Parent token, used for revocation trees
Policies []string // Which named policies should be used
Path string // Used for audit trails, this is something like "auth/user/login"
Meta map[string]string // Used for auditing. This could include things like "source", "user", "ip"
DisplayName string // Used for operators to be able to associate with the source
NumUses int // Used to restrict the number of uses (zero is unlimited). This is to support one-time-tokens (generalized).
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}
// SetExpirationManager is used to provide the token store with
// an expiration manager. This is used to manage prefix based revocation
// of tokens and to cleanup entries when removed from the token store.
func (t *TokenStore) SetExpirationManager(exp *ExpirationManager) {
t.expiration = exp
}
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// SaltID is used to apply a salt and hash to an ID to make sure its not reversable
func (ts *TokenStore) SaltID(id string) string {
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comb := ts.salt + id
hash := sha1.Sum([]byte(comb))
return hex.EncodeToString(hash[:])
}
// RootToken is used to generate a new token with root privileges and no parent
func (ts *TokenStore) RootToken() (*TokenEntry, error) {
te := &TokenEntry{
Policies: []string{"root"},
Path: "auth/token/root",
DisplayName: "root",
}
if err := ts.Create(te); err != nil {
return nil, err
}
return te, nil
}
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// Create is used to create a new token entry. The entry is assigned
// a newly generated ID if not provided.
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func (ts *TokenStore) Create(entry *TokenEntry) error {
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defer metrics.MeasureSince([]string{"token", "create"}, time.Now())
// Generate an ID if necessary
if entry.ID == "" {
entry.ID = generateUUID()
}
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saltedId := ts.SaltID(entry.ID)
// Marshal the entry
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enc, err := json.Marshal(entry)
if err != nil {
return fmt.Errorf("failed to encode entry: %v", err)
}
// Write the secondary index if necessary. This is done before the
// primary index because we'd rather have a dangling pointer with
// a missing primary instead of missing the parent index and potentially
// escaping the revocation chain.
if entry.Parent != "" {
// Ensure the parent exists
parent, err := ts.Lookup(entry.Parent)
if err != nil {
return fmt.Errorf("failed to lookup parent: %v", err)
}
if parent == nil {
return fmt.Errorf("parent token not found")
}
// Create the index entry
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path := parentPrefix + ts.SaltID(entry.Parent) + "/" + saltedId
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le := &logical.StorageEntry{Key: path}
if err := ts.view.Put(le); err != nil {
return fmt.Errorf("failed to persist entry: %v", err)
}
}
// Write the primary ID
path := lookupPrefix + saltedId
le := &logical.StorageEntry{Key: path, Value: enc}
if err := ts.view.Put(le); err != nil {
return fmt.Errorf("failed to persist entry: %v", err)
}
return nil
}
// UseToken is used to manage restricted use tokens and decrement
// their available uses.
func (ts *TokenStore) UseToken(te *TokenEntry) error {
// If the token is not restricted, there is nothing to do
if te.NumUses == 0 {
return nil
}
// Decrement the count
te.NumUses -= 1
// Revoke the token if there are no remaining uses.
// XXX: There is a race condition here with parallel
// requests using the same token. This would require
// some global coordination to avoid, as we must ensure
// no requests using the same restricted token are handled
// in parallel.
if te.NumUses == 0 {
return ts.Revoke(te.ID)
}
// Marshal the entry
enc, err := json.Marshal(te)
if err != nil {
return fmt.Errorf("failed to encode entry: %v", err)
}
// Write under the primary ID
saltedId := ts.SaltID(te.ID)
path := lookupPrefix + saltedId
le := &logical.StorageEntry{Key: path, Value: enc}
if err := ts.view.Put(le); err != nil {
return fmt.Errorf("failed to persist entry: %v", err)
}
return nil
}
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// Lookup is used to find a token given its ID
func (ts *TokenStore) Lookup(id string) (*TokenEntry, error) {
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defer metrics.MeasureSince([]string{"token", "lookup"}, time.Now())
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if id == "" {
return nil, fmt.Errorf("cannot lookup blank token")
}
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return ts.lookupSalted(ts.SaltID(id))
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}
// lookupSlated is used to find a token given its salted ID
func (ts *TokenStore) lookupSalted(saltedId string) (*TokenEntry, error) {
// Lookup token
path := lookupPrefix + saltedId
raw, err := ts.view.Get(path)
if err != nil {
return nil, fmt.Errorf("failed to read entry: %v", err)
}
// Bail if not found
if raw == nil {
return nil, nil
}
// Unmarshal the token
entry := new(TokenEntry)
if err := json.Unmarshal(raw.Value, entry); err != nil {
return nil, fmt.Errorf("failed to decode entry: %v", err)
}
return entry, nil
}
// Revoke is used to invalidate a given token, any child tokens
// will be orphaned.
func (ts *TokenStore) Revoke(id string) error {
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defer metrics.MeasureSince([]string{"token", "revoke"}, time.Now())
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if id == "" {
return fmt.Errorf("cannot revoke blank token")
}
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return ts.revokeSalted(ts.SaltID(id))
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}
// revokeSalted is used to invalidate a given salted token,
// any child tokens will be orphaned.
func (ts *TokenStore) revokeSalted(saltedId string) error {
// Lookup the token first
entry, err := ts.lookupSalted(saltedId)
if err != nil {
return err
}
// Nuke the primary key first
path := lookupPrefix + saltedId
if ts.view.Delete(path); err != nil {
return fmt.Errorf("failed to delete entry: %v", err)
}
// Clear the secondary index if any
if entry != nil && entry.Parent != "" {
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path := parentPrefix + ts.SaltID(entry.Parent) + "/" + saltedId
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if ts.view.Delete(path); err != nil {
return fmt.Errorf("failed to delete entry: %v", err)
}
}
// Revoke all secrets under this token
if entry != nil {
if err := ts.expiration.RevokeByToken(entry.ID); err != nil {
return err
}
}
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return nil
}
// RevokeTree is used to invalide a given token and all
// child tokens.
func (ts *TokenStore) RevokeTree(id string) error {
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defer metrics.MeasureSince([]string{"token", "revoke-tree"}, time.Now())
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// Verify the token is not blank
if id == "" {
return fmt.Errorf("cannot revoke blank token")
}
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// Get the salted ID
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saltedId := ts.SaltID(id)
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// Nuke the entire tree recursively
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if err := ts.revokeTreeSalted(saltedId); err != nil {
return err
}
return nil
}
// revokeTreeSalted is used to invalide a given token and all
// child tokens using a saltedID.
func (ts *TokenStore) revokeTreeSalted(saltedId string) error {
// Scan for child tokens
path := parentPrefix + saltedId + "/"
children, err := ts.view.List(path)
if err != nil {
return fmt.Errorf("failed to scan for children: %v", err)
}
// Recursively nuke the children. The subtle nuance here is that
// we don't have the acutal ID of the child, but we have the salted
// value. Turns out, this is good enough!
for _, child := range children {
if err := ts.revokeTreeSalted(child); err != nil {
return err
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}
}
// Revoke this entry
if err := ts.revokeSalted(saltedId); err != nil {
return fmt.Errorf("failed to revoke entry: %v", err)
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}
return nil
}
// handleCreate handles the auth/token/create path for creation of new tokens
func (ts *TokenStore) handleCreate(
req *logical.Request, d *framework.FieldData) (*logical.Response, error) {
// Read the parent policy
parent, err := ts.Lookup(req.ClientToken)
if err != nil || parent == nil {
return logical.ErrorResponse("parent token lookup failed"), logical.ErrInvalidRequest
}
// A token with a restricted number of uses cannot create a new token
// otherwise it could escape the restriction count.
if parent.NumUses > 0 {
return logical.ErrorResponse("restricted use token cannot generate child tokens"),
logical.ErrInvalidRequest
}
// Check if the parent policy is root
isRoot := strListContains(parent.Policies, "root")
// Read and parse the fields
var data struct {
ID string
Policies []string
Metadata map[string]string `mapstructure:"meta"`
NoParent bool `mapstructure:"no_parent"`
Lease string
DisplayName string `mapstructure:"display_name"`
NumUses int `mapstructure:"num_uses"`
}
if err := mapstructure.WeakDecode(req.Data, &data); err != nil {
return logical.ErrorResponse(fmt.Sprintf(
"Error decoding request: %s", err)), logical.ErrInvalidRequest
}
// Verify the number of uses is positive
if data.NumUses < 0 {
return logical.ErrorResponse("number of uses cannot be negative"),
logical.ErrInvalidRequest
}
// Setup the token entry
te := TokenEntry{
Parent: req.ClientToken,
Path: "auth/token/create",
Meta: data.Metadata,
DisplayName: "token",
NumUses: data.NumUses,
}
// Attach the given display name if any
if data.DisplayName != "" {
full := "token-" + data.DisplayName
full = displayNameSanitize.ReplaceAllString(full, "-")
full = strings.TrimSuffix(full, "-")
te.DisplayName = full
}
// Allow specifying the ID of the token if the client is root
if data.ID != "" {
if !isRoot {
return logical.ErrorResponse("root required to specify token id"),
logical.ErrInvalidRequest
}
te.ID = data.ID
}
// Only permit policies to be a subset unless the client is root
if len(data.Policies) == 0 {
data.Policies = parent.Policies
}
if !isRoot && !strListSubset(parent.Policies, data.Policies) {
return logical.ErrorResponse("child policies must be subset of parent"), logical.ErrInvalidRequest
}
te.Policies = data.Policies
// Only allow an orphan token if the client is root
if data.NoParent {
if !isRoot {
return logical.ErrorResponse("root required to create orphan token"),
logical.ErrInvalidRequest
}
te.Parent = ""
}
// Parse the lease if any
var leaseDuration time.Duration
if data.Lease != "" {
dur, err := time.ParseDuration(data.Lease)
if err != nil {
return logical.ErrorResponse(err.Error()), logical.ErrInvalidRequest
}
if dur < 0 {
return logical.ErrorResponse("lease must be positive"), logical.ErrInvalidRequest
}
leaseDuration = dur
}
// Create the token
if err := ts.Create(&te); err != nil {
return logical.ErrorResponse(err.Error()), logical.ErrInvalidRequest
}
// Generate the response
resp := &logical.Response{
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Auth: &logical.Auth{
DisplayName: te.DisplayName,
Policies: te.Policies,
Metadata: te.Meta,
LeaseOptions: logical.LeaseOptions{
Lease: leaseDuration,
LeaseGracePeriod: leaseDuration / 10,
Renewable: leaseDuration > 0,
},
ClientToken: te.ID,
},
}
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return resp, nil
}
// handleRevokeTree handles the auth/token/revoke/id path for revocation of tokens
// in a way that revokes all child tokens. Normally, using sys/revoke/leaseID will revoke
// the token and all children anyways, but that is only available when there is a lease.
func (ts *TokenStore) handleRevokeTree(
req *logical.Request, data *framework.FieldData) (*logical.Response, error) {
id := data.Get("token").(string)
if id == "" {
return logical.ErrorResponse("missing token ID"), logical.ErrInvalidRequest
}
// Revoke the token and its children
if err := ts.RevokeTree(id); err != nil {
return logical.ErrorResponse(err.Error()), logical.ErrInvalidRequest
}
return nil, nil
}
// handleRevokeOrphan handles the auth/token/revoke-orphan/id path for revocation of tokens
// in a way that leaves child tokens orphaned. Normally, using sys/revoke/leaseID will revoke
// the token and all children.
func (ts *TokenStore) handleRevokeOrphan(
req *logical.Request, data *framework.FieldData) (*logical.Response, error) {
// Parse the id
id := data.Get("token").(string)
if id == "" {
return logical.ErrorResponse("missing token ID"), logical.ErrInvalidRequest
}
// Revoke and orphan
if err := ts.Revoke(id); err != nil {
return logical.ErrorResponse(err.Error()), logical.ErrInvalidRequest
}
return nil, nil
}
// handleRevokePrefix handles the auth/token/revoke-prefix/path for revocation of tokens
// generated by a given path.
func (ts *TokenStore) handleRevokePrefix(
req *logical.Request, data *framework.FieldData) (*logical.Response, error) {
// Parse the prefix
prefix := data.Get("prefix").(string)
if prefix == "" {
return logical.ErrorResponse("missing source prefix"), logical.ErrInvalidRequest
}
// Revoke using the prefix
if err := ts.expiration.RevokePrefix(prefix); err != nil {
return logical.ErrorResponse(err.Error()), logical.ErrInvalidRequest
}
return nil, nil
}
// handleLookup handles the auth/token/lookup/id path for querying information about
// a particular token. This can be used to see which policies are applicable.
func (ts *TokenStore) handleLookup(
req *logical.Request, data *framework.FieldData) (*logical.Response, error) {
id := data.Get("token").(string)
if id == "" {
id = req.ClientToken
}
if id == "" {
return logical.ErrorResponse("missing token ID"), logical.ErrInvalidRequest
}
// Lookup the token
out, err := ts.Lookup(id)
if err != nil {
return logical.ErrorResponse(err.Error()), logical.ErrInvalidRequest
}
if out == nil {
return logical.ErrorResponse("bad token"), logical.ErrPermissionDenied
}
// Generate a response. We purposely omit the parent reference otherwise
// you could escalade your privileges.
resp := &logical.Response{
Data: map[string]interface{}{
"id": out.ID,
"policies": out.Policies,
"path": out.Path,
"meta": out.Meta,
"display_name": out.DisplayName,
"num_uses": out.NumUses,
},
}
return resp, nil
}
// handleRenew handles the auth/token/renew/id path for renewal of tokens.
// This is used to prevent token expiration and revocation.
func (ts *TokenStore) handleRenew(
req *logical.Request, data *framework.FieldData) (*logical.Response, error) {
id := data.Get("token").(string)
if id == "" {
return logical.ErrorResponse("missing token ID"), logical.ErrInvalidRequest
}
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incrementRaw := data.Get("increment").(int)
// Convert the increment
increment := time.Duration(incrementRaw) * time.Second
// Lookup the token
out, err := ts.Lookup(id)
if err != nil {
return logical.ErrorResponse(err.Error()), logical.ErrInvalidRequest
}
// Verify the token exists
if out == nil {
return logical.ErrorResponse("token not found"), logical.ErrInvalidRequest
}
// Revoke the token and its children
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auth, err := ts.expiration.RenewToken(out.Path, out.ID, increment)
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if err != nil {
return logical.ErrorResponse(err.Error()), logical.ErrInvalidRequest
}
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// Generate the response
resp := &logical.Response{
Auth: auth,
}
return resp, nil
}
const (
tokenBackendHelp = `The token credential backend is always enabled and builtin to Vault.
Client tokens are used to identify a client and to allow Vault to associate policies and ACLs
which are enforced on every request. This backend also allows for generating sub-tokens as well
as revocation of tokens.`
tokenCreateHelp = `The token create path is used to create new tokens.`
tokenLookupHelp = `This endpoint will lookup a token and its properties.`
tokenRevokeHelp = `This endpoint will delete the token and all of its child tokens.`
tokenRevokeOrphanHelp = `This endpoint will delete the token and orphan its child tokens.`
tokenRevokePrefixHelp = `This endpoint will delete all tokens generated under a prefix with their child tokens.`
tokenRenewHelp = `This endpoint will renew the token and prevent expiration.`
)