open-vault/vault/router.go
2020-06-26 17:13:16 -04:00

869 lines
24 KiB
Go

package vault
import (
"context"
"fmt"
"strings"
"sync"
"sync/atomic"
"time"
metrics "github.com/armon/go-metrics"
radix "github.com/armon/go-radix"
hclog "github.com/hashicorp/go-hclog"
"github.com/hashicorp/vault/helper/namespace"
"github.com/hashicorp/vault/sdk/helper/consts"
"github.com/hashicorp/vault/sdk/helper/salt"
"github.com/hashicorp/vault/sdk/helper/strutil"
"github.com/hashicorp/vault/sdk/logical"
)
var (
deniedPassthroughRequestHeaders = []string{
consts.AuthHeaderName,
}
)
// Router is used to do prefix based routing of a request to a logical backend
type Router struct {
l sync.RWMutex
root *radix.Tree
mountUUIDCache *radix.Tree
mountAccessorCache *radix.Tree
tokenStoreSaltFunc func(context.Context) (*salt.Salt, error)
// storagePrefix maps the prefix used for storage (ala the BarrierView)
// to the backend. This is used to map a key back into the backend that owns it.
// For example, logical/uuid1/foobar -> secrets/ (kv backend) + foobar
storagePrefix *radix.Tree
logger hclog.Logger
}
// NewRouter returns a new router
func NewRouter() *Router {
r := &Router{
root: radix.New(),
storagePrefix: radix.New(),
mountUUIDCache: radix.New(),
mountAccessorCache: radix.New(),
}
return r
}
// routeEntry is used to represent a mount point in the router
type routeEntry struct {
tainted bool
backend logical.Backend
mountEntry *MountEntry
storageView logical.Storage
storagePrefix string
rootPaths atomic.Value
loginPaths atomic.Value
l sync.RWMutex
}
type validateMountResponse struct {
MountType string `json:"mount_type" structs:"mount_type" mapstructure:"mount_type"`
MountAccessor string `json:"mount_accessor" structs:"mount_accessor" mapstructure:"mount_accessor"`
MountPath string `json:"mount_path" structs:"mount_path" mapstructure:"mount_path"`
MountLocal bool `json:"mount_local" structs:"mount_local" mapstructure:"mount_local"`
}
func (r *Router) reset() {
r.l.Lock()
defer r.l.Unlock()
r.root = radix.New()
r.storagePrefix = radix.New()
r.mountUUIDCache = radix.New()
r.mountAccessorCache = radix.New()
}
// validateMountByAccessor returns the mount type and ID for a given mount
// accessor
func (r *Router) validateMountByAccessor(accessor string) *validateMountResponse {
if accessor == "" {
return nil
}
mountEntry := r.MatchingMountByAccessor(accessor)
if mountEntry == nil {
return nil
}
mountPath := mountEntry.Path
if mountEntry.Table == credentialTableType {
mountPath = credentialRoutePrefix + mountPath
}
return &validateMountResponse{
MountAccessor: mountEntry.Accessor,
MountType: mountEntry.Type,
MountPath: mountPath,
MountLocal: mountEntry.Local,
}
}
// SaltID is used to apply a salt and hash to an ID to make sure its not reversible
func (re *routeEntry) SaltID(id string) string {
return salt.SaltID(re.mountEntry.UUID, id, salt.SHA1Hash)
}
// Mount is used to expose a logical backend at a given prefix, using a unique salt,
// and the barrier view for that path.
func (r *Router) Mount(backend logical.Backend, prefix string, mountEntry *MountEntry, storageView *BarrierView) error {
r.l.Lock()
defer r.l.Unlock()
// prepend namespace
prefix = mountEntry.Namespace().Path + prefix
// Check if this is a nested mount
if existing, _, ok := r.root.LongestPrefix(prefix); ok && existing != "" {
return fmt.Errorf("cannot mount under existing mount %q", existing)
}
// Build the paths
paths := new(logical.Paths)
if backend != nil {
specialPaths := backend.SpecialPaths()
if specialPaths != nil {
paths = specialPaths
}
}
// Create a mount entry
re := &routeEntry{
tainted: mountEntry.Tainted,
backend: backend,
mountEntry: mountEntry,
storagePrefix: storageView.Prefix(),
storageView: storageView,
}
re.rootPaths.Store(pathsToRadix(paths.Root))
re.loginPaths.Store(pathsToRadix(paths.Unauthenticated))
switch {
case prefix == "":
return fmt.Errorf("missing prefix to be used for router entry; mount_path: %q, mount_type: %q", re.mountEntry.Path, re.mountEntry.Type)
case re.storagePrefix == "":
return fmt.Errorf("missing storage view prefix; mount_path: %q, mount_type: %q", re.mountEntry.Path, re.mountEntry.Type)
case re.mountEntry.UUID == "":
return fmt.Errorf("missing mount identifier; mount_path: %q, mount_type: %q", re.mountEntry.Path, re.mountEntry.Type)
case re.mountEntry.Accessor == "":
return fmt.Errorf("missing mount accessor; mount_path: %q, mount_type: %q", re.mountEntry.Path, re.mountEntry.Type)
}
r.root.Insert(prefix, re)
r.storagePrefix.Insert(re.storagePrefix, re)
r.mountUUIDCache.Insert(re.mountEntry.UUID, re.mountEntry)
r.mountAccessorCache.Insert(re.mountEntry.Accessor, re.mountEntry)
return nil
}
// Unmount is used to remove a logical backend from a given prefix
func (r *Router) Unmount(ctx context.Context, prefix string) error {
ns, err := namespace.FromContext(ctx)
if err != nil {
return err
}
prefix = ns.Path + prefix
r.l.Lock()
defer r.l.Unlock()
// Fast-path out if the backend doesn't exist
raw, ok := r.root.Get(prefix)
if !ok {
return nil
}
// Call backend's Cleanup routine
re := raw.(*routeEntry)
if re.backend != nil {
re.backend.Cleanup(ctx)
}
// Purge from the radix trees
r.root.Delete(prefix)
r.storagePrefix.Delete(re.storagePrefix)
r.mountUUIDCache.Delete(re.mountEntry.UUID)
r.mountAccessorCache.Delete(re.mountEntry.Accessor)
return nil
}
// Remount is used to change the mount location of a logical backend
func (r *Router) Remount(ctx context.Context, src, dst string) error {
ns, err := namespace.FromContext(ctx)
if err != nil {
return err
}
src = ns.Path + src
dst = ns.Path + dst
r.l.Lock()
defer r.l.Unlock()
// Check for existing mount
raw, ok := r.root.Get(src)
if !ok {
return fmt.Errorf("no mount at %q", src)
}
// Update the mount point
r.root.Delete(src)
r.root.Insert(dst, raw)
return nil
}
// Taint is used to mark a path as tainted. This means only RollbackOperation
// RevokeOperation requests are allowed to proceed
func (r *Router) Taint(ctx context.Context, path string) error {
ns, err := namespace.FromContext(ctx)
if err != nil {
return err
}
path = ns.Path + path
r.l.Lock()
defer r.l.Unlock()
_, raw, ok := r.root.LongestPrefix(path)
if ok {
raw.(*routeEntry).tainted = true
}
return nil
}
// Untaint is used to unmark a path as tainted.
func (r *Router) Untaint(ctx context.Context, path string) error {
ns, err := namespace.FromContext(ctx)
if err != nil {
return err
}
path = ns.Path + path
r.l.Lock()
defer r.l.Unlock()
_, raw, ok := r.root.LongestPrefix(path)
if ok {
raw.(*routeEntry).tainted = false
}
return nil
}
func (r *Router) MatchingMountByUUID(mountID string) *MountEntry {
if mountID == "" {
return nil
}
r.l.RLock()
_, raw, ok := r.mountUUIDCache.LongestPrefix(mountID)
if !ok {
r.l.RUnlock()
return nil
}
r.l.RUnlock()
return raw.(*MountEntry)
}
// MatchingMountByAccessor returns the MountEntry by accessor lookup
func (r *Router) MatchingMountByAccessor(mountAccessor string) *MountEntry {
if mountAccessor == "" {
return nil
}
r.l.RLock()
_, raw, ok := r.mountAccessorCache.LongestPrefix(mountAccessor)
if !ok {
r.l.RUnlock()
return nil
}
r.l.RUnlock()
return raw.(*MountEntry)
}
// MatchingMount returns the mount prefix that would be used for a path
func (r *Router) MatchingMount(ctx context.Context, path string) string {
r.l.RLock()
mount := r.matchingMountInternal(ctx, path)
r.l.RUnlock()
return mount
}
func (r *Router) matchingMountInternal(ctx context.Context, path string) string {
ns, err := namespace.FromContext(ctx)
if err != nil {
return ""
}
path = ns.Path + path
mount, _, ok := r.root.LongestPrefix(path)
if !ok {
return ""
}
return mount
}
// matchingPrefixInternal returns a mount prefix that a path may be a part of
func (r *Router) matchingPrefixInternal(ctx context.Context, path string) string {
ns, err := namespace.FromContext(ctx)
if err != nil {
return ""
}
path = ns.Path + path
var existing string
fn := func(existingPath string, v interface{}) bool {
if strings.HasPrefix(existingPath, path) {
existing = existingPath
return true
}
return false
}
r.root.WalkPrefix(path, fn)
return existing
}
// MountConflict determines if there are potential path conflicts
func (r *Router) MountConflict(ctx context.Context, path string) string {
r.l.RLock()
defer r.l.RUnlock()
if exactMatch := r.matchingMountInternal(ctx, path); exactMatch != "" {
return exactMatch
}
if prefixMatch := r.matchingPrefixInternal(ctx, path); prefixMatch != "" {
return prefixMatch
}
return ""
}
// MatchingStorageByAPIPath/StoragePath returns the storage used for
// API/Storage paths respectively
func (r *Router) MatchingStorageByAPIPath(ctx context.Context, path string) logical.Storage {
return r.matchingStorage(ctx, path, true)
}
func (r *Router) MatchingStorageByStoragePath(ctx context.Context, path string) logical.Storage {
return r.matchingStorage(ctx, path, false)
}
func (r *Router) matchingStorage(ctx context.Context, path string, apiPath bool) logical.Storage {
ns, err := namespace.FromContext(ctx)
if err != nil {
return nil
}
path = ns.Path + path
var raw interface{}
var ok bool
r.l.RLock()
if apiPath {
_, raw, ok = r.root.LongestPrefix(path)
} else {
_, raw, ok = r.storagePrefix.LongestPrefix(path)
}
r.l.RUnlock()
if !ok {
return nil
}
return raw.(*routeEntry).storageView
}
// MatchingMountEntry returns the MountEntry used for a path
func (r *Router) MatchingMountEntry(ctx context.Context, path string) *MountEntry {
ns, err := namespace.FromContext(ctx)
if err != nil {
return nil
}
path = ns.Path + path
r.l.RLock()
_, raw, ok := r.root.LongestPrefix(path)
r.l.RUnlock()
if !ok {
return nil
}
return raw.(*routeEntry).mountEntry
}
// MatchingBackend returns the backend used for a path
func (r *Router) MatchingBackend(ctx context.Context, path string) logical.Backend {
ns, err := namespace.FromContext(ctx)
if err != nil {
return nil
}
path = ns.Path + path
r.l.RLock()
_, raw, ok := r.root.LongestPrefix(path)
r.l.RUnlock()
if !ok {
return nil
}
return raw.(*routeEntry).backend
}
// MatchingSystemView returns the SystemView used for a path
func (r *Router) MatchingSystemView(ctx context.Context, path string) logical.SystemView {
ns, err := namespace.FromContext(ctx)
if err != nil {
return nil
}
path = ns.Path + path
r.l.RLock()
_, raw, ok := r.root.LongestPrefix(path)
r.l.RUnlock()
if !ok || raw.(*routeEntry).backend == nil {
return nil
}
return raw.(*routeEntry).backend.System()
}
func (r *Router) MatchingMountByAPIPath(ctx context.Context, path string) string {
me, _, _ := r.matchingMountEntryByPath(ctx, path, true)
if me == nil {
return ""
}
return me.Path
}
// MatchingStoragePrefixByAPIPath the storage prefix for the given api path
func (r *Router) MatchingStoragePrefixByAPIPath(ctx context.Context, path string) (string, bool) {
ns, err := namespace.FromContext(ctx)
if err != nil {
return "", false
}
path = ns.Path + path
_, prefix, found := r.matchingMountEntryByPath(ctx, path, true)
return prefix, found
}
// MatchingAPIPrefixByStoragePath the api path information for the given storage path
func (r *Router) MatchingAPIPrefixByStoragePath(ctx context.Context, path string) (*namespace.Namespace, string, string, bool) {
me, prefix, found := r.matchingMountEntryByPath(ctx, path, false)
if !found {
return nil, "", "", found
}
mountPath := me.Path
// Add back the prefix for credential backends
if strings.HasPrefix(path, credentialBarrierPrefix) {
mountPath = credentialRoutePrefix + mountPath
}
return me.Namespace(), mountPath, prefix, found
}
func (r *Router) matchingMountEntryByPath(ctx context.Context, path string, apiPath bool) (*MountEntry, string, bool) {
var raw interface{}
var ok bool
r.l.RLock()
if apiPath {
_, raw, ok = r.root.LongestPrefix(path)
} else {
_, raw, ok = r.storagePrefix.LongestPrefix(path)
}
r.l.RUnlock()
if !ok {
return nil, "", false
}
// Extract the mount path and storage prefix
re := raw.(*routeEntry)
prefix := re.storagePrefix
return re.mountEntry, prefix, true
}
// Route is used to route a given request
func (r *Router) Route(ctx context.Context, req *logical.Request) (*logical.Response, error) {
resp, _, _, err := r.routeCommon(ctx, req, false)
return resp, err
}
// RouteExistenceCheck is used to route a given existence check request
func (r *Router) RouteExistenceCheck(ctx context.Context, req *logical.Request) (*logical.Response, bool, bool, error) {
resp, ok, exists, err := r.routeCommon(ctx, req, true)
return resp, ok, exists, err
}
func (r *Router) routeCommon(ctx context.Context, req *logical.Request, existenceCheck bool) (*logical.Response, bool, bool, error) {
ns, err := namespace.FromContext(ctx)
if err != nil {
return nil, false, false, err
}
// Find the mount point
r.l.RLock()
adjustedPath := req.Path
mount, raw, ok := r.root.LongestPrefix(ns.Path + adjustedPath)
if !ok && !strings.HasSuffix(adjustedPath, "/") {
// Re-check for a backend by appending a slash. This lets "foo" mean
// "foo/" at the root level which is almost always what we want.
adjustedPath += "/"
mount, raw, ok = r.root.LongestPrefix(ns.Path + adjustedPath)
}
r.l.RUnlock()
if !ok {
return logical.ErrorResponse(fmt.Sprintf("no handler for route '%s'", req.Path)), false, false, logical.ErrUnsupportedPath
}
req.Path = adjustedPath
defer metrics.MeasureSince([]string{"route", string(req.Operation),
strings.Replace(mount, "/", "-", -1)}, time.Now())
re := raw.(*routeEntry)
// Grab a read lock on the route entry, this protects against the backend
// being reloaded during a request. The exception is a renew request on the
// token store; such a request will have already been routed through the
// token store -> exp manager -> here so we need to not grab the lock again
// or we'll be recursively grabbing it.
if !(req.Operation == logical.RenewOperation && strings.HasPrefix(req.Path, "auth/token/")) {
re.l.RLock()
defer re.l.RUnlock()
}
// Filtered mounts will have a nil backend
if re.backend == nil {
return logical.ErrorResponse(fmt.Sprintf("no handler for route '%s'", req.Path)), false, false, logical.ErrUnsupportedPath
}
// If the path is tainted, we reject any operation except for
// Rollback and Revoke
if re.tainted {
switch req.Operation {
case logical.RevokeOperation, logical.RollbackOperation:
default:
return logical.ErrorResponse(fmt.Sprintf("no handler for route '%s'", req.Path)), false, false, logical.ErrUnsupportedPath
}
}
// Adjust the path to exclude the routing prefix
originalPath := req.Path
req.Path = strings.TrimPrefix(ns.Path+req.Path, mount)
req.MountPoint = mount
req.MountType = re.mountEntry.Type
if req.Path == "/" {
req.Path = ""
}
// Attach the storage view for the request
req.Storage = re.storageView
originalEntityID := req.EntityID
// Hash the request token unless the request is being routed to the token
// or system backend.
clientToken := req.ClientToken
switch {
case strings.HasPrefix(originalPath, "auth/token/"):
case strings.HasPrefix(originalPath, "sys/"):
case strings.HasPrefix(originalPath, cubbyholeMountPath):
if req.Operation == logical.RollbackOperation {
// Backend doesn't support this and it can't properly look up a
// cubbyhole ID so just return here
return nil, false, false, nil
}
te := req.TokenEntry()
if te == nil {
return nil, false, false, fmt.Errorf("nil token entry")
}
if te.Type != logical.TokenTypeService {
return logical.ErrorResponse(`cubbyhole operations are only supported by "service" type tokens`), false, false, nil
}
switch {
case te.NamespaceID == namespace.RootNamespaceID && !strings.HasPrefix(req.ClientToken, "s."):
// In order for the token store to revoke later, we need to have the same
// salted ID, so we double-salt what's going to the cubbyhole backend
salt, err := r.tokenStoreSaltFunc(ctx)
if err != nil {
return nil, false, false, err
}
req.ClientToken = re.SaltID(salt.SaltID(req.ClientToken))
default:
if te.CubbyholeID == "" {
return nil, false, false, fmt.Errorf("empty cubbyhole id")
}
req.ClientToken = te.CubbyholeID
}
default:
req.ClientToken = re.SaltID(req.ClientToken)
}
// Cache the pointer to the original connection object
originalConn := req.Connection
// Cache the identifier of the request
originalReqID := req.ID
// Cache the client token's number of uses in the request
originalClientTokenRemainingUses := req.ClientTokenRemainingUses
req.ClientTokenRemainingUses = 0
originalMFACreds := req.MFACreds
req.MFACreds = nil
originalControlGroup := req.ControlGroup
req.ControlGroup = nil
// Cache the headers
headers := req.Headers
req.Headers = nil
// Filter and add passthrough headers to the backend
var passthroughRequestHeaders []string
if rawVal, ok := re.mountEntry.synthesizedConfigCache.Load("passthrough_request_headers"); ok {
passthroughRequestHeaders = rawVal.([]string)
}
var allowedResponseHeaders []string
if rawVal, ok := re.mountEntry.synthesizedConfigCache.Load("allowed_response_headers"); ok {
allowedResponseHeaders = rawVal.([]string)
}
if len(passthroughRequestHeaders) > 0 {
req.Headers = filteredHeaders(headers, passthroughRequestHeaders, deniedPassthroughRequestHeaders)
}
// Cache the wrap info of the request
var wrapInfo *logical.RequestWrapInfo
if req.WrapInfo != nil {
wrapInfo = &logical.RequestWrapInfo{
TTL: req.WrapInfo.TTL,
Format: req.WrapInfo.Format,
SealWrap: req.WrapInfo.SealWrap,
}
}
originalPolicyOverride := req.PolicyOverride
reqTokenEntry := req.TokenEntry()
req.SetTokenEntry(nil)
// Reset the request before returning
defer func() {
req.Path = originalPath
req.MountPoint = mount
req.MountType = re.mountEntry.Type
req.Connection = originalConn
req.ID = originalReqID
req.Storage = nil
req.ClientToken = clientToken
req.ClientTokenRemainingUses = originalClientTokenRemainingUses
req.WrapInfo = wrapInfo
req.Headers = headers
req.PolicyOverride = originalPolicyOverride
// This is only set in one place, after routing, so should never be set
// by a backend
req.SetLastRemoteWAL(0)
// This will be used for attaching the mount accessor for the identities
// returned by the authentication backends
req.MountAccessor = re.mountEntry.Accessor
req.EntityID = originalEntityID
req.MFACreds = originalMFACreds
req.SetTokenEntry(reqTokenEntry)
req.ControlGroup = originalControlGroup
}()
// Invoke the backend
if existenceCheck {
ok, exists, err := re.backend.HandleExistenceCheck(ctx, req)
return nil, ok, exists, err
} else {
resp, err := re.backend.HandleRequest(ctx, req)
if resp != nil {
if len(allowedResponseHeaders) > 0 {
resp.Headers = filteredHeaders(resp.Headers, allowedResponseHeaders, nil)
} else {
resp.Headers = nil
}
if resp.Auth != nil {
// When a token gets renewed, the request hits this path and
// reaches token store. Token store delegates the renewal to the
// expiration manager. Expiration manager in-turn creates a
// different logical request and forwards the request to the auth
// backend that had initially authenticated the login request. The
// forwarding to auth backend will make this code path hit for the
// second time for the same renewal request. The accessors in the
// Alias structs should be of the auth backend and not of the token
// store. Therefore, avoiding the overwriting of accessors by
// having a check for path prefix having "renew". This gets applied
// for "renew" and "renew-self" requests.
if !strings.HasPrefix(req.Path, "renew") {
if resp.Auth.Alias != nil {
resp.Auth.Alias.MountAccessor = re.mountEntry.Accessor
}
for _, alias := range resp.Auth.GroupAliases {
alias.MountAccessor = re.mountEntry.Accessor
}
}
switch re.mountEntry.Type {
case "token", "ns_token":
// Nothing; we respect what the token store is telling us and
// we don't allow tuning
default:
switch re.mountEntry.Config.TokenType {
case logical.TokenTypeService, logical.TokenTypeBatch:
resp.Auth.TokenType = re.mountEntry.Config.TokenType
case logical.TokenTypeDefault, logical.TokenTypeDefaultService:
switch resp.Auth.TokenType {
case logical.TokenTypeDefault, logical.TokenTypeDefaultService, logical.TokenTypeService:
resp.Auth.TokenType = logical.TokenTypeService
default:
resp.Auth.TokenType = logical.TokenTypeBatch
}
case logical.TokenTypeDefaultBatch:
switch resp.Auth.TokenType {
case logical.TokenTypeDefault, logical.TokenTypeDefaultBatch, logical.TokenTypeBatch:
resp.Auth.TokenType = logical.TokenTypeBatch
default:
resp.Auth.TokenType = logical.TokenTypeService
}
}
}
}
}
return resp, false, false, err
}
}
// RootPath checks if the given path requires root privileges
func (r *Router) RootPath(ctx context.Context, path string) bool {
ns, err := namespace.FromContext(ctx)
if err != nil {
return false
}
adjustedPath := ns.Path + path
r.l.RLock()
mount, raw, ok := r.root.LongestPrefix(adjustedPath)
r.l.RUnlock()
if !ok {
return false
}
re := raw.(*routeEntry)
// Trim to get remaining path
remain := strings.TrimPrefix(adjustedPath, mount)
// Check the rootPaths of this backend
rootPaths := re.rootPaths.Load().(*radix.Tree)
match, raw, ok := rootPaths.LongestPrefix(remain)
if !ok {
return false
}
prefixMatch := raw.(bool)
// Handle the prefix match case
if prefixMatch {
return strings.HasPrefix(remain, match)
}
// Handle the exact match case
return match == remain
}
// LoginPath checks if the given path is used for logins
func (r *Router) LoginPath(ctx context.Context, path string) bool {
ns, err := namespace.FromContext(ctx)
if err != nil {
return false
}
adjustedPath := ns.Path + path
r.l.RLock()
mount, raw, ok := r.root.LongestPrefix(adjustedPath)
r.l.RUnlock()
if !ok {
return false
}
re := raw.(*routeEntry)
// Trim to get remaining path
remain := strings.TrimPrefix(adjustedPath, mount)
// Check the loginPaths of this backend
loginPaths := re.loginPaths.Load().(*radix.Tree)
match, raw, ok := loginPaths.LongestPrefix(remain)
if !ok {
return false
}
prefixMatch := raw.(bool)
// Handle the prefix match case
if prefixMatch {
return strings.HasPrefix(remain, match)
}
// Handle the exact match case
return match == remain
}
// pathsToRadix converts a list of special paths to a radix tree.
func pathsToRadix(paths []string) *radix.Tree {
tree := radix.New()
for _, path := range paths {
// Check if this is a prefix or exact match
prefixMatch := len(path) >= 1 && path[len(path)-1] == '*'
if prefixMatch {
path = path[:len(path)-1]
}
tree.Insert(path, prefixMatch)
}
return tree
}
// filteredHeaders returns a headers map[string][]string that
// contains the filtered values contained in candidateHeaders. Filtering of
// candidateHeaders from the origHeaders is done is a case-insensitive manner.
// Headers that match values from deniedHeaders will be ignored.
func filteredHeaders(origHeaders map[string][]string, candidateHeaders, deniedHeaders []string) map[string][]string {
// Short-circuit if there's nothing to filter
if len(candidateHeaders) == 0 {
return nil
}
retHeaders := make(map[string][]string, len(origHeaders))
// Filter candidateHeaders values through deniedHeaders first. Returns the
// lowercased complement set. We call even if no denied headers to get the
// values lowercased.
allowedCandidateHeaders := strutil.Difference(candidateHeaders, deniedHeaders, true)
// Create a map that uses lowercased header values as the key and the original
// header naming as the value for comparison down below.
lowerOrigHeaderKeys := make(map[string]string, len(origHeaders))
for key := range origHeaders {
lowerOrigHeaderKeys[strings.ToLower(key)] = key
}
// Case-insensitive compare of passthrough headers against originating
// headers. The returned headers will be the same casing as the originating
// header name.
for _, ch := range allowedCandidateHeaders {
if header, ok := lowerOrigHeaderKeys[ch]; ok {
retHeaders[header] = origHeaders[header]
}
}
return retHeaders
}