open-vault/sdk/logical/request.go

456 lines
15 KiB
Go

// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
package logical
import (
"context"
"fmt"
"net/http"
"strings"
"time"
"github.com/mitchellh/copystructure"
)
// RequestWrapInfo is a struct that stores information about desired response
// and seal wrapping behavior
type RequestWrapInfo struct {
// Setting to non-zero specifies that the response should be wrapped.
// Specifies the desired TTL of the wrapping token.
TTL time.Duration `json:"ttl" structs:"ttl" mapstructure:"ttl" sentinel:""`
// The format to use for the wrapped response; if not specified it's a bare
// token
Format string `json:"format" structs:"format" mapstructure:"format" sentinel:""`
// A flag to conforming backends that data for a given request should be
// seal wrapped
SealWrap bool `json:"seal_wrap" structs:"seal_wrap" mapstructure:"seal_wrap" sentinel:""`
}
func (r *RequestWrapInfo) SentinelGet(key string) (interface{}, error) {
if r == nil {
return nil, nil
}
switch key {
case "ttl":
return r.TTL, nil
case "ttl_seconds":
return int64(r.TTL.Seconds()), nil
}
return nil, nil
}
func (r *RequestWrapInfo) SentinelKeys() []string {
return []string{
"ttl",
"ttl_seconds",
}
}
type ClientTokenSource uint32
const (
NoClientToken ClientTokenSource = iota
ClientTokenFromVaultHeader
ClientTokenFromAuthzHeader
)
type WALState struct {
ClusterID string
LocalIndex uint64
ReplicatedIndex uint64
}
const indexStateCtxKey = "index_state"
// IndexStateContext returns a context with an added value holding the index
// state that should be populated on writes.
func IndexStateContext(ctx context.Context, state *WALState) context.Context {
return context.WithValue(ctx, indexStateCtxKey, state)
}
// IndexStateFromContext is a helper to look up if the provided context contains
// an index state pointer.
func IndexStateFromContext(ctx context.Context) *WALState {
s, ok := ctx.Value(indexStateCtxKey).(*WALState)
if !ok {
return nil
}
return s
}
// Request is a struct that stores the parameters and context of a request
// being made to Vault. It is used to abstract the details of the higher level
// request protocol from the handlers.
//
// Note: Many of these have Sentinel disabled because they are values populated
// by the router after policy checks; the token namespace would be the right
// place to access them via Sentinel
type Request struct {
// Id is the uuid associated with each request
ID string `json:"id" structs:"id" mapstructure:"id" sentinel:""`
// If set, the name given to the replication secondary where this request
// originated
ReplicationCluster string `json:"replication_cluster" structs:"replication_cluster" mapstructure:"replication_cluster" sentinel:""`
// Operation is the requested operation type
Operation Operation `json:"operation" structs:"operation" mapstructure:"operation"`
// Path is the full path of the request
Path string `json:"path" structs:"path" mapstructure:"path" sentinel:""`
// Request data is an opaque map that must have string keys.
Data map[string]interface{} `json:"map" structs:"data" mapstructure:"data"`
// Storage can be used to durably store and retrieve state.
Storage Storage `json:"-" sentinel:""`
// Secret will be non-nil only for Revoke and Renew operations
// to represent the secret that was returned prior.
Secret *Secret `json:"secret" structs:"secret" mapstructure:"secret" sentinel:""`
// Auth will be non-nil only for Renew operations
// to represent the auth that was returned prior.
Auth *Auth `json:"auth" structs:"auth" mapstructure:"auth" sentinel:""`
// Headers will contain the http headers from the request. This value will
// be used in the audit broker to ensure we are auditing only the allowed
// headers.
Headers map[string][]string `json:"headers" structs:"headers" mapstructure:"headers" sentinel:""`
// Connection will be non-nil only for credential providers to
// inspect the connection information and potentially use it for
// authentication/protection.
Connection *Connection `json:"connection" structs:"connection" mapstructure:"connection"`
// ClientToken is provided to the core so that the identity
// can be verified and ACLs applied. This value is passed
// through to the logical backends but after being salted and
// hashed.
ClientToken string `json:"client_token" structs:"client_token" mapstructure:"client_token" sentinel:""`
// ClientTokenAccessor is provided to the core so that the it can get
// logged as part of request audit logging.
ClientTokenAccessor string `json:"client_token_accessor" structs:"client_token_accessor" mapstructure:"client_token_accessor" sentinel:""`
// DisplayName is provided to the logical backend to help associate
// dynamic secrets with the source entity. This is not a sensitive
// name, but is useful for operators.
DisplayName string `json:"display_name" structs:"display_name" mapstructure:"display_name" sentinel:""`
// MountPoint is provided so that a logical backend can generate
// paths relative to itself. The `Path` is effectively the client
// request path with the MountPoint trimmed off.
MountPoint string `json:"mount_point" structs:"mount_point" mapstructure:"mount_point" sentinel:""`
// MountType is provided so that a logical backend can make decisions
// based on the specific mount type (e.g., if a mount type has different
// aliases, generating different defaults depending on the alias)
MountType string `json:"mount_type" structs:"mount_type" mapstructure:"mount_type" sentinel:""`
// MountAccessor is provided so that identities returned by the authentication
// backends can be tied to the mount it belongs to.
MountAccessor string `json:"mount_accessor" structs:"mount_accessor" mapstructure:"mount_accessor" sentinel:""`
// mountRunningVersion is used internally to propagate the semantic version
// of the mounted plugin as reported by its vault.MountEntry to audit logging
mountRunningVersion string
// mountRunningSha256 is used internally to propagate the encoded sha256
// of the mounted plugin as reported its vault.MountEntry to audit logging
mountRunningSha256 string
// mountIsExternalPlugin is used internally to propagate whether
// the backend of the mounted plugin is running externally (i.e., over GRPC)
// to audit logging
mountIsExternalPlugin bool
// mountClass is used internally to propagate the mount class of the mounted plugin to audit logging
mountClass string
// WrapInfo contains requested response wrapping parameters
WrapInfo *RequestWrapInfo `json:"wrap_info" structs:"wrap_info" mapstructure:"wrap_info" sentinel:""`
// ClientTokenRemainingUses represents the allowed number of uses left on the
// token supplied
ClientTokenRemainingUses int `json:"client_token_remaining_uses" structs:"client_token_remaining_uses" mapstructure:"client_token_remaining_uses"`
// EntityID is the identity of the caller extracted out of the token used
// to make this request
EntityID string `json:"entity_id" structs:"entity_id" mapstructure:"entity_id" sentinel:""`
// PolicyOverride indicates that the requestor wishes to override
// soft-mandatory Sentinel policies
PolicyOverride bool `json:"policy_override" structs:"policy_override" mapstructure:"policy_override"`
// Whether the request is unauthenticated, as in, had no client token
// attached. Useful in some situations where the client token is not made
// accessible.
Unauthenticated bool `json:"unauthenticated" structs:"unauthenticated" mapstructure:"unauthenticated"`
// MFACreds holds the parsed MFA information supplied over the API as part of
// X-Vault-MFA header
MFACreds MFACreds `json:"mfa_creds" structs:"mfa_creds" mapstructure:"mfa_creds" sentinel:""`
// Cached token entry. This avoids another lookup in request handling when
// we've already looked it up at http handling time. Note that this token
// has not been "used", as in it will not properly take into account use
// count limitations. As a result this field should only ever be used for
// transport to a function that would otherwise do a lookup and then
// properly use the token.
tokenEntry *TokenEntry
// For replication, contains the last WAL on the remote side after handling
// the request, used for best-effort avoidance of stale read-after-write
lastRemoteWAL uint64
// ControlGroup holds the authorizations that have happened on this
// request
ControlGroup *ControlGroup `json:"control_group" structs:"control_group" mapstructure:"control_group" sentinel:""`
// ClientTokenSource tells us where the client token was sourced from, so
// we can delete it before sending off to plugins
ClientTokenSource ClientTokenSource
// HTTPRequest, if set, can be used to access fields from the HTTP request
// that generated this logical.Request object, such as the request body.
HTTPRequest *http.Request `json:"-" sentinel:""`
// ResponseWriter if set can be used to stream a response value to the http
// request that generated this logical.Request object.
ResponseWriter *HTTPResponseWriter `json:"-" sentinel:""`
// requiredState is used internally to propagate the X-Vault-Index request
// header to later levels of request processing that operate only on
// logical.Request.
requiredState []string
// responseState is used internally to propagate the state that should appear
// in response headers; it's attached to the request rather than the response
// because not all requests yields non-nil responses.
responseState *WALState
// ClientID is the identity of the caller. If the token is associated with an
// entity, it will be the same as the EntityID . If the token has no entity,
// this will be the sha256(sorted policies + namespace) associated with the
// client token.
ClientID string `json:"client_id" structs:"client_id" mapstructure:"client_id" sentinel:""`
// InboundSSCToken is the token that arrives on an inbound request, supplied
// by the vault user.
InboundSSCToken string
// When a request has been forwarded, contains information of the host the request was forwarded 'from'
ForwardedFrom string `json:"forwarded_from,omitempty"`
}
// Clone returns a deep copy of the request by using copystructure
func (r *Request) Clone() (*Request, error) {
cpy, err := copystructure.Copy(r)
if err != nil {
return nil, err
}
return cpy.(*Request), nil
}
// Get returns a data field and guards for nil Data
func (r *Request) Get(key string) interface{} {
if r.Data == nil {
return nil
}
return r.Data[key]
}
// GetString returns a data field as a string
func (r *Request) GetString(key string) string {
raw := r.Get(key)
s, _ := raw.(string)
return s
}
func (r *Request) GoString() string {
return fmt.Sprintf("*%#v", *r)
}
func (r *Request) SentinelGet(key string) (interface{}, error) {
switch key {
case "path":
// Sanitize it here so that it's consistent in policies
return strings.TrimPrefix(r.Path, "/"), nil
case "wrapping", "wrap_info":
// If the pointer is nil accessing the wrap info is considered
// "undefined" so this allows us to instead discover a TTL of zero
if r.WrapInfo == nil {
return &RequestWrapInfo{}, nil
}
return r.WrapInfo, nil
}
return nil, nil
}
func (r *Request) SentinelKeys() []string {
return []string{
"path",
"wrapping",
"wrap_info",
}
}
func (r *Request) MountRunningVersion() string {
return r.mountRunningVersion
}
func (r *Request) SetMountRunningVersion(mountRunningVersion string) {
r.mountRunningVersion = mountRunningVersion
}
func (r *Request) MountRunningSha256() string {
return r.mountRunningSha256
}
func (r *Request) SetMountRunningSha256(mountRunningSha256 string) {
r.mountRunningSha256 = mountRunningSha256
}
func (r *Request) MountIsExternalPlugin() bool {
return r.mountIsExternalPlugin
}
func (r *Request) SetMountIsExternalPlugin(mountIsExternalPlugin bool) {
r.mountIsExternalPlugin = mountIsExternalPlugin
}
func (r *Request) MountClass() string {
return r.mountClass
}
func (r *Request) SetMountClass(mountClass string) {
r.mountClass = mountClass
}
func (r *Request) LastRemoteWAL() uint64 {
return r.lastRemoteWAL
}
func (r *Request) SetLastRemoteWAL(last uint64) {
r.lastRemoteWAL = last
}
func (r *Request) RequiredState() []string {
return r.requiredState
}
func (r *Request) SetRequiredState(state []string) {
r.requiredState = state
}
func (r *Request) ResponseState() *WALState {
return r.responseState
}
func (r *Request) SetResponseState(w *WALState) {
r.responseState = w
}
func (r *Request) TokenEntry() *TokenEntry {
return r.tokenEntry
}
func (r *Request) SetTokenEntry(te *TokenEntry) {
r.tokenEntry = te
}
// RenewRequest creates the structure of the renew request.
func RenewRequest(path string, secret *Secret, data map[string]interface{}) *Request {
return &Request{
Operation: RenewOperation,
Path: path,
Data: data,
Secret: secret,
}
}
// RenewAuthRequest creates the structure of the renew request for an auth.
func RenewAuthRequest(path string, auth *Auth, data map[string]interface{}) *Request {
return &Request{
Operation: RenewOperation,
Path: path,
Data: data,
Auth: auth,
}
}
// RevokeRequest creates the structure of the revoke request.
func RevokeRequest(path string, secret *Secret, data map[string]interface{}) *Request {
return &Request{
Operation: RevokeOperation,
Path: path,
Data: data,
Secret: secret,
}
}
// RollbackRequest creates the structure of the revoke request.
func RollbackRequest(path string) *Request {
return &Request{
Operation: RollbackOperation,
Path: path,
Data: make(map[string]interface{}),
}
}
// Operation is an enum that is used to specify the type
// of request being made
type Operation string
const (
// The operations below are called per path
CreateOperation Operation = "create"
ReadOperation = "read"
UpdateOperation = "update"
PatchOperation = "patch"
DeleteOperation = "delete"
ListOperation = "list"
HelpOperation = "help"
AliasLookaheadOperation = "alias-lookahead"
ResolveRoleOperation = "resolve-role"
HeaderOperation = "header"
// The operations below are called globally, the path is less relevant.
RevokeOperation Operation = "revoke"
RenewOperation = "renew"
RollbackOperation = "rollback"
)
type MFACreds map[string][]string
// InitializationRequest stores the parameters and context of an Initialize()
// call being made to a logical.Backend.
type InitializationRequest struct {
// Storage can be used to durably store and retrieve state.
Storage Storage
}
type CustomHeader struct {
Name string
Value string
}
type CtxKeyInFlightRequestID struct{}
func (c CtxKeyInFlightRequestID) String() string {
return "in-flight-request-ID"
}
type CtxKeyRequestRole struct{}
func (c CtxKeyRequestRole) String() string {
return "request-role"
}