CVE-2015-5370: dcerpc.idl: add DCERPC_{NCACN_PAYLOAD,FRAG}_MAX_SIZE defines

[Samba.git] / librpc / idl / dcerpc.idl

#include "idl_types.h"

/*
  the base dcerpc packet definitions - not traditionally coded as IDL,
  but given that pidl can handle it nicely it simplifies things a lot
  to do it this way

  See [C706 - DCE 1.1: Remote Procedure Call] for the OpenGroup
  DCERPC specification:
  http://pubs.opengroup.org/onlinepubs/9629399/toc.htm

  See C706 - Chapter 12: RPC PDU Encodings for packet layouts:
  http://www.opengroup.org/onlinepubs/9629399/chap12.htm

  See also [MS-RPCE] for the Microsoft
  "Remote Procedure Call Protocol Extensions".
  http://msdn.microsoft.com/en-us/library/cc243560.aspx

*/
import "misc.idl";

cpp_quote("extern const uint8_t DCERPC_SEC_VT_MAGIC[8];")

[
  helper("../librpc/ndr/ndr_dcerpc.h")
]
interface dcerpc
{
        typedef struct {
                uint16 context_id;
                uint8 num_transfer_syntaxes;
                ndr_syntax_id abstract_syntax;
                ndr_syntax_id transfer_syntaxes[num_transfer_syntaxes];
        } dcerpc_ctx_list;

        typedef [public] struct {
                uint16 max_xmit_frag;
                uint16 max_recv_frag;
                uint32 assoc_group_id;
                uint8  num_contexts;
                dcerpc_ctx_list ctx_list[num_contexts];
                [flag(NDR_REMAINING)] DATA_BLOB auth_info;
        } dcerpc_bind;

        const uint8 DCERPC_REQUEST_LENGTH = 24;

        typedef struct {
        } dcerpc_empty;

        typedef [nodiscriminant] union {
                [case(LIBNDR_FLAG_OBJECT_PRESENT)] GUID object;
                [default] dcerpc_empty empty;
        } dcerpc_object;

        typedef struct {
                uint32 alloc_hint;
                uint16 context_id;
                uint16 opnum;
                /*
                 * NDR_DCERPC_REQUEST_OBJECT_PRESENT
                 * is defined differently for ndr_dcerpc.c and py_dcerpc.c
                 */
                [switch_is(NDR_DCERPC_REQUEST_OBJECT_PRESENT)] dcerpc_object object;
                [flag(NDR_ALIGN8)]    DATA_BLOB _pad;
                [flag(NDR_REMAINING)] DATA_BLOB stub_and_verifier;
        } dcerpc_request;

        typedef [enum16bit] enum {
                DCERPC_BIND_ACK_RESULT_ACCEPTANCE          = 0,
                DCERPC_BIND_ACK_RESULT_USER_REJECTION      = 1,
                DCERPC_BIND_ACK_RESULT_PROVIDER_REJECTION  = 2,
                DCERPC_BIND_ACK_RESULT_NEGOTIATE_ACK       = 3
        } dcerpc_bind_ack_result;

        const int DCERPC_BIND_PROVIDER_REJECT =
                DCERPC_BIND_ACK_RESULT_PROVIDER_REJECTION;

        typedef [enum16bit] enum {
                DCERPC_BIND_ACK_REASON_NOT_SPECIFIED                   = 0,
                DCERPC_BIND_ACK_REASON_ABSTRACT_SYNTAX_NOT_SUPPORTED   = 1,
                DCERPC_BIND_ACK_REASON_TRANSFER_SYNTAXES_NOT_SUPPORTED = 2,
                DCERPC_BIND_ACK_REASON_LOCAL_LIMIT_EXCEEDED            = 3
        } dcerpc_bind_ack_reason_values;

        const int DCERPC_BIND_REASON_ASYNTAX =
                DCERPC_BIND_ACK_REASON_ABSTRACT_SYNTAX_NOT_SUPPORTED;

        typedef [bitmap16bit] bitmap {
                DCERPC_BIND_TIME_SECURITY_CONTEXT_MULTIPLEXING = 0x0001,
                DCERPC_BIND_TIME_KEEP_CONNECTION_ON_ORPHAN     = 0x0002
        } dcerpc_bind_time_features;

        typedef [nodiscriminant] union {
                [case(DCERPC_BIND_ACK_RESULT_NEGOTIATE_ACK)]
                        dcerpc_bind_time_features negotiate;
                [default] dcerpc_bind_ack_reason_values value;
        } dcerpc_bind_ack_reason;

        typedef struct {
                dcerpc_bind_ack_result result;
                [switch_is(result)] dcerpc_bind_ack_reason reason;
                ndr_syntax_id syntax;
        } dcerpc_ack_ctx;

        typedef struct {
                uint16 max_xmit_frag;
                uint16 max_recv_frag;
                uint32 assoc_group_id;
                [value(strlen_m_term_null(secondary_address))] uint16 secondary_address_size;
                [charset(DOS)] uint8 secondary_address[secondary_address_size];
                [flag(NDR_ALIGN4)]    DATA_BLOB _pad1;
                uint8 num_results;
                dcerpc_ack_ctx ctx_list[num_results];
                [flag(NDR_REMAINING)] DATA_BLOB auth_info;
        } dcerpc_bind_ack;

        typedef [public,enum16bit] enum {
                DCERPC_BIND_NAK_REASON_NOT_SPECIFIED                  = 0,
                DCERPC_BIND_NAK_REASON_TEMPORARY_CONGESTION           = 1,
                DCERPC_BIND_NAK_REASON_LOCAL_LIMIT_EXCEEDED           = 2,
                DCERPC_BIND_NAK_REASON_PROTOCOL_VERSION_NOT_SUPPORTED = 4,
                DCERPC_BIND_NAK_REASON_INVALID_AUTH_TYPE              = 8,
                DCERPC_BIND_NAK_REASON_INVALID_CHECKSUM               = 9
        } dcerpc_bind_nak_reason;

        const int DECRPC_BIND_PROTOCOL_VERSION_NOT_SUPPORTED =
                DCERPC_BIND_NAK_REASON_PROTOCOL_VERSION_NOT_SUPPORTED;
        const int DCERPC_BIND_REASON_INVALID_AUTH_TYPE =
                DCERPC_BIND_NAK_REASON_INVALID_AUTH_TYPE;

        typedef [public] struct {
                uint8 rpc_vers;         /* RPC version */
                uint8 rpc_vers_minor;   /* Minor version */
        } dcerpc_bind_nak_version;

        typedef [public,nopull] struct {
                dcerpc_bind_nak_reason reject_reason;
                uint8 num_versions;
                dcerpc_bind_nak_version versions[num_versions];
                [flag(NDR_REMAINING)] DATA_BLOB _pad;
        } dcerpc_bind_nak;

        const uint8 DCERPC_RESPONSE_LENGTH = 24;

        typedef struct {
                uint32 alloc_hint;
                uint16 context_id;
                uint8 cancel_count;
                [flag(NDR_ALIGN8)]    DATA_BLOB _pad;
                [flag(NDR_REMAINING)] DATA_BLOB stub_and_verifier;
        } dcerpc_response;

        typedef [v1_enum] enum {
                DCERPC_NCA_S_COMM_FAILURE               = 0x1C010001,
                DCERPC_NCA_S_OP_RNG_ERROR               = 0x1C010002,
                DCERPC_NCA_S_UNKNOWN_IF                 = 0x1C010003,
                DCERPC_NCA_S_WRONG_BOOT_TIME            = 0x1C010006,
                DCERPC_NCA_S_YOU_CRASHED                = 0x1C010009,
                DCERPC_NCA_S_PROTO_ERROR                = 0x1C01000B,
                DCERPC_NCA_S_OUT_ARGS_TOO_BIG           = 0x1C010013,
                DCERPC_NCA_S_SERVER_TOO_BUSY            = 0x1C010014,
                DCERPC_NCA_S_FAULT_STRING_TOO_LARGE     = 0x1C010015,
                DCERPC_NCA_S_UNSUPPORTED_TYPE           = 0x1C010017,
                DCERPC_NCA_S_FAULT_INT_DIV_BY_ZERO      = 0x1C000001,
                DCERPC_NCA_S_FAULT_ADDR_ERROR           = 0x1C000002,
                DCERPC_NCA_S_FAULT_FP_DIV_BY_ZERO       = 0x1C000003,
                DCERPC_NCA_S_FAULT_FP_UNDERFLOW         = 0x1C000004,
                DCERPC_NCA_S_FAULT_FP_OVERRFLOW         = 0x1C000005,
                DCERPC_NCA_S_FAULT_INVALID_TAG          = 0x1C000006,
                DCERPC_NCA_S_FAULT_INVALID_BOUND        = 0x1C000007,
                DCERPC_NCA_S_FAULT_RPC_VERSION_MISMATCH = 0x1C000008,
                DCERPC_NCA_S_FAULT_UNSPEC_REJECT        = 0x1C000009,
                DCERPC_NCA_S_FAULT_BAD_ACTID            = 0x1C00000A,
                DCERPC_NCA_S_FAULT_WHO_ARE_YOU_FAILED   = 0x1C00000B,
                DCERPC_NCA_S_FAULT_MANAGER_NOT_ENTERED  = 0x1C00000C,
                DCERPC_NCA_S_FAULT_CANCEL               = 0x1C00000D,
                DCERPC_NCA_S_FAULT_ILL_INST             = 0x1C00000E,
                DCERPC_NCA_S_FAULT_FP_ERROR             = 0x1C00000F,
                DCERPC_NCA_S_FAULT_INT_OVERFLOW         = 0x1C000010,
                DCERPC_NCA_S_UNUSED_1C000011            = 0x1C000011,
                DCERPC_NCA_S_FAULT_UNSPEC               = 0x1C000012,
                DCERPC_NCA_S_FAULT_REMOTE_COMM_FAILURE  = 0x1C000013,
                DCERPC_NCA_S_FAULT_PIPE_EMPTY           = 0x1C000014,
                DCERPC_NCA_S_FAULT_PIPE_CLOSED          = 0x1C000015,
                DCERPC_NCA_S_FAULT_PIPE_ORDER           = 0x1C000016,
                DCERPC_NCA_S_FAULT_PIPE_DISCIPLINE      = 0x1C000017,
                DCERPC_NCA_S_FAULT_PIPE_COMM_ERROR      = 0x1C000018,
                DCERPC_NCA_S_FAULT_PIPE_MEMORY          = 0x1C000019,
                DCERPC_NCA_S_FAULT_CONTEXT_MISMATCH     = 0x1C00001A,
                DCERPC_NCA_S_FAULT_REMOTE_NO_MEMORY     = 0x1C00001B,
                DCERPC_NCA_S_INVALID_PRES_CONTEXT_ID    = 0x1C00001C,
                DCERPC_NCA_S_UNSUPPORTED_AUTHN_LEVEL    = 0x1C00001D,
                DCERPC_NCA_S_UNUSED_1C00001E            = 0x1C00001E,
                DCERPC_NCA_S_INVALID_CHECKSUM           = 0x1C00001F,
                DCERPC_NCA_S_INVALID_CRC                = 0x1C000020,
                DCERPC_NCA_S_FAULT_USER_DEFINED         = 0x1C000021,
                DCERPC_NCA_S_FAULT_TX_OPEN_FAILED       = 0x1C000022,
                DCERPC_NCA_S_FAULT_CODESET_CONV_ERROR   = 0x1C000023,
                DCERPC_NCA_S_FAULT_OBJECT_NOT_FOUND     = 0x1C000024,
                DCERPC_NCA_S_FAULT_NO_CLIENT_STUB       = 0x1C000025,
                DCERPC_FAULT_ACCESS_DENIED              = 0x00000005,
                DCERPC_FAULT_NO_CALL_ACTIVE             = 0x000006bd,
                DCERPC_FAULT_CANT_PERFORM               = 0x000006d8,
                DCERPC_FAULT_OUT_OF_RESOURCES           = 0x000006d9,
                DCERPC_FAULT_BAD_STUB_DATA              = 0x000006f7,
                DCERPC_FAULT_SEC_PKG_ERROR              = 0x00000721
        } dcerpc_nca_status;

        const int DCERPC_FAULT_OP_RNG_ERROR       = DCERPC_NCA_S_OP_RNG_ERROR;
        const int DCERPC_FAULT_UNK_IF             = DCERPC_NCA_S_UNKNOWN_IF;
        const int DCERPC_FAULT_NDR                = DCERPC_FAULT_BAD_STUB_DATA;
        const int DCERPC_FAULT_INVALID_TAG        = DCERPC_NCA_S_FAULT_INVALID_TAG;
        const int DCERPC_FAULT_CONTEXT_MISMATCH   = DCERPC_NCA_S_FAULT_CONTEXT_MISMATCH;
        const int DCERPC_FAULT_OTHER              = 0x00000001;

        /* we return this fault when we haven't yet run the test
           to see what fault w2k3 returns in this case */
        const int DCERPC_FAULT_TODO         = 0x00000042;

        typedef struct {
                uint32 alloc_hint;
                uint16 context_id;
                uint8 cancel_count;
                dcerpc_nca_status status;
                [flag(NDR_REMAINING)] DATA_BLOB _pad;
        } dcerpc_fault;

        /* the auth types we know about */
        typedef [enum8bit] enum {
                DCERPC_AUTH_TYPE_NONE     = 0,
                /* this seems to be not krb5! */
                DCERPC_AUTH_TYPE_KRB5_1   = 1,
                DCERPC_AUTH_TYPE_SPNEGO   = 9,
                DCERPC_AUTH_TYPE_NTLMSSP  = 10,
                DCERPC_AUTH_TYPE_KRB5     = 16,
                DCERPC_AUTH_TYPE_DPA      = 17,
                DCERPC_AUTH_TYPE_MSN      = 18,
                DCERPC_AUTH_TYPE_DIGEST   = 21,
                DCERPC_AUTH_TYPE_SCHANNEL = 68,
                DCERPC_AUTH_TYPE_MSMQ     = 100,
                DCERPC_AUTH_TYPE_NCALRPC_AS_SYSTEM = 200
        } dcerpc_AuthType;

        typedef [enum8bit] enum {
                DCERPC_AUTH_LEVEL_NONE      = 1,
                DCERPC_AUTH_LEVEL_CONNECT   = 2,
                DCERPC_AUTH_LEVEL_CALL      = 3,
                DCERPC_AUTH_LEVEL_PACKET    = 4,
                DCERPC_AUTH_LEVEL_INTEGRITY = 5,
                DCERPC_AUTH_LEVEL_PRIVACY   = 6
        } dcerpc_AuthLevel;

        const uint8 DCERPC_AUTH_LEVEL_DEFAULT   = DCERPC_AUTH_LEVEL_CONNECT;

        typedef [public] struct {
                dcerpc_AuthType auth_type;
                dcerpc_AuthLevel auth_level;
                uint8  auth_pad_length;
                uint8  auth_reserved;
                uint32 auth_context_id;
                [flag(NDR_REMAINING)] DATA_BLOB credentials;
        } dcerpc_auth;

        const uint8 DCERPC_AUTH_TRAILER_LENGTH = 8;
        const uint8 DCERPC_AUTH_PAD_ALIGNMENT = 16;

        typedef [public] struct {
                [value(0)]            uint32    _pad;
                [flag(NDR_REMAINING)] DATA_BLOB auth_info;
        } dcerpc_auth3;

        typedef [public] struct {
                [value(0)]            uint32    _pad;
                [flag(NDR_REMAINING)] DATA_BLOB auth_info;
        } dcerpc_orphaned;

        typedef [public] struct {
                [value(0)]            uint32    _pad;
                [flag(NDR_REMAINING)] DATA_BLOB auth_info;
        } dcerpc_co_cancel;

        typedef [public] struct {
                uint32 version;
                uint32 id;
        } dcerpc_cl_cancel;

        typedef [public] struct {
                uint32 version;
                uint32 id;
                boolean32 server_is_accepting;
        } dcerpc_cancel_ack;

        typedef [public] struct {
                uint32 version;
                uint8 _pad1;
                uint16 window_size;
                uint32 max_tdsu;
                uint32 max_frag_size;
                uint16 serial_no;
                uint16 selack_size;
                uint32 selack[selack_size];
        } dcerpc_fack;

        typedef [public] struct {
        } dcerpc_ack;

        typedef [public] struct {
        } dcerpc_ping;

        typedef [public] struct {
        } dcerpc_shutdown;

        typedef [public] struct {
        } dcerpc_working;

        /* RTS data structures */
        typedef [public] struct {
                GUID            Cookie;
        } RTSCookie;

        typedef [v1_enum,public] enum {
                RTS_IPV4        = 0,
                RTS_IPV6        = 1
        } AddressType;

        typedef [nodiscriminant] union {
                [case(RTS_IPV4)] ipv4address    ClientAddressIPV4;
                [case(RTS_IPV6)] ipv6address    ClientAddressIPV6;
        } ClientAddressType;

        typedef [public] struct {
                AddressType                                     AddressType;
                [switch_is(AddressType)] ClientAddressType      ClientAddress;
                uint8                                           Padding[12];
        } ClientAddress;

        typedef [v1_enum, public] enum {
                FDClient        = 0,
                FDInProxy       = 1,
                FDServer        = 2,
                FDOutProxy      = 3
        } ForwardDestination;

        typedef [public] struct {
                uint32          BytesReceived;
                uint32          AvailableWindow;
                RTSCookie       ChannelCookie;
        } FlowControlAcknowledgment;

        /* RTS commands */

        /* RTS command: 0x0 */
        typedef [public] struct {
                [range(0x2000,0x40000)] uint32  ReceiveWindowSize;
        } dcerpc_rts_cmd_ReceiveWindowSize;

        /* RTS command: 0x1 */
        typedef [public] struct {
                FlowControlAcknowledgment       Ack;
        } dcerpc_rts_cmd_FlowControlAck;

        /* RTS command: 0x2 */
        typedef [public] struct {
                [range(0x1D4C0,0xDBBA00)] uint32        ConnectionTimeout;
        } dcerpc_rts_cmd_ConnectionTimeout;

        /* RTS command: 0x3 */
        typedef [public] struct {
                RTSCookie       Cookie;
        } dcerpc_rts_cmd_Cookie;

        /* RTS command: 0x4 */
        typedef [public] struct {
                [range(0x20000,0x80000000)] uint32      ChannelLifetime;
        } dcerpc_rts_cmd_ChannelLifetime;

        /* RTS command: 0x5 */
        typedef [public] struct {
                uint32          ClientKeepalive;
        } dcerpc_rts_cmd_ClientKeepalive;

        /* RTS command: 0x6 */
        typedef [public] struct {
                uint32          Version;
        } dcerpc_rts_cmd_Version;

        /* RTS command: 0x7 */
        typedef [public] struct {
        } dcerpc_rts_cmd_Empty;

        /* RTS command: 0x8 */
        typedef [public] struct {
                [range(0x0,0xFFFF)] uint32      ConformanceCount;
                uint8                           Padding[ConformanceCount];
        } dcerpc_rts_cmd_Padding;

        /* RTS command: 0x9 */
        typedef [public] struct {
        } dcerpc_rts_cmd_NegativeANCE;

        /* RTS Command: 0xA */
        typedef [public] struct {
        } dcerpc_rts_cmd_ANCE;

        /* RTS command: 0xB */
        typedef [public] struct {
                ClientAddress   ClientAddress;
        } dcerpc_rts_cmd_ClientAddress;

        /* RTS command: 0xC */
        typedef [public] struct {
                RTSCookie       AssociationGroupId;
        } dcerpc_rts_cmd_AssociationGroupId;

        /* RTS command: 0xD */
        typedef [public] struct {
                ForwardDestination      ForwardDestination;
        } dcerpc_rts_cmd_Destination;

        /* RTS command: 0xE */
        typedef [public] struct {
                uint32  PingTrafficSent;
        } dcerpc_rts_cmd_PingTrafficSentNotify;

        typedef [nodiscriminant] union {
                [case(0x0)] dcerpc_rts_cmd_ReceiveWindowSize            ReceiveWindowSize;
                [case(0x1)] dcerpc_rts_cmd_FlowControlAck               FlowControlAck;
                [case(0x2)] dcerpc_rts_cmd_ConnectionTimeout            ConnectionTimeout;
                [case(0x3)] dcerpc_rts_cmd_Cookie                       Cookie;
                [case(0x4)] dcerpc_rts_cmd_ChannelLifetime              ChannelLifetime;
                [case(0x5)] dcerpc_rts_cmd_ClientKeepalive              ClientKeepalive;
                [case(0x6)] dcerpc_rts_cmd_Version                      Version;
                [case(0x7)] dcerpc_rts_cmd_Empty                        Empty;
                [case(0x8)] dcerpc_rts_cmd_Padding                      Padding;
                [case(0x9)] dcerpc_rts_cmd_NegativeANCE                 NegativeANCE;
                [case(0xA)] dcerpc_rts_cmd_ANCE                         ANCE;
                [case(0xB)] dcerpc_rts_cmd_ClientAddress                ClientAddress;
                [case(0xC)] dcerpc_rts_cmd_AssociationGroupId           AssociationGroupId;
                [case(0xD)] dcerpc_rts_cmd_Destination                  Destination;
                [case(0xE)] dcerpc_rts_cmd_PingTrafficSentNotify        PingTrafficSentNotify;
        } dcerpc_rts_cmds;

        typedef [public] struct {
                uint32                                          CommandType;
                [switch_is(CommandType)] dcerpc_rts_cmds        Command;
        } dcerpc_rts_cmd;

        /* The RTS flags */
        typedef [public, bitmap16bit] bitmap {
                RTS_FLAG_NONE                   =       0x0000,
                RTS_FLAG_PING                   =       0x0001,
                RTS_FLAG_OTHER_CMD              =       0x0002,
                RTS_FLAG_RECYCLE_CHANNEL        =       0x0004,
                RTS_FLAG_IN_CHANNEL             =       0x0008,
                RTS_FLAG_OUT_CHANNEL            =       0x0010,
                RTS_FLAG_EOF                    =       0x0020,
                RTS_FLAG_ECHO                   =       0x0040
        } dcerpc_rts_flags;

        typedef [public] struct {
                dcerpc_rts_flags        Flags;
                uint16                  NumberOfCommands;
                dcerpc_rts_cmd          Commands[NumberOfCommands];
        } dcerpc_rts;

        typedef [enum8bit] enum {
                DCERPC_PKT_REQUEST     =  0,    /* Ordinary request. */
                DCERPC_PKT_PING        =  1,    /* Connectionless is server alive ? */
                DCERPC_PKT_RESPONSE    =  2,    /* Ordinary reply. */
                DCERPC_PKT_FAULT       =  3,    /* Fault in processing of call. */
                DCERPC_PKT_WORKING     =  4,    /* Connectionless reply to a ping when server busy. */
                DCERPC_PKT_NOCALL      =  5,    /* Connectionless reply to a ping when server has lost part of clients call. */
                DCERPC_PKT_REJECT      =  6,    /* Refuse a request with a code. */
                DCERPC_PKT_ACK         =  7,    /* Connectionless client to server code. */
                DCERPC_PKT_CL_CANCEL   =  8,    /* Connectionless cancel. */
                DCERPC_PKT_FACK        =  9,    /* Connectionless fragment ack. Both client and server send. */
                DCERPC_PKT_CANCEL_ACK  = 10,    /* Server ACK to client cancel request. */
                DCERPC_PKT_BIND        = 11,    /* Bind to interface. */
                DCERPC_PKT_BIND_ACK    = 12,    /* Server ack of bind. */
                DCERPC_PKT_BIND_NAK    = 13,    /* Server nack of bind. */
                DCERPC_PKT_ALTER       = 14,    /* Alter auth. */
                DCERPC_PKT_ALTER_RESP  = 15,    /* Reply to alter auth. */
                DCERPC_PKT_AUTH3       = 16,    /* not the real name!  this is undocumented! */
                DCERPC_PKT_SHUTDOWN    = 17,    /* Server to client request to shutdown. */
                DCERPC_PKT_CO_CANCEL   = 18,    /* Connection-oriented cancel request. */
                DCERPC_PKT_ORPHANED    = 19,    /* Client telling server it's aborting a partially sent request or telling server to stop sending replies. */
                DCERPC_PKT_RTS         = 20     /* RTS packets used in ncacn_http */
        } dcerpc_pkt_type;

        typedef [nodiscriminant] union {
                [case(DCERPC_PKT_REQUEST)]    dcerpc_request  request;
                [case(DCERPC_PKT_PING)]           dcerpc_ping ping;
                [case(DCERPC_PKT_RESPONSE)]   dcerpc_response response;
                [case(DCERPC_PKT_FAULT)]          dcerpc_fault fault;
                [case(DCERPC_PKT_WORKING)]        dcerpc_working working;
                [case(DCERPC_PKT_NOCALL)]     dcerpc_fack nocall;
                [case(DCERPC_PKT_REJECT)]     dcerpc_fault reject;
                [case(DCERPC_PKT_ACK)]        dcerpc_ack ack;
                [case(DCERPC_PKT_CL_CANCEL)]  dcerpc_cl_cancel cl_cancel;
                [case(DCERPC_PKT_FACK)]       dcerpc_fack fack;
                [case(DCERPC_PKT_CANCEL_ACK)] dcerpc_cancel_ack cancel_ack;
                [case(DCERPC_PKT_BIND)]       dcerpc_bind     bind;
                [case(DCERPC_PKT_BIND_ACK)]   dcerpc_bind_ack bind_ack;
                [case(DCERPC_PKT_BIND_NAK)]   dcerpc_bind_nak bind_nak;
                [case(DCERPC_PKT_ALTER)]      dcerpc_bind     alter;
                [case(DCERPC_PKT_ALTER_RESP)] dcerpc_bind_ack alter_resp;
                [case(DCERPC_PKT_SHUTDOWN)]   dcerpc_shutdown shutdown;
                [case(DCERPC_PKT_CO_CANCEL)]  dcerpc_co_cancel co_cancel;
                [case(DCERPC_PKT_ORPHANED)]   dcerpc_orphaned orphaned;
                [case(DCERPC_PKT_AUTH3)]      dcerpc_auth3    auth3;
                [case(DCERPC_PKT_RTS)]        dcerpc_rts      rts;
        } dcerpc_payload;

        /* pfc_flags values */
        typedef [bitmap8bit] bitmap {
                DCERPC_PFC_FLAG_FIRST           = 0x01, /* First fragment */
                DCERPC_PFC_FLAG_LAST            = 0x02, /* Last fragment */
                DCERPC_PFC_FLAG_PENDING_CANCEL_OR_HDR_SIGNING = 0x04, /* depends on the pdu type */
                DCERPC_PFC_FLAG_CONC_MPX        = 0x10, /* supports concurrent multiplexing of a single connection. */
                DCERPC_PFC_FLAG_DID_NOT_EXECUTE = 0x20, /* on a fault it means the server hasn't done anything */
                DCERPC_PFC_FLAG_MAYBE           = 0x40, /* `maybe' call semantics requested */
                DCERPC_PFC_FLAG_OBJECT_UUID     = 0x80 /* on valid guid is in the optional object field */
        } dcerpc_pfc_flags;

        /* Cancel was pending at sender */
        const int DCERPC_PFC_FLAG_PENDING_CANCEL =
                DCERPC_PFC_FLAG_PENDING_CANCEL_OR_HDR_SIGNING;
        const int DCERPC_PFC_FLAG_SUPPORT_HEADER_SIGN =
                DCERPC_PFC_FLAG_PENDING_CANCEL_OR_HDR_SIGNING;

        /* these offsets are needed by the signing code */
        const uint8 DCERPC_PFC_OFFSET      =  3;
        const uint8 DCERPC_DREP_OFFSET     =  4;
        const uint8 DCERPC_FRAG_LEN_OFFSET =  8;
        const uint32 DCERPC_FRAG_MAX_SIZE  = 5840;
        const uint8 DCERPC_AUTH_LEN_OFFSET = 10;
        const uint8 DCERPC_NCACN_PAYLOAD_OFFSET = 16;
        const uint32 DCERPC_NCACN_PAYLOAD_MAX_SIZE = 0x400000; /* 4 MByte */

        /* little-endian flag */
        const uint8 DCERPC_DREP_LE  = 0x10;

        typedef [public] struct {
                uint8 rpc_vers;         /* RPC version */
                uint8 rpc_vers_minor;   /* Minor version */
                dcerpc_pkt_type ptype;  /* Packet type */
                dcerpc_pfc_flags pfc_flags; /* Fragmentation flags */
                uint8 drep[4];          /* NDR data representation */
                uint16 frag_length;     /* Total length of fragment */
                uint16 auth_length;     /* authenticator length */
                uint32 call_id;         /* Call identifier */
                [switch_is(ptype)] dcerpc_payload u;
        } ncacn_packet;

        typedef [public] struct {
                uint8 rpc_vers;         /* RPC version (4) */
                uint8 ptype;
                uint8 pfc_flags;
                uint8 ncadg_flags;
                uint8 drep[3];
                uint8 serial_high;
                GUID object;
                GUID iface;
                GUID activity;
                uint32 server_boot; /* Server boot time */
                uint32 iface_version;
                uint32 seq_num;
                uint16 opnum;
                uint16 ihint;
                uint16 ahint;
                uint16 len;
                uint16 fragnum;
                uint8 auth_proto;
                uint8 serial_low;
                [switch_is(ptype)] dcerpc_payload u;
        } ncadg_packet;

        typedef [bitmap16bit] bitmap {
                DCERPC_SEC_VT_COMMAND_ENUM  = 0x3FFF,
                DCERPC_SEC_VT_COMMAND_END   = 0x4000,
                DCERPC_SEC_VT_MUST_PROCESS  = 0x8000
        } dcerpc_sec_vt_command;

        typedef [enum16bit] enum {
                DCERPC_SEC_VT_COMMAND_BITMASK1  = 0x0001,
                DCERPC_SEC_VT_COMMAND_PCONTEXT  = 0x0002,
                DCERPC_SEC_VT_COMMAND_HEADER2   = 0x0003
        } dcerpc_sec_vt_command_enum;

        typedef [bitmap32bit] bitmap {
                DCERPC_SEC_VT_CLIENT_SUPPORTS_HEADER_SIGNING = 0x00000001
        } dcerpc_sec_vt_bitmask1;

        typedef struct {
                ndr_syntax_id abstract_syntax;
                ndr_syntax_id transfer_syntax;
        } dcerpc_sec_vt_pcontext;

        typedef struct {
                dcerpc_pkt_type ptype;  /* Packet type */
                [value(0)] uint8 reserved1;
                [value(0)] uint16 reserved2;
                uint8 drep[4];          /* NDR data representation */
                uint32 call_id;         /* Call identifier */
                uint16 context_id;
                uint16 opnum;
        } dcerpc_sec_vt_header2;

        typedef [switch_type(dcerpc_sec_vt_command_enum),nodiscriminant] union {
        [case(DCERPC_SEC_VT_COMMAND_BITMASK1)] dcerpc_sec_vt_bitmask1 bitmask1;
        [case(DCERPC_SEC_VT_COMMAND_PCONTEXT)] dcerpc_sec_vt_pcontext pcontext;
        [case(DCERPC_SEC_VT_COMMAND_HEADER2)] dcerpc_sec_vt_header2 header2;
        [default,flag(NDR_REMAINING)] DATA_BLOB _unknown;
        } dcerpc_sec_vt_union;

        typedef struct {
                dcerpc_sec_vt_command command;
                [switch_is(command & DCERPC_SEC_VT_COMMAND_ENUM)]
                        [subcontext(2),flag(NDR_SUBCONTEXT_NO_UNREAD_BYTES)]
                        dcerpc_sec_vt_union u;
        } dcerpc_sec_vt;

        typedef [public,nopush,nopull] struct {
                uint16 count;
        } dcerpc_sec_vt_count;

        /*
         * We assume that the whole verification trailer fits into
         * the last 1024 bytes after the stub data.
         *
         * There're currently only 3 commands defined and each should
         * only be used once.
         */
        const uint16 DCERPC_SEC_VT_MAX_SIZE = 1024;

        typedef [public,flag(NDR_PAHEX)] struct {
                [flag(NDR_ALIGN4)] DATA_BLOB _pad;
                [value(DCERPC_SEC_VT_MAGIC)] uint8 magic[8];
                dcerpc_sec_vt_count count;
                dcerpc_sec_vt commands[count.count];
        } dcerpc_sec_verification_trailer;
}