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/*++
Copyright (c) Microsoft Corporation. All rights reserved.
Module Name:
tdi.h
Abstract:
This header file contains interface definitions for NT transport providers. This interface is documented in the NT Transport Driver Interface (TDI) Specification, Version 2.
Revision History:
--*/
// // Include the types which are common to TDI and other network users //
#ifndef _TDI_USER_ #define _TDI_USER_
#include <nettypes.h>
#include <ntddtdi.h>
// // Include Transport driver interface definitions // All of the following have two definitions; ones that correspond exactly to // the TDI spec, and those that correspond to the NT coding standards. They // should be equivalent. //
typedef LONG TDI_STATUS; typedef PVOID CONNECTION_CONTEXT; // connection context
// // Basic type used to represent an address at the transport level. There may // be many addresses represented in a single address structure. If there are // multiple addresses, a given provider must understand all of them or it can // use none of them. Note that it is acceptible for the provider to not know // how to use the address, as long as it knows the address type. Thus, a // TCP/IP NetBIOS provider may know both NetBIOS and TCP/IP addresses, but // use only the NetBIOS address; the TCP/IP address would (likely) be passed on // to the TCP/IP provider. //
typedef UNALIGNED struct _TA_ADDRESS { USHORT AddressLength; // length in bytes of Address[] in this USHORT AddressType; // type of this address UCHAR Address[1]; // actually AddressLength bytes long } TA_ADDRESS, *PTA_ADDRESS;
typedef struct _TRANSPORT_ADDRESS { LONG TAAddressCount; // number of addresses following TA_ADDRESS Address[1]; // actually TAAddressCount elements long } TRANSPORT_ADDRESS, *PTRANSPORT_ADDRESS;
// // define some names for the EAs so people don't have to make them up. //
#define TdiTransportAddress "TransportAddress" #define TdiConnectionContext "ConnectionContext" #define TDI_TRANSPORT_ADDRESS_LENGTH (sizeof (TdiTransportAddress) - 1) #define TDI_CONNECTION_CONTEXT_LENGTH (sizeof (TdiConnectionContext) - 1)
// // Known Address types //
#define TDI_ADDRESS_TYPE_UNSPEC ((USHORT)0) // unspecified #define TDI_ADDRESS_TYPE_UNIX ((USHORT)1) // local to host (pipes, portals) #define TDI_ADDRESS_TYPE_IP ((USHORT)2) // internetwork: UDP, TCP, etc. #define TDI_ADDRESS_TYPE_IMPLINK ((USHORT)3) // arpanet imp addresses #define TDI_ADDRESS_TYPE_PUP ((USHORT)4) // pup protocols: e.g. BSP #define TDI_ADDRESS_TYPE_CHAOS ((USHORT)5) // mit CHAOS protocols #define TDI_ADDRESS_TYPE_NS ((USHORT)6) // XEROX NS protocols #define TDI_ADDRESS_TYPE_IPX ((USHORT)6) // Netware IPX #define TDI_ADDRESS_TYPE_NBS ((USHORT)7) // nbs protocols #define TDI_ADDRESS_TYPE_ECMA ((USHORT)8) // european computer manufacturers #define TDI_ADDRESS_TYPE_DATAKIT ((USHORT)9) // datakit protocols #define TDI_ADDRESS_TYPE_CCITT ((USHORT)10) // CCITT protocols, X.25 etc #define TDI_ADDRESS_TYPE_SNA ((USHORT)11) // IBM SNA #define TDI_ADDRESS_TYPE_DECnet ((USHORT)12) // DECnet #define TDI_ADDRESS_TYPE_DLI ((USHORT)13) // Direct data link interface #define TDI_ADDRESS_TYPE_LAT ((USHORT)14) // LAT #define TDI_ADDRESS_TYPE_HYLINK ((USHORT)15) // NSC Hyperchannel #define TDI_ADDRESS_TYPE_APPLETALK ((USHORT)16) // AppleTalk #define TDI_ADDRESS_TYPE_NETBIOS ((USHORT)17) // Netbios Addresses #define TDI_ADDRESS_TYPE_8022 ((USHORT)18) // #define TDI_ADDRESS_TYPE_OSI_TSAP ((USHORT)19) // #define TDI_ADDRESS_TYPE_NETONE ((USHORT)20) // for WzMail #define TDI_ADDRESS_TYPE_VNS ((USHORT)21) // Banyan VINES IP #define TDI_ADDRESS_TYPE_NETBIOS_EX ((USHORT)22) // NETBIOS address extensions #define TDI_ADDRESS_TYPE_IP6 ((USHORT)23) // IP version 6 #define TDI_ADDRESS_TYPE_NETBIOS_UNICODE_EX ((USHORT)24) // WCHAR Netbios address
// // Definition of address structures. These need to be packed // and misaligned where necessary. //
#include <packon.h>
// // Unicode NetBIOS // enum eNameBufferType { NBT_READONLY = 0, // default NBT_WRITEONLY, NBT_READWRITE, NBT_WRITTEN };
typedef UNALIGNED struct _TDI_ADDRESS_NETBIOS_UNICODE_EX { USHORT NetbiosNameType; enum eNameBufferType NameBufferType; UNICODE_STRING EndpointName; // Buffer should point to EndpointBuffer UNICODE_STRING RemoteName; // Buffer should point to RemoteNameBuffer
WCHAR EndpointBuffer[17]; // UNICODE WCHAR RemoteNameBuffer[1]; // UNICODE } TDI_ADDRESS_NETBIOS_UNICODE_EX, *PTDI_ADDRESS_NETBIOS_UNICODE_EX;
typedef UNALIGNED struct _TA_ADDRESS_NETBIOS_UNICODE_EX { LONG TAAddressCount; struct _AddrNetbiosWCharEx { USHORT AddressLength; // length in bytes of this address == ?? USHORT AddressType; // this will == TDI_ADDRESS_TYPE_NETBIOS_WCHAR_EX TDI_ADDRESS_NETBIOS_UNICODE_EX Address[1]; } Address [1]; } TA_NETBIOS_UNICODE_EX_ADDRESS, *PTA_NETBIOS_UNICODE_EX_ADDRESS;
// // NetBIOS //
typedef UNALIGNED struct _TDI_ADDRESS_NETBIOS { USHORT NetbiosNameType; UCHAR NetbiosName[16]; } TDI_ADDRESS_NETBIOS, *PTDI_ADDRESS_NETBIOS;
#define TDI_ADDRESS_NETBIOS_TYPE_UNIQUE ((USHORT)0x0000) #define TDI_ADDRESS_NETBIOS_TYPE_GROUP ((USHORT)0x0001) #define TDI_ADDRESS_NETBIOS_TYPE_QUICK_UNIQUE ((USHORT)0x0002) #define TDI_ADDRESS_NETBIOS_TYPE_QUICK_GROUP ((USHORT)0x0003)
#define TDI_ADDRESS_LENGTH_NETBIOS sizeof (TDI_ADDRESS_NETBIOS)
// // NETBIOS Extended address //
typedef struct _TDI_ADDRESS_NETBIOS_EX { UCHAR EndpointName[16]; // the called name to be used in NETBT session setup TDI_ADDRESS_NETBIOS NetbiosAddress; } TDI_ADDRESS_NETBIOS_EX, *PTDI_ADDRESS_NETBIOS_EX;
#define TDI_ADDRESS_LENGTH_NETBIOS_EX sizeof(TDI_ADDRESS_NETBIOS_EX)
// // Xns address for UB //
typedef struct _TDI_ADDRESS_NETONE { USHORT NetoneNameType; UCHAR NetoneName[20]; } TDI_ADDRESS_NETONE, *PTDI_ADDRESS_NETONE;
#define TDI_ADDRESS_NETONE_TYPE_UNIQUE ((USHORT)0x0000) #define TDI_ADDRESS_NETONE_TYPE_ROTORED ((USHORT)0x0001)
#define TDI_ADDRESS_LENGTH_NETONE sizeof (TDI_ADDRESS_NETONE)
// // AppleTalk //
typedef struct _TDI_ADDRESS_APPLETALK { USHORT Network; UCHAR Node; UCHAR Socket; } TDI_ADDRESS_APPLETALK, *PTDI_ADDRESS_APPLETALK;
#define TDI_ADDRESS_LENGTH_APPLETALK sizeof (TDI_ADDRESS_APPLETALK)
// // 802.2 MAC addresses //
typedef struct _TDI_ADDRESS_8022 { UCHAR MACAddress[6]; } TDI_ADDRESS_8022, *PTDI_ADDRESS_8022;
#define TDI_ADDRESS_LENGTH_8022 sizeof (TDI_ADDRESS_8022);
// // IP address //
typedef struct _TDI_ADDRESS_IP { USHORT sin_port; ULONG in_addr; UCHAR sin_zero[8]; } TDI_ADDRESS_IP, *PTDI_ADDRESS_IP;
#define TDI_ADDRESS_LENGTH_IP sizeof (TDI_ADDRESS_IP)
// // IPv6 address //
typedef struct _TDI_ADDRESS_IP6 { USHORT sin6_port; ULONG sin6_flowinfo; USHORT sin6_addr[8]; ULONG sin6_scope_id; } TDI_ADDRESS_IP6, *PTDI_ADDRESS_IP6;
#define TDI_ADDRESS_LENGTH_IP6 sizeof (TDI_ADDRESS_IP6)
// // IPX address //
typedef struct _TDI_ADDRESS_IPX { ULONG NetworkAddress; UCHAR NodeAddress[6]; USHORT Socket; } TDI_ADDRESS_IPX, *PTDI_ADDRESS_IPX;
#define TDI_ADDRESS_LENGTH_IPX sizeof (TDI_ADDRESS_IPX)
// // XNS address (same as IPX) //
typedef struct _TDI_ADDRESS_NS { ULONG NetworkAddress; UCHAR NodeAddress[6]; USHORT Socket; } TDI_ADDRESS_NS, *PTDI_ADDRESS_NS;
#define TDI_ADDRESS_LENGTH_NS sizeof (TDI_ADDRESS_NS)
// // Banyan VINES IP address //
typedef struct _TDI_ADDRESS_VNS { UCHAR net_address[4]; // network address (static) UCHAR subnet_addr[2]; // subnet address (dynamic) UCHAR port[2]; UCHAR hops; // # hops for broadcasts UCHAR filler[5]; // filler, zeros } TDI_ADDRESS_VNS, *PTDI_ADDRESS_VNS;
#define TDI_ADDRESS_LENGTH_VNS sizeof (TDI_ADDRESS_VNS)
// OSI TSAP
/* * The maximum size of the tranport address (tp_addr field of a * sockaddr_tp structure) is 64. */
#define ISO_MAX_ADDR_LENGTH 64
/* * There are two types of ISO addresses, hierarchical and * non-hierarchical. For hierarchical addresses, the tp_addr * field contains both the transport selector and the network * address. For non-hierarchical addresses, tp_addr contains only * the transport address, which must be translated by the ISO TP4 * transport provider into the transport selector and network address. */
#define ISO_HIERARCHICAL 0 #define ISO_NON_HIERARCHICAL 1
typedef struct _TDI_ADDRESS_OSI_TSAP { USHORT tp_addr_type; /* ISO_HIERARCHICAL or ISO_NON_HIERARCHICAL */ USHORT tp_taddr_len; /* Length of transport address, <= 52 */ USHORT tp_tsel_len; /* Length of transport selector, <= 32 */ /* 0 if ISO_NON_HIERARCHICAL */ UCHAR tp_addr[ISO_MAX_ADDR_LENGTH]; } TDI_ADDRESS_OSI_TSAP, *PTDI_ADDRESS_OSI_TSAP;
#define TDI_ADDRESS_LENGTH_OSI_TSAP sizeof (TDI_ADDRESS_OSI_TSAP)
// // Some pre-defined structures to make life easier for // the 99.99% of us who use but one address. //
typedef struct _TA_ADDRESS_NETBIOS { LONG TAAddressCount; struct _Addr { USHORT AddressLength; // length in bytes of this address == 18 USHORT AddressType; // this will == TDI_ADDRESS_TYPE_NETBIOS TDI_ADDRESS_NETBIOS Address[1]; } Address [1]; } TA_NETBIOS_ADDRESS, *PTA_NETBIOS_ADDRESS;
typedef struct _TA_ADDRESS_NETBIOS_EX { LONG TAAddressCount; struct _AddrNetbiosEx { USHORT AddressLength; // length in bytes of this address == 36 USHORT AddressType; // this will == TDI_ADDRESS_TYPE_NETBIOS_EX TDI_ADDRESS_NETBIOS_EX Address[1]; } Address [1]; } TA_NETBIOS_EX_ADDRESS, *PTA_NETBIOS_EX_ADDRESS;
typedef struct _TA_APPLETALK_ADDR { LONG TAAddressCount; struct _AddrAtalk { USHORT AddressLength; // length in bytes of this address == 4 USHORT AddressType; // this will == TDI_ADDRESS_TYPE_APPLETALK TDI_ADDRESS_APPLETALK Address[1]; } Address[1]; } TA_APPLETALK_ADDRESS, *PTA_APPLETALK_ADDRESS;
typedef struct _TA_ADDRESS_IP { LONG TAAddressCount; struct _AddrIp { USHORT AddressLength; // length in bytes of this address == 14 USHORT AddressType; // this will == TDI_ADDRESS_TYPE_IP TDI_ADDRESS_IP Address[1]; } Address [1]; } TA_IP_ADDRESS, *PTA_IP_ADDRESS;
typedef struct _TA_ADDRESS_IP6 { LONG TAAddressCount; struct _AddrIp6 { USHORT AddressLength; // length in bytes of this address == 24 USHORT AddressType; // this will == TDI_ADDRESS_TYPE_IP6 TDI_ADDRESS_IP6 Address[1]; } Address [1]; } TA_IP6_ADDRESS, *PTA_IP6_ADDRESS;
typedef struct _TA_ADDRESS_IPX { LONG TAAddressCount; struct _AddrIpx { USHORT AddressLength; // length in bytes of this address == 12 USHORT AddressType; // this will == TDI_ADDRESS_TYPE_IPX TDI_ADDRESS_IPX Address[1]; } Address [1]; } TA_IPX_ADDRESS, *PTA_IPX_ADDRESS;
typedef struct _TA_ADDRESS_NS { LONG TAAddressCount; struct _AddrNs { USHORT AddressLength; // length in bytes of this address == 12 USHORT AddressType; // this will == TDI_ADDRESS_TYPE_NS TDI_ADDRESS_NS Address[1]; } Address [1]; } TA_NS_ADDRESS, *PTA_NS_ADDRESS;
typedef struct _TA_ADDRESS_VNS { LONG TAAddressCount; struct _AddrVns { USHORT AddressLength; // length in bytes of this address == 14 USHORT AddressType; // this will == TDI_ADDRESS_TYPE_VNS TDI_ADDRESS_VNS Address[1]; } Address [1]; } TA_VNS_ADDRESS, *PTA_VNS_ADDRESS;
#include <packoff.h>
// // This structure is passed with every request to TDI. It describes that // request and the parameters to it. //
typedef struct _TDI_REQUEST { union { HANDLE AddressHandle; CONNECTION_CONTEXT ConnectionContext; HANDLE ControlChannel; } Handle;
PVOID RequestNotifyObject; PVOID RequestContext; TDI_STATUS TdiStatus; } TDI_REQUEST, *PTDI_REQUEST;
// // Structure for information returned by the TDI provider. This structure is // filled in upon request completion. //
typedef struct _TDI_REQUEST_STATUS { TDI_STATUS Status; // status of request completion PVOID RequestContext; // the request Context ULONG BytesTransferred; // number of bytes transferred in the request
} TDI_REQUEST_STATUS, *PTDI_REQUEST_STATUS;
// // connection primitives information structure. This is passed to the TDI calls // (Accept, Connect, xxx) that do connecting sorts of things. //
typedef struct _TDI_CONNECTION_INFORMATION { LONG UserDataLength; // length of user data buffer PVOID UserData; // pointer to user data buffer LONG OptionsLength; // length of follwoing buffer PVOID Options; // pointer to buffer containing options LONG RemoteAddressLength; // length of following buffer PVOID RemoteAddress; // buffer containing the remote address } TDI_CONNECTION_INFORMATION, *PTDI_CONNECTION_INFORMATION;
// // structure defining a counted string is defined in // \nt\public\sdk\inc\ntdefs.h as // typedef struct _STRING { // USHORT Length; // USHORT MaximumLength; // PCHAR Buffer; // } STRING; // typedef STRING *PSTRING; // typedef STRING ANSI_STRING; // typedef PSTRING PANSI_STRING; //
// // Event types that are known //
#define TDI_EVENT_CONNECT ((USHORT)0) // TDI_IND_CONNECT event handler. #define TDI_EVENT_DISCONNECT ((USHORT)1) // TDI_IND_DISCONNECT event handler. #define TDI_EVENT_ERROR ((USHORT)2) // TDI_IND_ERROR event handler. #define TDI_EVENT_RECEIVE ((USHORT)3) // TDI_IND_RECEIVE event handler. #define TDI_EVENT_RECEIVE_DATAGRAM ((USHORT)4) // TDI_IND_RECEIVE_DATAGRAM event handler. #define TDI_EVENT_RECEIVE_EXPEDITED ((USHORT)5) // TDI_IND_RECEIVE_EXPEDITED event handler. #define TDI_EVENT_SEND_POSSIBLE ((USHORT)6) // TDI_IND_SEND_POSSIBLE event handler
// // Associate Address is done through NtDeviceIoControlFile, which passes this // structure as its input buffer. The Handle specified in the // NtDeviceIoControlFile is the handle of the connection returned in the // NtCreateFile call. //
typedef struct _TDI_REQUEST_ASSOCIATE { TDI_REQUEST Request; HANDLE AddressHandle; } TDI_REQUEST_ASSOCIATE_ADDRESS, *PTDI_REQUEST_ASSOCIATE_ADDRESS;
// // Disassociate Address passes no structure, uses the request code // IOCTL_TDI_DISASSOCIATE_ADDRESS. This call will never pend. //
// // Connect is done through NtDeviceIoControlFile, which passes this // structure as its input buffer. The Handle specified in the // NtDeviceIoControlFile is the handle of the connection returned in the // NtCreateFile call. //
typedef struct _TDI_CONNECT_REQUEST { TDI_REQUEST Request; PTDI_CONNECTION_INFORMATION RequestConnectionInformation; PTDI_CONNECTION_INFORMATION ReturnConnectionInformation; LARGE_INTEGER Timeout; } TDI_REQUEST_CONNECT, *PTDI_REQUEST_CONNECT;
// // Accept is done through NtDeviceIoControlFile, which passes this // structure as its input buffer. The Handle specified in the // NtDeviceIoControlFile is the handle of the connection returned in the // NtCreateFile call. Accept is called by the user when a listen completes, // before any activity can occur on a connection. AcceptConnectionId specifies // the connection on which the connection is accepted; in most cases, this // will be null, which that the connection is to be accepted on the // connection on which the listen completed. If the transport provider supports // "forwarding" of connections (the idea that a particular connection listens // all the time, and creates new connections as needed for incoming connection // requests and attaches them to the listen), this is the mechanism used to // associate connections with the listen. //
typedef struct _TDI_REQUEST_ACCEPT { TDI_REQUEST Request; PTDI_CONNECTION_INFORMATION RequestConnectionInformation; PTDI_CONNECTION_INFORMATION ReturnConnectionInformation; } TDI_REQUEST_ACCEPT, *PTDI_REQUEST_ACCEPT;
// // Listen is done through NtDeviceIoControlFile, which passes this // structure as its input buffer. The Handle specified in the // NtDeviceIoControlFile is the handle of the connection returned in the // NtCreateFile call. RequestConnectionInformation contains information about // the remote address to be listen for connections from; if NULL, any address // is accepted. ReturnConnectionInformation returns information about the // remote node that actually connected. //
typedef struct _TDI_REQUEST_LISTEN { TDI_REQUEST Request; PTDI_CONNECTION_INFORMATION RequestConnectionInformation; PTDI_CONNECTION_INFORMATION ReturnConnectionInformation; USHORT ListenFlags; } TDI_REQUEST_LISTEN, *PTDI_REQUEST_LISTEN;
// // Disconnect is done through NtDeviceIoControlFile, which passes this // structure as its input buffer. The Handle specified in the // NtDeviceIoControlFile is the handle of the connection returned in the // NtCreateFile call. Disconnect differs from Close in offering more options. // For example, Close terminates all activity on a connection (immediately), // failing all outstanding requests, and tearing down the connection. With // some providers, Disconnect allows a "graceful" disconnect, causing new activity // to be rejected but allowing old activity to run down to completion. //
typedef struct _TDI_DISCONNECT_REQUEST { TDI_REQUEST Request; LARGE_INTEGER Timeout; } TDI_REQUEST_DISCONNECT, *PTDI_REQUEST_DISCONNECT;
// // Send is done through NtDeviceIoControlFile, which passes this // structure as its input buffer. The Handle specified in the // NtDeviceIoControlFile is the handle of the connection returned in the // NtCreateFile call. Note that it is possible to Send using the file system's // Write call. This will have the same effect as doing a Send with all flags // set to null. //
typedef struct _TDI_REQUEST_SEND { TDI_REQUEST Request; USHORT SendFlags; } TDI_REQUEST_SEND, *PTDI_REQUEST_SEND;
// // Receive is done through NtDeviceIoControlFile, which passes this // structure as its input buffer. The Handle specified in the // NtDeviceIoControlFile is the handle of the connection returned in the // NtCreateFile call. Note that it is possible to Receive using the file // system's Read call. Note further that receive returns a number of TDI_STATUS // values, which indicate things such as partial receives. //
typedef struct _TDI_REQUEST_RECEIVE { TDI_REQUEST Request; USHORT ReceiveFlags; } TDI_REQUEST_RECEIVE, *PTDI_REQUEST_RECEIVE;
// // SendDatagram is done through NtDeviceIoControlFile, which passes this // structure as its input buffer. The Handle specified in the // NtDeviceIoControlFile is the handle of the ADDRESS (note this is // different than above!!) returned in the NtCreateFile call. Send Datagram // specifies the address of the receiver through the SendDatagramInformation // structure, using RemoteAddress to point to the transport address of the // destination of the datagram. //
typedef struct _TDI_REQUEST_SEND_DATAGRAM { TDI_REQUEST Request; PTDI_CONNECTION_INFORMATION SendDatagramInformation; } TDI_REQUEST_SEND_DATAGRAM, *PTDI_REQUEST_SEND_DATAGRAM;
// // ReceiveDatagram is done through NtDeviceIoControlFile, which passes this // structure as its input buffer. The Handle specified in the // NtDeviceIoControlFile is the handle of the ADDRESS (note this is // different than above!!) returned in the NtCreateFile call. Receive Datagram // specifies the address from which to receive a datagram through the // ReceiveDatagramInformation structure, using RemoteAddress to point to the // transport address of the origin of the datagram. (Broadcast datagrams are // received by making the pointer NULL.) The actual address of the sender of // the datagram is returned in ReturnInformation. // // for the receive datagram call //
typedef struct _TDI_REQUEST_RECEIVE_DATAGRAM { TDI_REQUEST Request; PTDI_CONNECTION_INFORMATION ReceiveDatagramInformation; PTDI_CONNECTION_INFORMATION ReturnInformation; USHORT ReceiveFlags; } TDI_REQUEST_RECEIVE_DATAGRAM, *PTDI_REQUEST_RECEIVE_DATAGRAM;
// // SetEventHandler is done through NtDeviceIoControlFile, which passes this // structure as its input buffer. The Handle specified in the // NtDeviceIoControlFile is the handle of the ADDRESS (note this is // different than above!!) returned in the NtCreateFile call.
typedef struct _TDI_REQUEST_SET_EVENT { TDI_REQUEST Request; LONG EventType; PVOID EventHandler; PVOID EventContext; } TDI_REQUEST_SET_EVENT_HANDLER, *PTDI_REQUEST_SET_EVENT_HANDLER;
// // ReceiveIndicator values (from TdiReceive and TdiReceiveDatagram requests, // and also presented at TDI_IND_RECEIVE and TDI_IND_RECEIVE_DATAGRAM time). // // The TDI_RECEIVE_PARTIAL bit is no longer used at the kernel level // interface. TDI_RECEIVE_ENTIRE_MESSAGE has replaced it. Providers // may continue to set TDI_RECEIVE_PARTIAL when appropriate if they so // desire, but the TDI_RECEIVE_ENTIRE_MESSAGE bit must be set or // cleared as appropriate on all receive indications. //
#define TDI_RECEIVE_BROADCAST 0x00000004 // received TSDU was broadcast. #define TDI_RECEIVE_MULTICAST 0x00000008 // received TSDU was multicast. #define TDI_RECEIVE_PARTIAL 0x00000010 // received TSDU is not fully presented. #define TDI_RECEIVE_NORMAL 0x00000020 // received TSDU is normal data #define TDI_RECEIVE_EXPEDITED 0x00000040 // received TSDU is expedited data #define TDI_RECEIVE_PEEK 0x00000080 // received TSDU is not released #define TDI_RECEIVE_NO_RESPONSE_EXP 0x00000100 // HINT: no back-traffic expected #define TDI_RECEIVE_COPY_LOOKAHEAD 0x00000200 // for kernel-mode indications #define TDI_RECEIVE_ENTIRE_MESSAGE 0x00000400 // opposite of RECEIVE_PARTIAL // (for kernel-mode indications) #define TDI_RECEIVE_AT_DISPATCH_LEVEL 0x00000800 // receive indication called // at dispatch level #define TDI_RECEIVE_CONTROL_INFO 0x00001000 // Control info is being passed up.
// // Listen Flags //
#define TDI_QUERY_ACCEPT 0x00000001 // complete TdiListen // without accepting // connection
// // Options which are used for both SendOptions and ReceiveIndicators. //
#define TDI_SEND_EXPEDITED ((USHORT)0x0020) // TSDU is/was urgent/expedited. #define TDI_SEND_PARTIAL ((USHORT)0x0040) // TSDU is/was terminated by an EOR. #define TDI_SEND_NO_RESPONSE_EXPECTED ((USHORT)0x0080) // HINT: no back traffic expected. #define TDI_SEND_NON_BLOCKING ((USHORT)0x0100) // don't block if no buffer space in protocol #define TDI_SEND_AND_DISCONNECT ((USHORT)0x0200) // Piggy back disconnect to remote and do not // indicate disconnect from remote
// // Disconnect Flags //
#define TDI_DISCONNECT_WAIT ((USHORT)0x0001) // used for disconnect // notification #define TDI_DISCONNECT_ABORT ((USHORT)0x0002) // immediately terminate // connection #define TDI_DISCONNECT_RELEASE ((USHORT)0x0004) // initiate graceful // disconnect
// // TdiRequest structure for TdiQueryInformation request. //
typedef struct _TDI_REQUEST_QUERY_INFORMATION { TDI_REQUEST Request; ULONG QueryType; // class of information to be queried. PTDI_CONNECTION_INFORMATION RequestConnectionInformation; } TDI_REQUEST_QUERY_INFORMATION, *PTDI_REQUEST_QUERY_INFORMATION;
// // TdiRequest structure for TdiSetInformation request. //
typedef struct _TDI_REQUEST_SET_INFORMATION { TDI_REQUEST Request; ULONG SetType; // class of information to be set. PTDI_CONNECTION_INFORMATION RequestConnectionInformation; } TDI_REQUEST_SET_INFORMATION, *PTDI_REQUEST_SET_INFORMATION;
// // This is the old name, do not use it. //
typedef TDI_REQUEST_SET_INFORMATION TDI_REQ_SET_INFORMATION, *PTDI_REQ_SET_INFORMATION;
// // Convenient universal request type. //
typedef union _TDI_REQUEST_TYPE { TDI_REQUEST_ACCEPT TdiAccept; TDI_REQUEST_CONNECT TdiConnect; TDI_REQUEST_DISCONNECT TdiDisconnect; TDI_REQUEST_LISTEN TdiListen; TDI_REQUEST_QUERY_INFORMATION TdiQueryInformation; TDI_REQUEST_RECEIVE TdiReceive; TDI_REQUEST_RECEIVE_DATAGRAM TdiReceiveDatagram; TDI_REQUEST_SEND TdiSend; TDI_REQUEST_SEND_DATAGRAM TdiSendDatagram; TDI_REQUEST_SET_EVENT_HANDLER TdiSetEventHandler; TDI_REQUEST_SET_INFORMATION TdiSetInformation; } TDI_REQUEST_TYPE, *PTDI_REQUEST_TYPE;
// // Query information types //
// // Generic query info types, must be supported by all transports. //
#define TDI_QUERY_BROADCAST_ADDRESS 0x00000001 #define TDI_QUERY_PROVIDER_INFORMATION 0x00000002 // temp, renamed ... #define TDI_QUERY_PROVIDER_INFO 0x00000002 // ... to this #define TDI_QUERY_ADDRESS_INFO 0x00000003 #define TDI_QUERY_CONNECTION_INFO 0x00000004 #define TDI_QUERY_PROVIDER_STATISTICS 0x00000005 #define TDI_QUERY_DATAGRAM_INFO 0x00000006 #define TDI_QUERY_DATA_LINK_ADDRESS 0x00000007 #define TDI_QUERY_NETWORK_ADDRESS 0x00000008 #define TDI_QUERY_MAX_DATAGRAM_INFO 0x00000009 #define TDI_QUERY_ROUTING_INFO 0x0000000a
// // netbios specific query information types, must be supported by netbios // providers. Query adapter status returns the ADAPTER_STATUS struture defined // in the file NB30.H. Query session status returns the SESSION_HEADER/ // SESSION_BUFFER structures defined in NB30.H. Query find name returns // the FIND_NAME_HEADER/FIND_NAME_BUFFER structures defined in NB30.H. //
#define TDI_QUERY_ADAPTER_STATUS 0x00000100 #define TDI_QUERY_SESSION_STATUS 0x00000200 #define TDI_QUERY_FIND_NAME 0x00000300
// // The following structures are returned by TdiQueryInformation and are read // by TdiSetInformation. Note that a provider with netbios support will also // return the adapter status //
typedef struct _TDI_ENDPOINT_INFO { ULONG State; // current state of the endpoint. ULONG Event; // last event at the endpoint. ULONG TransmittedTsdus; // TSDUs sent from this endpoint. ULONG ReceivedTsdus; // TSDUs received at this endpoint. ULONG TransmissionErrors; // TSDUs transmitted in error. ULONG ReceiveErrors; // TSDUs received in error. ULONG MinimumLookaheadData; // guaranteed min size of lookahead data. ULONG MaximumLookaheadData; // maximum size of lookahead data. ULONG PriorityLevel; // priority class assigned to outgoing data. ULONG SecurityLevel; // security level assigned to outgoing data. ULONG SecurityCompartment; // security compartment assigned to outgoing data. } TDI_ENDPOINT_INFO, *PTDI_ENDPOINT_INFO;
typedef struct _TDI_CONNECTION_INFO { ULONG State; // current state of the connection. ULONG Event; // last event on the connection. ULONG TransmittedTsdus; // TSDUs sent on this connection. ULONG ReceivedTsdus; // TSDUs received on this connection. ULONG TransmissionErrors; // TSDUs transmitted in error/this connection. ULONG ReceiveErrors; // TSDUs received in error/this connection. LARGE_INTEGER Throughput; // estimated throughput on this connection. LARGE_INTEGER Delay; // estimated delay on this connection. ULONG SendBufferSize; // size of buffer for sends - only // meaningful for internal buffering // protocols like tcp ULONG ReceiveBufferSize; // size of buffer for receives - only // meaningful for internal buffering // protocols like tcp BOOLEAN Unreliable; // is this connection "unreliable". } TDI_CONNECTION_INFO, *PTDI_CONNECTION_INFO;
typedef struct _TDI_ADDRESS_INFO { ULONG ActivityCount; // outstanding open file objects/this address. TRANSPORT_ADDRESS Address; // the actual address & its components. } TDI_ADDRESS_INFO, *PTDI_ADDRESS_INFO;
typedef struct _TDI_DATAGRAM_INFO { ULONG MaximumDatagramBytes; ULONG MaximumDatagramCount; } TDI_DATAGRAM_INFO, *PTDI_DATAGRAM_INFO;
typedef struct _TDI_MAX_DATAGRAM_INFO { ULONG MaxDatagramSize; // max datagram length in bytes. } TDI_MAX_DATAGRAM_INFO, *PTDI_MAX_DATAGRAM_INFO;
typedef struct _TDI_PROVIDER_INFO { ULONG Version; // TDI version: 0xaabb, aa=major, bb=minor ULONG MaxSendSize; // max size of user send. ULONG MaxConnectionUserData; // max size of user-specified connect data. ULONG MaxDatagramSize; // max datagram length in bytes. ULONG ServiceFlags; // service options, defined below. ULONG MinimumLookaheadData; // guaranteed min size of lookahead data. ULONG MaximumLookaheadData; // maximum size of lookahead data. ULONG NumberOfResources; // how many TDI_RESOURCE_STATS for provider. LARGE_INTEGER StartTime; // when the provider became active. } TDI_PROVIDER_INFO, *PTDI_PROVIDER_INFO;
typedef struct _TDI_ROUTING_INFO { ULONG Protocol; // protocol of the end point. ULONG InterfaceId; // interface-id of the outgoing interface. ULONG LinkId; // link-id of the outgoing link (if any). TRANSPORT_ADDRESS Address; // address information of the end point. } TDI_ROUTING_INFO, *PTDI_ROUTING_INFO;
#define TDI_SERVICE_CONNECTION_MODE 0x00000001 // connection mode supported. #define TDI_SERVICE_ORDERLY_RELEASE 0x00000002 // orderly release supported. #define TDI_SERVICE_CONNECTIONLESS_MODE 0x00000004 // connectionless mode supported. #define TDI_SERVICE_ERROR_FREE_DELIVERY 0x00000008 // error free delivery supported. #define TDI_SERVICE_SECURITY_LEVEL 0x00000010 // security wrapper supported. #define TDI_SERVICE_BROADCAST_SUPPORTED 0x00000020 // broadcast datagrams supported. #define TDI_SERVICE_MULTICAST_SUPPORTED 0x00000040 // multicast datagrams supported. #define TDI_SERVICE_DELAYED_ACCEPTANCE 0x00000080 // use of TDI_ACCEPT_OR_REJECT is supported. #define TDI_SERVICE_EXPEDITED_DATA 0x00000100 // expedited data supported. #define TDI_SERVICE_INTERNAL_BUFFERING 0x00000200 // protocol does internal buffering #define TDI_SERVICE_ROUTE_DIRECTED 0x00000400 // directed packets may go further than MC. #define TDI_SERVICE_NO_ZERO_LENGTH 0x00000800 // zero-length sends NOT supported #define TDI_SERVICE_POINT_TO_POINT 0x00001000 // transport is functioning as a RAS gateway #define TDI_SERVICE_MESSAGE_MODE 0x00002000 // message-mode send supported #define TDI_SERVICE_HALF_DUPLEX 0x00004000 // data can be received after local disc #define TDI_SERVICE_DGRAM_CONNECTION 0x00008000 // Pseudo connection for datagrams to handle // GPC, QOS etc., #define TDI_SERVICE_FORCE_ACCESS_CHECK 0x00010000 // kernel mode caller should force access // check when opening trasnport objects // if it passes the handle to user mode #define TDI_SERVICE_SEND_AND_DISCONNECT 0x00020000 // combines send and disconnect processing #define TDI_SERVICE_DIRECT_ACCEPT 0x00040000 // (deprecated) completes accept-requests directly #define TDI_SERVICE_ACCEPT_LOCAL_ADDR 0x00080000 // supplies local address // with accept-completion #define TDI_SERVICE_ADDRESS_SECURITY 0x00100000 // supports security descriptor assignment to // addresses, extracts default SD from subject // security context for user mode callers
typedef struct _TDI_PROVIDER_RESOURCE_STATS { ULONG ResourceId; // identifies resource in question. ULONG MaximumResourceUsed; // maximum number in use at once. ULONG AverageResourceUsed; // average number in use. ULONG ResourceExhausted; // number of times resource not available. } TDI_PROVIDER_RESOURCE_STATS, *PTDI_PROVIDER_RESOURCE_STATS;
typedef struct _TDI_PROVIDER_STATISTICS { ULONG Version; // TDI version: 0xaabb, aa=major, bb=minor ULONG OpenConnections; // currently active connections. ULONG ConnectionsAfterNoRetry; // successful connections, no retries. ULONG ConnectionsAfterRetry; // successful connections after retry. ULONG LocalDisconnects; // connection disconnected locally. ULONG RemoteDisconnects; // connection disconnected by remote. ULONG LinkFailures; // connections dropped, link failure. ULONG AdapterFailures; // connections dropped, adapter failure. ULONG SessionTimeouts; // connections dropped, session timeout. ULONG CancelledConnections; // connect attempts cancelled. ULONG RemoteResourceFailures; // connections failed, remote resource problems. ULONG LocalResourceFailures; // connections failed, local resource problems. ULONG NotFoundFailures; // connections failed, remote not found. ULONG NoListenFailures; // connections rejected, we had no listens. ULONG DatagramsSent; LARGE_INTEGER DatagramBytesSent; ULONG DatagramsReceived; LARGE_INTEGER DatagramBytesReceived; ULONG PacketsSent; // total packets given to NDIS. ULONG PacketsReceived; // total packets received from NDIS. ULONG DataFramesSent; LARGE_INTEGER DataFrameBytesSent; ULONG DataFramesReceived; LARGE_INTEGER DataFrameBytesReceived; ULONG DataFramesResent; LARGE_INTEGER DataFrameBytesResent; ULONG DataFramesRejected; LARGE_INTEGER DataFrameBytesRejected; ULONG ResponseTimerExpirations; // e.g. T1 for Netbios ULONG AckTimerExpirations; // e.g. T2 for Netbios ULONG MaximumSendWindow; // in bytes ULONG AverageSendWindow; // in bytes ULONG PiggybackAckQueued; // attempts to wait to piggyback ack. ULONG PiggybackAckTimeouts; // times that wait timed out. LARGE_INTEGER WastedPacketSpace; // total amount of "wasted" packet space. ULONG WastedSpacePackets; // how many packets contributed to that. ULONG NumberOfResources; // how many TDI_RESOURCE_STATS follow. TDI_PROVIDER_RESOURCE_STATS ResourceStats[1]; // variable array of them. } TDI_PROVIDER_STATISTICS, *PTDI_PROVIDER_STATISTICS;
NTSTATUS TdiOpenNetbiosAddress ( IN OUT PHANDLE FileHandle, IN PUCHAR Buffer, IN PVOID DeviceName, IN PVOID Name );
#define IOCTL_TDI_MAGIC_BULLET _TDI_CONTROL_CODE( 0x7f, METHOD_NEITHER )
// // Define these to match the kernel ones for compatibility; eventually // these will be removed. //
typedef TDI_REQUEST_ASSOCIATE_ADDRESS TDI_REQUEST_USER_ASSOCIATE, *PTDI_REQUEST_USER_ASSOCIATE; typedef TDI_REQUEST_CONNECT TDI_REQUEST_USER_CONNECT, *PTDI_REQUEST_USER_CONNECT; typedef TDI_REQUEST_QUERY_INFORMATION TDI_REQUEST_USER_QUERY_INFO, *PTDI_REQUEST_USER_QUERY_INFO;
// // The header in the OutputBuffer passed to TdiAction //
typedef struct _TDI_ACTION_HEADER { ULONG TransportId; USHORT ActionCode; USHORT Reserved; } TDI_ACTION_HEADER, *PTDI_ACTION_HEADER;
typedef struct _STREAMS_TDI_ACTION { TDI_ACTION_HEADER Header; BOOLEAN DatagramOption; ULONG BufferLength; CHAR Buffer[1]; } STREAMS_TDI_ACTION, *PSTREAMS_TDI_ACTION;
// These are tags that transports pass to ndis as a first param of NdisAllocatePacketPoolEx // api. Ndis uses this as pooltag for allocating packet pools for that transport. #define NDIS_PACKET_POOL_TAG_FOR_NWLNKIPX 'iPDN' #define NDIS_PACKET_POOL_TAG_FOR_NWLNKSPX 'sPDN' #define NDIS_PACKET_POOL_TAG_FOR_NWLNKNB 'nPDN' #define NDIS_PACKET_POOL_TAG_FOR_TCPIP 'tPDN' #define NDIS_PACKET_POOL_TAG_FOR_NBF 'bPDN' #define NDIS_PACKET_POOL_TAG_FOR_APPLETALK 'aPDN'
#endif // ndef _TDI_USER_
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