Leaked source code of windows server 2003
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/*
* mcatmcs.h
*
* Copyright (c) 1993 - 1995 by DataBeam Corporation, Lexington, KY
*
* Abstract:
* This is the interface file for the MCS DLL. This file defines all
* macros, types, and functions needed to use the MCS DLL, allowing MCS
* services to be accessed from user applications.
*
* Basically, an application requests services from MCS by making direct
* calls into the DLL (this includes T.122 requests and responses). MCS
* sends information back to the application through a callback (this
* includes T.122 indications and confirms). The callback
* for a particular user attachment is specified in the call
* MCS_AttachRequest.
*
* Note that this is a "C" language interface in order to prevent any "C++"
* naming conflicts between different compiler manufacturers. Therefore,
* if this file is included in a module that is being compiled with a "C++"
* compiler, it is necessary to use the following syntax:
*
* extern "C"
* {
* #include "mcatmcs.h"
* }
*
* This disables C++ name mangling on the API entry points defined within
* this file.
*
* Author:
* James P. Galvin, Jr.
*/
#ifndef __MCATMCS_H__
#define __MCATMCS_H__
#include "databeam.h"
#include "mcspdu.h"
#include <t120type.h>
/*
* The following definitions are used to identify various parameters within
* MCS, and are part of the MCS protocol definition.
*
* Priority
* MCS specifies the use of up to four levels of priority. An application
* should NOT use TOP_PRIORITY (this level is reserved for MCS traffic).
* Segmentation
* This type is used when specifying whether a given data indication is the
* first or last one in a user data block (or both or neither).
* TokenStatus
* This type is returned when testing the current state of a token.
* Reason
* When MCS issues an indication to a user application, it often includes a
* reason parameter informing the user of why the activity is occurring.
* Result
* When a user makes a request of MCS, MCS often responds with a result,
* letting the user know whether or not the request succeeded.
*/
typedef PDUPriority Priority;
typedef PDUSegmentation Segmentation;
typedef Priority * PPriority;
typedef Segmentation * PSegmentation;
#define SEGMENTATION_BEGIN 0x80
#define SEGMENTATION_END 0x40
/*
* The following type is used to indicate what merge state the local provider
* is in. Note that this is a local implementation feature that is not part
* of the standard MCS definition.
*
* Whenever the former Top Provider of a domain enters the domain merge state,
* it indicates this to all applications locally attached to that domain by
* sending an MCS_MERGE_DOMAIN_INDICATION. This type (MergeStatus) is the
* parameter to that call. It will be called twice, the first time indicating
* that the domain is entering the merge state. The second time indicates that
* the domain merger is complete.
*
* All T.122 primitives (requests and responses) will be rejected during the
* time that the domain merger is in progress. It is the repsonsibility of
* the user application to re-try the primitive once the merge is complete.
*/
typedef unsigned short MergeStatus;
typedef MergeStatus * PMergeStatus;
#define MERGE_DOMAIN_IN_PROGRESS 0
#define MERGE_DOMAIN_COMPLETE 1
/*
* This type is the signature of an MCS call back function. MCS uses this
* function to let the application know when an event occurs.
*
* Note that an MCS callback routine needs to return a value to MCS. This
* value should either be MCS_NO_ERROR if the callback was successfully
* processed, or MCS_CALLBACK_NOT_PROCESSED if the callback was not processed.
* In the latter case, MCS will hold on to the information contained in the
* callback message, so that it can try issuing the same callback during the
* next time slice. It will keep retrying until the user application accepts
* the callback message (by returning MCS_NO_ERROR). This is how flow control
* works for information flowing upward from MCS to the application.
*/
typedef void (CALLBACK *MCSCallBack) (UINT, LPARAM, LPVOID);
/*
typedef struct
{
ChannelID channel_id;
Priority priority;
UserID sender_id;
Segmentation segmentation;
unsigned char * user_data;
unsigned long user_data_length;
} SendData;
*/
typedef SendDataRequestPDU SendData;
typedef SendData * PSendData;
// This constant defines the maximum MCS PDU size for applications
#define MAX_MCS_DATA_SIZE 4096
/*
* This section defines the messages that can be sent to the application
* through the callback facility. These messages correspond to the indications
* and confirms that are defined within T.122.
*/
typedef T120MessageType MCSMessageType;
/*
* The following declaration defines the flags that can be set when
* calling MCSSendDataRequest.
*/
typedef enum {
APP_ALLOCATION,
MCS_ALLOCATION
} SendDataFlags, *PSendDataFlags;
/*
* The following type defines whether the SendDataRequest
* is a normal send or a uniform send.
*/
typedef enum {
NORMAL_SEND_DATA,
UNIFORM_SEND_DATA
} DataRequestType, *PDataRequestType;
typedef enum
{
TOP_PRIORITY_MASK =0x0001,
HIGH_PRIORITY_MASK =0x0002,
LOW_MEDIUM_MASK =0x0004,
LOW_PRIORITY_MASK =0x0008,
UNIFORM_SEND_DATA_MASK =0x0010,
NORMAL_SEND_DATA_MASK =0x0020,
MCS_ALLOCATION_MASK =0x0040,
APP_ALLOCATION_MASK =0x0080
} MCSSenDataMasks;
#endif // __MCATMCS_H__