/* Copyright (c) 1992 Microsoft Corporation Module Name: server.h Abstract: This module contains server definition and data structures relating to server class APIs. Author: Jameel Hyder (microsoft!jameelh) Revision History: 25 Apr 1992 Initial Version Notes: Tab stop: 4 --*/ #ifndef _SERVER_ #define _SERVER_ // AfpGetSrvrMsg values #define SRVRMSG_LOGIN 0 #define SRVRMSG_SERVER 1 #define SRVRMSG_BITMAP_MESSAGE 1 // Attention word definitions. These are the only one's used. #define ATTN_SERVER_SHUTDOWN 0x8000 #define ATTN_USER_DISCONNECT 0x9000 #define ATTN_SERVER_MESSAGE 0x2000 #define ATTN_SERVER_NOTIFY 0x3001 #define ATTN_TIME_MASK 0x0FFF // AfpGetUserInfo values #define USERINFO_BITMAP_USERID 1 #define USERINFO_BITMAP_PRIGID 2 #define USERINFO_THISUSER 1 // AfpMapId subfunction values #define MAP_USER_ID 1 #define MAP_GROUP_ID 2 #define MAP_USER_NAME 3 #define MAP_GROUP_NAME 4 #define SRVRPARMS_VOLUMEHASPASS 0x80 // AfpGetSrvrInfo values #define SRVRINFO_SUPPORTS_COPYFILE 0x0001 #define SRVRINFO_SUPPORTS_CHGPASSWD 0x0002 #define SRVRINFO_DISALLOW_SAVEPASS 0x0004 #define SRVRINFO_SUPPORTS_SERVERMSG 0x0008 #define SRVRINFO_SUPPORTS_SRVSIGN 0x0010 #define SRVRINFO_SUPPORTS_TCPIP 0x0020 #define SRVRINFO_SUPPORTS_SRVNOTIFY 0x0040 #define SRVRINFO_SUPPORTS_MGETREQS 0x8000 #define SRVRINFO_MASK 0x800F // in hopes that we will save some network traffic, we delay server notification for // some time, so if too many changes are happening (e.g. xcopy on that dir) then // we send just one notification for several of the changes combined... #define AFP_MIN_SRVR_NOTIF_INTERVAL 3 // at the same time, we don't want to not send a notification for too long #define AFP_MAX_SRVR_NOTIF_INTERVAL 15 // Server State values. #define AFP_STATE_IDLE 0xFF #define AFP_STATE_STOPPED 0x00 #define AFP_STATE_STOP_PENDING 0x01 #define AFP_STATE_START_PENDING 0x02 #define AFP_STATE_RUNNING 0x04 #define AFP_STATE_PAUSE_PENDING 0x08 #define AFP_STATE_PAUSED 0x10 #define AFP_STATE_CONTINUE_PENDING 0x20 #define AFP_STATE_SHUTTINGDOWN 0x40 #define AFP_STATE_PENDING_ANY (AFP_STATE_STOP_PENDING | \ AFP_STATE_START_PENDING | \ AFP_STATE_PAUSE_PENDING | \ AFP_STATE_CONTINUE_PENDING) #define AFP_XLAT_TABLE_SIZE 128 #define AFP_REV_XLAT_TABLE_SIZE 256 - (0x80 - 0x20) // all server global data must be non-pagable if it is protected by // an executive spin-lock (i.e. accessed at IRQL DISPATCH_LEVEL) GLOBAL AFP_SPIN_LOCK AfpServerGlobalLock EQU {0}; GLOBAL AFP_SPIN_LOCK AfpSwmrLock EQU {0}; GLOBAL PBYTE AfpServerIcon EQU NULL; GLOBAL PANSI_STRING AfpServerMsg EQU NULL; GLOBAL ANSI_STRING AfpServerName EQU { 0, 0 , NULL}; GLOBAL ANSI_STRING AfpLoginMsg EQU { 0, 0 , NULL}; GLOBAL UNICODE_STRING AfpLoginMsgU EQU { 0, 0 , NULL}; // There is no lock protecting the following codepage related variables GLOBAL PBYTE AfpTranslationTable EQU NULL; GLOBAL PBYTE AfpRevTranslationTable EQU NULL; GLOBAL PBYTE AfpCasePreserveTranslationTable EQU NULL; GLOBAL PUSHORT AfpMacCPBaseAddress EQU NULL; GLOBAL CPTABLEINFO AfpMacCPTableInfo EQU { 0 }; GLOBAL DWORD AfpServerState EQU AFP_STATE_IDLE; GLOBAL DWORD AfpServerMaxSessions EQU AFP_MAXSESSIONS; GLOBAL KEVENT AfpStopConfirmEvent EQU { 0 }; GLOBAL KMUTEX AfpPgLkMutex EQU { 0 }; GLOBAL DWORD AfpServerOptions EQU AFP_SRVROPT_NONE; GLOBAL PDEVICE_OBJECT AfpDeviceObject EQU NULL; GLOBAL BOOLEAN AfpServerIsStandalone EQU { 0 }; GLOBAL LONG AfpEtcMapCount EQU 0; // # valid entries GLOBAL LONG AfpEtcMapsSize EQU 0; // # entries allocated GLOBAL struct _EtcMapInfo * AfpEtcMaps EQU NULL; // array of entries GLOBAL struct _EtcMapInfo AfpDefaultEtcMap EQU { 0 }; GLOBAL SWMR AfpEtcMapLock EQU { 0 }; GLOBAL DWORD AfpSecondsSinceEpoch EQU 0; #ifdef USE_OBSOLETE_LSA_API GLOBAL HANDLE AfpLsaHandle EQU NULL; #endif GLOBAL CredHandle AfpSecHandle EQU {0, 0}; GLOBAL HANDLE AfpFspToken EQU NULL; #ifdef OPTIMIZE_GUEST_LOGONS GLOBAL HANDLE AfpGuestToken EQU NULL; #endif GLOBAL ULONG EncryptionKeyCount EQU 0; GLOBAL PEPROCESS AfpProcessObject EQU NULL; GLOBAL DWORD AfpAuthenticationPackage EQU 0; GLOBAL PETHREAD AfpThread EQU NULL; GLOBAL AFP_SPIN_LOCK AfpStatisticsLock EQU {0}; GLOBAL AFP_STATISTICS_INFO_EX AfpServerStatistics EQU { 0 }; GLOBAL DWORD AfpSrvrNotifSentTime EQU 0; GLOBAL BOOLEAN fAfpServerShutdownEvent EQU FALSE; GLOBAL BOOLEAN fAfpAdminStop EQU FALSE; #ifdef PROFILING GLOBAL PAFP_PROFILE_INFO AfpServerProfile EQU NULL; #endif GLOBAL DWORD AfpPagedPoolLimit EQU AFP_DEF_MAXPAGEDMEM * 1024; GLOBAL DWORD AfpNonPagedPoolLimit EQU AFP_DEF_MAXNONPAGEDMEM * 1024; GLOBAL SECURITY_QUALITY_OF_SERVICE AfpSecurityQOS EQU { 0 }; GLOBAL ANSI_STRING AfpVersions[AFP_NUM_VERSIONS] EQU { 0 }; #define AfpVersion20 AfpVersions[AFP_VER_20] #define AfpVersion21 AfpVersions[AFP_VER_21] #define AfpVersion22 AfpVersions[AFP_VER_22] GLOBAL ANSI_STRING AfpUamStrings[AFP_NUM_UAMS] EQU { 0 }; #define AfpUamGuest AfpUamStrings[NO_USER_AUTHENT] #define AfpUamClearText AfpUamStrings[CLEAR_TEXT_AUTHENT] #define AfpUamCustomV1 AfpUamStrings[CUSTOM_UAM_V1] #define AfpUamCustomV2 AfpUamStrings[CUSTOM_UAM_V2] #define AfpUamApple AfpUamStrings[RANDNUM_EXCHANGE] #define AfpUamApple2Way AfpUamStrings[TWOWAY_EXCHANGE] GLOBAL LARGE_INTEGER FiveSecTimeOut EQU {0, 0}; GLOBAL LARGE_INTEGER ThreeSecTimeOut EQU {0, 0}; GLOBAL LARGE_INTEGER TwoSecTimeOut EQU {0, 0}; GLOBAL LARGE_INTEGER OneSecTimeOut EQU {0, 0}; GLOBAL LARGE_INTEGER LIZero EQU {0, 0}; GLOBAL UNICODE_STRING UNullString EQU {0, 0, NULL}; GLOBAL BYTE AfpServerSignature[16] EQU {0}; #define THREAD_BASE_PRIORITY_MAX 2 // maximum thread base priority boost // To manage our own threads #define AFP_MIN_THREADS 3 // Independent of processors #define AFP_MAX_THREADS 200 // Independent of processors #define NUM_NOTIFY_QUEUES 2 // # of change notify threads #define AFP_THREAD_THRESHOLD_REQS 2 #define AFP_THREAD_THRESHOLD_IDLE 8 typedef BYTE THREAD_STATE, *PTHREAD_STATE; typedef LONG (FASTCALL *WORKER)(IN PVOID); #define AFP_THREAD_DEAD 0 #define AFP_THREAD_STARTED 1 #define AFP_THREAD_WAITING 2 #define AFP_THREAD_BUSY 3 typedef struct { LIST_ENTRY wi_List; WORKER wi_Worker; PVOID wi_Context; } WORK_ITEM, *PWORK_ITEM; GLOBAL WORK_ITEM AfpTerminateThreadWI EQU { 0 }; #define AfpInitializeWorkItem(pWI, Worker, Context) \ { \ InitializeListHead(&(pWI)->wi_List); \ (pWI)->wi_Worker = (WORKER)(Worker); \ (pWI)->wi_Context = (Context); \ } GLOBAL THREAD_STATE AfpThreadState[AFP_MAX_THREADS] EQU { AFP_THREAD_DEAD }; GLOBAL PETHREAD AfpThreadPtrsW[AFP_MAX_THREADS] EQU { NULL }; GLOBAL PETHREAD AfpThreadPtrsN[NUM_NOTIFY_QUEUES] EQU { NULL }; #if DBG GLOBAL LONG AfpThreadDispCount[AFP_MAX_THREADS] EQU { 0 }; GLOBAL AFP_SPIN_LOCK AfpDebugSpinLock EQU {0}; GLOBAL LIST_ENTRY AfpDebugDelAllocHead; GLOBAL DWORD AfpReadCMAlloced EQU {0}; GLOBAL DWORD AfpWriteCMAlloced EQU {0}; GLOBAL DWORD AfpDbgMdlsAlloced EQU 0; GLOBAL DWORD AfpDbgIrpsAlloced EQU 0; #define AFP_DBG_INC_COUNT(_Val) \ { \ KIRQL _OldIrql; \ ACQUIRE_SPIN_LOCK(&AfpDebugSpinLock, &_OldIrql); \ _Val++; \ RELEASE_SPIN_LOCK(&AfpDebugSpinLock, _OldIrql); \ } #define AFP_DBG_DEC_COUNT(_Val) \ { \ KIRQL _OldIrql; \ ACQUIRE_SPIN_LOCK(&AfpDebugSpinLock, &_OldIrql); \ if (_Val == 0) \ { \ DbgPrint("How come this is 0!!\n"); \ DbgBreakPoint(); \ } \ _Val--; \ RELEASE_SPIN_LOCK(&AfpDebugSpinLock, _OldIrql); \ } #else #define AFP_DBG_INC_COUNT(_Val) #define AFP_DBG_DEC_COUNT(_Val) #endif GLOBAL LONG AfpLockCount EQU 0; GLOBAL PVOID AfpLockHandle EQU NULL; GLOBAL LONG AfpWorkerRequests EQU 0; GLOBAL LONG AfpNumThreads EQU 0; GLOBAL LONG AfpNumNotifyThreads EQU 0; GLOBAL LONG AfpNumAdminThreads EQU 0; GLOBAL KQUEUE AfpWorkerQueue EQU { 0 }; GLOBAL KQUEUE AfpDelAllocQueue EQU { 0 }; GLOBAL KQUEUE AfpAdminQueue EQU { 0 }; GLOBAL BOOLEAN AfpIsMachineLittleEndian EQU True; GLOBAL HANDLE AfpTdiNotificationHandle EQU NULL; GLOBAL BOOLEAN AfpServerBoundToAsp EQU FALSE; GLOBAL BOOLEAN AfpServerBoundToTcp EQU FALSE; typedef AFPSTATUS (FASTCALL *AFPAPIWORKER) (IN struct _SessDataArea *); typedef AFPSTATUS (*ADMINAPIWORKER)(IN PVOID, IN LONG, OUT PVOID); typedef NTSTATUS (*AFPINITSUBS) (VOID); typedef VOID (*AFPDEINITSUBS)(VOID); #define AFPAttachProcess(_CurrProc) \ { \ if ((_CurrProc) != AfpProcessObject) \ { \ KeAttachProcess( (PRKPROCESS)AfpProcessObject );\ } \ } #define AFPDetachProcess(_CurrProc) \ { \ if ((_CurrProc) != AfpProcessObject) \ { \ KeDetachProcess(); \ } \ } extern NTSTATUS AfpInitializeDataAndSubsystems( VOID ); extern VOID AfpDeinitializeSubsystems( VOID ); extern VOID FASTCALL AfpUnmarshallReq( IN struct _SessDataArea * pSda ); extern VOID FASTCALL AfpDisposeRequest( IN struct _SessDataArea * pSda, IN AFPSTATUS RetCode ); extern VOID FASTCALL AfpStartApiProcessing( IN struct _SessDataArea * pSda ); extern VOID FASTCALL AfpCompleteApiProcessing( IN struct _SessDataArea * pSda, IN AFPSTATUS RetCode ); extern NTSTATUS FASTCALL AfpGetWriteBuffer( IN struct _SessDataArea * pSda, IN PREQUEST pRequest ); extern NTSTATUS AfpSetServerStatus( IN VOID ); extern AFPSTATUS AfpAdmWServerSetInfo( IN OUT PVOID Inbuf OPTIONAL, IN LONG OutBufLen OPTIONAL, OUT PVOID Outbuf OPTIONAL ); extern NTSTATUS FASTCALL AfpCreateNewThread( IN VOID (*ThreadFunc)(IN PVOID pContext), IN LONG ThreadNum ); extern VOID FASTCALL AfpInitStrings( IN VOID ); extern VOID AfpWorkerThread( IN PVOID pContext ); extern VOID FASTCALL AfpQueueWorkItem( IN PWORK_ITEM pWI ); extern VOID AfpSleepAWhile( IN DWORD SleepDuration ); #ifdef SERVER_LOCALS #define NUM_INIT_SYSTEMS 11 typedef struct _AfpInitSystems { AFPINITSUBS InitRoutine; AFPDEINITSUBS DeInitRoutine; #if DBG BOOLEAN Initialized; BOOLEAN Deinitialized; PCHAR InitRoutineName; PCHAR DeInitRoutineName; #endif } INIT_SYSTEMS, *PINIT_SYSTEMS; extern INIT_SYSTEMS AfpInitSubSystems[]; extern VOID FASTCALL afpQueueDeferredRequest( IN struct _SessDataArea * pSda, IN PREQUEST pRequest ); #endif // SERVER_LOCALS #endif // _SERVER_