/*++ Copyright (c) 1995-1999 Microsoft Corporation Module Name: rtutils.h Abstract: Public declarations for the Router process utility functions. --*/ #ifndef __ROUTING_RTUTILS_H__ #pragma option push -b -a8 -pc -A- /*P_O_Push*/ #define __ROUTING_RTUTILS_H__ #if _MSC_VER > 1000 #pragma once #endif #ifdef __cplusplus extern "C" { #endif ////////////////////////////////////////////////////////////////////////////// // // // TRACING FUNCTION PROTOTYPES // // // // See DOCUMENT for more information // // // ////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// // // // Definitions for flags and constants // // // ////////////////////////////////////////////////////////////////////////////// #define TRACE_USE_FILE 0x00000001 #define TRACE_USE_CONSOLE 0x00000002 #define TRACE_NO_SYNCH 0x00000004 #define TRACE_NO_STDINFO 0x00000001 #define TRACE_USE_MASK 0x00000002 #define TRACE_USE_MSEC 0x00000004 #define INVALID_TRACEID 0xFFFFFFFF ////////////////////////////////////////////////////////////////////////////// // // // ANSI entry-points // // // ////////////////////////////////////////////////////////////////////////////// DWORD APIENTRY TraceRegisterExA( IN LPCSTR lpszCallerName, IN DWORD dwFlags ); DWORD APIENTRY TraceDeregisterA( IN DWORD dwTraceID ); DWORD APIENTRY TraceDeregisterExA( IN DWORD dwTraceID, IN DWORD dwFlags ); DWORD APIENTRY TraceGetConsoleA( IN DWORD dwTraceID, OUT LPHANDLE lphConsole ); DWORD APIENTRY TracePrintfA( IN DWORD dwTraceID, IN LPCSTR lpszFormat, IN ... OPTIONAL ); DWORD APIENTRY TracePrintfExA( IN DWORD dwTraceID, IN DWORD dwFlags, IN LPCSTR lpszFormat, IN ... OPTIONAL ); DWORD APIENTRY TraceVprintfExA( IN DWORD dwTraceID, IN DWORD dwFlags, IN LPCSTR lpszFormat, IN va_list arglist ); DWORD APIENTRY TracePutsExA( IN DWORD dwTraceID, IN DWORD dwFlags, IN LPCSTR lpszString ); DWORD APIENTRY TraceDumpExA( IN DWORD dwTraceID, IN DWORD dwFlags, IN LPBYTE lpbBytes, IN DWORD dwByteCount, IN DWORD dwGroupSize, IN BOOL bAddressPrefix, IN LPCSTR lpszPrefix ); ////////////////////////////////////////////////////////////////////////////// // // // ANSI entry-points macros // // // ////////////////////////////////////////////////////////////////////////////// #define TraceRegisterA(a) TraceRegisterExA(a,0) #define TraceVprintfA(a,b,c) TraceVprintfExA(a,0,b,c) #define TracePutsA(a,b) TracePutsExA(a,0,b) #define TraceDumpA(a,b,c,d,e,f) TraceDumpExA(a,0,b,c,d,e,f) ////////////////////////////////////////////////////////////////////////////// // // // Unicode entry-points // // // ////////////////////////////////////////////////////////////////////////////// DWORD APIENTRY TraceRegisterExW( IN LPCWSTR lpszCallerName, IN DWORD dwFlags ); DWORD APIENTRY TraceDeregisterW( IN DWORD dwTraceID ); DWORD APIENTRY TraceDeregisterExW( IN DWORD dwTraceID, IN DWORD dwFlags ); DWORD APIENTRY TraceGetConsoleW( IN DWORD dwTraceID, OUT LPHANDLE lphConsole ); DWORD APIENTRY TracePrintfW( IN DWORD dwTraceID, IN LPCWSTR lpszFormat, IN ... OPTIONAL ); DWORD APIENTRY TracePrintfExW( IN DWORD dwTraceID, IN DWORD dwFlags, IN LPCWSTR lpszFormat, IN ... OPTIONAL ); DWORD APIENTRY TraceVprintfExW( IN DWORD dwTraceID, IN DWORD dwFlags, IN LPCWSTR lpszFormat, IN va_list arglist ); DWORD APIENTRY TracePutsExW( IN DWORD dwTraceID, IN DWORD dwFlags, IN LPCWSTR lpszString ); DWORD APIENTRY TraceDumpExW( IN DWORD dwTraceID, IN DWORD dwFlags, IN LPBYTE lpbBytes, IN DWORD dwByteCount, IN DWORD dwGroupSize, IN BOOL bAddressPrefix, IN LPCWSTR lpszPrefix ); ////////////////////////////////////////////////////////////////////////////// // // // Unicode entry-points macros // // // ////////////////////////////////////////////////////////////////////////////// #define TraceRegisterW(a) TraceRegisterExW(a,0) #define TraceVprintfW(a,b,c) TraceVprintfExW(a,0,b,c) #define TracePutsW(a,b) TracePutsExW(a,0,b) #define TraceDumpW(a,b,c,d,e,f) TraceDumpExW(a,0,b,c,d,e,f) ////////////////////////////////////////////////////////////////////////////// // // // Code-page dependent entry-point macros // // // ////////////////////////////////////////////////////////////////////////////// #ifdef UNICODE #define TraceRegister TraceRegisterW #define TraceDeregister TraceDeregisterW #define TraceDeregisterEx TraceDeregisterExW #define TraceGetConsole TraceGetConsoleW #define TracePrintf TracePrintfW #define TraceVprintf TraceVprintfW #define TracePuts TracePutsW #define TraceDump TraceDumpW #define TraceRegisterEx TraceRegisterExW #define TracePrintfEx TracePrintfExW #define TraceVprintfEx TraceVprintfExW #define TracePutsEx TracePutsExW #define TraceDumpEx TraceDumpExW #else #define TraceRegister TraceRegisterA #define TraceDeregister TraceDeregisterA #define TraceDeregisterEx TraceDeregisterExA #define TraceGetConsole TraceGetConsoleA #define TracePrintf TracePrintfA #define TraceVprintf TraceVprintfA #define TracePuts TracePutsA #define TraceDump TraceDumpA #define TraceRegisterEx TraceRegisterExA #define TracePrintfEx TracePrintfExA #define TraceVprintfEx TraceVprintfExA #define TracePutsEx TracePutsExA #define TraceDumpEx TraceDumpExA #endif ////////////////////////////////////////////////////////////////////////////// // // // EVENT LOGGING FUNCTION PROTOTYPES // // // ////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// // // // ANSI prototypes // // // ////////////////////////////////////////////////////////////////////////////// VOID APIENTRY LogErrorA( IN DWORD dwMessageId, IN DWORD cNumberOfSubStrings, IN LPSTR *plpwsSubStrings, IN DWORD dwErrorCode ); VOID APIENTRY LogEventA( IN DWORD wEventType, IN DWORD dwMessageId, IN DWORD cNumberOfSubStrings, IN LPSTR *plpwsSubStrings ); ////////////////////////////////////////////////////////////////////////////// // // // Unicode prototypes // // // ////////////////////////////////////////////////////////////////////////////// VOID LogErrorW( IN DWORD dwMessageId, IN DWORD cNumberOfSubStrings, IN LPWSTR *plpwsSubStrings, IN DWORD dwErrorCode ); VOID LogEventW( IN DWORD wEventType, IN DWORD dwMessageId, IN DWORD cNumberOfSubStrings, IN LPWSTR *plpwsSubStrings ); #ifdef UNICODE #define LogError LogErrorW #define LogEvent LogEventW #else #define LogError LogErrorA #define LogEvent LogEventA #endif ////////////////////////////////////////////////////////////////////////////// // // // The following functions allow the caller to specify the event source. // // // // Call RouterLogRegister with the strings which would be passed to // // RegisterEventSource; this returns a handle which can be passed // // to the functions RouterLogEvent and RouterLogEventData. // // // // Call RouterLogDeregister to close the handle. // // // // Macros are provided for the different kinds of event log entrys: // // RouterLogError logs an error (EVENTLOG_ERROR_TYPE) // // RouterLogWarning logs a warning (EVENTLOG_WARNING_TYPE) // // RouterLogInformation logs information (EVENTLOG_INFORMATION_TYPE) // // // ////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// // // // ANSI prototypes // // // ////////////////////////////////////////////////////////////////////////////// HANDLE RouterLogRegisterA( LPCSTR lpszSource ); VOID RouterLogDeregisterA( HANDLE hLogHandle ); VOID RouterLogEventA( IN HANDLE hLogHandle, IN DWORD dwEventType, IN DWORD dwMessageId, IN DWORD dwSubStringCount, IN LPSTR *plpszSubStringArray, IN DWORD dwErrorCode ); VOID RouterLogEventDataA( IN HANDLE hLogHandle, IN DWORD dwEventType, IN DWORD dwMessageId, IN DWORD dwSubStringCount, IN LPSTR *plpszSubStringArray, IN DWORD dwDataBytes, IN LPBYTE lpDataBytes ); VOID RouterLogEventStringA( IN HANDLE hLogHandle, IN DWORD dwEventType, IN DWORD dwMessageId, IN DWORD dwSubStringCount, IN LPSTR *plpszSubStringArray, IN DWORD dwErrorCode, IN DWORD dwErrorIndex ); VOID RouterLogEventExA( IN HANDLE hLogHandle, IN DWORD dwEventType, IN DWORD dwErrorCode, IN DWORD dwMessageId, IN LPCSTR ptszFormat, ... ); VOID RouterLogEventValistExA( IN HANDLE hLogHandle, IN DWORD dwEventType, IN DWORD dwErrorCode, IN DWORD dwMessageId, IN LPCSTR ptszFormat, IN va_list arglist ); DWORD RouterGetErrorStringA( IN DWORD dwErrorCode, OUT LPSTR * lplpszErrorString ); #define RouterLogErrorA(h,msg,count,array,err) \ RouterLogEventA(h,EVENTLOG_ERROR_TYPE,msg,count,array,err) #define RouterLogWarningA(h,msg,count,array,err) \ RouterLogEventA(h,EVENTLOG_WARNING_TYPE,msg,count,array,err) #define RouterLogInformationA(h,msg,count,array,err) \ RouterLogEventA(h,EVENTLOG_INFORMATION_TYPE,msg,count,array,err) #define RouterLogErrorDataA(h,msg,count,array,c,buf) \ RouterLogEventDataA(h,EVENTLOG_ERROR_TYPE,msg,count,array,c,buf) #define RouterLogWarningDataA(h,msg,count,array,c,buf) \ RouterLogEventDataA(h,EVENTLOG_WARNING_TYPE,msg,count,array,c,buf) #define RouterLogInformationDataA(h,msg,count,array,c,buf) \ RouterLogEventDataA(h,EVENTLOG_INFORMATION_TYPE,msg,count,array,c,buf) #define RouterLogErrorStringA(h,msg,count,array,err,index) \ RouterLogEventStringA(h,EVENTLOG_ERROR_TYPE,msg,count,array, err,index) #define RouterLogWarningStringA(h,msg,count,array,err,index) \ RouterLogEventStringA(h,EVENTLOG_WARNING_TYPE,msg,count,array,err,index) #define RouterLogInformationStringA(h,msg,count,array, err,index) \ RouterLogEventStringA(h,EVENTLOG_INFORMATION_TYPE,msg,count,array,err,\ index) ////////////////////////////////////////////////////////////////////////////// // // // Unicode prototypes // // // ////////////////////////////////////////////////////////////////////////////// HANDLE RouterLogRegisterW( LPCWSTR lpszSource ); VOID RouterLogDeregisterW( HANDLE hLogHandle ); VOID RouterLogEventW( IN HANDLE hLogHandle, IN DWORD dwEventType, IN DWORD dwMessageId, IN DWORD dwSubStringCount, IN LPWSTR *plpszSubStringArray, IN DWORD dwErrorCode ); VOID RouterLogEventDataW( IN HANDLE hLogHandle, IN DWORD dwEventType, IN DWORD dwMessageId, IN DWORD dwSubStringCount, IN LPWSTR *plpszSubStringArray, IN DWORD dwDataBytes, IN LPBYTE lpDataBytes ); VOID RouterLogEventStringW( IN HANDLE hLogHandle, IN DWORD dwEventType, IN DWORD dwMessageId, IN DWORD dwSubStringCount, IN LPWSTR *plpszSubStringArray, IN DWORD dwErrorCode, IN DWORD dwErrorIndex ); VOID RouterLogEventExW( IN HANDLE hLogHandle, IN DWORD dwEventType, IN DWORD dwErrorCode, IN DWORD dwMessageId, IN LPCWSTR ptszFormat, ... ); VOID RouterLogEventValistExW( IN HANDLE hLogHandle, IN DWORD dwEventType, IN DWORD dwErrorCode, IN DWORD dwMessageId, IN LPCWSTR ptszFormat, IN va_list arglist ); DWORD RouterGetErrorStringW( IN DWORD dwErrorCode, OUT LPWSTR * lplpwszErrorString ); #define RouterLogErrorW(h,msg,count,array,err) \ RouterLogEventW(h,EVENTLOG_ERROR_TYPE,msg,count,array,err) #define RouterLogWarningW(h,msg,count,array,err) \ RouterLogEventW(h,EVENTLOG_WARNING_TYPE,msg,count,array,err) #define RouterLogInformationW(h,msg,count,array,err) \ RouterLogEventW(h,EVENTLOG_INFORMATION_TYPE,msg,count,array,err) #define RouterLogErrorDataW(h,msg,count,array,c,buf) \ RouterLogEventDataW(h,EVENTLOG_ERROR_TYPE,msg,count,array,c,buf) #define RouterLogWarningDataW(h,msg,count,array,c,buf) \ RouterLogEventDataW(h,EVENTLOG_WARNING_TYPE,msg,count,array,c,buf) #define RouterLogInformationDataW(h,msg,count,array,c,buf) \ RouterLogEventDataW(h,EVENTLOG_INFORMATION_TYPE,msg,count,array,c,buf) #define RouterLogErrorStringW(h,msg,count,array,err,index) \ RouterLogEventStringW(h,EVENTLOG_ERROR_TYPE,msg,count,array,err,index) #define RouterLogWarningStringW(h,msg,count,array,err,index) \ RouterLogEventStringW(h,EVENTLOG_WARNING_TYPE,msg,count,array,err,index) #define RouterLogInformationStringW(h,msg,count,array,err,index) \ RouterLogEventStringW(h,EVENTLOG_INFORMATION_TYPE,msg,count,array,err,\ index) #ifdef UNICODE #define RouterLogRegister RouterLogRegisterW #define RouterLogDeregister RouterLogDeregisterW #define RouterLogEvent RouterLogEventW #define RouterLogError RouterLogErrorW #define RouterLogWarning RouterLogWarningW #define RouterLogInformation RouterLogInformationW #define RouterLogEventData RouterLogEventDataW #define RouterLogErrorData RouterLogErrorDataW #define RouterLogWarningData RouterLogWarningDataW #define RouterLogInformationData RouterLogInformationDataW #define RouterLogEventString RouterLogEventStringW #define RouterLogEventEx RouterLogEventExW #define RouterLogEventValistEx RouterLogEventValistExW #define RouterLogErrorString RouterLogErrorStringW #define RouterLogWarningString RouterLogWarningStringW #define RouterLogInformationString RouterLogInformationStringW #define RouterGetErrorString RouterGetErrorStringW # #else #define RouterLogRegister RouterLogRegisterA #define RouterLogDeregister RouterLogDeregisterA #define RouterLogEvent RouterLogEventA #define RouterLogError RouterLogErrorA #define RouterLogWarning RouterLogWarningA #define RouterLogInformation RouterLogInformationA #define RouterLogEventData RouterLogEventDataA #define RouterLogErrorData RouterLogErrorDataA #define RouterLogWarningData RouterLogWarningDataA #define RouterLogInformationData RouterLogInformationDataA #define RouterLogEventString RouterLogEventStringA #define RouterLogEventEx RouterLogEventExA #define RouterLogEventValistEx RouterLogEventValistExA #define RouterLogErrorString RouterLogErrorStringA #define RouterLogWarningString RouterLogWarningStringA #define RouterLogInformationString RouterLogInformationStringA #define RouterGetErrorString RouterGetErrorStringA #endif ////////////////////////////////////////////////////////////////////////////// // // // WORKER THREAD POOL FUNCTIONS // // // ////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// // // // definition of worker function passed in QueueWorkItem API // // // ////////////////////////////////////////////////////////////////////////////// typedef VOID (APIENTRY * WORKERFUNCTION)(PVOID); ////////////////////////////////////////////////////////////////////////////// // // // Function: Queues the supplied work item in the work queue. // // // // functionptr: function to be called must be of WORKERFUNCTION type // // context: opaque ptr // // serviceinalertablethread: if TRUE gets scheduled in // // a alertably waiting thread that never dies // // Returns: 0 (success) // // Win32 error codes for cases like out of memory // // // ////////////////////////////////////////////////////////////////////////////// DWORD APIENTRY QueueWorkItem( IN WORKERFUNCTION functionptr, IN PVOID context, IN BOOL serviceinalertablethread ); ////////////////////////////////////////////////////////////////////////////// // // // Function: Associates file handle with the completion port (all // // asynchronous i/o on this handle will be queued to // // the completion port) // // // // FileHandle: File handle to be associated with completion port // // // // CompletionProc: Procedure to be called when io associated with the file // // handle completes. This function will be executed in // // the context of non-alertable worker thread // // // ////////////////////////////////////////////////////////////////////////////// DWORD APIENTRY SetIoCompletionProc ( IN HANDLE FileHandle, IN LPOVERLAPPED_COMPLETION_ROUTINE CompletionProc ); ////////////////////////////////////////////////////////////////////////////// // // // The following defines are included here as a hint on how the worker // // thread pool is managed: // // // // There are NUM_ALERTABLE_THREADS permanent threads that never quit and // // wait alertably on a alertable worker queue. These threads should solely // // be used for work items that intiate asyncronous operation (file io, // // waitable timer) that ABSOLUTELY require APCs to complete (preferable // // method for IO is the usage of completio port API) // // // // There is a pool of the threads that wait on completion port // // that used both for processing of IO and non-IO related work items // // // // The minimum number of threads is Number of processors // // The maximum number of threads is MAX_WORKER_THREADS // // // // A new thread is created if worker queue has not been served for more // // that WORK_QUEUE_TIMEOUT // // The existing thread will be shut down if it is not used for more than // // THREAD_IDLE_TIMEOUT // // // // Note that worker threads age guaranteed to be alive for at least // // THREAD_IDLE_TIMEOUT after the last work item is executed. This timeout // // is chosen such that bulk of IO request could be completed before it // // expires. If it is not enough for your case, use alertable thread with // // APC, or create your own thread. // // // // Note: changing these flags will not change anything. // // // ////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// // // // Number of alertable threads // // // ////////////////////////////////////////////////////////////////////////////// #define NUM_ALERTABLE_THREADS 2 ////////////////////////////////////////////////////////////////////////////// // // // Max number of threads at any time // // // ////////////////////////////////////////////////////////////////////////////// #define MAX_WORKER_THREADS 10 ////////////////////////////////////////////////////////////////////////////// // // // Time that the worker queue is not served before starting new thread // // // ////////////////////////////////////////////////////////////////////////////// #define WORK_QUEUE_TIMEOUT 1 //sec ////////////////////////////////////////////////////////////////////////////// // // // Time that thread has to be idle before exiting // // // ////////////////////////////////////////////////////////////////////////////// #define THREAD_IDLE_TIMEOUT 10 //sec ////////////////////////////////////////////////////////////////////////////// // // // ROUTER ASSERT DECLARATION // // // ////////////////////////////////////////////////////////////////////////////// VOID RouterAssert( IN PSTR pszFailedAssertion, IN PSTR pszFileName, IN DWORD dwLineNumber, IN PSTR pszMessage OPTIONAL ); #if DBG #define RTASSERT(exp) \ if (!(exp)) \ RouterAssert(#exp, __FILE__, __LINE__, NULL) #define RTASSERTMSG(msg, exp) \ if (!(exp)) \ RouterAssert(#exp, __FILE__, __LINE__, msg) #else #define RTASSERT(exp) #define RTASSERTMSG(msg, exp) #endif ////////////////////////////////////////////////////////////////////////////// // // // REGISTRY CONFIGURATION FUNCTIONS // // // // The following definitions are used to read configuration information // // about installed protocols. // // // // Call 'MprSetupProtocolEnum' to enumerate the routing-protocols // // for transport 'dwTransportId'. This fills an array with entries // // of type 'MPR_PROTOCOL_0'. // // // // The array loaded can be destroyed by calling 'MprSetupProtocolFree'. // // // ////////////////////////////////////////////////////////////////////////////// #define MAX_PROTOCOL_NAME_LEN 40 #define MAX_PROTOCOL_DLL_LEN 48 typedef struct _MPR_PROTOCOL_0 { DWORD dwProtocolId; // e.g. IP_RIP WCHAR wszProtocol[MAX_PROTOCOL_NAME_LEN+1]; // e.g. "IPRIP" WCHAR wszDLLName[MAX_PROTOCOL_DLL_LEN+1]; // e.g. "iprip2.dll" } MPR_PROTOCOL_0; DWORD APIENTRY MprSetupProtocolEnum( IN DWORD dwTransportId, OUT LPBYTE* lplpBuffer, // MPR_PROTOCOL_0 OUT LPDWORD lpdwEntriesRead ); DWORD APIENTRY MprSetupProtocolFree( IN LPVOID lpBuffer ); ////////////////////////////////////////////////////////////////////////////// // Extensions to Rtutils to improve worker thread utilization. // // // ////////////////////////////////////////////////////////////////////////////// #define ROUTING_RESERVED #define OPT1_1 #define OPT1_2 #define OPT2_1 #define OPT2_2 #define OPT3_1 #define OPT3_2 // // When everyone is migrated to using Winsock2 // #if 0 //==========================================================================================================// //==========================================================================================================// // ASYNC_SOCKET_DATA structure is used to pass / receive back data from an // // asynchronous wait recv from call // typedef struct _ASYNC_SOCKET_DATA { OVERLAPPED Overlapped; // reserved. not to be used IN WSABUF WsaBuf; // WsaBuf.buf to be initialized to point to buffer // WsaBuf.len set to the length of the buffer OUT SOCKADDR_IN SrcAddress; // AsyncWsaRecvFrom fills this with the source address of the packet OUT DWORD NumBytesReceived; // AsyncWsaRecvFrom fills this with the number of bytes returned in the packet IN OUT DWORD Flags; // Used to set flags for WSARecvFrom, and returns the flags set by WSARecvFrom OUT DWORD Status; // status returned by IO Completion Port IN WORKERFUNCTION pFunction; // Function to be executed on receiving packet IN PVOID pContext; // context for the above function } ASYNC_SOCKET_DATA, *PASYNC_SOCKET_DATA; // AsyncSocketInit() binds the socket to the IOCompletionPort. This should be called// // after the socket is created and before AsyncWsaRecvFrom() call is made // DWORD APIENTRY AsyncSocketInit ( SOCKET sock ); // This should be called only after the appropriate fields in SockData are initialized // // This sets up an asynchronous WSARecvFrom(), and on its return dispatches the // // function to a worker thread. It should be remembered that the function will run in // // a worker thread which might later on be deleted. So SetWaitableTimer() and // // asynchronous receive calls should be avoided unless you are sure that it would not be// // a problem. It is adviced that if you want the function to run in an alertable thread,// // then have the callback function queue a work item to alertable thread. Queue work // // items to alertable worker threads for SetWaitableTimer() and async receives. // // One must not make many AsyncWSArecvFrom() calls, as the buffer are non-paged // DWORD APIENTRY AsyncWSARecvFrom ( SOCKET sock, PASYNC_SOCKET_DATA pSockData ); #endif // all winsock2 functions //==========================================================================================================// //==========================================================================================================// // forward declarations struct _WAIT_THREAD_ENTRY; struct _WT_EVENT_ENTRY; typedef struct _WT_TIMER_ENTRY { LONGLONG te_Timeout; WORKERFUNCTION te_Function; PVOID te_Context; DWORD te_ContextSz; BOOL te_RunInServer; DWORD te_Status; #define TIMER_INACTIVE 3 #define TIMER_ACTIVE 4 DWORD te_ServerId; struct _WAIT_THREAD_ENTRY *teP_wte; LIST_ENTRY te_ServerLinks; LIST_ENTRY te_Links; BOOL te_Flag; //todo: not used DWORD te_TimerId; } WT_TIMER_ENTRY, *PWT_TIMER_ENTRY; typedef struct _WT_WORK_ITEM { WORKERFUNCTION wi_Function; // function to call PVOID wi_Context; // context passed into function call DWORD wi_ContextSz; // size of context, used for allocating BOOL wi_RunInServer; // run in wait server thread or get queued to some worker thread struct _WT_EVENT_ENTRY *wiP_ee; LIST_ENTRY wi_ServerLinks; LIST_ENTRY wi_Links; //todo not req // link to next and prev element } WT_WORK_ITEM, *PWT_WORK_ITEM; #define WT_EVENT_BINDING WT_WORK_ITEM #define PWT_EVENT_BINDING PWT_WORK_ITEM // // WT_EVENT_ENTRY // typedef struct _WT_EVENT_ENTRY { HANDLE ee_Event; BOOL ee_bManualReset; // is the event manually reset BOOL ee_bInitialState; // is the initial state of the event active BOOL ee_bDeleteEvent; // was the event created as part of createWaitEvent DWORD ee_Status; // current status of the event entry BOOL ee_bHighPriority; LIST_ENTRY eeL_wi; BOOL ee_bSignalSingle; // signal single function or multiple functions // how many functions to activate when event signalled (default:1) BOOL ee_bOwnerSelf; // the owner if the client which create this event INT ee_ArrayIndex; // index in the events array if active DWORD ee_ServerId; // Id of server: used while deleting struct _WAIT_THREAD_ENTRY *eeP_wte; // pointer to wait thread entry LIST_ENTRY ee_ServerLinks; // used by wait server thread LIST_ENTRY ee_Links; // used by client DWORD ee_RefCount; BOOL ee_bFlag; //todo: notused // reserved for use during deletion DWORD ee_EventId; //todo: remove it, being used only for testing/debugging } WT_EVENT_ENTRY, *PWT_EVENT_ENTRY; // PROTOTYPES OF FUNCTIONS USED IN THIS FILE ONLY // // used by client to create a wait event // context size should be 0 if you are passing a dword instead of a pointer // if pEvent field is set, then lpName and security attributes are ignored // if pFunction is NULL, then pContext, dwContextSz, and bRunInServerContext are ignored PWT_EVENT_ENTRY APIENTRY CreateWaitEvent ( //IN PWT_EVENT_ENTRY pEventEntry, // handle to event entry if initialized by others IN HANDLE pEvent OPT1_1, // handle to event if already created IN LPSECURITY_ATTRIBUTES lpEventAttributes OPT1_2, // pointer to security attributes IN BOOL bManualReset, IN BOOL bInitialState, IN LPCTSTR lpName OPT1_2, // pointer to event-object name IN BOOL bHighPriority, // create high priority event IN WORKERFUNCTION pFunction OPT2_1, // if null, means will be set by other clients IN PVOID pContext OPT2_1, // can be null IN DWORD dwContextSz OPT2_1, // size of context: used for allocating context to functions IN BOOL bRunInServerContext OPT2_1 // run in server thread or get dispatched to worker thread ); //dwContextSz should be 0 if a dword is being passed. >0 only if pointer to block of that size is being passed. PWT_EVENT_BINDING APIENTRY CreateWaitEventBinding ( IN PWT_EVENT_ENTRY pee, IN WORKERFUNCTION pFunction, IN PVOID pContext, IN DWORD dwContextSz, IN BOOL bRunInServerContext ); PWT_TIMER_ENTRY APIENTRY CreateWaitTimer ( IN WORKERFUNCTION pFunction, IN PVOID pContext, IN DWORD dwContextSz, IN BOOL bRunInServerContext ); DWORD APIENTRY DeRegisterWaitEventBindingSelf ( IN PWT_EVENT_BINDING pwiWorkItem ); DWORD APIENTRY DeRegisterWaitEventBinding ( IN PWT_EVENT_BINDING pwiWorkItem ); //all the events and timers should be registered with one waitThread server //todo: change the above requirement DWORD APIENTRY DeRegisterWaitEventsTimers ( PLIST_ENTRY pLEvents, // list of events linked by ee_Links field PLIST_ENTRY pLTimers // list of timers linked by te_Links field: //these lists can be a single list entry, or a multiple entry list with a list header entry. ); // this should be used only when called within a server thread DWORD APIENTRY DeRegisterWaitEventsTimersSelf ( IN PLIST_ENTRY pLEvents, IN PLIST_ENTRY pLTimers ); DWORD APIENTRY RegisterWaitEventBinding ( IN PWT_EVENT_BINDING pwiWorkItem ); // Register the client with the wait thread DWORD APIENTRY RegisterWaitEventsTimers ( IN PLIST_ENTRY pLEventsToAdd, IN PLIST_ENTRY pLTimersToAdd ); DWORD APIENTRY UpdateWaitTimer ( IN PWT_TIMER_ENTRY pte, IN LONGLONG *time ); VOID APIENTRY WTFree ( PVOID ptr ); //used to free wait-event. Should be deallocated using DeRegisterWaitEventsTimers //This function is to be used only when the events have not been registered VOID APIENTRY WTFreeEvent ( IN PWT_EVENT_ENTRY peeEvent ); //used to free wait-timer. Should be deallocated using DeRegisterWaitEventsTimers //This function is to be used only when the timers have not been registered VOID APIENTRY WTFreeTimer ( IN PWT_TIMER_ENTRY pteTimer ); VOID APIENTRY DebugPrintWaitWorkerThreads ( DWORD dwDebugLevel ); #define DEBUGPRINT_FILTER_NONCLIENT_EVENTS 0x2 #define DEBUGPRINT_FILTER_EVENTS 0x4 #define DEBUGPRINT_FILTER_TIMERS 0x8 // //ERROR VALUES // #define ERROR_WAIT_THREAD_UNAVAILABLE 1 #define ERROR_WT_EVENT_ALREADY_DELETED 2 #define TIMER_HIGH(time) \ (((LARGE_INTEGER*)&time)->HighPart) #define TIMER_LOW(time) \ (((LARGE_INTEGER*)&time)->LowPart) #ifdef __cplusplus } #endif #pragma option pop /*P_O_Pop*/ #endif // ___ROUTING_RTUTILS_H__