/*****************************************************************************/ /* WebSock(et).c WebSocket protocol based on the RFC published December 2011 below: http://www.rfc-editor.org/rfc/rfc6455.txt The WebSocket protocol is an emerging techncology that enables two-way communication between a user agent running untrusted code running in a controlled environment to a remote host that has opted-in to communications from that code. http://websocket.org/ This module deals exclusively with WebSocket scripting. Also see DCL.C. For WASD a WebSocket script is one that is activated in the same fashion as an equivalent CGI/CGIplus/RTE and has an identical CGI environment (variables, streams, etc.) but which uses a unique HTTP response and communicates with its client using the WebSocket protocol. Firstly, the WebSocket connection is an asynchronous, bi-directional channel. WASD already implements this for its scripts. The major difference is the use of dedicated channels (mailboxes) for the WebSocket IPC. Client supplied data is available to the script via the WEBSOCKET_INPUT mailbox and data from the script supplied via the WEBSOCKET_OUTPUT mailbox (indicated via CGI variables). Communication using a WebSocket requires the use of a framing protocol while WEBSOCKET_INPUT and WEBSOCKET_OUTPUT are opaque octet-streams pushing stream processing onto the script (which best knows what it is trying to accomplish anyway). CGI variables WEBSOCKET_INPUT_MRS and WEBSOCKET_OUTPUT_MRS indicate the respective mailbox capacity. Secondly, the WASD server just acts as a conduit for the WebSocket client octet-stream. It is up to the server application (script) to perform all of the protocol framing, etc. In WASD's case this is largely available through the wsLIB.c library. Long-lived WebSocket scripts by default have timeouts and other limits set to infinite. If control is required it must be exercised using the appropriate mapping SETings or DCL callouts. MULTI-CLIENT SCRIPT PROCESSES ----------------------------- A WebSocket connection to a script is maintained by the WEBSOCKET_INPUT and WEBSOCKET_OUTPUT channels remaining connected to the script. If the script closes them (or the image or process exits, etc.) the WebSocket connection is closed. WebSocket requests are maintained as long as the script maintains them, for a CGIplus script, until it exits. If a CGIplus script requires to disconnect from a WebSocket client without exiting it must do so explicitly (by closing C streams, deassigning channels, etc.) Of course this is an advantage because it allows a single CGIplus script to maintain connections with multiple WebSocket clients. Provided the script remains connected to the WebSocket IPC mailboxes and processes that I/O asynchronously (via ASTs or POSIX Threads for example) a single script can concurrently handle multiple clients. The script just processes each request it is given, adding the new client to the existing group (and removing them as the IPC indicates they disconnect). Obviously the script must remain resident via CGIplus or RTE. The server will continue to provide requests to the script for as long as it appears idle (i.e. the sentinal EOF is returned even though concurrent processing may continue). Obviously a single scripting process cannot accept an unlimited number of concurrent WebSockets. When a script decides it can process no more it should not return the sentinal EOF from the most recent request until it is in a position to process more, when it then provides the EOF and the server again will supply another request. The original request is access logged at request run-down (when the WebSocket is finally closed either because the client disconnected or the script closed its connection to the WEBSOCKET_.. mailboxes). The access log status is 101 (Switching Protocols) and the bytes rx and tx reflect the total for the duration. PROTOCOL VERSION SUPPORT ------------------------ Normally WASD supports the current base protocol number and any higher. At some time in the future it may be necessary to limit that down to a supported version number or set of numbers. Defining WASD_WEBSOCKET_VERSION to be one or more comma-separated numbers will limit the supported protocol versions. For example $ DEFINE /SYSTEM WASD_WEBSOCKET_VERSION "10, 9, 8" limits requests to protocol version 10 (current), 9 (earlier) and 8 (earliest). Logical name is only tested once for each server startup (the first WebSocket request received). This logical name only controls server handshake support and behaviour. The underlying WebSocket libarary used by the application (e.g. wsLIB.c) supports version idiosyncracies for other aspects. This string is also used as the list of versions reported in a 426 (upgrade required) response when the requested version is not supported. WEBSOCKET THROTTLING -------------------- Throttle mapping rules may be applied to WebSocket requests. There is however, a FUNDAMENTAL DIFFERENCE between request throttling and WebSocket throttling though. HTTP request throttling applies control to the entire life of the response. WebSocket throttling applies only to establishing connection to the underlying script/application. Once the script responds to accept the connection (status 101) or reject it (error status) throttling is concluded. Long-lived WebSocket connections are considered less suitable to full life-cycle throttling and should use internal mechanisms to control resource utilisation (i.e. using the delayed sentinal EOF mechanism described above). Essentially it is used to limit the impact concurrent requests have on the number of supporting script processes allowed to be instantiated to support the application. For example, the rule set /cgi-bin/ws_application throttle=1 will only allow one new request at a time attempt to connect to and/or create a WebSocket application script. This will effectively limit the number of supporting processes to one however many clients wish to connect. To support concurrent requests distributed across multiple application scripts specify the throttle value as the number of separate scripts set /cgi-bin/ws_application throttle=5 and if each script is to support a maximum number of individual connections then have it delay the EOF sentinal (described above) to block the server selecting it for the next request. Requests will be allocated until all processes have blocked after which they will be queued. To return a "too busy" 503 to clients (almost) immediately upon all processes become full and blocking (maximum application concurrency has been reached) then set the 't/o-busy' value to 1 second. set /cgi-bin/ws_application throttle=5,,,,,1 RAW [WEB]SOCKET --------------- A WASD variant on the WebSocket theme is the "raw" socket. This is NOT really a WebSocket at all but does use the WASD WebSocket script processing infrastructure to process otherwise network communication. This activates a script which operates in the CGI(plus) request environment. The request detail is available using CGI variables. A "100 Continue" response header signals the server the script is active but is NOT relayed to the client. Once activated, only the raw network octets from the client are provided to the script, and only the raw octets from the script are transmitted to the client. The script application can effectively perform asynchronous, bidirectional input/output with the client. Intended for communication with non-HTTP (non-WebSocket) networking clients (e.g. telnet, SSH, IMAP, POP "server" scripts, and the like). The [ServiceRawSocket] directive makes a service process RawSockets. # WASD_CONFIG_SERVICE [[http:*:1234]] [ServiceRawSocket] enabled The script to be activated must then be mapped to the service. # WASD_CONFIG_MAP [[*:1234]] map * /cgiplus-bin/rawsocket.com VERSION HISTORY --------------- 01-DEC-2016 MGD "raw" WebSocket 16-SEP-2012 MGD bugfix; WebSockEnd() do not NetCloseSocket() 12-DEC-2011 MGD bugfix; WebSockCloseMailboxes() logic http://www.rfc-editor.org/rfc/rfc6455.txt finally! 30-SEP-2011 MGD draft-ietf-hybi-thewebsocketprotocol-17 31-AUG-2011 MGD draft-ietf-hybi-thewebsocketprotocol-13 23-AUG-2011 MGD draft-ietf-hybi-thewebsocketprotocol-11 11-JUL-2011 MGD draft-ietf-hybi-thewebsocketprotocol-10 13-JUN-2011 MGD draft-ietf-hybi-thewebsocketprotocol-09 07-JUN-2011 MGD draft-ietf-hybi-thewebsocketprotocol-07 (BANG!) 25-FEB-2011 MGD draft-ietf-hybi-thewebsocketprotocol-06 05-FEB-2011 MGD draft-ietf-hybi-thewebsocketprotocol-05 11-JAN-2011 MGD draft-ietf-hybi-thewebsocketprotocol-04 17-OCT-2010 MGD draft-ietf-hybi-thewebsocketprotocol-03 24-SEP-2010 MGD draft-ietf-hybi-thewebsocketprotocol-02 26-AUG-2010 MGD draft-ietf-hybi-thewebsocketprotocol-01 26-JUN-2010 MGD initial */ /*****************************************************************************/ #ifdef WASD_VMS_V7 #undef _VMS__V6__SOURCE #define _VMS__V6__SOURCE #undef __VMS_VER #define __VMS_VER 70000000 #undef __CRTL_VER #define __CRTL_VER 70000000 #endif /* standard C header files */ #include #include #include #include /* VMS related header files */ #include #include #include #include #include #include #include /* application related header files */ #include "wasd.h" #include "sha1.h" #include "websock.h" #define WASD_MODULE "WEBSOCK" #define FI_LI WASD_MODULE, __LINE__ #define CMB$M_READONLY 0x01 #define CMB$M_WRITEONLY 0x02 #define DVI$_DEVNAM 32 #define DVI$_UNIT 12 /* version(s) supported, current (most recent) first */ #define WEBSOCKET_VERSION "13, 8" /* number of individual versions supported */ #define WEBSOCKET_VERSION_MAX 32 /******************/ /* global storage */ /******************/ int WebSockCurrent, WebSockOutputSize; LIST_HEAD WebSockList; /********************/ /* external storage */ /********************/ extern int DclMailboxBytLmRequired, DclSysOutputSize, EfnNoWait, EfnWait, NetAcceptBytLmRequired, NetReadBufferSize; extern int ToLowerCase[], ToUpperCase[]; extern char ErrorSanityCheck[]; extern ACCOUNTING_STRUCT *AccountingPtr; extern CONFIG_STRUCT Config; extern LIST_HEAD DclTaskList; extern MSG_STRUCT Msgs; extern WATCH_STRUCT Watch; /*****************************************************************************/ /* Ensure the WebSocket request makes sense and can be supported. Return TRUE if it does, else end the request and return FALSE if it doesn't. */ BOOL WebSockRequest (REQUEST_STRUCT *rqptr) { static int VersionCount; static int VersionArray [WEBSOCKET_VERSION_MAX]; /* times four as two digits plus one comma plus one space */ static char SecWebSocketVersion [25+(WEBSOCKET_VERSION_MAX*4)+1], WebSocketVersion [WEBSOCKET_VERSION_MAX*4]; static unsigned short Length; static $DESCRIPTOR (LogNameDsc, "WASD_WEBSOCKET_VERSION"); static $DESCRIPTOR (LnmFileDevDsc, "LNM$FILE_DEV"); static VMS_ITEM_LIST3 LnmItems [] = { { sizeof(WebSocketVersion)-1, LNM$_STRING, WebSocketVersion, &Length }, { 0,0,0,0 } }; int idx, status; char *cptr; DICT_ENTRY_STRUCT *denptr; /*********/ /* begin */ /*********/ if (WATCHMOD (rqptr, WATCH_MOD_RESPONSE)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "WebSockRequest()"); if (rqptr->RawSocketRequest) return (true); if (!WebSocketVersion[0]) { /* initialise */ status = sys$trnlnm (0, &LnmFileDevDsc, &LogNameDsc, 0, &LnmItems); if (VMSnok (status)) strcpy (WebSocketVersion, WEBSOCKET_VERSION); VersionCount = 0; cptr = WebSocketVersion; while (*cptr && VersionCount < WEBSOCKET_VERSION_MAX) { VersionArray[VersionCount++] = atoi(cptr); while (isdigit(*cptr)) cptr++; while (*cptr && !isdigit(*cptr)) cptr++; } if (VersionCount >= WEBSOCKET_VERSION_MAX) ErrorExitVmsStatus (SS$_BUGCHECK, ErrorSanityCheck, FI_LI); FaoToBuffer (SecWebSocketVersion, sizeof(SecWebSocketVersion), NULL, "Sec-WebSocket-Version: !AZ\r\n", WebSocketVersion); } if (denptr = DictLookup (rqptr->rqDictPtr, DICT_TYPE_REQUEST, "sec-websocket-key", 17)) rqptr->rqHeader.SecWebSocketKeyPtr = DICT_GET_VALUE(denptr); if (denptr = DictLookup (rqptr->rqDictPtr, DICT_TYPE_REQUEST, "sec-websocket-protocol", 22)) rqptr->rqHeader.SecWebSocketProtocolPtr = DICT_GET_VALUE(denptr); if (denptr = DictLookup (rqptr->rqDictPtr, DICT_TYPE_REQUEST, "sec-websocket-version", 21)) rqptr->rqHeader.WebSocketVersion = atoi(DICT_GET_VALUE(denptr)); if (!rqptr->rqHeader.SecWebSocketKeyPtr) { ErrorNoticed (rqptr, SS$_BUGCHECK, ErrorSanityCheck, FI_LI); return (SS$_BUGCHECK); } if (rqptr->rqHeader.Method != HTTP_METHOD_GET || !rqptr->rqHeader.SecWebSocketKeyPtr) { InstanceGblSecIncrLong (&AccountingPtr->RequestErrorCount); rqptr->rqResponse.HttpStatus = 400; ErrorGeneral (rqptr, MsgFor(rqptr,MSG_REQUEST_FORMAT), FI_LI); RequestEnd (rqptr); return (false); } for (idx = 0; idx < VersionCount; idx++) if (VersionArray[idx] == rqptr->rqHeader.WebSocketVersion) break; if (idx >= VersionCount) { /* version not supported */ InstanceGblSecIncrLong (&AccountingPtr->RequestErrorCount); ResponseHeader (rqptr, 426, NULL, 0, NULL, SecWebSocketVersion); RequestEnd (rqptr); return (false); } InstanceGblSecIncrLong (&AccountingPtr->DoWebSockCount); return (true); } /****************************************************************************/ /* Generate a WebSocket 101 Switching Protocols response. */ int WebSockSwitchResponse (REQUEST_STRUCT *rqptr) { static char WebSockHand [] = "HTTP/1.1 101 Switching Protocols\r\n\ Upgrade: websocket\r\n\ Connection: Upgrade\r\n\ Sec-WebSocket-Accept: "; static char WebSockExts [] = "\r\nSec-WebSocket-Extensions: ", WebSockProt [] = "\r\nSec-WebSocket-Protocol: "; int AcceptBase64Length; char *cptr, *sptr, *zptr; char AcceptBase64 [48], Buffer [1024], KeyGuid [96]; unsigned char KeyGuidHash [20]; SHA1Context Sha1Ctx; /*********/ /* begin */ /*********/ if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_RESPONSE, "WebSockSwitchResponse()"); /* no update to status code counters as this is an intermediate response */ rqptr->rqResponse.HttpStatus = 101; rqptr->rqResponse.HeaderSent = true; /* if it's a WebSocket then by default do-not-disturb */ if (rqptr->DclTaskPtr) if (rqptr->DclTaskPtr->LifeTimeSecond != DCL_DO_NOT_DISTURB) rqptr->DclTaskPtr->LifeTimeSecond = DCL_WEBSOCKET_DND; HttpdTimerSet (rqptr, TIMER_OUTPUT, -1); HttpdTimerSet (rqptr, TIMER_NOPROGRESS, -1); if (rqptr->RawSocketRequest) return (SS$_NORMAL); zptr = (sptr = KeyGuid) + sizeof(KeyGuid)-1; for (cptr = rqptr->rqHeader.SecWebSocketKeyPtr; *cptr && sptr < zptr; *sptr++ = *cptr++); for (cptr = "258EAFA5-E914-47DA-95CA-C5AB0DC85B11"; *cptr && sptr < zptr; *sptr++ = *cptr++); *sptr = '\0'; SHA1Reset (&Sha1Ctx); SHA1Input (&Sha1Ctx, KeyGuid, sptr-KeyGuid); if (!SHA1Result (&Sha1Ctx)) ErrorNoticed (rqptr, SS$_BUGCHECK, ErrorSanityCheck, FI_LI); /* copy into the hash buffer (converting from big to little endian) */ SHA1LitEnd (&Sha1Ctx, KeyGuidHash); AcceptBase64Length = sizeof(AcceptBase64)-1; base64_encode (AcceptBase64, &AcceptBase64Length, KeyGuidHash, sizeof(KeyGuidHash)); zptr = (sptr = Buffer) + sizeof(Buffer)-1; for (cptr = WebSockHand; *cptr && sptr < zptr; *sptr++ = *cptr++); for (cptr = AcceptBase64; *cptr && sptr < zptr; *sptr++ = *cptr++); if (rqptr->rqHeader.SecWebSocketProtocolPtr) { for (cptr = WebSockProt; *cptr && sptr < zptr; *sptr++ = *cptr++); for (cptr = rqptr->rqHeader.SecWebSocketProtocolPtr; *cptr && sptr < zptr; *sptr++ = *cptr++); } for (cptr = "\r\n\r\n"; *cptr && sptr < zptr; *sptr++ = *cptr++); if (WATCHING (rqptr, WATCH_RESPONSE_HEADER)) { WatchThis (WATCHITM(rqptr), WATCH_RESPONSE_HEADER, "HEADER !UL bytes", sptr-Buffer); WatchData (Buffer, sptr-Buffer); } /* synchronous network write (just for the convenience of it!) */ NetWrite (rqptr, NULL, Buffer, sptr-Buffer); return (SS$_NORMAL); } /*****************************************************************************/ /* These are emphemeral mailboxes and will be deleted as soon as there are no channels assigned to them (with the loss of any data still buffered). */ WebSockCreateMailboxes (REQUEST_STRUCT *rqptr) { static unsigned long DevNamItem = DVI$_DEVNAM, UnitItem = DVI$_UNIT; int status; unsigned short Length; unsigned long BytLmAfter, BytLmBefore, LongUnit; struct RequestWebSocketStruct *wsptr; struct dsc$descriptor_s *dscptr; /*********/ /* begin */ /*********/ BytLmBefore = GetJpiBytLm (); if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "WebSockCreateMailboxes() !UL !UL", BytLmBefore, DclMailboxBytLmRequired); if (!WebSockOutputSize) WebSockOutputSize = DclSysOutputSize; /* ensure we're leaving enough BYTLM for client socket creation at least */ if (DclMailboxBytLmRequired && BytLmBefore - DclMailboxBytLmRequired <= NetAcceptBytLmRequired * Config.cfServer.ProcessMax) { ErrorNoticed (NULL, 0, "BYTLM exhausted", FI_LI); return (SS$_EXQUOTA); } wsptr = &rqptr->rqWebSocket; wsptr->RequestPtr = rqptr; ListAddHead (&WebSockList, wsptr, LIST_ENTRY_TYPE_WEBSOCKET); /***************************/ /* WEBSOCKET_INPUT mailbox */ /***************************/ if (rqptr->rqPathSet.WebSocketInputSize) wsptr->InputSize = rqptr->rqPathSet.WebSocketInputSize; else wsptr->InputSize = NetReadBufferSize; if (wsptr->InputSize < WEBSOCKET_INPUT_MIN) wsptr->InputSize = WEBSOCKET_INPUT_MIN; if (VMSnok (status = sys$crembx (0, &wsptr->InputChannel, wsptr->InputSize, wsptr->InputSize, DCL_PROCESS_MBX_PROT_MASK, 0, 0, CMB$M_WRITEONLY))) goto WebSockCreateMailboxesError; dscptr = &wsptr->InputDevNameDsc; dscptr->dsc$w_length = sizeof(wsptr->InputDevName); dscptr->dsc$a_pointer = wsptr->InputDevName; dscptr->dsc$b_class = DSC$K_CLASS_S; dscptr->dsc$b_dtype = DSC$K_DTYPE_T; if (VMSnok (status = lib$getdvi (&DevNamItem, &wsptr->InputChannel, 0, 0, &wsptr->InputDevNameDsc, &Length))) goto WebSockCreateMailboxesError; wsptr->InputDevName[dscptr->dsc$w_length = Length] = '\0'; if (VMSnok (status = DclMailboxAcl (wsptr->InputDevName, rqptr->DclTaskPtr->CrePrcUserName))) goto WebSockCreateMailboxesError; if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "$CREMBX() WEBSOCKET_INPUT !AZ !UL", wsptr->InputDevName, NetReadBufferSize); /****************************/ /* WEBSOCKET_OUTPUT mailbox */ /****************************/ if (rqptr->rqPathSet.WebSocketOutputSize) wsptr->OutputSize = rqptr->rqPathSet.WebSocketOutputSize; else wsptr->OutputSize = WebSockOutputSize; if (wsptr->OutputSize < WEBSOCKET_OUTPUT_MIN) wsptr->OutputSize = WEBSOCKET_OUTPUT_MIN; wsptr->OutputPtr = VmGetHeap (rqptr, wsptr->OutputSize); if (VMSnok (status = sys$crembx (0, &wsptr->OutputChannel, wsptr->OutputSize, wsptr->OutputSize, DCL_PROCESS_MBX_PROT_MASK, 0, 0, CMB$M_READONLY))) goto WebSockCreateMailboxesError; dscptr = &wsptr->OutputDevNameDsc; dscptr->dsc$w_length = sizeof(wsptr->OutputDevName); dscptr->dsc$a_pointer = wsptr->OutputDevName; dscptr->dsc$b_class = DSC$K_CLASS_S; dscptr->dsc$b_dtype = DSC$K_DTYPE_T; if (VMSnok (status = lib$getdvi (&DevNamItem, &wsptr->OutputChannel, 0, 0, &wsptr->OutputDevNameDsc, &Length))) goto WebSockCreateMailboxesError; wsptr->OutputDevName [dscptr->dsc$w_length = Length] = '\0'; if (VMSnok (status = DclMailboxAcl (wsptr->OutputDevName, rqptr->DclTaskPtr->CrePrcUserName))) goto WebSockCreateMailboxesError; if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "$CREMBX() WEBSOCKET_OUTPUT !AZ !UL", wsptr->OutputDevName, WebSockOutputSize); /******/ /* OK */ /******/ if (WATCHING (rqptr, WATCH_DCL)) { WatchThis (WATCHITM(rqptr), WATCH_DCL, "WEBSOCKET connected"); WatchThis (WATCHITM(rqptr), WATCH_DCL, "MBX WEBSOCKET_INPUT !AZ size:!UL", wsptr->InputDevName, wsptr->InputSize); WatchThis (WATCHITM(rqptr), WATCH_DCL, "MBX WEBSOCKET_OUTPUT !AZ size:!UL", wsptr->OutputDevName, wsptr->OutputSize); } if (!DclMailboxBytLmRequired) { BytLmAfter = GetJpiBytLm (); DclMailboxBytLmRequired = BytLmBefore - BytLmAfter; if (WATCH_MODULE(WATCH_MOD_DCL)) WatchThis (WATCHALL, WATCH_MOD_DCL, "BytLm: !UL", DclMailboxBytLmRequired); } return (SS$_NORMAL); /*********/ /* ERROR */ /*********/ WebSockCreateMailboxesError: ErrorNoticed (rqptr, status, "$CREMBX()", FI_LI); if (wsptr->InputChannel) sys$dassgn (wsptr->InputChannel); if (wsptr->OutputChannel) sys$dassgn (wsptr->OutputChannel); wsptr->InputChannel = wsptr->OutputChannel = 0; return (status); } /*****************************************************************************/ /* Discard any outstanding WebSocket I/O and deassign respective channels. Wait for all outstanding I/O. Return true when all I/O complete and channels have been deassigned, false until then. */ BOOL WebSockCloseMailboxes (REQUEST_STRUCT *rqptr) { int status; struct RequestWebSocketStruct *wsptr; /*********/ /* begin */ /*********/ if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "WebSockCloseMailboxes() netin:!UL mbxin:!UL:!UL mbxout:!UL:!UL netout:!UL", rqptr->rqWebSocket.QueuedNetRead, rqptr->rqWebSocket.InputChannel, rqptr->rqWebSocket.QueuedInput, rqptr->rqWebSocket.OutputChannel, rqptr->rqWebSocket.QueuedOutput, rqptr->rqWebSocket.QueuedNetWrite); wsptr = &rqptr->rqWebSocket; if (wsptr->QueuedInput) { /* cancel outstanding I/O but keep channel for EOF */ sys$cancel (wsptr->InputChannel); } else if (wsptr->InputChannel) { /* give any scripting process a subsequent heads-up */ status = sys$qio (EfnNoWait, wsptr->InputChannel, IO$_WRITEOF | IO$M_NORSWAIT | IO$M_READERCHECK, 0, &WebSockDassgnInput, wsptr->InputChannel, 0, 0, 0, 0, 0, 0); /* if the AST is not going to be delivered deassign it here! */ if (VMSnok (status)) sys$dassgn (wsptr->InputChannel); wsptr->InputChannel = 0; } if (wsptr->OutputChannel) { /* deassign will cancel outstanding I/O */ sys$dassgn (wsptr->OutputChannel); wsptr->OutputChannel = 0; } if (wsptr->QueuedInput || wsptr->QueuedOutput) return (false); if (wsptr->InputChannel || wsptr->OutputChannel) return (false); return (true); } /*****************************************************************************/ /* After EOF delivery (or otherwise) deassign the WEBSOCKET_INPUT mailbox channel. */ WebSockDassgnInput (unsigned short InputChannel) { /*********/ /* begin */ /*********/ if (WATCH_MODULE(WATCH_MOD_DCL)) WatchThis (WATCHALL, WATCH_MOD_DCL, "WebSockDassgnInput() !UL", InputChannel); sys$dassgn (InputChannel); } /*****************************************************************************/ /* When the mailboxes have been closed and no network I/O then call RequestEnd(). */ WebSockClose (REQUEST_STRUCT *rqptr) { /*********/ /* begin */ /*********/ if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "WebSockClose()"); NetCloseSocket (rqptr); if (WebSockCloseMailboxes (rqptr)) if (!(rqptr->rqWebSocket.QueuedNetRead || rqptr->rqWebSocket.QueuedNetWrite)) RequestEnd (rqptr); } /*****************************************************************************/ /* Return true if a WebSocket request is ready for the finale, false otherwise. */ BOOL WebSockEnd (REQUEST_STRUCT *rqptr) { /*********/ /* begin */ /*********/ if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "WebSockEnd() dcl:!&B netread:!UL netwrite:!UL", rqptr->DclTaskPtr && rqptr->DclTaskPtr->ScriptProcessPid, rqptr->rqWebSocket.QueuedNetRead, rqptr->rqWebSocket.QueuedNetWrite); if (!WebSockCloseMailboxes (rqptr)) return (false); if (rqptr->rqWebSocket.QueuedNetRead || rqptr->rqWebSocket.QueuedNetWrite) return (false); if (rqptr->DclTaskPtr && rqptr->DclTaskPtr->ScriptProcessPid) return (false); WebSockRemove (rqptr); if (WATCHING (rqptr, WATCH_DCL)) WatchThis (WATCHITM(rqptr), WATCH_DCL, "WEBSOCKET disconnected"); return (true); } /*****************************************************************************/ /* Remove the request from the WebSocket request list. */ WebSockRemove (REQUEST_STRUCT *rqptr) { /*********/ /* begin */ /*********/ if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "WebSockRemove()"); if (!rqptr->rqWebSocket.RequestPtr) return; if (rqptr == rqptr->rqWebSocket.RequestPtr) ListRemove (&WebSockList, &rqptr->rqWebSocket); else if (rqptr->rqWebSocket.RequestPtr) ErrorNoticed (rqptr, SS$_BUGCHECK, ErrorSanityCheck, FI_LI); rqptr->rqWebSocket.RequestPtr = NULL; } /*****************************************************************************/ /* Specifically for running down the request from DCL EOF sentinal received. */ WebSockIfEnd (REQUEST_STRUCT *rqptr) { struct RequestWebSocketStruct *wsptr; /*********/ /* begin */ /*********/ if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "WebSockIfEnd() read:!UL in:!UL out:!UL write:!UL", rqptr->rqWebSocket.QueuedNetRead, rqptr->rqWebSocket.InputChannel, rqptr->rqWebSocket.OutputChannel, rqptr->rqWebSocket.QueuedNetWrite); wsptr = &rqptr->rqWebSocket; if (wsptr->InputChannel) return; if (wsptr->OutputChannel) return; if (wsptr->QueuedNetRead) return; if (wsptr->QueuedNetWrite) return; RequestEnd (rqptr); } /*****************************************************************************/ /* Queue up a read from the script process WEBSOCKET_OUTPUT mailbox. When the read completes call function WebSockOutputAst(), do any post-processing required and write the data to the client over the network. */ WebSockOutput (REQUEST_STRUCT *rqptr) { int status; struct RequestWebSocketStruct *wsptr; /*********/ /* begin */ /*********/ if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "WebSockOutput() !8XL", rqptr->rqWebSocket.ScriptProcessPid); wsptr = &rqptr->rqWebSocket; if (!wsptr->OutputChannel) { WebSockClose (rqptr); return; } wsptr->QueuedOutput++; status = sys$qio (EfnNoWait, wsptr->OutputChannel, IO$_READLBLK, &wsptr->OutputIOsb, &WebSockOutputAst, rqptr, wsptr->OutputPtr, wsptr->OutputSize, 0, 0, 0, 0); if (VMSok (status)) return; ErrorNoticed (NULL, status, "sys$qio", FI_LI); /* report error via the AST */ wsptr->OutputIOsb.Status = status; SysDclAst (&WebSockOutputAst, rqptr); } /*****************************************************************************/ /* A queued read from the script process WEBSOCKET_OUTPUT mailbox has completed. */ WebSockOutputAst (REQUEST_STRUCT *rqptr) { int cnt, status; char *cptr; struct RequestWebSocketStruct *wsptr; struct dsc$descriptor_s *dscptr; /*********/ /* begin */ /*********/ if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "WebSockOutputAst() !&F !8XL", &WebSockOutputAst, rqptr->rqWebSocket.ScriptProcessPid); wsptr = &rqptr->rqWebSocket; if (WATCHING (rqptr, WATCH_DCL)) { if (VMSnok (wsptr->OutputIOsb.Status)) WatchThis (WATCHITM(rqptr), WATCH_DCL, "READ WEBSOCKET_OUTPUT !&S", wsptr->OutputIOsb.Status); else { WatchThis (WATCHITM(rqptr), WATCH_DCL, "READ WEBSOCKET_OUTPUT !&S !UL byte!%s", wsptr->OutputIOsb.Status, wsptr->OutputIOsb.Count); if (wsptr->OutputIOsb.Count) WatchDataDump (wsptr->OutputPtr, wsptr->OutputIOsb.Count); } } if (wsptr->QueuedOutput) wsptr->QueuedOutput--; if (VMSnok (wsptr->OutputIOsb.Status)) { WebSockClose (rqptr); return; } cptr = wsptr->OutputPtr; cnt = wsptr->OutputIOsb.Count; if (rqptr->rqCgi.EscLength) { if (cnt >= rqptr->rqCgi.EscLength && cnt <= rqptr->rqCgi.EscLength+2 && MATCH0 (cptr, rqptr->rqCgi.EscStr, rqptr->rqCgi.EscLength)) { /***********************/ /* escape from output! */ /***********************/ wsptr->CalloutInProgress = true; /* queue the next read from WEBSOCKET_OUTPUT */ WebSockOutput (rqptr); return; } } if (wsptr->CalloutInProgress) { if (cnt >= rqptr->rqCgi.EotLength && cnt <= rqptr->rqCgi.EotLength+2 && MATCH0 (cptr, rqptr->rqCgi.EotStr, rqptr->rqCgi.EotLength)) { /******************/ /* end of escape! */ /******************/ wsptr->CalloutInProgress = false; /* queue the next read from WEBSOCKET_OUTPUT */ WebSockOutput (rqptr); return; } /***********/ /* callout */ /***********/ WebSockCallout (rqptr); /* queue the next read from WEBSOCKET_OUTPUT */ WebSockOutput (rqptr); return; } wsptr->QueuedNetWrite++; NetWrite (rqptr, &WebSockOutputWriteAst, cptr, cnt); } /*****************************************************************************/ /* A queued asynchronous write of script process WEBSOCKET_OUTPUT (mailbox) to the client over the network has completed. */ WebSockOutputWriteAst (REQUEST_STRUCT *rqptr) { int status; struct RequestWebSocketStruct *wsptr; /*********/ /* begin */ /*********/ wsptr = &rqptr->rqWebSocket; if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "WebSockOutputWriteAst() !&F !8XL !&S", &WebSockOutputWriteAst, rqptr->rqWebSocket.ScriptProcessPid, rqptr->NetIoPtr->WriteStatus); if (wsptr->QueuedNetWrite) wsptr->QueuedNetWrite--; if (VMSnok (rqptr->NetIoPtr->WriteStatus)) { WebSockClose (rqptr); return; } /* queue the next read of the script process' WEBSOCKET_OUTPUT */ WebSockOutput (rqptr); } /*****************************************************************************/ /* Get (more) data directly from the WebSocket client. */ WebSockInput (REQUEST_STRUCT *rqptr) { unsigned int DataCount; unsigned char *DataPtr; struct RequestWebSocketStruct *wsptr; /*********/ /* begin */ /*********/ if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "WebSockInput() !8XL", rqptr->rqWebSocket.ScriptProcessPid); wsptr = &rqptr->rqWebSocket; if (!wsptr->InputChannel) { WebSockClose (rqptr); return; } wsptr->QueuedNetRead++; NetRead (rqptr, &WebSockInputAst, rqptr->rqNet.ReadBufferPtr, rqptr->rqNet.ReadBufferSize); } /*****************************************************************************/ /* WebSocket client read has completed. */ WebSockInputAst (REQUEST_STRUCT *rqptr) { int status; unsigned int DataCount; unsigned char *DataPtr; struct RequestWebSocketStruct *wsptr; /*********/ /* begin */ /*********/ if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "WebSockInputAst() !&F !8XL !&S !UL", &WebSockInputAst, rqptr->rqWebSocket.ScriptProcessPid, rqptr->NetIoPtr->ReadStatus, rqptr->NetIoPtr->ReadCount); wsptr = &rqptr->rqWebSocket; if (wsptr->QueuedNetRead) wsptr->QueuedNetRead--; if (VMSnok (rqptr->NetIoPtr->ReadStatus)) { WebSockClose (rqptr); return; } DataCount = rqptr->NetIoPtr->ReadCount; DataPtr = rqptr->rqNet.ReadBufferPtr; if (WATCHING (rqptr, WATCH_DCL)) { WatchThis (WATCHITM(rqptr), WATCH_DCL, "WRITE WEBSOCKET_INPUT !UL byte!%s", DataCount); WatchDataDump (DataPtr, DataCount); } if (!rqptr->rqWebSocket.InputChannel) { WebSockClose (rqptr); return; } wsptr->QueuedInput++; status = sys$qio (EfnNoWait, rqptr->rqWebSocket.InputChannel, IO$_WRITELBLK, &rqptr->rqWebSocket.InputIOsb, &WebSockInputWriteAst, rqptr, DataPtr, DataCount, 0, 0, 0, 0); if (VMSok (status)) return; ErrorNoticed (NULL, status, "sys$qio", FI_LI); /* report error via the AST */ rqptr->rqWebSocket.InputIOsb.Status = status; SysDclAst (&WebSockInputWriteAst, rqptr); } /*****************************************************************************/ /* A queued write to the script process WEBSOCKET_INPUT mailbox has completed. */ WebSockInputWriteAst (REQUEST_STRUCT *rqptr) { int status; struct RequestWebSocketStruct *wsptr; /*********/ /* begin */ /*********/ if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "WebSockInputWriteAst() !&F !8XL", &WebSockInputWriteAst, rqptr->rqWebSocket.ScriptProcessPid); wsptr = &rqptr->rqWebSocket; if (WATCHING (rqptr, WATCH_DCL)) WatchThis (WATCHITM(rqptr), WATCH_DCL, "WRITE WEBSOCKET_INPUT !&S", rqptr->rqWebSocket.InputIOsb.Status); if (wsptr->QueuedInput) wsptr->QueuedInput--; /* abort if an error writing WebSocket stream to script process */ if (VMSnok (rqptr->rqWebSocket.InputIOsb.Status)) { WebSockClose (rqptr); return; } /* get more from the client */ WebSockInput (rqptr); } /*****************************************************************************/ /* (Currently) a basic callout allowing WATCHing of WebSocket scripts. */ WebSockCallout (REQUEST_STRUCT *rqptr) { static char RspBadParam [] = "400 Bad parameter", RspUnauthorized [] = "401 Unauthorized", RspForbidden [] = "403 Forbidden", RspSuccess [] = "200 Success", RspUnknown [] = "400 Unknown request"; BOOL ProvideResponse; int status, OutputCount; char *cptr, *OutputPtr; struct RequestWebSocketStruct *wsptr; /*********/ /* begin */ /*********/ if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "WebSockCallout()"); wsptr = &rqptr->rqWebSocket; OutputPtr = wsptr->OutputPtr; OutputCount = wsptr->OutputIOsb.Count; if (OutputPtr[0] == '!' || OutputPtr[0] == '#') { ProvideResponse = false; OutputPtr++; OutputCount--; } else ProvideResponse = true; if (TOUP(OutputPtr[0]) == 'N') { if (strsame (OutputPtr, "NOOP:", 5)) { /*********/ /* NOOP: */ /*********/ /* used for WATCHable debugging information, comments, etc. */ if (ProvideResponse) WebSockCalloutQio (rqptr, RspSuccess, sizeof(RspSuccess)-1); return; } } if (TOUP(OutputPtr[0]) == 'W') { if (strsame (OutputPtr, "WATCH:", 6)) { /**********/ /* WATCH: */ /**********/ /* WATCHing script */ if (WATCHING (rqptr, WATCH_SCRIPT)) { for (cptr = OutputPtr+6; *cptr && isspace(*cptr); cptr++); WatchThis (WATCHITM(rqptr), WATCH_SCRIPT, "!#AZ", OutputCount-(cptr-OutputPtr), cptr); if (ProvideResponse) WebSockCalloutQio (rqptr, RspSuccess, sizeof(RspSuccess)-1); } else if (ProvideResponse) WebSockCalloutQio (rqptr, RspBadParam, sizeof(RspBadParam)-1); return; } } if (ProvideResponse) WebSockCalloutQio (rqptr, RspUnknown, sizeof(RspUnknown)-1); } /*****************************************************************************/ /* Obviously, for this not to be confused with client input, it be identifiable from the client data stream. Callout responses (where required) are encapsulated by a leading ESC sentinal (record) and a trailing EOT sentinal (record), both the same sequences as used to make the callout. The intervening record contains the response. Each callout response requires three $QIOs; the actual response is sandwiched between ESC and EOT records. */ WebSockCalloutQio ( REQUEST_STRUCT *rqptr, char *DataPtr, int DataCount ) { int status; /*********/ /* begin */ /*********/ if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "WebSockCalloutQio() !UL !&Z", rqptr->rqWebSocket.QueuedInput, DataPtr); if (!rqptr->rqWebSocket.InputChannel) return; if (rqptr->rqWebSocket.QueuedInput > 32) { /* getting a bit suspicious - let's not compound things */ return; } status = sys$qio (EfnNoWait, rqptr->rqWebSocket.InputChannel, IO$_WRITELBLK, 0, WebSockCalloutQioAst, rqptr, rqptr->rqCgi.EscStr, rqptr->rqCgi.EscLength, 0, 0, 0, 0); if (VMSok (status)) { rqptr->rqWebSocket.QueuedInput++; status = sys$qio (EfnNoWait, rqptr->rqWebSocket.InputChannel, IO$_WRITELBLK, 0, WebSockCalloutQioAst, rqptr, DataPtr, DataCount, 0, 0, 0, 0); if (VMSok (status)) { rqptr->rqWebSocket.QueuedInput++; status = sys$qio (EfnNoWait, rqptr->rqWebSocket.InputChannel, /* IO status block reports on the final $QIO */ IO$_WRITELBLK, &rqptr->rqWebSocket.CalloutIOsb, WebSockCalloutQioAst, rqptr, rqptr->rqCgi.EotStr, rqptr->rqCgi.EotLength, 0, 0, 0, 0); if (VMSok (status)) rqptr->rqWebSocket.QueuedInput++; } } if (VMSnok (status) && status != SS$_IVCHAN) { ErrorNoticed (NULL, status, "sys$qio", FI_LI); WebSockClose (rqptr); } } /*****************************************************************************/ /* WebSocket callout response write (to input) has completed (three per callout). */ WebSockCalloutQioAst (REQUEST_STRUCT *rqptr) { int status; struct RequestWebSocketStruct *wsptr; /*********/ /* begin */ /*********/ if (WATCHMOD (rqptr, WATCH_MOD_DCL)) WatchThis (WATCHITM(rqptr), WATCH_MOD_DCL, "WebSockCalloutQioAst() !&F !8XL !&S !UL", &WebSockCalloutQioAst, rqptr->rqWebSocket.ScriptProcessPid, rqptr->rqWebSocket.CalloutIOsb.Status, rqptr->rqWebSocket.CalloutIOsb.Count); wsptr = &rqptr->rqWebSocket; if (wsptr->QueuedInput) wsptr->QueuedInput--; if (status = rqptr->rqWebSocket.CalloutIOsb.Status) { /* IO status block reports on the final of three $QIO */ if (VMSnok (status)) { /* error */ ErrorNoticed (NULL, status, "sys$qio", FI_LI); WebSockClose (rqptr); } } } /*****************************************************************************/ /* Return the number of WebSocket requests connected to the scripting process PID. */ int WebSockCount (unsigned long ScriptProcessPid) { int Count = 0; REQUEST_STRUCT *rqeptr; LIST_ENTRY *leptr; /*********/ /* begin */ /*********/ if (WATCH_MODULE(WATCH_MOD_DCL)) WatchThis (WATCHALL, WATCH_MOD_DCL, "WebSockCount() !8XL", ScriptProcessPid); if (!ScriptProcessPid) return (0); for (leptr = WebSockList.HeadPtr; leptr; leptr = leptr->NextPtr) { rqeptr = ((struct RequestWebSocketStruct*)leptr)->RequestPtr; if (rqeptr->rqWebSocket.ScriptProcessPid != ScriptProcessPid) continue; Count++; } return (Count); } /*****************************************************************************/ /* Disconnect WebSockets from their clients. Return count of disconnections. */ int WebSockControl ( int ConnectNumber, char *ScriptName, char *UserName ) { int Count = 0; REQUEST_STRUCT *rqeptr; LIST_ENTRY *leptr, *dleptr; DCL_TASK *tkptr; /*********/ /* begin */ /*********/ if (WATCH_MODULE(WATCH_MOD_DCL)) WatchThis (WATCHALL, WATCH_MOD_DCL, "WebSockControl() !UL !&Z !&Z", ConnectNumber, ScriptName, UserName); for (leptr = WebSockList.HeadPtr; leptr; leptr = leptr->NextPtr) { rqeptr = ((struct RequestWebSocketStruct*)leptr)->RequestPtr; if (!rqeptr->WebSocketRequest) continue; /* if we're looking for a particular request and this is not it */ if (ConnectNumber && rqeptr->ConnectNumber != ConnectNumber) continue; /* only matching scripts */ if (ScriptName && ScriptName[0]) { if (!rqeptr->rqWebSocket.ScriptProcessPid) continue; if (!StringMatch (NULL, rqeptr->ScriptName, ScriptName)) continue; } /* only WebSocket scripts running as a specific VMS user */ if (UserName && UserName[0]) { if (!rqeptr->rqWebSocket.ScriptProcessPid) continue; for (dleptr = DclTaskList.HeadPtr; dleptr; dleptr = dleptr->NextPtr) { tkptr = (DCL_TASK*)dleptr; if (tkptr->ScriptProcessPid != rqeptr->rqWebSocket.ScriptProcessPid) continue; if (StringMatch (NULL, tkptr->CrePrcUserName, UserName)) break; } if (!dleptr) continue; } /* make the closure asynchronous to this list traversal */ SysDclAst (WebSockClose, rqeptr); Count++; } return (Count); } /*****************************************************************************/ /* Return a report on current WebSocket requests. This function blocks while executing. */ WebSockReport ( REQUEST_STRUCT *rqptr, REQUEST_AST NextTaskFunction ) { /* the final column just adds a little white-space on the page far right */ static char BeginPageFao [] = "

\n\ \ \ \ \ \ \ \ \ \ \ \ \n"; static char WebSocketFao [] = "\ \ \ \ \ \ \ \ \ \ \ \ \n\ \ \ \ \n"; static char NoneFao [] = "\ \ \ \n"; static char EndPageFao [] = "
Service / ClientTime / RequestRxTxBytes/SecDurationScript PIDWATCHConnect
!3ZL!AZ//!AZ!20%D!&,@SQ!&,@SQ!&L!AZ!8XL!&@!UL
!&@!AZ !AZ
000none
\n\

\n\ \n\
\n\
\n\ \n\
\n\
\n\ !AZ\ \n\ \n\ \n"; int status, DisplayCount, ReportType; unsigned long *vecptr; unsigned long BinaryTime [2], FaoVector [32], ResponseDuration [2], ResultTime [2]; char *cptr; REQUEST_STRUCT *rqeptr; LIST_ENTRY *leptr; /*********/ /* begin */ /*********/ if (WATCH_MODULE(WATCH_MOD_REQUEST)) WatchThis (WATCHALL, WATCH_MOD_REQUEST, "WebSockReport() !&A", NextTaskFunction); AdminPageTitle (rqptr, "WebSocket Report"); status = FaolToNet (rqptr, BeginPageFao, NULL); if (VMSnok (status)) ErrorNoticed (rqptr, status, "FaolToNet()", FI_LI); DisplayCount = 0; sys$gettim (&BinaryTime); /* process web socket list from least to most recent */ for (leptr = WebSockList.HeadPtr; leptr; leptr = leptr->NextPtr) { rqeptr = ((struct RequestWebSocketStruct*)leptr)->RequestPtr; vecptr = FaoVector; *vecptr++ = ++DisplayCount; *vecptr++ = rqeptr->ServicePtr->RequestSchemeNamePtr; *vecptr++ = rqeptr->ServicePtr->ServerHostPort; *vecptr++ = &rqeptr->rqTime.BeginTime64; *vecptr++ = &rqeptr->NetIoPtr->BytesRawRx; *vecptr++ = &rqeptr->NetIoPtr->BytesRawTx; status = lib$sub_times (&BinaryTime, &rqeptr->rqTime.BeginTime64, &ResponseDuration); if (VMSnok (status)) PUT_ZERO_QUAD (ResponseDuration); *vecptr++ = BytesPerSecond (&rqeptr->NetIoPtr->BytesRawRx, &rqeptr->NetIoPtr->BytesRawTx, &ResponseDuration); *vecptr++ = DurationString (rqptr, &ResponseDuration); *vecptr++ = rqeptr->rqWebSocket.ScriptProcessPid; *vecptr++ = "[P]\ [+]\ [W]"; *vecptr++ = ADMIN_REPORT_WATCH; *vecptr++ = rqeptr->ConnectNumber; *vecptr++ = ADMIN_REPORT_WATCH; *vecptr++ = rqeptr->ConnectNumber; *vecptr++ = rqeptr->ConnectNumber; *vecptr++ = ADMIN_REPORT_WATCH; *vecptr++ = rqeptr->ConnectNumber; *vecptr++ = rqeptr->ConnectNumber; *vecptr++ = UserAtClient(rqeptr); *vecptr++ = rqeptr->rqHeader.MethodName; *vecptr++ = rqeptr->rqHeader.RequestUriPtr; status = FaolToNet (rqptr, WebSocketFao, &FaoVector); if (VMSnok (status)) ErrorNoticed (rqptr, status, "FaolToNet()", FI_LI); } if (!DisplayCount) { status = FaolToNet (rqptr, NoneFao, NULL); if (VMSnok (status)) ErrorNoticed (rqptr, status, "FaolToNet()", FI_LI); } vecptr = FaoVector; *vecptr++ = ADMIN_CONTROL_WEBSOCKET_DISCONNECT; *vecptr++ = AdminRefresh(); status = FaolToNet (rqptr, EndPageFao, &FaoVector); if (VMSnok (status)) ErrorNoticed (rqptr, status, "FaolToNet()", FI_LI); rqptr->rqResponse.PreExpired = PRE_EXPIRE_ADMIN; ResponseHeader200 (rqptr, "text/html", NULL); SysDclAst (NextTaskFunction, rqptr); } /****************************************************************************/