/*------------------------------------------------------------------------- * * pgtclId.c-- * useful routines to convert between strings and pointers * Needed because everything in tcl is a string, but we want pointers * to data structures * * ASSUMPTION: sizeof(long) >= sizeof(void*) * * * Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/interfaces/libpgtcl/Attic/pgtclId.c,v 1.11 1998/06/16 04:10:17 momjian Exp $ * *------------------------------------------------------------------------- */ #include #include #include #include #include "postgres.h" #include "pgtclCmds.h" #include "pgtclId.h" static int PgEndCopy(Pg_ConnectionId *connid, int *errorCodePtr) { connid->res_copyStatus = RES_COPY_NONE; if (PQendcopy(connid->conn)) { connid->results[connid->res_copy]->resultStatus = PGRES_BAD_RESPONSE; connid->res_copy = -1; *errorCodePtr = EIO; return -1; } else { connid->results[connid->res_copy]->resultStatus = PGRES_COMMAND_OK; connid->res_copy = -1; return 0; } } /* * Called when reading data (via gets) for a copy to stdout */ int PgInputProc(DRIVER_INPUT_PROTO) { Pg_ConnectionId *connid; PGconn *conn; char c; int avail; connid = (Pg_ConnectionId *)cData; conn = connid->conn; if (connid->res_copy < 0 || connid->results[connid->res_copy]->resultStatus != PGRES_COPY_OUT) { *errorCodePtr = EBUSY; return -1; } /* Try to load any newly arrived data */ errno = 0; if (pqReadData(conn) < 0) { *errorCodePtr = errno ? errno : EIO; return -1; } /* Move data from libpq's buffer to Tcl's. * We want to accept data only in units of whole lines, * not partial lines. This ensures that we can recognize * the terminator line "\\.\n". (Otherwise, if it happened * to cross a packet/buffer boundary, we might hand the first * one or two characters off to Tcl, which we shouldn't.) */ conn->inCursor = conn->inStart; avail = bufSize; while (avail > 0 && pqGetc(&c, conn) == 0) { *buf++ = c; --avail; if (c == '\n') { /* Got a complete line; mark the data removed from libpq */ conn->inStart = conn->inCursor; /* Is it the endmarker line? */ if (bufSize-avail == 3 && buf[-3] == '\\' && buf[-2] == '.') { /* Yes, change state and return 0 */ return PgEndCopy(connid, errorCodePtr); } /* No, return the data to Tcl */ /* fprintf(stderr, "returning %d chars\n", bufSize - avail); */ return bufSize - avail; } } /* We don't have a complete line. * We'd prefer to leave it in libpq's buffer until the rest arrives, * but there is a special case: what if the line is longer than the * buffer Tcl is offering us? In that case we'd better hand over * a partial line, else we'd get into an infinite loop. * Do this in a way that ensures we can't misrecognize a terminator * line later: leave last 3 characters in libpq buffer. */ if (avail == 0 && bufSize > 3) { conn->inStart = conn->inCursor - 3; return bufSize - 3; } return 0; } /* * Called when writing data (via puts) for a copy from stdin */ int PgOutputProc(DRIVER_OUTPUT_PROTO) { Pg_ConnectionId *connid; PGconn *conn; connid = (Pg_ConnectionId *)cData; conn = connid->conn; if (connid->res_copy < 0 || connid->results[connid->res_copy]->resultStatus != PGRES_COPY_IN) { *errorCodePtr = EBUSY; return -1; } errno = 0; if (pqPutnchar(buf, bufSize, conn)) { *errorCodePtr = errno ? errno : EIO; return -1; } /* This assumes Tcl script will write the terminator line * in a single operation; maybe not such a good assumption? */ if (bufSize >= 3 && strncmp(&buf[bufSize-3], "\\.\n", 3) == 0) { (void) pqFlush(conn); if (PgEndCopy(connid, errorCodePtr) == -1) return -1; } return bufSize; } #if HAVE_TCL_GETFILEPROC Tcl_File PgGetFileProc(ClientData cData, int direction) { return (Tcl_File)NULL; } #endif Tcl_ChannelType Pg_ConnType = { "pgsql", /* channel type */ NULL, /* blockmodeproc */ PgDelConnectionId, /* closeproc */ PgInputProc, /* inputproc */ PgOutputProc, /* outputproc */ /* Note the additional stuff can be left NULL, or is initialized during a PgSetConnectionId */ }; /* * Create and register a new channel for the connection */ void PgSetConnectionId(Tcl_Interp *interp, PGconn *conn) { Tcl_Channel conn_chan; Pg_ConnectionId *connid; int i; connid = (Pg_ConnectionId *)ckalloc(sizeof(Pg_ConnectionId)); connid->conn = conn; connid->res_count = 0; connid->res_last = -1; connid->res_max = RES_START; connid->res_hardmax = RES_HARD_MAX; connid->res_copy = -1; connid->res_copyStatus = RES_COPY_NONE; connid->results = (PGresult**)ckalloc(sizeof(PGresult*) * RES_START); for (i = 0; i < RES_START; i++) connid->results[i] = NULL; connid->notify_list = NULL; connid->notifier_running = 0; sprintf(connid->id, "pgsql%d", PQsocket(conn)); #if TCL_MAJOR_VERSION == 7 && TCL_MINOR_VERSION == 5 /* Original signature (only seen in Tcl 7.5) */ conn_chan = Tcl_CreateChannel(&Pg_ConnType, connid->id, NULL, NULL, (ClientData)connid); #else /* Tcl 7.6 and later use this */ conn_chan = Tcl_CreateChannel(&Pg_ConnType, connid->id, (ClientData)connid, TCL_READABLE | TCL_WRITABLE); #endif Tcl_SetChannelOption(interp, conn_chan, "-buffering", "line"); Tcl_SetResult(interp, connid->id, TCL_VOLATILE); Tcl_RegisterChannel(interp, conn_chan); } /* * Get back the connection from the Id */ PGconn * PgGetConnectionId(Tcl_Interp *interp, char *id, Pg_ConnectionId **connid_p) { Tcl_Channel conn_chan; Pg_ConnectionId *connid; conn_chan = Tcl_GetChannel(interp, id, 0); if(conn_chan == NULL || Tcl_GetChannelType(conn_chan) != &Pg_ConnType) { Tcl_ResetResult(interp); Tcl_AppendResult(interp, id, " is not a valid postgresql connection", 0); return (PGconn *)NULL; } connid = (Pg_ConnectionId *)Tcl_GetChannelInstanceData(conn_chan); if (connid_p) *connid_p = connid; return connid->conn; } /* * Remove a connection Id from the hash table and * close all portals the user forgot. */ int PgDelConnectionId(DRIVER_DEL_PROTO) { Tcl_HashEntry *entry; Tcl_HashSearch hsearch; Pg_ConnectionId *connid; Pg_TclNotifies *notifies; int i; connid = (Pg_ConnectionId *)cData; for (i = 0; i < connid->res_max; i++) { if (connid->results[i]) PQclear(connid->results[i]); } ckfree((void*)connid->results); /* Release associated notify info */ while ((notifies = connid->notify_list) != NULL) { connid->notify_list = notifies->next; for (entry = Tcl_FirstHashEntry(¬ifies->notify_hash, &hsearch); entry != NULL; entry = Tcl_NextHashEntry(&hsearch)) { ckfree((char*) Tcl_GetHashValue(entry)); } Tcl_DeleteHashTable(¬ifies->notify_hash); Tcl_DontCallWhenDeleted(notifies->interp, PgNotifyInterpDelete, (ClientData) notifies); ckfree((void*) notifies); } /* Turn off the Tcl event source for this connection, * and delete any pending notify events. */ PgStopNotifyEventSource(connid); /* Close the libpq connection too */ PQfinish(connid->conn); connid->conn = NULL; /* * We must use Tcl_EventuallyFree because we don't want the connid struct * to vanish instantly if Pg_Notify_EventProc is active for it. * (Otherwise, closing the connection from inside a pg_listen callback * could lead to coredump.) Pg_Notify_EventProc can detect that the * connection has been deleted from under it by checking connid->conn. */ Tcl_EventuallyFree((ClientData) connid, TCL_DYNAMIC); return 0; } /* * Find a slot for a new result id. If the table is full, expand it by * a factor of 2. However, do not expand past the hard max, as the client * is probably just not clearing result handles like they should. */ int PgSetResultId(Tcl_Interp *interp, char *connid_c, PGresult *res) { Tcl_Channel conn_chan; Pg_ConnectionId *connid; int resid, i; char buf[32]; conn_chan = Tcl_GetChannel(interp, connid_c, 0); if(conn_chan == NULL) return TCL_ERROR; connid = (Pg_ConnectionId *)Tcl_GetChannelInstanceData(conn_chan); for (resid = connid->res_last+1; resid != connid->res_last; resid++) { if (resid == connid->res_max) resid = 0; if (!connid->results[resid]) { connid->res_last = resid; break; } } if (connid->results[resid]) { if (connid->res_max == connid->res_hardmax) { Tcl_SetResult(interp, "hard limit on result handles reached", TCL_STATIC); return TCL_ERROR; } connid->res_last = connid->res_max; resid = connid->res_max; connid->res_max *= 2; if (connid->res_max > connid->res_hardmax) connid->res_max = connid->res_hardmax; connid->results = (PGresult**)ckrealloc((void*)connid->results, sizeof(PGresult*) * connid->res_max); for (i = connid->res_last; i < connid->res_max; i++) connid->results[i] = NULL; } connid->results[resid] = res; sprintf(buf, "%s.%d", connid_c, resid); Tcl_SetResult(interp, buf, TCL_VOLATILE); return resid; } static int getresid(Tcl_Interp *interp, char *id, Pg_ConnectionId **connid_p) { Tcl_Channel conn_chan; char *mark; int resid; Pg_ConnectionId *connid; if (!(mark = strchr(id, '.'))) return -1; *mark = '\0'; conn_chan = Tcl_GetChannel(interp, id, 0); *mark = '.'; if(conn_chan == NULL || Tcl_GetChannelType(conn_chan) != &Pg_ConnType) { Tcl_SetResult(interp, "Invalid connection handle", TCL_STATIC); return -1; } if (Tcl_GetInt(interp, mark + 1, &resid) == TCL_ERROR) { Tcl_SetResult(interp, "Poorly formated result handle", TCL_STATIC); return -1; } connid = (Pg_ConnectionId *)Tcl_GetChannelInstanceData(conn_chan); if (resid < 0 || resid > connid->res_max || connid->results[resid] == NULL) { Tcl_SetResult(interp, "Invalid result handle", TCL_STATIC); return -1; } *connid_p = connid; return resid; } /* * Get back the result pointer from the Id */ PGresult * PgGetResultId(Tcl_Interp *interp, char *id) { Pg_ConnectionId *connid; int resid; if (!id) return NULL; resid = getresid(interp, id, &connid); if (resid == -1) return NULL; return connid->results[resid]; } /* * Remove a result Id from the hash tables */ void PgDelResultId(Tcl_Interp *interp, char *id) { Pg_ConnectionId *connid; int resid; resid = getresid(interp, id, &connid); if (resid == -1) return; connid->results[resid] = 0; } /* * Get the connection Id from the result Id */ int PgGetConnByResultId(Tcl_Interp *interp, char *resid_c) { char *mark; Tcl_Channel conn_chan; if (!(mark = strchr(resid_c, '.'))) goto error_out; *mark = '\0'; conn_chan = Tcl_GetChannel(interp, resid_c, 0); *mark = '.'; if(conn_chan && Tcl_GetChannelType(conn_chan) != &Pg_ConnType) { Tcl_SetResult(interp, Tcl_GetChannelName(conn_chan), TCL_VOLATILE); return TCL_OK; } error_out: Tcl_ResetResult(interp); Tcl_AppendResult(interp, resid_c, " is not a valid connection\n", 0); return TCL_ERROR; } /******************************************** Notify event source These functions allow asynchronous notify messages arriving from the SQL server to be dispatched as Tcl events. See the Tcl Notifier(3) man page for more info. The main trick in this code is that we have to cope with status changes between the queueing and the execution of a Tcl event. For example, if the user changes or cancels the pg_listen callback command, we should use the new setting; we do that by not resolving the notify relation name until the last possible moment. We also have to handle closure of the channel or deletion of the interpreter to be used for the callback (note that with multiple interpreters, the channel can outlive the interpreter it was created by!) Upon closure of the channel, we immediately delete any pending events that reference it. But for interpreter deletion, we just set any matching interp pointers in the Pg_TclNotifies list to NULL. The list item stays around until the connection is deleted. (This avoids trouble with walking through a list whose members may get deleted under us.) *******************************************/ typedef struct { Tcl_Event header; /* Standard Tcl event info */ PGnotify info; /* Notify name from SQL server */ Pg_ConnectionId *connid; /* Connection for server */ } NotifyEvent; /* Setup before waiting in event loop */ static void Pg_Notify_SetupProc (ClientData clientData, int flags) { Pg_ConnectionId *connid = (Pg_ConnectionId *) clientData; Tcl_File handle; /* We classify SQL notifies as Tcl file events. */ if (!(flags & TCL_FILE_EVENTS)) { return; } /* Set up to watch for asynchronous data arrival on backend channel */ handle = Tcl_GetFile((ClientData) PQsocket(connid->conn), TCL_UNIX_FD); Tcl_WatchFile(handle, TCL_READABLE); } /* Check to see if events have arrived in event loop */ static void Pg_Notify_CheckProc (ClientData clientData, int flags) { Pg_ConnectionId *connid = (Pg_ConnectionId *) clientData; Tcl_File handle; /* We classify SQL notifies as Tcl file events. */ if (!(flags & TCL_FILE_EVENTS)) { return; } /* Consume any data available from the SQL server * (this just buffers it internally to libpq). * We use Tcl_FileReady to avoid a useless kernel call * when no data is available. */ handle = Tcl_GetFile((ClientData) PQsocket(connid->conn), TCL_UNIX_FD); if (Tcl_FileReady(handle, TCL_READABLE) != 0) { PQconsumeInput(connid->conn); } /* Transfer notify events from libpq to Tcl event queue. */ PgNotifyTransferEvents(connid); } /* Dispatch an event that has reached the front of the event queue */ static int Pg_Notify_EventProc (Tcl_Event *evPtr, int flags) { NotifyEvent *event = (NotifyEvent *) evPtr; Pg_TclNotifies *notifies; Tcl_HashEntry *entry; char *callback; char *svcallback; /* We classify SQL notifies as Tcl file events. */ if (!(flags & TCL_FILE_EVENTS)) { return 0; } /* Preserve/Release to ensure the connection struct doesn't disappear * underneath us. */ Tcl_Preserve((ClientData) event->connid); /* * Loop for each interpreter that has ever registered on the connection. * Each one can get a callback. */ for (notifies = event->connid->notify_list; notifies != NULL; notifies = notifies->next) { Tcl_Interp *interp = notifies->interp; if (interp == NULL) continue; /* ignore deleted interpreter */ /* * Find the callback to be executed for this interpreter, if any. */ entry = Tcl_FindHashEntry(¬ifies->notify_hash, event->info.relname); if (entry == NULL) continue; /* no pg_listen in this interpreter */ callback = (char *) Tcl_GetHashValue(entry); if (callback == NULL) continue; /* safety check -- shouldn't happen */ /* * We have to copy the callback string in case the user executes * a new pg_listen during the callback. */ svcallback = (char *) ckalloc((unsigned) (strlen(callback) + 1)); strcpy(svcallback, callback); /* * Execute the callback. */ Tcl_Preserve((ClientData) interp); if (Tcl_GlobalEval(interp, svcallback) != TCL_OK) { Tcl_AddErrorInfo(interp, "\n (\"pg_listen\" script)"); Tcl_BackgroundError(interp); } Tcl_Release((ClientData) interp); ckfree(svcallback); /* * Check for the possibility that the callback closed the connection. */ if (event->connid->conn == NULL) break; } Tcl_Release((ClientData) event->connid); return 1; } /* * Transfer any notify events available from libpq into the Tcl event queue. * Note that this must be called after each PQexec (to capture notifies * that arrive during command execution) as well as in Pg_Notify_CheckProc * (to capture notifies that arrive when we're idle). */ void PgNotifyTransferEvents (Pg_ConnectionId *connid) { PGnotify *notify; while ((notify = PQnotifies(connid->conn)) != NULL) { NotifyEvent *event = (NotifyEvent *) ckalloc(sizeof(NotifyEvent)); event->header.proc = Pg_Notify_EventProc; event->info = *notify; event->connid = connid; Tcl_QueueEvent((Tcl_Event *) event, TCL_QUEUE_TAIL); free(notify); } } /* * Cleanup code for coping when an interpreter or a channel is deleted. * * PgNotifyInterpDelete is registered as an interpreter deletion callback * for each extant Pg_TclNotifies structure. * NotifyEventDeleteProc is used by PgStopNotifyEventSource to get * rid of pending Tcl events that reference a dying connection. */ void PgNotifyInterpDelete(ClientData clientData, Tcl_Interp *interp) { /* Mark the interpreter dead, but don't do anything else yet */ Pg_TclNotifies *notifies = (Pg_TclNotifies *) clientData; notifies->interp = NULL; } /* Comparison routine for detecting events to be removed by DeleteEvent */ static int NotifyEventDeleteProc(Tcl_Event *evPtr, ClientData clientData) { NotifyEvent *event; Pg_ConnectionId *connid = (Pg_ConnectionId *) clientData; if (evPtr->proc != Pg_Notify_EventProc) { return 0; } event = (NotifyEvent *) evPtr; if (event->connid != connid) { return 0; } return 1; } /* Start and stop the notify event source for a connection. * We do not bother to run the notifier unless at least one * pg_listen has been executed on the connection. Currently, * once started the notifier is run until the connection is * closed. */ void PgStartNotifyEventSource(Pg_ConnectionId *connid) { /* Start the notify event source if it isn't already running */ if (! connid->notifier_running) { Tcl_CreateEventSource(Pg_Notify_SetupProc, Pg_Notify_CheckProc, (ClientData) connid); connid->notifier_running = 1; } } void PgStopNotifyEventSource(Pg_ConnectionId *connid) { /* Remove the event source */ if (connid->notifier_running) { Tcl_DeleteEventSource(Pg_Notify_SetupProc, Pg_Notify_CheckProc, (ClientData) connid); connid->notifier_running = 0; } /* Kill any queued Tcl events that reference this channel */ Tcl_DeleteEvents(NotifyEventDeleteProc, (ClientData) connid); }