/*- * See the file LICENSE for redistribution information. * * Copyright (c) 1999-2001 * Sleepycat Software. All rights reserved. */ #include "db_config.h" #ifndef lint static const char revid[] = "$Id: tcl_internal.c,v 1.1.1.1 2003/02/15 04:56:14 zarzycki Exp $"; #endif /* not lint */ #ifndef NO_SYSTEM_INCLUDES #include #include #include #include #endif #include "db_int.h" #include "dbinc/tcl_db.h" #include "dbinc/db_page.h" #include "dbinc/db_am.h" #include "dbinc_auto/db_ext.h" /* * * internal.c -- * * This file contains internal functions we need to maintain * state for our Tcl interface. * * NOTE: This all uses a linear linked list. If we end up with * too many info structs such that this is a performance hit, it * should be redone using hashes or a list per type. The assumption * is that the user won't have more than a few dozen info structs * in operation at any given point in time. Even a complicated * application with a few environments, nested transactions, locking, * and several databases open, using cursors should not have a * negative performance impact, in terms of searching the list to * get/manipulate the info structure. */ /* * Prototypes for procedures defined later in this file: */ static void tcl_flag_callback __P((u_int32_t, const FN *, void *)); /* * Private structure type used to pass both an interp and an object into * a callback's single void *. */ struct __tcl_callback_bundle { Tcl_Interp *interp; Tcl_Obj *obj; }; #define GLOB_CHAR(c) ((c) == '*' || (c) == '?') /* * PUBLIC: DBTCL_INFO *_NewInfo __P((Tcl_Interp *, * PUBLIC: void *, char *, enum INFOTYPE)); * * _NewInfo -- * * This function will create a new info structure and fill it in * with the name and pointer, id and type. */ DBTCL_INFO * _NewInfo(interp, anyp, name, type) Tcl_Interp *interp; void *anyp; char *name; enum INFOTYPE type; { DBTCL_INFO *p; int i, ret; if ((ret = __os_malloc(NULL, sizeof(DBTCL_INFO), &p)) != 0) { Tcl_SetResult(interp, db_strerror(ret), TCL_STATIC); return (NULL); } if ((ret = __os_strdup(NULL, name, &p->i_name)) != 0) { Tcl_SetResult(interp, db_strerror(ret), TCL_STATIC); __os_free(NULL, p); return (NULL); } p->i_interp = interp; p->i_anyp = anyp; p->i_data = 0; p->i_data2 = 0; p->i_type = type; p->i_parent = NULL; p->i_err = NULL; p->i_errpfx = NULL; p->i_lockobj.data = NULL; p->i_btcompare = NULL; p->i_dupcompare = NULL; p->i_hashproc = NULL; p->i_second_call = NULL; p->i_rep_eid = NULL; p->i_rep_send = NULL; for (i = 0; i < MAX_ID; i++) p->i_otherid[i] = 0; LIST_INSERT_HEAD(&__db_infohead, p, entries); return (p); } /* * PUBLIC: void *_NameToPtr __P((CONST char *)); */ void * _NameToPtr(name) CONST char *name; { DBTCL_INFO *p; for (p = LIST_FIRST(&__db_infohead); p != NULL; p = LIST_NEXT(p, entries)) if (strcmp(name, p->i_name) == 0) return (p->i_anyp); return (NULL); } /* * PUBLIC: DBTCL_INFO *_PtrToInfo __P((CONST void *)); */ DBTCL_INFO * _PtrToInfo(ptr) CONST void *ptr; { DBTCL_INFO *p; for (p = LIST_FIRST(&__db_infohead); p != NULL; p = LIST_NEXT(p, entries)) if (p->i_anyp == ptr) return (p); return (NULL); } /* * PUBLIC: DBTCL_INFO *_NameToInfo __P((CONST char *)); */ DBTCL_INFO * _NameToInfo(name) CONST char *name; { DBTCL_INFO *p; for (p = LIST_FIRST(&__db_infohead); p != NULL; p = LIST_NEXT(p, entries)) if (strcmp(name, p->i_name) == 0) return (p); return (NULL); } /* * PUBLIC: void _SetInfoData __P((DBTCL_INFO *, void *)); */ void _SetInfoData(p, data) DBTCL_INFO *p; void *data; { if (p == NULL) return; p->i_anyp = data; return; } /* * PUBLIC: void _DeleteInfo __P((DBTCL_INFO *)); */ void _DeleteInfo(p) DBTCL_INFO *p; { if (p == NULL) return; LIST_REMOVE(p, entries); if (p->i_lockobj.data != NULL) __os_free(NULL, p->i_lockobj.data); if (p->i_err != NULL) { fclose(p->i_err); p->i_err = NULL; } if (p->i_errpfx != NULL) __os_free(NULL, p->i_errpfx); if (p->i_btcompare != NULL) Tcl_DecrRefCount(p->i_btcompare); if (p->i_dupcompare != NULL) Tcl_DecrRefCount(p->i_dupcompare); if (p->i_hashproc != NULL) Tcl_DecrRefCount(p->i_hashproc); if (p->i_second_call != NULL) Tcl_DecrRefCount(p->i_second_call); if (p->i_rep_eid != NULL) Tcl_DecrRefCount(p->i_rep_eid); if (p->i_rep_send != NULL) Tcl_DecrRefCount(p->i_rep_send); __os_free(NULL, p->i_name); __os_free(NULL, p); return; } /* * PUBLIC: int _SetListElem __P((Tcl_Interp *, * PUBLIC: Tcl_Obj *, void *, int, void *, int)); */ int _SetListElem(interp, list, elem1, e1cnt, elem2, e2cnt) Tcl_Interp *interp; Tcl_Obj *list; void *elem1, *elem2; int e1cnt, e2cnt; { Tcl_Obj *myobjv[2], *thislist; int myobjc; myobjc = 2; myobjv[0] = Tcl_NewByteArrayObj((u_char *)elem1, e1cnt); myobjv[1] = Tcl_NewByteArrayObj((u_char *)elem2, e2cnt); thislist = Tcl_NewListObj(myobjc, myobjv); if (thislist == NULL) return (TCL_ERROR); return (Tcl_ListObjAppendElement(interp, list, thislist)); } /* * PUBLIC: int _SetListElemInt __P((Tcl_Interp *, Tcl_Obj *, void *, int)); */ int _SetListElemInt(interp, list, elem1, elem2) Tcl_Interp *interp; Tcl_Obj *list; void *elem1; int elem2; { Tcl_Obj *myobjv[2], *thislist; int myobjc; myobjc = 2; myobjv[0] = Tcl_NewByteArrayObj((u_char *)elem1, strlen((char *)elem1)); myobjv[1] = Tcl_NewIntObj(elem2); thislist = Tcl_NewListObj(myobjc, myobjv); if (thislist == NULL) return (TCL_ERROR); return (Tcl_ListObjAppendElement(interp, list, thislist)); } /* * PUBLIC: int _SetListRecnoElem __P((Tcl_Interp *, Tcl_Obj *, * PUBLIC: db_recno_t, u_char *, int)); */ int _SetListRecnoElem(interp, list, elem1, elem2, e2size) Tcl_Interp *interp; Tcl_Obj *list; db_recno_t elem1; u_char *elem2; int e2size; { Tcl_Obj *myobjv[2], *thislist; int myobjc; myobjc = 2; myobjv[0] = Tcl_NewLongObj((long)elem1); myobjv[1] = Tcl_NewByteArrayObj(elem2, e2size); thislist = Tcl_NewListObj(myobjc, myobjv); if (thislist == NULL) return (TCL_ERROR); return (Tcl_ListObjAppendElement(interp, list, thislist)); } /* * _Set3DBTList -- * This is really analogous to both _SetListElem and * _SetListRecnoElem--it's used for three-DBT lists returned by * DB->pget and DBC->pget(). We'd need a family of four functions * to handle all the recno/non-recno cases, however, so we make * this a little more aware of the internals and do the logic inside. * * XXX * One of these days all these functions should probably be cleaned up * to eliminate redundancy and bring them into the standard DB * function namespace. * * PUBLIC: int _Set3DBTList __P((Tcl_Interp *, Tcl_Obj *, DBT *, int, * PUBLIC: DBT *, int, DBT *)); */ int _Set3DBTList(interp, list, elem1, is1recno, elem2, is2recno, elem3) Tcl_Interp *interp; Tcl_Obj *list; DBT *elem1, *elem2, *elem3; int is1recno, is2recno; { Tcl_Obj *myobjv[3], *thislist; if (is1recno) myobjv[0] = Tcl_NewLongObj((long)*(db_recno_t *)elem1->data); else myobjv[0] = Tcl_NewByteArrayObj((u_char *)elem1->data, elem1->size); if (is2recno) myobjv[1] = Tcl_NewLongObj((long)*(db_recno_t *)elem2->data); else myobjv[1] = Tcl_NewByteArrayObj((u_char *)elem2->data, elem2->size); myobjv[2] = Tcl_NewByteArrayObj((u_char *)elem3->data, elem3->size); thislist = Tcl_NewListObj(3, myobjv); if (thislist == NULL) return (TCL_ERROR); return (Tcl_ListObjAppendElement(interp, list, thislist)); } /* * _SetMultiList -- build a list for return from multiple get. * * PUBLIC: int _SetMultiList __P((Tcl_Interp *, * PUBLIC: Tcl_Obj *, DBT *, DBT*, int, int)); */ int _SetMultiList(interp, list, key, data, type, flag) Tcl_Interp *interp; Tcl_Obj *list; DBT *key, *data; int type, flag; { db_recno_t recno; u_int32_t dlen, klen; int result; void *pointer, *dp, *kp; recno = 0; dlen = 0; kp = NULL; DB_MULTIPLE_INIT(pointer, data); result = TCL_OK; if (type == DB_RECNO || type == DB_QUEUE) recno = *(db_recno_t *) key->data; else kp = key->data; klen = key->size; do { if (flag & DB_MULTIPLE_KEY) { if (type == DB_RECNO || type == DB_QUEUE) DB_MULTIPLE_RECNO_NEXT(pointer, data, recno, dp, dlen); else DB_MULTIPLE_KEY_NEXT(pointer, data, kp, klen, dp, dlen); } else DB_MULTIPLE_NEXT(pointer, data, dp, dlen); if (pointer == NULL) break; if (type == DB_RECNO || type == DB_QUEUE) { result = _SetListRecnoElem(interp, list, recno, dp, dlen); recno++; } else result = _SetListElem(interp, list, kp, klen, dp, dlen); } while (result == TCL_OK); return (result); } /* * PUBLIC: int _GetGlobPrefix __P((char *, char **)); */ int _GetGlobPrefix(pattern, prefix) char *pattern; char **prefix; { int i, j; char *p; /* * Duplicate it, we get enough space and most of the work is done. */ if (__os_strdup(NULL, pattern, prefix) != 0) return (1); p = *prefix; for (i = 0, j = 0; p[i] && !GLOB_CHAR(p[i]); i++, j++) /* * Check for an escaped character and adjust */ if (p[i] == '\\' && p[i+1]) { p[j] = p[i+1]; i++; } else p[j] = p[i]; p[j] = 0; return (0); } /* * PUBLIC: int _ReturnSetup __P((Tcl_Interp *, int, int, char *)); */ int _ReturnSetup(interp, ret, ok, errmsg) Tcl_Interp *interp; int ret, ok; char *errmsg; { char *msg; if (ret > 0) return (_ErrorSetup(interp, ret, errmsg)); /* * We either have success or a DB error. If a DB error, set up the * string. We return an error if not one of the errors we catch. * If anyone wants to reset the result to return anything different, * then the calling function is responsible for doing so via * Tcl_ResetResult or another Tcl_SetObjResult. */ if (ret == 0) { Tcl_SetResult(interp, "0", TCL_STATIC); return (TCL_OK); } msg = db_strerror(ret); Tcl_AppendResult(interp, msg, NULL); if (ok) return (TCL_OK); else { Tcl_SetErrorCode(interp, "BerkeleyDB", msg, NULL); return (TCL_ERROR); } } /* * PUBLIC: int _ErrorSetup __P((Tcl_Interp *, int, char *)); */ int _ErrorSetup(interp, ret, errmsg) Tcl_Interp *interp; int ret; char *errmsg; { Tcl_SetErrno(ret); Tcl_AppendResult(interp, errmsg, ":", Tcl_PosixError(interp), NULL); return (TCL_ERROR); } /* * PUBLIC: void _ErrorFunc __P((CONST char *, char *)); */ void _ErrorFunc(pfx, msg) CONST char *pfx; char *msg; { DBTCL_INFO *p; Tcl_Interp *interp; int size; char *err; p = _NameToInfo(pfx); if (p == NULL) return; interp = p->i_interp; size = strlen(pfx) + strlen(msg) + 4; /* * If we cannot allocate enough to put together the prefix * and message then give them just the message. */ if (__os_malloc(NULL, size, &err) != 0) { Tcl_AddErrorInfo(interp, msg); Tcl_AppendResult(interp, msg, "\n", NULL); return; } snprintf(err, size, "%s: %s", pfx, msg); Tcl_AddErrorInfo(interp, err); Tcl_AppendResult(interp, err, "\n", NULL); __os_free(NULL, err); return; } #define INVALID_LSNMSG "Invalid LSN with %d parts. Should have 2.\n" /* * PUBLIC: int _GetLsn __P((Tcl_Interp *, Tcl_Obj *, DB_LSN *)); */ int _GetLsn(interp, obj, lsn) Tcl_Interp *interp; Tcl_Obj *obj; DB_LSN *lsn; { Tcl_Obj **myobjv; char msg[MSG_SIZE]; int myobjc, result; u_int32_t tmp; result = Tcl_ListObjGetElements(interp, obj, &myobjc, &myobjv); if (result == TCL_ERROR) return (result); if (myobjc != 2) { result = TCL_ERROR; snprintf(msg, MSG_SIZE, INVALID_LSNMSG, myobjc); Tcl_SetResult(interp, msg, TCL_VOLATILE); return (result); } result = _GetUInt32(interp, myobjv[0], &tmp); if (result == TCL_ERROR) return (result); lsn->file = tmp; result = _GetUInt32(interp, myobjv[1], &tmp); lsn->offset = tmp; return (result); } /* * _GetUInt32 -- * Get a u_int32_t from a Tcl object. Tcl_GetIntFromObj does the * right thing most of the time, but on machines where a long is 8 bytes * and an int is 4 bytes, it errors on integers between the maximum * int32_t and the maximum u_int32_t. This is correct, but we generally * want a u_int32_t in the end anyway, so we use Tcl_GetLongFromObj and do * the bounds checking ourselves. * * This code looks much like Tcl_GetIntFromObj, only with a different * bounds check. It's essentially Tcl_GetUnsignedIntFromObj, which * unfortunately doesn't exist. * * PUBLIC: int _GetUInt32 __P((Tcl_Interp *, Tcl_Obj *, u_int32_t *)); */ int _GetUInt32(interp, obj, resp) Tcl_Interp *interp; Tcl_Obj *obj; u_int32_t *resp; { int result; long ltmp; result = Tcl_GetLongFromObj(interp, obj, <mp); if (result != TCL_OK) return (result); if ((unsigned long)ltmp != (u_int32_t)ltmp) { if (interp != NULL) { Tcl_ResetResult(interp); Tcl_AppendToObj(Tcl_GetObjResult(interp), "integer value too large for u_int32_t", -1); } return (TCL_ERROR); } *resp = (u_int32_t)ltmp; return (TCL_OK); } /* * tcl_flag_callback -- * Callback for db_pr.c functions that contain the FN struct mapping * flag values to meaningful strings. This function appends a Tcl_Obj * containing each pertinent flag string to the specified Tcl list. */ static void tcl_flag_callback(flags, fn, vtcbp) u_int32_t flags; const FN *fn; void *vtcbp; { const FN *fnp; Tcl_Interp *interp; Tcl_Obj *newobj, *listobj; int result; struct __tcl_callback_bundle *tcbp; tcbp = (struct __tcl_callback_bundle *)vtcbp; interp = tcbp->interp; listobj = tcbp->obj; for (fnp = fn; fnp->mask != 0; ++fnp) if (LF_ISSET(fnp->mask)) { newobj = Tcl_NewStringObj(fnp->name, strlen(fnp->name)); result = Tcl_ListObjAppendElement(interp, listobj, newobj); /* * Tcl_ListObjAppendElement is defined to return TCL_OK * unless listobj isn't actually a list (or convertible * into one). If this is the case, we screwed up badly * somehow. */ DB_ASSERT(result == TCL_OK); } } /* * _GetFlagsList -- * Get a new Tcl object, containing a list of the string values * associated with a particular set of flag values, given a function * that can extract the right names for the right flags. * * PUBLIC: Tcl_Obj *_GetFlagsList __P((Tcl_Interp *, u_int32_t, * PUBLIC: void (*)(u_int32_t, void *, * PUBLIC: void (*)(u_int32_t, const FN *, void *)))); */ Tcl_Obj * _GetFlagsList(interp, flags, func) Tcl_Interp *interp; u_int32_t flags; void (*func) __P((u_int32_t, void *, void (*)(u_int32_t, const FN *, void *))); { Tcl_Obj *newlist; struct __tcl_callback_bundle tcb; newlist = Tcl_NewObj(); memset(&tcb, 0, sizeof(tcb)); tcb.interp = interp; tcb.obj = newlist; func(flags, &tcb, tcl_flag_callback); return (newlist); } int __debug_stop, __debug_on, __debug_print, __debug_test; /* * PUBLIC: void _debug_check __P((void)); */ void _debug_check() { if (__debug_on == 0) return; if (__debug_print != 0) { printf("\r%7d:", __debug_on); fflush(stdout); } if (__debug_on++ == __debug_test || __debug_stop) __db_loadme(); } /* * XXX * Tcl 8.1+ Tcl_GetByteArrayFromObj/Tcl_GetIntFromObj bug. * * There is a bug in Tcl 8.1+ and byte arrays in that if it happens * to use an object as both a byte array and something else like * an int, and you've done a Tcl_GetByteArrayFromObj, then you * do a Tcl_GetIntFromObj, your memory is deleted. * * Workaround is for all byte arrays we want to use, if it can be * represented as an integer, we copy it so that we don't lose the * memory. */ /* * PUBLIC: int _CopyObjBytes __P((Tcl_Interp *, Tcl_Obj *obj, void **, * PUBLIC: u_int32_t *, int *)); */ int _CopyObjBytes(interp, obj, newp, sizep, freep) Tcl_Interp *interp; Tcl_Obj *obj; void **newp; u_int32_t *sizep; int *freep; { void *tmp, *new; int i, len, ret; /* * If the object is not an int, then just return the byte * array because it won't be transformed out from under us. * If it is a number, we need to copy it. */ *freep = 0; ret = Tcl_GetIntFromObj(interp, obj, &i); tmp = Tcl_GetByteArrayFromObj(obj, &len); *sizep = len; if (ret == TCL_ERROR) { Tcl_ResetResult(interp); *newp = tmp; return (0); } /* * If we get here, we have an integer that might be reused * at some other point so we cannot count on GetByteArray * keeping our pointer valid. */ if ((ret = __os_malloc(NULL, len, &new)) != 0) return (ret); memcpy(new, tmp, len); *newp = new; *freep = 1; return (0); }