/********************************************************************** * ruleutils.c - Functions to convert stored expressions/querytrees * back to source text * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/utils/adt/ruleutils.c,v 1.61 2000/09/12 21:07:05 tgl Exp $ * * This software is copyrighted by Jan Wieck - Hamburg. * * The author hereby grants permission to use, copy, modify, * distribute, and license this software and its documentation * for any purpose, provided that existing copyright notices are * retained in all copies and that this notice is included * verbatim in any distributions. No written agreement, license, * or royalty fee is required for any of the authorized uses. * Modifications to this software may be copyrighted by their * author and need not follow the licensing terms described * here, provided that the new terms are clearly indicated on * the first page of each file where they apply. * * IN NO EVENT SHALL THE AUTHOR OR DISTRIBUTORS BE LIABLE TO ANY * PARTY FOR DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR * CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OF THIS * SOFTWARE, ITS DOCUMENTATION, OR ANY DERIVATIVES THEREOF, EVEN * IF THE AUTHOR HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH * DAMAGE. * * THE AUTHOR AND DISTRIBUTORS SPECIFICALLY DISCLAIM ANY * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR * PURPOSE, AND NON-INFRINGEMENT. THIS SOFTWARE IS PROVIDED ON * AN "AS IS" BASIS, AND THE AUTHOR AND DISTRIBUTORS HAVE NO * OBLIGATION TO PROVIDE MAINTENANCE, SUPPORT, UPDATES, * ENHANCEMENTS, OR MODIFICATIONS. * **********************************************************************/ #include #include #include "postgres.h" #include "catalog/pg_index.h" #include "catalog/pg_operator.h" #include "catalog/pg_shadow.h" #include "commands/view.h" #include "executor/spi.h" #include "lib/stringinfo.h" #include "optimizer/clauses.h" #include "optimizer/tlist.h" #include "parser/keywords.h" #include "parser/parse_expr.h" #include "parser/parsetree.h" #include "rewrite/rewriteManip.h" #include "utils/lsyscache.h" /* ---------- * Local data types * ---------- */ typedef struct { StringInfo buf; /* output buffer to append to */ List *rangetables; /* List of List of RangeTblEntry */ bool varprefix; /* TRUE to print prefixes on Vars */ } deparse_context; /* ---------- * Global data * ---------- */ static char *rulename = NULL; static void *plan_getrule = NULL; static char *query_getrule = "SELECT * FROM pg_rewrite WHERE rulename = $1"; static void *plan_getview = NULL; static char *query_getview = "SELECT * FROM pg_rewrite WHERE rulename = $1"; static void *plan_getam = NULL; static char *query_getam = "SELECT * FROM pg_am WHERE oid = $1"; static void *plan_getopclass = NULL; static char *query_getopclass = "SELECT * FROM pg_opclass WHERE oid = $1"; /* ---------- * Local functions * * Most of these functions used to use fixed-size buffers to build their * results. Now, they take an (already initialized) StringInfo object * as a parameter, and append their text output to its contents. * ---------- */ static void make_ruledef(StringInfo buf, HeapTuple ruletup, TupleDesc rulettc); static void make_viewdef(StringInfo buf, HeapTuple ruletup, TupleDesc rulettc); static void get_query_def(Query *query, StringInfo buf, List *parentrtables); static void get_select_query_def(Query *query, deparse_context *context); static void get_insert_query_def(Query *query, deparse_context *context); static void get_update_query_def(Query *query, deparse_context *context); static void get_delete_query_def(Query *query, deparse_context *context); static RangeTblEntry *get_rte_for_var(Var *var, deparse_context *context); static void get_rule_expr(Node *node, deparse_context *context); static void get_func_expr(Expr *expr, deparse_context *context); static void get_tle_expr(TargetEntry *tle, deparse_context *context); static void get_const_expr(Const *constval, deparse_context *context); static void get_sublink_expr(Node *node, deparse_context *context); static void get_from_clause(Query *query, deparse_context *context); static void get_from_clause_item(Node *jtnode, Query *query, deparse_context *context); static bool tleIsArrayAssign(TargetEntry *tle); static char *quote_identifier(char *ident); static char *get_relation_name(Oid relid); static char *get_attribute_name(Oid relid, int2 attnum); #define only_marker(rte) ((rte)->inh ? "" : "ONLY ") /* ---------- * get_ruledef - Do it all and return a text * that could be used as a statement * to recreate the rule * ---------- */ Datum pg_get_ruledef(PG_FUNCTION_ARGS) { Name rname = PG_GETARG_NAME(0); text *ruledef; Datum args[1]; char nulls[2]; int spirc; HeapTuple ruletup; TupleDesc rulettc; StringInfoData buf; int len; /* ---------- * We need the rules name somewhere deep down: rulename is global * ---------- */ rulename = pstrdup(NameStr(*rname)); /* ---------- * Connect to SPI manager * ---------- */ if (SPI_connect() != SPI_OK_CONNECT) elog(ERROR, "get_ruledef: cannot connect to SPI manager"); /* ---------- * On the first call prepare the plan to lookup pg_proc. * We read pg_proc over the SPI manager instead of using * the syscache to be checked for read access on pg_proc. * ---------- */ if (plan_getrule == NULL) { Oid argtypes[1]; void *plan; argtypes[0] = NAMEOID; plan = SPI_prepare(query_getrule, 1, argtypes); if (plan == NULL) elog(ERROR, "SPI_prepare() failed for \"%s\"", query_getrule); plan_getrule = SPI_saveplan(plan); } /* ---------- * Get the pg_rewrite tuple for this rule * ---------- */ args[0] = PointerGetDatum(rulename); nulls[0] = (rulename == NULL) ? 'n' : ' '; nulls[1] = '\0'; spirc = SPI_execp(plan_getrule, args, nulls, 1); if (spirc != SPI_OK_SELECT) elog(ERROR, "failed to get pg_rewrite tuple for %s", rulename); if (SPI_processed != 1) { if (SPI_finish() != SPI_OK_FINISH) elog(ERROR, "get_ruledef: SPI_finish() failed"); ruledef = palloc(VARHDRSZ + 1); VARATT_SIZEP(ruledef) = VARHDRSZ + 1; VARDATA(ruledef)[0] = '-'; PG_RETURN_TEXT_P(ruledef); } ruletup = SPI_tuptable->vals[0]; rulettc = SPI_tuptable->tupdesc; /* ---------- * Get the rules definition and put it into executors memory * ---------- */ initStringInfo(&buf); make_ruledef(&buf, ruletup, rulettc); len = buf.len + VARHDRSZ; ruledef = SPI_palloc(len); VARATT_SIZEP(ruledef) = len; memcpy(VARDATA(ruledef), buf.data, buf.len); pfree(buf.data); /* ---------- * Disconnect from SPI manager * ---------- */ if (SPI_finish() != SPI_OK_FINISH) elog(ERROR, "get_ruledef: SPI_finish() failed"); /* ---------- * Easy - isn't it? * ---------- */ PG_RETURN_TEXT_P(ruledef); } /* ---------- * get_viewdef - Mainly the same thing, but we * only return the SELECT part of a view * ---------- */ Datum pg_get_viewdef(PG_FUNCTION_ARGS) { Name vname = PG_GETARG_NAME(0); text *ruledef; Datum args[1]; char nulls[1]; int spirc; HeapTuple ruletup; TupleDesc rulettc; StringInfoData buf; int len; char *name; /* ---------- * We need the view name somewhere deep down * ---------- */ rulename = pstrdup(NameStr(*vname)); /* ---------- * Connect to SPI manager * ---------- */ if (SPI_connect() != SPI_OK_CONNECT) elog(ERROR, "get_viewdef: cannot connect to SPI manager"); /* ---------- * On the first call prepare the plan to lookup pg_proc. * We read pg_proc over the SPI manager instead of using * the syscache to be checked for read access on pg_proc. * ---------- */ if (plan_getview == NULL) { Oid argtypes[1]; void *plan; argtypes[0] = NAMEOID; plan = SPI_prepare(query_getview, 1, argtypes); if (plan == NULL) elog(ERROR, "SPI_prepare() failed for \"%s\"", query_getview); plan_getview = SPI_saveplan(plan); } /* ---------- * Get the pg_rewrite tuple for this rule: rulename is actually viewname here * ---------- */ name = MakeRetrieveViewRuleName(rulename); args[0] = PointerGetDatum(name); nulls[0] = ' '; spirc = SPI_execp(plan_getview, args, nulls, 1); if (spirc != SPI_OK_SELECT) elog(ERROR, "failed to get pg_rewrite tuple for view %s", rulename); initStringInfo(&buf); if (SPI_processed != 1) appendStringInfo(&buf, "Not a view"); else { /* ---------- * Get the rules definition and put it into executors memory * ---------- */ ruletup = SPI_tuptable->vals[0]; rulettc = SPI_tuptable->tupdesc; make_viewdef(&buf, ruletup, rulettc); } len = buf.len + VARHDRSZ; ruledef = SPI_palloc(len); VARATT_SIZEP(ruledef) = len; memcpy(VARDATA(ruledef), buf.data, buf.len); pfree(buf.data); pfree(name); /* ---------- * Disconnect from SPI manager * ---------- */ if (SPI_finish() != SPI_OK_FINISH) elog(ERROR, "get_viewdef: SPI_finish() failed"); /* ---------- * Easy - isn't it? * ---------- */ PG_RETURN_TEXT_P(ruledef); } /* ---------- * get_indexdef - Get the definition of an index * ---------- */ Datum pg_get_indexdef(PG_FUNCTION_ARGS) { Oid indexrelid = PG_GETARG_OID(0); text *indexdef; HeapTuple ht_idx; HeapTuple ht_idxrel; HeapTuple ht_indrel; HeapTuple spi_tup; TupleDesc spi_ttc; int spi_fno; Form_pg_index idxrec; Form_pg_class idxrelrec; Form_pg_class indrelrec; Datum spi_args[1]; char spi_nulls[2]; int spirc; int len; int keyno; StringInfoData buf; StringInfoData keybuf; char *sep; /* ---------- * Connect to SPI manager * ---------- */ if (SPI_connect() != SPI_OK_CONNECT) elog(ERROR, "get_indexdef: cannot connect to SPI manager"); /* ---------- * On the first call prepare the plans to lookup pg_am * and pg_opclass. * ---------- */ if (plan_getam == NULL) { Oid argtypes[1]; void *plan; argtypes[0] = OIDOID; plan = SPI_prepare(query_getam, 1, argtypes); if (plan == NULL) elog(ERROR, "SPI_prepare() failed for \"%s\"", query_getam); plan_getam = SPI_saveplan(plan); argtypes[0] = OIDOID; plan = SPI_prepare(query_getopclass, 1, argtypes); if (plan == NULL) elog(ERROR, "SPI_prepare() failed for \"%s\"", query_getopclass); plan_getopclass = SPI_saveplan(plan); } /* ---------- * Fetch the pg_index tuple by the Oid of the index * ---------- */ ht_idx = SearchSysCacheTuple(INDEXRELID, ObjectIdGetDatum(indexrelid), 0, 0, 0); if (!HeapTupleIsValid(ht_idx)) elog(ERROR, "syscache lookup for index %u failed", indexrelid); idxrec = (Form_pg_index) GETSTRUCT(ht_idx); /* ---------- * Fetch the pg_class tuple of the index relation * ---------- */ ht_idxrel = SearchSysCacheTuple(RELOID, ObjectIdGetDatum(idxrec->indexrelid), 0, 0, 0); if (!HeapTupleIsValid(ht_idxrel)) elog(ERROR, "syscache lookup for relid %u failed", idxrec->indexrelid); idxrelrec = (Form_pg_class) GETSTRUCT(ht_idxrel); /* ---------- * Fetch the pg_class tuple of the indexed relation * ---------- */ ht_indrel = SearchSysCacheTuple(RELOID, ObjectIdGetDatum(idxrec->indrelid), 0, 0, 0); if (!HeapTupleIsValid(ht_indrel)) elog(ERROR, "syscache lookup for relid %u failed", idxrec->indrelid); indrelrec = (Form_pg_class) GETSTRUCT(ht_indrel); /* ---------- * Get the am name for the index relation * ---------- */ spi_args[0] = ObjectIdGetDatum(idxrelrec->relam); spi_nulls[0] = ' '; spi_nulls[1] = '\0'; spirc = SPI_execp(plan_getam, spi_args, spi_nulls, 1); if (spirc != SPI_OK_SELECT) elog(ERROR, "failed to get pg_am tuple for index %s", NameStr(idxrelrec->relname)); if (SPI_processed != 1) elog(ERROR, "failed to get pg_am tuple for index %s", NameStr(idxrelrec->relname)); spi_tup = SPI_tuptable->vals[0]; spi_ttc = SPI_tuptable->tupdesc; spi_fno = SPI_fnumber(spi_ttc, "amname"); /* ---------- * Start the index definition * ---------- */ initStringInfo(&buf); appendStringInfo(&buf, "CREATE %sINDEX %s ON %s USING %s (", idxrec->indisunique ? "UNIQUE " : "", quote_identifier(pstrdup(NameStr(idxrelrec->relname))), quote_identifier(pstrdup(NameStr(indrelrec->relname))), quote_identifier(SPI_getvalue(spi_tup, spi_ttc, spi_fno))); /* ---------- * Collect the indexed attributes * ---------- */ initStringInfo(&keybuf); sep = ""; for (keyno = 0; keyno < INDEX_MAX_KEYS; keyno++) { if (idxrec->indkey[keyno] == InvalidAttrNumber) break; appendStringInfo(&keybuf, sep); sep = ", "; /* ---------- * Add the indexed field name * ---------- */ appendStringInfo(&keybuf, "%s", quote_identifier(get_attribute_name(idxrec->indrelid, idxrec->indkey[keyno]))); /* ---------- * If not a functional index, add the operator class name * ---------- */ if (idxrec->indproc == InvalidOid) { spi_args[0] = ObjectIdGetDatum(idxrec->indclass[keyno]); spi_nulls[0] = ' '; spi_nulls[1] = '\0'; spirc = SPI_execp(plan_getopclass, spi_args, spi_nulls, 1); if (spirc != SPI_OK_SELECT) elog(ERROR, "failed to get pg_opclass tuple %u", idxrec->indclass[keyno]); if (SPI_processed != 1) elog(ERROR, "failed to get pg_opclass tuple %u", idxrec->indclass[keyno]); spi_tup = SPI_tuptable->vals[0]; spi_ttc = SPI_tuptable->tupdesc; spi_fno = SPI_fnumber(spi_ttc, "opcname"); appendStringInfo(&keybuf, " %s", quote_identifier(SPI_getvalue(spi_tup, spi_ttc, spi_fno))); } } /* ---------- * For functional index say 'func (attrs) opclass' * ---------- */ if (idxrec->indproc != InvalidOid) { HeapTuple proctup; Form_pg_proc procStruct; proctup = SearchSysCacheTuple(PROCOID, ObjectIdGetDatum(idxrec->indproc), 0, 0, 0); if (!HeapTupleIsValid(proctup)) elog(ERROR, "cache lookup for proc %u failed", idxrec->indproc); procStruct = (Form_pg_proc) GETSTRUCT(proctup); appendStringInfo(&buf, "%s(%s) ", quote_identifier(pstrdup(NameStr(procStruct->proname))), keybuf.data); spi_args[0] = ObjectIdGetDatum(idxrec->indclass[0]); spi_nulls[0] = ' '; spi_nulls[1] = '\0'; spirc = SPI_execp(plan_getopclass, spi_args, spi_nulls, 1); if (spirc != SPI_OK_SELECT) elog(ERROR, "failed to get pg_opclass tuple %u", idxrec->indclass[0]); if (SPI_processed != 1) elog(ERROR, "failed to get pg_opclass tuple %u", idxrec->indclass[0]); spi_tup = SPI_tuptable->vals[0]; spi_ttc = SPI_tuptable->tupdesc; spi_fno = SPI_fnumber(spi_ttc, "opcname"); appendStringInfo(&buf, "%s", quote_identifier(SPI_getvalue(spi_tup, spi_ttc, spi_fno))); } else /* ---------- * For the others say 'attr opclass [, ...]' * ---------- */ appendStringInfo(&buf, "%s", keybuf.data); /* ---------- * Finish * ---------- */ appendStringInfo(&buf, ")"); /* ---------- * Create the result in upper executor memory * ---------- */ len = buf.len + VARHDRSZ; indexdef = SPI_palloc(len); VARATT_SIZEP(indexdef) = len; memcpy(VARDATA(indexdef), buf.data, buf.len); pfree(buf.data); pfree(keybuf.data); /* ---------- * Disconnect from SPI manager * ---------- */ if (SPI_finish() != SPI_OK_FINISH) elog(ERROR, "get_viewdef: SPI_finish() failed"); PG_RETURN_TEXT_P(indexdef); } /* ---------- * get_userbyid - Get a user name by usesysid and * fallback to 'unknown (UID=n)' * ---------- */ Datum pg_get_userbyid(PG_FUNCTION_ARGS) { int32 uid = PG_GETARG_INT32(0); Name result; HeapTuple usertup; Form_pg_shadow user_rec; /* ---------- * Allocate space for the result * ---------- */ result = (Name) palloc(NAMEDATALEN); memset(NameStr(*result), 0, NAMEDATALEN); /* ---------- * Get the pg_shadow entry and print the result * ---------- */ usertup = SearchSysCacheTuple(SHADOWSYSID, ObjectIdGetDatum(uid), 0, 0, 0); if (HeapTupleIsValid(usertup)) { user_rec = (Form_pg_shadow) GETSTRUCT(usertup); StrNCpy(NameStr(*result), NameStr(user_rec->usename), NAMEDATALEN); } else sprintf(NameStr(*result), "unknown (UID=%d)", uid); PG_RETURN_NAME(result); } /* ---------- * deparse_expression - General utility for deparsing expressions * * expr is the node tree to be deparsed. It must be a transformed expression * tree (ie, not the raw output of gram.y). * * rangetables is a List of Lists of RangeTblEntry nodes: first sublist is for * varlevelsup = 0, next for varlevelsup = 1, etc. In each sublist the first * item is for varno = 1, next varno = 2, etc. (Each sublist has the same * format as the rtable list of a parsetree or query.) * * forceprefix is TRUE to force all Vars to be prefixed with their table names. * Otherwise, a prefix is printed only if there's more than one table involved * (and someday the code might try to print one only if there's ambiguity). * * The result is a palloc'd string. * ---------- */ char * deparse_expression(Node *expr, List *rangetables, bool forceprefix) { StringInfoData buf; deparse_context context; initStringInfo(&buf); context.buf = &buf; context.rangetables = rangetables; context.varprefix = (forceprefix || length(rangetables) != 1 || length((List *) lfirst(rangetables)) != 1); rulename = ""; /* in case of errors */ get_rule_expr(expr, &context); return buf.data; } /* ---------- * make_ruledef - reconstruct the CREATE RULE command * for a given pg_rewrite tuple * ---------- */ static void make_ruledef(StringInfo buf, HeapTuple ruletup, TupleDesc rulettc) { char ev_type; Oid ev_class; int2 ev_attr; bool is_instead; char *ev_qual; char *ev_action; List *actions = NIL; int fno; bool isnull; /* ---------- * Get the attribute values from the rules tuple * ---------- */ fno = SPI_fnumber(rulettc, "ev_type"); ev_type = (char) SPI_getbinval(ruletup, rulettc, fno, &isnull); fno = SPI_fnumber(rulettc, "ev_class"); ev_class = (Oid) SPI_getbinval(ruletup, rulettc, fno, &isnull); fno = SPI_fnumber(rulettc, "ev_attr"); ev_attr = (int2) SPI_getbinval(ruletup, rulettc, fno, &isnull); fno = SPI_fnumber(rulettc, "is_instead"); is_instead = (bool) SPI_getbinval(ruletup, rulettc, fno, &isnull); fno = SPI_fnumber(rulettc, "ev_qual"); ev_qual = SPI_getvalue(ruletup, rulettc, fno); fno = SPI_fnumber(rulettc, "ev_action"); ev_action = SPI_getvalue(ruletup, rulettc, fno); if (ev_action != NULL) actions = (List *) stringToNode(ev_action); /* ---------- * Build the rules definition text * ---------- */ appendStringInfo(buf, "CREATE RULE %s AS ON ", quote_identifier(rulename)); /* The event the rule is fired for */ switch (ev_type) { case '1': appendStringInfo(buf, "SELECT"); break; case '2': appendStringInfo(buf, "UPDATE"); break; case '3': appendStringInfo(buf, "INSERT"); break; case '4': appendStringInfo(buf, "DELETE"); break; default: elog(ERROR, "get_ruledef: rule %s has unsupported event type %d", rulename, ev_type); break; } /* The relation the rule is fired on */ appendStringInfo(buf, " TO %s", quote_identifier(get_relation_name(ev_class))); if (ev_attr > 0) appendStringInfo(buf, ".%s", quote_identifier(get_attribute_name(ev_class, ev_attr))); /* If the rule has an event qualification, add it */ if (ev_qual == NULL) ev_qual = ""; if (strlen(ev_qual) > 0 && strcmp(ev_qual, "<>") != 0) { Node *qual; Query *query; deparse_context context; appendStringInfo(buf, " WHERE "); qual = stringToNode(ev_qual); query = (Query *) lfirst(actions); context.buf = buf; context.rangetables = lcons(query->rtable, NIL); context.varprefix = (length(query->rtable) != 1); get_rule_expr(qual, &context); } appendStringInfo(buf, " DO "); /* The INSTEAD keyword (if so) */ if (is_instead) appendStringInfo(buf, "INSTEAD "); /* Finally the rules actions */ if (length(actions) > 1) { List *action; Query *query; appendStringInfo(buf, "("); foreach(action, actions) { query = (Query *) lfirst(action); get_query_def(query, buf, NIL); appendStringInfo(buf, "; "); } appendStringInfo(buf, ");"); } else { if (length(actions) == 0) { appendStringInfo(buf, "NOTHING;"); } else { Query *query; query = (Query *) lfirst(actions); get_query_def(query, buf, NIL); appendStringInfo(buf, ";"); } } } /* ---------- * make_viewdef - reconstruct the SELECT part of a * view rewrite rule * ---------- */ static void make_viewdef(StringInfo buf, HeapTuple ruletup, TupleDesc rulettc) { Query *query; char ev_type; Oid ev_class; int2 ev_attr; bool is_instead; char *ev_qual; char *ev_action; List *actions = NIL; int fno; bool isnull; /* ---------- * Get the attribute values from the rules tuple * ---------- */ fno = SPI_fnumber(rulettc, "ev_type"); ev_type = (char) SPI_getbinval(ruletup, rulettc, fno, &isnull); fno = SPI_fnumber(rulettc, "ev_class"); ev_class = (Oid) SPI_getbinval(ruletup, rulettc, fno, &isnull); fno = SPI_fnumber(rulettc, "ev_attr"); ev_attr = (int2) SPI_getbinval(ruletup, rulettc, fno, &isnull); fno = SPI_fnumber(rulettc, "is_instead"); is_instead = (bool) SPI_getbinval(ruletup, rulettc, fno, &isnull); fno = SPI_fnumber(rulettc, "ev_qual"); ev_qual = SPI_getvalue(ruletup, rulettc, fno); fno = SPI_fnumber(rulettc, "ev_action"); ev_action = SPI_getvalue(ruletup, rulettc, fno); if (ev_action != NULL) actions = (List *) stringToNode(ev_action); if (length(actions) != 1) { appendStringInfo(buf, "Not a view"); return; } query = (Query *) lfirst(actions); if (ev_type != '1' || ev_attr >= 0 || !is_instead || strcmp(ev_qual, "<>") != 0) { appendStringInfo(buf, "Not a view"); return; } get_query_def(query, buf, NIL); appendStringInfo(buf, ";"); } /* ---------- * get_query_def - Parse back one action from * the parsetree in the actions * list * ---------- */ static void get_query_def(Query *query, StringInfo buf, List *parentrtables) { deparse_context context; context.buf = buf; context.rangetables = lcons(query->rtable, parentrtables); context.varprefix = (parentrtables != NIL || length(query->rtable) != 1); switch (query->commandType) { case CMD_SELECT: get_select_query_def(query, &context); break; case CMD_UPDATE: get_update_query_def(query, &context); break; case CMD_INSERT: get_insert_query_def(query, &context); break; case CMD_DELETE: get_delete_query_def(query, &context); break; case CMD_NOTHING: appendStringInfo(buf, "NOTHING"); break; default: elog(ERROR, "get_ruledef of %s: query command type %d not implemented yet", rulename, query->commandType); break; } } /* ---------- * get_select_query_def - Parse back a SELECT parsetree * ---------- */ static void get_select_query_def(Query *query, deparse_context *context) { StringInfo buf = context->buf; char *sep; List *l; /* ---------- * Build up the query string - first we say SELECT * ---------- */ appendStringInfo(buf, "SELECT"); /* Then we tell what to select (the targetlist) */ sep = " "; foreach(l, query->targetList) { TargetEntry *tle = (TargetEntry *) lfirst(l); bool tell_as = false; appendStringInfo(buf, sep); sep = ", "; /* Do NOT use get_tle_expr here; see its comments! */ get_rule_expr(tle->expr, context); /* Check if we must say AS ... */ if (!IsA(tle->expr, Var)) tell_as = (strcmp(tle->resdom->resname, "?column?") != 0); else { Var *var = (Var *) (tle->expr); RangeTblEntry *rte; char *attname; rte = get_rte_for_var(var, context); attname = get_attribute_name(rte->relid, var->varattno); tell_as = (strcmp(attname, tle->resdom->resname) != 0); } /* and do if so */ if (tell_as) appendStringInfo(buf, " AS %s", quote_identifier(tle->resdom->resname)); } /* Add the FROM clause if needed */ get_from_clause(query, context); /* Add the WHERE clause if given */ if (query->qual != NULL) { appendStringInfo(buf, " WHERE "); get_rule_expr(query->qual, context); } /* Add the GROUP BY CLAUSE */ if (query->groupClause != NULL) { appendStringInfo(buf, " GROUP BY "); sep = ""; foreach(l, query->groupClause) { GroupClause *grp = (GroupClause *) lfirst(l); Node *groupexpr; groupexpr = get_sortgroupclause_expr(grp, query->targetList); appendStringInfo(buf, sep); get_rule_expr(groupexpr, context); sep = ", "; } } } /* ---------- * get_insert_query_def - Parse back an INSERT parsetree * ---------- */ static void get_insert_query_def(Query *query, deparse_context *context) { StringInfo buf = context->buf; char *sep; bool rt_constonly = TRUE; RangeTblEntry *rte; int i; List *l; /* ---------- * We need to know if other tables than *NEW* or *OLD* * are used in the query. If not, it's an INSERT ... VALUES, * otherwise an INSERT ... SELECT. (Pretty klugy ... fix this * when we redesign querytrees!) * ---------- */ i = 0; foreach(l, query->rtable) { rte = (RangeTblEntry *) lfirst(l); i++; if (strcmp(rte->eref->relname, "*NEW*") == 0) continue; if (strcmp(rte->eref->relname, "*OLD*") == 0) continue; if (rangeTableEntry_used((Node *) query, i, 0)) { rt_constonly = FALSE; break; } } /* ---------- * Start the query with INSERT INTO relname * ---------- */ rte = rt_fetch(query->resultRelation, query->rtable); appendStringInfo(buf, "INSERT INTO %s", quote_identifier(rte->relname)); /* Add the insert-column-names list */ sep = " ("; foreach(l, query->targetList) { TargetEntry *tle = (TargetEntry *) lfirst(l); appendStringInfo(buf, sep); sep = ", "; appendStringInfo(buf, "%s", quote_identifier(tle->resdom->resname)); } appendStringInfo(buf, ") "); /* Add the VALUES or the SELECT */ if (rt_constonly && query->qual == NULL) { appendStringInfo(buf, "VALUES ("); sep = ""; foreach(l, query->targetList) { TargetEntry *tle = (TargetEntry *) lfirst(l); appendStringInfo(buf, sep); sep = ", "; get_tle_expr(tle, context); } appendStringInfoChar(buf, ')'); } else get_select_query_def(query, context); } /* ---------- * get_update_query_def - Parse back an UPDATE parsetree * ---------- */ static void get_update_query_def(Query *query, deparse_context *context) { StringInfo buf = context->buf; char *sep; TargetEntry *tle; RangeTblEntry *rte; List *l; /* ---------- * Start the query with UPDATE relname SET * ---------- */ rte = rt_fetch(query->resultRelation, query->rtable); appendStringInfo(buf, "UPDATE %s%s SET ", only_marker(rte), quote_identifier(rte->relname)); /* Add the comma separated list of 'attname = value' */ sep = ""; foreach(l, query->targetList) { tle = (TargetEntry *) lfirst(l); appendStringInfo(buf, sep); sep = ", "; /* * If the update expression is an array assignment, we mustn't * put out "attname =" here; it will come out of the display * of the ArrayRef node instead. */ if (! tleIsArrayAssign(tle)) appendStringInfo(buf, "%s = ", quote_identifier(tle->resdom->resname)); get_tle_expr(tle, context); } /* Add the FROM clause if needed */ get_from_clause(query, context); /* Finally add a WHERE clause if given */ if (query->qual != NULL) { appendStringInfo(buf, " WHERE "); get_rule_expr(query->qual, context); } } /* ---------- * get_delete_query_def - Parse back a DELETE parsetree * ---------- */ static void get_delete_query_def(Query *query, deparse_context *context) { StringInfo buf = context->buf; RangeTblEntry *rte; /* ---------- * Start the query with DELETE FROM relname * ---------- */ rte = rt_fetch(query->resultRelation, query->rtable); appendStringInfo(buf, "DELETE FROM %s%s", only_marker(rte), quote_identifier(rte->relname)); /* Add a WHERE clause if given */ if (query->qual != NULL) { appendStringInfo(buf, " WHERE "); get_rule_expr(query->qual, context); } } /* * Find the RTE referenced by a (possibly nonlocal) Var. */ static RangeTblEntry * get_rte_for_var(Var *var, deparse_context *context) { List *rtlist = context->rangetables; int sup = var->varlevelsup; while (sup-- > 0) rtlist = lnext(rtlist); return rt_fetch(var->varno, (List *) lfirst(rtlist)); } /* ---------- * get_rule_expr - Parse back an expression * ---------- */ static void get_rule_expr(Node *node, deparse_context *context) { StringInfo buf = context->buf; if (node == NULL) return; /* ---------- * Each level of get_rule_expr must emit an indivisible term * (parenthesized if necessary) to ensure result is reparsed into * the same expression tree. * * There might be some work left here to support additional node types. * Can we ever see Param nodes here? * ---------- */ switch (nodeTag(node)) { case T_Const: get_const_expr((Const *) node, context); break; case T_Var: { Var *var = (Var *) node; RangeTblEntry *rte = get_rte_for_var(var, context); if (context->varprefix) { if (strcmp(rte->eref->relname, "*NEW*") == 0) appendStringInfo(buf, "new."); else if (strcmp(rte->eref->relname, "*OLD*") == 0) appendStringInfo(buf, "old."); else appendStringInfo(buf, "%s.", quote_identifier(rte->eref->relname)); } appendStringInfo(buf, "%s", quote_identifier(get_attribute_name(rte->relid, var->varattno))); } break; case T_Expr: { Expr *expr = (Expr *) node; List *args = expr->args; /* ---------- * Expr nodes have to be handled a bit detailed * ---------- */ switch (expr->opType) { case OP_EXPR: appendStringInfoChar(buf, '('); if (length(args) == 2) { /* binary operator */ get_rule_expr((Node *) lfirst(args), context); appendStringInfo(buf, " %s ", get_opname(((Oper *) expr->oper)->opno)); get_rule_expr((Node *) lsecond(args), context); } else { /* unary operator --- but which side? */ Oid opno = ((Oper *) expr->oper)->opno; HeapTuple tp; Form_pg_operator optup; tp = SearchSysCacheTuple(OPEROID, ObjectIdGetDatum(opno), 0, 0, 0); Assert(HeapTupleIsValid(tp)); optup = (Form_pg_operator) GETSTRUCT(tp); switch (optup->oprkind) { case 'l': appendStringInfo(buf, "%s ", get_opname(opno)); get_rule_expr((Node *) lfirst(args), context); break; case 'r': get_rule_expr((Node *) lfirst(args), context); appendStringInfo(buf, " %s", get_opname(opno)); break; default: elog(ERROR, "get_rule_expr: bogus oprkind"); } } appendStringInfoChar(buf, ')'); break; case OR_EXPR: appendStringInfoChar(buf, '('); get_rule_expr((Node *) lfirst(args), context); while ((args = lnext(args)) != NIL) { appendStringInfo(buf, " OR "); get_rule_expr((Node *) lfirst(args), context); } appendStringInfoChar(buf, ')'); break; case AND_EXPR: appendStringInfoChar(buf, '('); get_rule_expr((Node *) lfirst(args), context); while ((args = lnext(args)) != NIL) { appendStringInfo(buf, " AND "); get_rule_expr((Node *) lfirst(args), context); } appendStringInfoChar(buf, ')'); break; case NOT_EXPR: appendStringInfo(buf, "(NOT "); get_rule_expr((Node *) lfirst(args), context); appendStringInfoChar(buf, ')'); break; case FUNC_EXPR: get_func_expr((Expr *) node, context); break; default: elog(ERROR, "get_rule_expr: expr opType %d not supported", expr->opType); } } break; case T_Aggref: { Aggref *aggref = (Aggref *) node; appendStringInfo(buf, "%s(%s", quote_identifier(aggref->aggname), aggref->aggdistinct ? "DISTINCT " : ""); if (aggref->aggstar) appendStringInfo(buf, "*"); else get_rule_expr(aggref->target, context); appendStringInfoChar(buf, ')'); } break; case T_Iter: get_rule_expr(((Iter *) node)->iterexpr, context); break; case T_ArrayRef: { ArrayRef *aref = (ArrayRef *) node; bool savevarprefix = context->varprefix; List *lowlist; List *uplist; /* * If we are doing UPDATE array[n] = expr, we need to * suppress any prefix on the array name. Currently, * that is the only context in which we will see a non-null * refassgnexpr --- but someday a smarter test may be needed. */ if (aref->refassgnexpr) context->varprefix = false; get_rule_expr(aref->refexpr, context); context->varprefix = savevarprefix; lowlist = aref->reflowerindexpr; foreach(uplist, aref->refupperindexpr) { appendStringInfo(buf, "["); if (lowlist) { get_rule_expr((Node *) lfirst(lowlist), context); appendStringInfo(buf, ":"); lowlist = lnext(lowlist); } get_rule_expr((Node *) lfirst(uplist), context); appendStringInfo(buf, "]"); } if (aref->refassgnexpr) { appendStringInfo(buf, " = "); get_rule_expr(aref->refassgnexpr, context); } } break; case T_FieldSelect: { FieldSelect *fselect = (FieldSelect *) node; HeapTuple typetup; Form_pg_type typeStruct; Oid typrelid; char *fieldname; /* we do NOT parenthesize the arg expression, for now */ get_rule_expr(fselect->arg, context); typetup = SearchSysCacheTuple(TYPEOID, ObjectIdGetDatum(exprType(fselect->arg)), 0, 0, 0); if (!HeapTupleIsValid(typetup)) elog(ERROR, "cache lookup of type %u failed", exprType(fselect->arg)); typeStruct = (Form_pg_type) GETSTRUCT(typetup); typrelid = typeStruct->typrelid; if (!OidIsValid(typrelid)) elog(ERROR, "Argument type %s of FieldSelect is not a tuple type", NameStr(typeStruct->typname)); fieldname = get_attribute_name(typrelid, fselect->fieldnum); appendStringInfo(buf, ".%s", quote_identifier(fieldname)); } break; case T_RelabelType: { RelabelType *relabel = (RelabelType *) node; HeapTuple typetup; Form_pg_type typeStruct; char *extval; appendStringInfoChar(buf, '('); get_rule_expr(relabel->arg, context); typetup = SearchSysCacheTuple(TYPEOID, ObjectIdGetDatum(relabel->resulttype), 0, 0, 0); if (!HeapTupleIsValid(typetup)) elog(ERROR, "cache lookup of type %u failed", relabel->resulttype); typeStruct = (Form_pg_type) GETSTRUCT(typetup); extval = pstrdup(NameStr(typeStruct->typname)); appendStringInfo(buf, ")::%s", quote_identifier(extval)); pfree(extval); } break; case T_CaseExpr: { CaseExpr *caseexpr = (CaseExpr *) node; List *temp; appendStringInfo(buf, "CASE"); foreach(temp, caseexpr->args) { CaseWhen *when = (CaseWhen *) lfirst(temp); appendStringInfo(buf, " WHEN "); get_rule_expr(when->expr, context); appendStringInfo(buf, " THEN "); get_rule_expr(when->result, context); } appendStringInfo(buf, " ELSE "); get_rule_expr(caseexpr->defresult, context); appendStringInfo(buf, " END"); } break; case T_SubLink: get_sublink_expr(node, context); break; default: printf("\n%s\n", nodeToString(node)); elog(ERROR, "get_ruledef of %s: unknown node type %d in get_rule_expr()", rulename, nodeTag(node)); break; } } /* ---------- * get_func_expr - Parse back a Func node * ---------- */ static void get_func_expr(Expr *expr, deparse_context *context) { StringInfo buf = context->buf; Func *func = (Func *) (expr->oper); HeapTuple proctup; Form_pg_proc procStruct; char *proname; int32 coercedTypmod; List *l; char *sep; /* * Get the functions pg_proc tuple */ proctup = SearchSysCacheTuple(PROCOID, ObjectIdGetDatum(func->funcid), 0, 0, 0); if (!HeapTupleIsValid(proctup)) elog(ERROR, "cache lookup for proc %u failed", func->funcid); procStruct = (Form_pg_proc) GETSTRUCT(proctup); proname = pstrdup(NameStr(procStruct->proname)); /* * nullvalue() and nonnullvalue() should get turned into special * syntax */ if (procStruct->pronargs == 1 && procStruct->proargtypes[0] == InvalidOid) { if (strcmp(proname, "nullvalue") == 0) { appendStringInfoChar(buf, '('); get_rule_expr((Node *) lfirst(expr->args), context); appendStringInfo(buf, " ISNULL)"); return; } if (strcmp(proname, "nonnullvalue") == 0) { appendStringInfoChar(buf, '('); get_rule_expr((Node *) lfirst(expr->args), context); appendStringInfo(buf, " NOTNULL)"); return; } } /* * Check to see if function is a length-coercion function for some * datatype. If so, display the operation as a type cast. */ if (exprIsLengthCoercion((Node *) expr, &coercedTypmod)) { Node *arg = lfirst(expr->args); /* * Strip off any RelabelType on the input, so we don't print * redundancies like x::bpchar::char(8). XXX Are there any cases * where this is a bad idea? */ if (IsA(arg, RelabelType)) arg = ((RelabelType *) arg)->arg; appendStringInfoChar(buf, '('); get_rule_expr(arg, context); appendStringInfo(buf, ")::"); /* * Show typename with appropriate length decoration. Note that * since exprIsLengthCoercion succeeded, the function name is the * same as its output type name. */ if (strcmp(proname, "bpchar") == 0) { if (coercedTypmod > (int32) VARHDRSZ) appendStringInfo(buf, "char(%d)", coercedTypmod - VARHDRSZ); else appendStringInfo(buf, "char"); } else if (strcmp(proname, "varchar") == 0) { if (coercedTypmod > (int32) VARHDRSZ) appendStringInfo(buf, "varchar(%d)", coercedTypmod - VARHDRSZ); else appendStringInfo(buf, "varchar"); } else if (strcmp(proname, "numeric") == 0) { if (coercedTypmod >= (int32) VARHDRSZ) appendStringInfo(buf, "numeric(%d,%d)", ((coercedTypmod - VARHDRSZ) >> 16) & 0xffff, (coercedTypmod - VARHDRSZ) & 0xffff); else appendStringInfo(buf, "numeric"); } else appendStringInfo(buf, "%s", quote_identifier(proname)); return; } /* * Normal function: display as proname(args) */ appendStringInfo(buf, "%s(", quote_identifier(proname)); sep = ""; foreach(l, expr->args) { appendStringInfo(buf, sep); sep = ", "; get_rule_expr((Node *) lfirst(l), context); } appendStringInfoChar(buf, ')'); } /* ---------- * get_tle_expr * * In an INSERT or UPDATE targetlist item, the parser may have inserted * a length-coercion function call to coerce the value to the right * length for the target column. We want to suppress the output of * that function call, otherwise dump/reload/dump... would blow up the * expression by adding more and more layers of length-coercion calls. * * As of 7.0, this hack is no longer absolutely essential, because the parser * is now smart enough not to add a redundant length coercion function call. * But we still suppress the function call just for neatness of displayed * rules. * * Note that this hack must NOT be applied to SELECT targetlist items; * any length coercion appearing there is something the user actually wrote. * ---------- */ static void get_tle_expr(TargetEntry *tle, deparse_context *context) { Expr *expr = (Expr *) (tle->expr); int32 coercedTypmod; /* * If top level is a length coercion to the correct length, suppress * it; else dump the expression normally. */ if (tle->resdom->restypmod >= 0 && exprIsLengthCoercion((Node *) expr, &coercedTypmod) && coercedTypmod == tle->resdom->restypmod) get_rule_expr((Node *) lfirst(expr->args), context); else get_rule_expr(tle->expr, context); } /* ---------- * get_const_expr * * Make a string representation of a Const * ---------- */ static void get_const_expr(Const *constval, deparse_context *context) { StringInfo buf = context->buf; HeapTuple typetup; Form_pg_type typeStruct; char *extval; char *valptr; typetup = SearchSysCacheTuple(TYPEOID, ObjectIdGetDatum(constval->consttype), 0, 0, 0); if (!HeapTupleIsValid(typetup)) elog(ERROR, "cache lookup of type %u failed", constval->consttype); typeStruct = (Form_pg_type) GETSTRUCT(typetup); if (constval->constisnull) { /* * Always label the type of a NULL constant. This not only * prevents misdecisions about the type, but it ensures that our * output is a valid b_expr. */ extval = pstrdup(NameStr(typeStruct->typname)); appendStringInfo(buf, "NULL::%s", quote_identifier(extval)); pfree(extval); return; } extval = DatumGetCString(OidFunctionCall3(typeStruct->typoutput, constval->constvalue, ObjectIdGetDatum(typeStruct->typelem), Int32GetDatum(-1))); switch (constval->consttype) { case INT2OID: case INT4OID: case OIDOID: /* int types */ case FLOAT4OID: case FLOAT8OID: /* float types */ /* These types are printed without quotes */ appendStringInfo(buf, extval); break; default: /* * We must quote any funny characters in the constant's * representation. XXX Any MULTIBYTE considerations here? */ appendStringInfoChar(buf, '\''); for (valptr = extval; *valptr; valptr++) { char ch = *valptr; if (ch == '\'' || ch == '\\') { appendStringInfoChar(buf, '\\'); appendStringInfoChar(buf, ch); } else if (ch >= 0 && ch < ' ') appendStringInfo(buf, "\\%03o", (int) ch); else appendStringInfoChar(buf, ch); } appendStringInfoChar(buf, '\''); break; } pfree(extval); switch (constval->consttype) { case INT4OID: case FLOAT8OID: case UNKNOWNOID: /* These types can be left unlabeled */ break; default: extval = pstrdup(NameStr(typeStruct->typname)); appendStringInfo(buf, "::%s", quote_identifier(extval)); pfree(extval); break; } } /* ---------- * get_sublink_expr - Parse back a sublink * ---------- */ static void get_sublink_expr(Node *node, deparse_context *context) { StringInfo buf = context->buf; SubLink *sublink = (SubLink *) node; Query *query = (Query *) (sublink->subselect); List *l; char *sep; Oper *oper; bool need_paren; appendStringInfoChar(buf, '('); if (sublink->lefthand != NIL) { need_paren = (length(sublink->lefthand) > 1); if (need_paren) appendStringInfoChar(buf, '('); sep = ""; foreach(l, sublink->lefthand) { appendStringInfo(buf, sep); sep = ", "; get_rule_expr((Node *) lfirst(l), context); } if (need_paren) appendStringInfo(buf, ") "); else appendStringInfoChar(buf, ' '); } need_paren = true; switch (sublink->subLinkType) { case EXISTS_SUBLINK: appendStringInfo(buf, "EXISTS "); break; case ANY_SUBLINK: oper = (Oper *) lfirst(sublink->oper); appendStringInfo(buf, "%s ANY ", get_opname(oper->opno)); break; case ALL_SUBLINK: oper = (Oper *) lfirst(sublink->oper); appendStringInfo(buf, "%s ALL ", get_opname(oper->opno)); break; case MULTIEXPR_SUBLINK: oper = (Oper *) lfirst(sublink->oper); appendStringInfo(buf, "%s ", get_opname(oper->opno)); break; case EXPR_SUBLINK: need_paren = false; break; default: elog(ERROR, "get_sublink_expr: unsupported sublink type %d", sublink->subLinkType); break; } if (need_paren) appendStringInfoChar(buf, '('); get_query_def(query, buf, context->rangetables); if (need_paren) appendStringInfo(buf, "))"); else appendStringInfoChar(buf, ')'); } /* ---------- * get_from_clause - Parse back a FROM clause * ---------- */ static void get_from_clause(Query *query, deparse_context *context) { StringInfo buf = context->buf; char *sep; List *l; /* * We use the query's jointree as a guide to what to print. However, * we must ignore auto-added RTEs that are marked not inFromCl. * Also ignore the rule pseudo-RTEs for NEW and OLD. */ sep = " FROM "; foreach(l, query->jointree) { Node *jtnode = (Node *) lfirst(l); if (IsA(jtnode, RangeTblRef)) { int varno = ((RangeTblRef *) jtnode)->rtindex; RangeTblEntry *rte = rt_fetch(varno, query->rtable); if (!rte->inFromCl) continue; if (strcmp(rte->eref->relname, "*NEW*") == 0) continue; if (strcmp(rte->eref->relname, "*OLD*") == 0) continue; } appendStringInfo(buf, sep); get_from_clause_item(jtnode, query, context); sep = ", "; } } static void get_from_clause_item(Node *jtnode, Query *query, deparse_context *context) { StringInfo buf = context->buf; if (IsA(jtnode, RangeTblRef)) { int varno = ((RangeTblRef *) jtnode)->rtindex; RangeTblEntry *rte = rt_fetch(varno, query->rtable); appendStringInfo(buf, "%s%s", only_marker(rte), quote_identifier(rte->relname)); if (rte->alias != NULL) { appendStringInfo(buf, " %s", quote_identifier(rte->alias->relname)); if (rte->alias->attrs != NIL) { List *col; appendStringInfo(buf, " ("); foreach(col, rte->alias->attrs) { if (col != rte->alias->attrs) appendStringInfo(buf, ", "); appendStringInfo(buf, "%s", quote_identifier(strVal(lfirst(col)))); } appendStringInfoChar(buf, ')'); } } } else if (IsA(jtnode, JoinExpr)) { JoinExpr *j = (JoinExpr *) jtnode; appendStringInfoChar(buf, '('); get_from_clause_item(j->larg, query, context); if (j->isNatural) appendStringInfo(buf, " NATURAL"); switch (j->jointype) { case JOIN_INNER: if (j->quals) appendStringInfo(buf, " JOIN "); else appendStringInfo(buf, " CROSS JOIN "); break; case JOIN_LEFT: appendStringInfo(buf, " LEFT JOIN "); break; case JOIN_FULL: appendStringInfo(buf, " FULL JOIN "); break; case JOIN_RIGHT: appendStringInfo(buf, " RIGHT JOIN "); break; case JOIN_UNION: appendStringInfo(buf, " UNION JOIN "); break; default: elog(ERROR, "get_from_clause_item: unknown join type %d", (int) j->jointype); } get_from_clause_item(j->rarg, query, context); if (! j->isNatural) { if (j->using) { List *col; appendStringInfo(buf, " USING ("); foreach(col, j->using) { if (col != j->using) appendStringInfo(buf, ", "); appendStringInfo(buf, "%s", quote_identifier(strVal(lfirst(col)))); } appendStringInfoChar(buf, ')'); } else if (j->quals) { appendStringInfo(buf, " ON ("); get_rule_expr(j->quals, context); appendStringInfoChar(buf, ')'); } } appendStringInfoChar(buf, ')'); /* Yes, it's correct to put alias after the right paren ... */ if (j->alias != NULL) { appendStringInfo(buf, " %s", quote_identifier(j->alias->relname)); if (j->alias->attrs != NIL) { List *col; appendStringInfo(buf, " ("); foreach(col, j->alias->attrs) { if (col != j->alias->attrs) appendStringInfo(buf, ", "); appendStringInfo(buf, "%s", quote_identifier(strVal(lfirst(col)))); } appendStringInfoChar(buf, ')'); } } } else elog(ERROR, "get_from_clause_item: unexpected node type %d", nodeTag(jtnode)); } /* ---------- * tleIsArrayAssign - check for array assignment * ---------- */ static bool tleIsArrayAssign(TargetEntry *tle) { ArrayRef *aref; if (tle->expr == NULL || !IsA(tle->expr, ArrayRef)) return false; aref = (ArrayRef *) tle->expr; if (aref->refassgnexpr == NULL) return false; /* * Currently, it should only be possible to see non-null refassgnexpr * if we are indeed looking at an "UPDATE array[n] = expr" situation. * So aref->refexpr ought to match the tle's target. */ if (aref->refexpr == NULL || !IsA(aref->refexpr, Var) || ((Var *) aref->refexpr)->varno != tle->resdom->resno) elog(NOTICE, "tleIsArrayAssign: I'm confused ..."); return true; } /* ---------- * quote_identifier - Quote an identifier only if needed * * When quotes are needed, we palloc the required space; slightly * space-wasteful but well worth it for notational simplicity. * ---------- */ static char * quote_identifier(char *ident) { /* * Can avoid quoting if ident starts with a lowercase letter and * contains only lowercase letters, digits, and underscores, *and* is * not any SQL keyword. Otherwise, supply quotes. */ bool safe; char *result; /* * would like to use macros here, but they might yield * unwanted locale-specific results... */ safe = (ident[0] >= 'a' && ident[0] <= 'z'); if (safe) { char *ptr; for (ptr = ident + 1; *ptr; ptr++) { char ch = *ptr; safe = ((ch >= 'a' && ch <= 'z') || (ch >= '0' && ch <= '9') || (ch == '_')); if (!safe) break; } } if (safe) { /* * Check for keyword. This test is overly strong, since many of * the "keywords" known to the parser are usable as column names, * but the parser doesn't provide any easy way to test for whether * an identifier is safe or not... so be safe not sorry. * * Note: ScanKeywordLookup() expects an all-lower-case input, but * we've already checked we have that. */ if (ScanKeywordLookup(ident) != NULL) safe = false; } if (safe) return ident; /* no change needed */ result = (char *) palloc(strlen(ident) + 2 + 1); sprintf(result, "\"%s\"", ident); return result; } /* ---------- * get_relation_name - Get a relation name by Oid * ---------- */ static char * get_relation_name(Oid relid) { HeapTuple classtup; Form_pg_class classStruct; classtup = SearchSysCacheTuple(RELOID, ObjectIdGetDatum(relid), 0, 0, 0); if (!HeapTupleIsValid(classtup)) elog(ERROR, "cache lookup of relation %u failed", relid); classStruct = (Form_pg_class) GETSTRUCT(classtup); return pstrdup(NameStr(classStruct->relname)); } /* ---------- * get_attribute_name - Get an attribute name by its * relations Oid and its attnum * ---------- */ static char * get_attribute_name(Oid relid, int2 attnum) { HeapTuple atttup; Form_pg_attribute attStruct; atttup = SearchSysCacheTuple(ATTNUM, ObjectIdGetDatum(relid), (Datum) attnum, 0, 0); if (!HeapTupleIsValid(atttup)) elog(ERROR, "cache lookup of attribute %d in relation %u failed", attnum, relid); attStruct = (Form_pg_attribute) GETSTRUCT(atttup); return pstrdup(NameStr(attStruct->attname)); }