* procedural language
*
* IDENTIFICATION
- * $PostgreSQL: pgsql/src/pl/plpgsql/src/gram.y,v 1.58 2004/07/31 07:39:20 tgl Exp $
+ * $PostgreSQL: pgsql/src/pl/plpgsql/src/gram.y,v 1.86 2006/03/07 01:03:12 tgl Exp $
*
* This software is copyrighted by Jan Wieck - Hamburg.
*
#include "plpgsql.h"
+#include "parser/parser.h"
-static PLpgSQL_expr *read_sql_construct(int until,
+static PLpgSQL_expr *read_sql_construct(int until,
int until2,
const char *expected,
- bool isexpression,
const char *sqlstart,
+ bool isexpression,
+ bool valid_sql,
int *endtoken);
static PLpgSQL_expr *read_sql_stmt(const char *sqlstart);
static PLpgSQL_type *read_datatype(int tok);
static PLpgSQL_stmt *make_select_stmt(void);
static PLpgSQL_stmt *make_fetch_stmt(void);
-static void check_assignable(PLpgSQL_datum *datum);
+static void check_assignable(PLpgSQL_datum *datum);
+static PLpgSQL_row *read_into_scalar_list(const char *initial_name,
+ PLpgSQL_datum *initial_datum);
+static PLpgSQL_row *make_scalar_list1(const char *initial_name,
+ PLpgSQL_datum *initial_datum,
+ int lineno);
+static void check_sql_expr(const char *stmt);
+static void plpgsql_sql_error_callback(void *arg);
+static void check_labels(const char *start_label,
+ const char *end_label);
%}
+%name-prefix="plpgsql_yy"
+
%union {
int32 ival;
+ bool boolean;
char *str;
struct
{
int lineno;
} varname;
struct
- {
- int nalloc;
- int nused;
- int *nums;
- } intlist;
- struct
- {
- int nalloc;
- int nused;
- PLpgSQL_diag_item *dtitems;
- } dtlist;
- struct
{
char *name;
int lineno;
- PLpgSQL_rec *rec;
- PLpgSQL_row *row;
+ PLpgSQL_datum *scalar;
+ PLpgSQL_rec *rec;
+ PLpgSQL_row *row;
} forvariable;
struct
{
int n_initvars;
int *initvarnos;
} declhdr;
+ struct
+ {
+ char *end_label;
+ List *stmts;
+ } loop_body;
+ List *list;
PLpgSQL_type *dtype;
PLpgSQL_datum *scalar; /* a VAR, RECFIELD, or TRIGARG */
PLpgSQL_variable *variable; /* a VAR, REC, or ROW */
PLpgSQL_rec *rec;
PLpgSQL_expr *expr;
PLpgSQL_stmt *stmt;
- PLpgSQL_stmts *stmts;
PLpgSQL_stmt_block *program;
+ PLpgSQL_condition *condition;
PLpgSQL_exception *exception;
- PLpgSQL_exceptions *exceptions;
+ PLpgSQL_exception_block *exception_block;
PLpgSQL_nsitem *nsitem;
+ PLpgSQL_diag_item *diagitem;
}
%type <declhdr> decl_sect
%type <varname> decl_varname
%type <str> decl_renname
-%type <ival> decl_const decl_notnull
+%type <boolean> decl_const decl_notnull exit_type
%type <expr> decl_defval decl_cursor_query
%type <dtype> decl_datatype
-%type <row> decl_cursor_args decl_cursor_arglist
+%type <row> decl_cursor_args
+%type <list> decl_cursor_arglist
%type <nsitem> decl_aliasitem
%type <str> decl_stmts decl_stmt
%type <forvariable> for_variable
%type <stmt> for_control
-%type <str> opt_lblname opt_label
-%type <str> opt_exitlabel
+%type <str> opt_lblname opt_block_label opt_label
%type <str> execsql_start
-%type <stmts> proc_sect proc_stmts stmt_else loop_body
+%type <list> proc_sect proc_stmts stmt_else
+%type <loop_body> loop_body
%type <stmt> proc_stmt pl_block
%type <stmt> stmt_assign stmt_if stmt_loop stmt_while stmt_exit
%type <stmt> stmt_return stmt_return_next stmt_raise stmt_execsql
%type <stmt> stmt_for stmt_select stmt_perform
%type <stmt> stmt_dynexecute stmt_getdiag
-%type <stmt> stmt_open stmt_fetch stmt_close
+%type <stmt> stmt_open stmt_fetch stmt_close stmt_null
-%type <exceptions> exception_sect proc_exceptions
+%type <list> proc_exceptions
+%type <exception_block> exception_sect
%type <exception> proc_exception
+%type <condition> proc_conditions
-%type <intlist> raise_params
-%type <ival> raise_level raise_param
+
+%type <ival> raise_level
%type <str> raise_msg
-%type <dtlist> getdiag_list
-%type <ival> getdiag_item getdiag_target
+%type <list> getdiag_list
+%type <diagitem> getdiag_list_item
+%type <ival> getdiag_kind getdiag_target
%type <ival> lno
%token K_BEGIN
%token K_CLOSE
%token K_CONSTANT
+%token K_CONTINUE
%token K_CURSOR
%token K_DEBUG
%token K_DECLARE
%token K_NOTICE
%token K_NULL
%token K_OPEN
+%token K_OR
%token K_PERFORM
%token K_ROW_COUNT
%token K_RAISE
comp_option : O_OPTION O_DUMP
{
- plpgsql_DumpExecTree = 1;
+ plpgsql_DumpExecTree = true;
}
;
| ';'
;
-pl_block : decl_sect K_BEGIN lno proc_sect exception_sect K_END
+pl_block : decl_sect K_BEGIN lno proc_sect exception_sect K_END opt_label
{
PLpgSQL_stmt_block *new;
- new = malloc(sizeof(PLpgSQL_stmt_block));
- memset(new, 0, sizeof(PLpgSQL_stmt_block));
+ new = palloc0(sizeof(PLpgSQL_stmt_block));
new->cmd_type = PLPGSQL_STMT_BLOCK;
new->lineno = $3;
new->body = $4;
new->exceptions = $5;
+ check_labels($1.label, $7);
plpgsql_ns_pop();
$$ = (PLpgSQL_stmt *)new;
;
-decl_sect : opt_label
+decl_sect : opt_block_label
{
plpgsql_ns_setlocal(false);
$$.label = $1;
$$.initvarnos = NULL;
plpgsql_add_initdatums(NULL);
}
- | opt_label decl_start
+ | opt_block_label decl_start
{
plpgsql_ns_setlocal(false);
$$.label = $1;
$$.initvarnos = NULL;
plpgsql_add_initdatums(NULL);
}
- | opt_label decl_start decl_stmts
+ | opt_block_label decl_start decl_stmts
{
plpgsql_ns_setlocal(false);
if ($3 != NULL)
-1),
true);
- curname_def = malloc(sizeof(PLpgSQL_expr));
- memset(curname_def, 0, sizeof(PLpgSQL_expr));
+ curname_def = palloc0(sizeof(PLpgSQL_expr));
curname_def->dtype = PLPGSQL_DTYPE_EXPR;
- strcpy(buf, "SELECT '");
+ strcpy(buf, "SELECT ");
cp1 = new->refname;
cp2 = buf + strlen(buf);
- while (*cp1 != '\0')
+ if (strchr(cp1, '\\') != NULL)
+ *cp2++ = ESCAPE_STRING_SYNTAX;
+ *cp2++ = '\'';
+ while (*cp1)
{
- if (*cp1 == '\\' || *cp1 == '\'')
- *cp2++ = '\\';
+ if (SQL_STR_DOUBLE(*cp1))
+ *cp2++ = *cp1;
*cp2++ = *cp1++;
}
strcpy(cp2, "'::refcursor");
- curname_def->query = strdup(buf);
+ curname_def->query = pstrdup(buf);
new->default_val = curname_def;
new->cursor_explicit_expr = $6;
plpgsql_ns_setlocal(false);
query = read_sql_stmt("");
plpgsql_ns_setlocal(true);
-
+
$$ = query;
}
;
$$ = NULL;
}
| '(' decl_cursor_arglist ')'
- {
- /* Copy the temp arrays to malloc'd storage */
- int nfields = $2->nfields;
- char **ftmp;
- int *vtmp;
-
- ftmp = malloc(nfields * sizeof(char *));
- vtmp = malloc(nfields * sizeof(int));
- memcpy(ftmp, $2->fieldnames, nfields * sizeof(char *));
- memcpy(vtmp, $2->varnos, nfields * sizeof(int));
-
- pfree((char *)($2->fieldnames));
- pfree((char *)($2->varnos));
-
- $2->fieldnames = ftmp;
- $2->varnos = vtmp;
-
- plpgsql_adddatum((PLpgSQL_datum *)$2);
-
- $$ = $2;
- }
- ;
-
-decl_cursor_arglist : decl_cursor_arg
{
PLpgSQL_row *new;
+ int i;
+ ListCell *l;
- new = malloc(sizeof(PLpgSQL_row));
- memset(new, 0, sizeof(PLpgSQL_row));
-
+ new = palloc0(sizeof(PLpgSQL_row));
new->dtype = PLPGSQL_DTYPE_ROW;
- new->refname = strdup("*internal*");
new->lineno = plpgsql_scanner_lineno();
new->rowtupdesc = NULL;
- /*
- * We make temporary fieldnames/varnos arrays that
- * are much bigger than necessary. We will resize
- * them to just the needed size in the
- * decl_cursor_args production.
- */
- new->fieldnames = palloc(1024 * sizeof(char *));
- new->varnos = palloc(1024 * sizeof(int));
- new->nfields = 1;
+ new->nfields = list_length($2);
+ new->fieldnames = palloc(new->nfields * sizeof(char *));
+ new->varnos = palloc(new->nfields * sizeof(int));
- new->fieldnames[0] = $1->refname;
- new->varnos[0] = $1->dno;
+ i = 0;
+ foreach (l, $2)
+ {
+ PLpgSQL_variable *arg = (PLpgSQL_variable *) lfirst(l);
+ new->fieldnames[i] = arg->refname;
+ new->varnos[i] = arg->dno;
+ i++;
+ }
+ list_free($2);
+ plpgsql_adddatum((PLpgSQL_datum *) new);
$$ = new;
}
+ ;
+
+decl_cursor_arglist : decl_cursor_arg
+ {
+ $$ = list_make1($1);
+ }
| decl_cursor_arglist ',' decl_cursor_arg
{
- int i = $1->nfields++;
-
- $1->fieldnames[i] = $3->refname;
- $1->varnos[i] = $3->dno;
-
- $$ = $1;
+ $$ = lappend($1, $3);
}
;
char *name;
plpgsql_convert_ident(yytext, &name, 1);
- /* name should be malloc'd for use as varname */
- $$.name = strdup(name);
+ $$.name = name;
$$.lineno = plpgsql_scanner_lineno();
- pfree(name);
}
;
;
decl_const :
- { $$ = 0; }
+ { $$ = false; }
| K_CONSTANT
- { $$ = 1; }
+ { $$ = true; }
;
decl_datatype :
;
decl_notnull :
- { $$ = 0; }
+ { $$ = false; }
| K_NOT K_NULL
- { $$ = 1; }
+ { $$ = true; }
;
decl_defval : ';'
proc_sect :
{
- PLpgSQL_stmts *new;
-
- new = malloc(sizeof(PLpgSQL_stmts));
- memset(new, 0, sizeof(PLpgSQL_stmts));
- $$ = new;
+ $$ = NIL;
}
| proc_stmts
{ $$ = $1; }
proc_stmts : proc_stmts proc_stmt
{
- if ($1->stmts_used == $1->stmts_alloc)
- {
- $1->stmts_alloc *= 2;
- $1->stmts = realloc($1->stmts, sizeof(PLpgSQL_stmt *) * $1->stmts_alloc);
- }
- $1->stmts[$1->stmts_used++] = $2;
-
+ if ($2 == NULL)
$$ = $1;
+ else
+ $$ = lappend($1, $2);
}
| proc_stmt
{
- PLpgSQL_stmts *new;
-
- new = malloc(sizeof(PLpgSQL_stmts));
- memset(new, 0, sizeof(PLpgSQL_stmts));
-
- new->stmts_alloc = 64;
- new->stmts_used = 1;
- new->stmts = malloc(sizeof(PLpgSQL_stmt *) * new->stmts_alloc);
- new->stmts[0] = $1;
-
- $$ = new;
-
+ if ($1 == NULL)
+ $$ = NULL;
+ else
+ $$ = list_make1($1);
}
;
{ $$ = $1; }
| stmt_close
{ $$ = $1; }
+ | stmt_null
+ { $$ = $1; }
;
stmt_perform : K_PERFORM lno expr_until_semi
{
PLpgSQL_stmt_perform *new;
- new = malloc(sizeof(PLpgSQL_stmt_perform));
- memset(new, 0, sizeof(PLpgSQL_stmt_perform));
-
+ new = palloc0(sizeof(PLpgSQL_stmt_perform));
new->cmd_type = PLPGSQL_STMT_PERFORM;
new->lineno = $2;
new->expr = $3;
{
PLpgSQL_stmt_assign *new;
- new = malloc(sizeof(PLpgSQL_stmt_assign));
- memset(new, 0, sizeof(PLpgSQL_stmt_assign));
-
+ new = palloc0(sizeof(PLpgSQL_stmt_assign));
new->cmd_type = PLPGSQL_STMT_ASSIGN;
new->lineno = $2;
new->varno = $1;
{
PLpgSQL_stmt_getdiag *new;
- new = malloc(sizeof(PLpgSQL_stmt_getdiag));
- memset(new, 0, sizeof(PLpgSQL_stmt_getdiag));
-
+ new = palloc0(sizeof(PLpgSQL_stmt_getdiag));
new->cmd_type = PLPGSQL_STMT_GETDIAG;
new->lineno = $3;
- new->ndtitems = $4.nused;
- new->dtitems = malloc(sizeof(PLpgSQL_diag_item) * $4.nused);
- memcpy(new->dtitems, $4.dtitems, sizeof(PLpgSQL_diag_item) * $4.nused);
+ new->diag_items = $4;
$$ = (PLpgSQL_stmt *)new;
}
;
-getdiag_list : getdiag_list ',' getdiag_target K_ASSIGN getdiag_item
+getdiag_list : getdiag_list ',' getdiag_list_item
{
- if ($1.nused == $1.nalloc)
- {
- $1.nalloc *= 2;
- $1.dtitems = repalloc($1.dtitems, sizeof(PLpgSQL_diag_item) * $1.nalloc);
- }
- $1.dtitems[$1.nused].target = $3;
- $1.dtitems[$1.nused].item = $5;
- $1.nused++;
-
- $$.nalloc = $1.nalloc;
- $$.nused = $1.nused;
- $$.dtitems = $1.dtitems;
+ $$ = lappend($1, $3);
}
- | getdiag_target K_ASSIGN getdiag_item
+ | getdiag_list_item
{
- $$.nalloc = 1;
- $$.nused = 1;
- $$.dtitems = palloc(sizeof(PLpgSQL_diag_item) * $$.nalloc);
- $$.dtitems[0].target = $1;
- $$.dtitems[0].item = $3;
+ $$ = list_make1($1);
}
;
-getdiag_item : K_ROW_COUNT
+getdiag_list_item : getdiag_target K_ASSIGN getdiag_kind
+ {
+ PLpgSQL_diag_item *new;
+
+ new = palloc(sizeof(PLpgSQL_diag_item));
+ new->target = $1;
+ new->kind = $3;
+
+ $$ = new;
+ }
+ ;
+
+getdiag_kind : K_ROW_COUNT
{
$$ = PLPGSQL_GETDIAG_ROW_COUNT;
}
{
PLpgSQL_arrayelem *new;
- new = malloc(sizeof(PLpgSQL_arrayelem));
- memset(new, 0, sizeof(PLpgSQL_arrayelem));
-
+ new = palloc0(sizeof(PLpgSQL_arrayelem));
new->dtype = PLPGSQL_DTYPE_ARRAYELEM;
new->subscript = $3;
new->arrayparentno = $1;
{
PLpgSQL_stmt_if *new;
- new = malloc(sizeof(PLpgSQL_stmt_if));
- memset(new, 0, sizeof(PLpgSQL_stmt_if));
-
+ new = palloc0(sizeof(PLpgSQL_stmt_if));
new->cmd_type = PLPGSQL_STMT_IF;
new->lineno = $2;
new->cond = $3;
stmt_else :
{
- PLpgSQL_stmts *new;
-
- new = malloc(sizeof(PLpgSQL_stmts));
- memset(new, 0, sizeof(PLpgSQL_stmts));
- $$ = new;
+ $$ = NIL;
}
| K_ELSIF lno expr_until_then proc_sect stmt_else
{
- /*
- * Translate the structure: into:
- *
- * IF c1 THEN IF c1 THEN
- * ... ...
- * ELSIF c2 THEN ELSE
- * IF c2 THEN
- * ... ...
- * ELSE ELSE
- * ... ...
- * END IF END IF
- * END IF
- *
- */
-
- PLpgSQL_stmts *new;
+ /*
+ * Translate the structure: into:
+ *
+ * IF c1 THEN IF c1 THEN
+ * ... ...
+ * ELSIF c2 THEN ELSE
+ * IF c2 THEN
+ * ... ...
+ * ELSE ELSE
+ * ... ...
+ * END IF END IF
+ * END IF
+ */
PLpgSQL_stmt_if *new_if;
/* first create a new if-statement */
- new_if = malloc(sizeof(PLpgSQL_stmt_if));
- memset(new_if, 0, sizeof(PLpgSQL_stmt_if));
-
+ new_if = palloc0(sizeof(PLpgSQL_stmt_if));
new_if->cmd_type = PLPGSQL_STMT_IF;
new_if->lineno = $2;
new_if->cond = $3;
new_if->true_body = $4;
new_if->false_body = $5;
-
- /* this is a 'container' for the if-statement */
- new = malloc(sizeof(PLpgSQL_stmts));
- memset(new, 0, sizeof(PLpgSQL_stmts));
-
- new->stmts_alloc = 64;
- new->stmts_used = 1;
- new->stmts = malloc(sizeof(PLpgSQL_stmt *) * new->stmts_alloc);
- new->stmts[0] = (PLpgSQL_stmt *) new_if;
- $$ = new;
-
+ /* wrap the if-statement in a "container" list */
+ $$ = list_make1(new_if);
}
| K_ELSE proc_sect
{
- $$ = $2;
+ $$ = $2;
}
;
-stmt_loop : opt_label K_LOOP lno loop_body
+stmt_loop : opt_block_label K_LOOP lno loop_body
{
PLpgSQL_stmt_loop *new;
- new = malloc(sizeof(PLpgSQL_stmt_loop));
- memset(new, 0, sizeof(PLpgSQL_stmt_loop));
-
+ new = palloc0(sizeof(PLpgSQL_stmt_loop));
new->cmd_type = PLPGSQL_STMT_LOOP;
new->lineno = $3;
new->label = $1;
- new->body = $4;
+ new->body = $4.stmts;
+ check_labels($1, $4.end_label);
plpgsql_ns_pop();
$$ = (PLpgSQL_stmt *)new;
}
;
-stmt_while : opt_label K_WHILE lno expr_until_loop loop_body
+stmt_while : opt_block_label K_WHILE lno expr_until_loop loop_body
{
PLpgSQL_stmt_while *new;
- new = malloc(sizeof(PLpgSQL_stmt_while));
- memset(new, 0, sizeof(PLpgSQL_stmt_while));
-
+ new = palloc0(sizeof(PLpgSQL_stmt_while));
new->cmd_type = PLPGSQL_STMT_WHILE;
new->lineno = $3;
new->label = $1;
new->cond = $4;
- new->body = $5;
+ new->body = $5.stmts;
+ check_labels($1, $5.end_label);
plpgsql_ns_pop();
$$ = (PLpgSQL_stmt *)new;
}
;
-stmt_for : opt_label K_FOR for_control loop_body
+stmt_for : opt_block_label K_FOR for_control loop_body
{
/* This runs after we've scanned the loop body */
if ($3->cmd_type == PLPGSQL_STMT_FORI)
new = (PLpgSQL_stmt_fori *) $3;
new->label = $1;
- new->body = $4;
+ new->body = $4.stmts;
$$ = (PLpgSQL_stmt *) new;
}
else if ($3->cmd_type == PLPGSQL_STMT_FORS)
new = (PLpgSQL_stmt_fors *) $3;
new->label = $1;
- new->body = $4;
+ new->body = $4.stmts;
$$ = (PLpgSQL_stmt *) new;
}
else
Assert($3->cmd_type == PLPGSQL_STMT_DYNFORS);
new = (PLpgSQL_stmt_dynfors *) $3;
new->label = $1;
- new->body = $4;
+ new->body = $4.stmts;
$$ = (PLpgSQL_stmt *) new;
}
+ check_labels($1, $4.end_label);
/* close namespace started in opt_label */
plpgsql_ns_pop();
}
;
-for_control : lno for_variable K_IN
+for_control :
+ lno for_variable K_IN
{
- int tok;
- bool reverse = false;
- bool execute = false;
- PLpgSQL_expr *expr1;
-
- /* check for REVERSE and EXECUTE */
- tok = yylex();
- if (tok == K_REVERSE)
- {
- reverse = true;
- tok = yylex();
- }
+ int tok = yylex();
+ /* Simple case: EXECUTE is a dynamic FOR loop */
if (tok == K_EXECUTE)
- execute = true;
- else
- plpgsql_push_back_token(tok);
-
- /* Collect one or two expressions */
- expr1 = read_sql_construct(K_DOTDOT,
- K_LOOP,
- "LOOP",
- true,
- "SELECT ",
- &tok);
-
- if (tok == K_DOTDOT)
{
- /* Found .., so it must be an integer loop */
- PLpgSQL_stmt_fori *new;
- PLpgSQL_expr *expr2;
- PLpgSQL_var *fvar;
-
- expr2 = plpgsql_read_expression(K_LOOP, "LOOP");
-
- if (execute)
- {
- plpgsql_error_lineno = $1;
- yyerror("cannot specify EXECUTE in integer for-loop");
- }
-
- /* name should be malloc'd for use as varname */
- fvar = (PLpgSQL_var *)
- plpgsql_build_variable(strdup($2.name),
- $2.lineno,
- plpgsql_build_datatype(INT4OID,
- -1),
- true);
-
- /* put the for-variable into the local block */
- plpgsql_add_initdatums(NULL);
-
- new = malloc(sizeof(PLpgSQL_stmt_fori));
- memset(new, 0, sizeof(PLpgSQL_stmt_fori));
-
- new->cmd_type = PLPGSQL_STMT_FORI;
- new->lineno = $1;
- new->var = fvar;
- new->reverse = reverse;
- new->lower = expr1;
- new->upper = expr2;
-
- $$ = (PLpgSQL_stmt *) new;
- }
- else if (execute)
- {
- /* No .., so it must be a loop over rows */
PLpgSQL_stmt_dynfors *new;
+ PLpgSQL_expr *expr;
- if (reverse)
- {
- plpgsql_error_lineno = $1;
- yyerror("cannot specify REVERSE in loop over rows");
- }
-
- new = malloc(sizeof(PLpgSQL_stmt_dynfors));
- memset(new, 0, sizeof(PLpgSQL_stmt_dynfors));
+ expr = plpgsql_read_expression(K_LOOP, "LOOP");
+ new = palloc0(sizeof(PLpgSQL_stmt_dynfors));
new->cmd_type = PLPGSQL_STMT_DYNFORS;
new->lineno = $1;
if ($2.rec)
+ {
new->rec = $2.rec;
+ check_assignable((PLpgSQL_datum *) new->rec);
+ }
else if ($2.row)
+ {
new->row = $2.row;
+ check_assignable((PLpgSQL_datum *) new->row);
+ }
+ else if ($2.scalar)
+ {
+ /* convert single scalar to list */
+ new->row = make_scalar_list1($2.name, $2.scalar, $2.lineno);
+ /* no need for check_assignable */
+ }
else
{
- plpgsql_error_lineno = $1;
- yyerror("loop variable of loop over rows must be a record or row variable");
+ plpgsql_error_lineno = $2.lineno;
+ yyerror("loop variable of loop over rows must be a record or row variable or list of scalar variables");
}
- new->query = expr1;
+ new->query = expr;
$$ = (PLpgSQL_stmt *) new;
}
else
{
- /* No .., so it must be a loop over rows */
- PLpgSQL_stmt_fors *new;
- char *newquery;
+ PLpgSQL_expr *expr1;
+ bool reverse = false;
- if (reverse)
+ /*
+ * We have to distinguish between two
+ * alternatives: FOR var IN a .. b and FOR
+ * var IN query. Unfortunately this is
+ * tricky, since the query in the second
+ * form needn't start with a SELECT
+ * keyword. We use the ugly hack of
+ * looking for two periods after the first
+ * token. We also check for the REVERSE
+ * keyword, which means it must be an
+ * integer loop.
+ */
+ if (tok == K_REVERSE)
+ reverse = true;
+ else
+ plpgsql_push_back_token(tok);
+
+ /*
+ * Read tokens until we see either a ".."
+ * or a LOOP. The text we read may not
+ * necessarily be a well-formed SQL
+ * statement, so we need to invoke
+ * read_sql_construct directly.
+ */
+ expr1 = read_sql_construct(K_DOTDOT,
+ K_LOOP,
+ "LOOP",
+ "SELECT ",
+ true,
+ false,
+ &tok);
+
+ if (tok == K_DOTDOT)
{
- plpgsql_error_lineno = $1;
- yyerror("cannot specify REVERSE in loop over rows");
- }
+ /* Saw "..", so it must be an integer loop */
+ PLpgSQL_expr *expr2;
+ PLpgSQL_var *fvar;
+ PLpgSQL_stmt_fori *new;
+ char *varname;
- new = malloc(sizeof(PLpgSQL_stmt_fors));
- memset(new, 0, sizeof(PLpgSQL_stmt_fors));
+ /* First expression is well-formed */
+ check_sql_expr(expr1->query);
- new->cmd_type = PLPGSQL_STMT_FORS;
- new->lineno = $1;
- if ($2.rec)
- new->rec = $2.rec;
- else if ($2.row)
- new->row = $2.row;
+ expr2 = plpgsql_read_expression(K_LOOP, "LOOP");
+
+ /* should have had a single variable name */
+ plpgsql_error_lineno = $2.lineno;
+ if ($2.scalar && $2.row)
+ ereport(ERROR,
+ (errcode(ERRCODE_SYNTAX_ERROR),
+ errmsg("integer FOR loop must have just one target variable")));
+
+ /* create loop's private variable */
+ plpgsql_convert_ident($2.name, &varname, 1);
+ fvar = (PLpgSQL_var *)
+ plpgsql_build_variable(varname,
+ $2.lineno,
+ plpgsql_build_datatype(INT4OID,
+ -1),
+ true);
+
+ /* put the for-variable into the local block */
+ plpgsql_add_initdatums(NULL);
+
+ new = palloc0(sizeof(PLpgSQL_stmt_fori));
+ new->cmd_type = PLPGSQL_STMT_FORI;
+ new->lineno = $1;
+ new->var = fvar;
+ new->reverse = reverse;
+ new->lower = expr1;
+ new->upper = expr2;
+
+ $$ = (PLpgSQL_stmt *) new;
+ }
else
{
- plpgsql_error_lineno = $1;
- yyerror("loop variable of loop over rows must be a record or row variable");
- }
- /*
- * Must get rid of the "SELECT " we prepended
- * to expr1's text
- */
- newquery = strdup(expr1->query + 7);
- free(expr1->query);
- expr1->query = newquery;
+ /*
+ * No "..", so it must be a query loop. We've prefixed an
+ * extra SELECT to the query text, so we need to remove that
+ * before performing syntax checking.
+ */
+ char *tmp_query;
+ PLpgSQL_stmt_fors *new;
- new->query = expr1;
+ if (reverse)
+ yyerror("cannot specify REVERSE in query FOR loop");
- $$ = (PLpgSQL_stmt *) new;
+ Assert(strncmp(expr1->query, "SELECT ", 7) == 0);
+ tmp_query = pstrdup(expr1->query + 7);
+ pfree(expr1->query);
+ expr1->query = tmp_query;
+
+ check_sql_expr(expr1->query);
+
+ new = palloc0(sizeof(PLpgSQL_stmt_fors));
+ new->cmd_type = PLPGSQL_STMT_FORS;
+ new->lineno = $1;
+ if ($2.rec)
+ {
+ new->rec = $2.rec;
+ check_assignable((PLpgSQL_datum *) new->rec);
+ }
+ else if ($2.row)
+ {
+ new->row = $2.row;
+ check_assignable((PLpgSQL_datum *) new->row);
+ }
+ else if ($2.scalar)
+ {
+ /* convert single scalar to list */
+ new->row = make_scalar_list1($2.name, $2.scalar, $2.lineno);
+ /* no need for check_assignable */
+ }
+ else
+ {
+ plpgsql_error_lineno = $2.lineno;
+ yyerror("loop variable of loop over rows must be a record or row variable or list of scalar variables");
+ }
+
+ new->query = expr1;
+ $$ = (PLpgSQL_stmt *) new;
+ }
}
}
;
+/*
+ * Processing the for_variable is tricky because we don't yet know if the
+ * FOR is an integer FOR loop or a loop over query results. In the former
+ * case, the variable is just a name that we must instantiate as a loop
+ * local variable, regardless of any other definition it might have.
+ * Therefore, we always save the actual identifier into $$.name where it
+ * can be used for that case. We also save the outer-variable definition,
+ * if any, because that's what we need for the loop-over-query case. Note
+ * that we must NOT apply check_assignable() or any other semantic check
+ * until we know what's what.
+ *
+ * However, if we see a comma-separated list of names, we know that it
+ * can't be an integer FOR loop and so it's OK to check the variables
+ * immediately. In particular, for T_WORD followed by comma, we should
+ * complain that the name is not known rather than say it's a syntax error.
+ * Note that the non-error result of this case sets *both* $$.scalar and
+ * $$.row; see the for_control production.
+ */
for_variable : T_SCALAR
{
- char *name;
+ int tok;
- plpgsql_convert_ident(yytext, &name, 1);
- $$.name = name;
+ $$.name = pstrdup(yytext);
$$.lineno = plpgsql_scanner_lineno();
+ $$.scalar = yylval.scalar;
$$.rec = NULL;
$$.row = NULL;
+ /* check for comma-separated list */
+ tok = yylex();
+ plpgsql_push_back_token(tok);
+ if (tok == ',')
+ $$.row = read_into_scalar_list($$.name, $$.scalar);
}
| T_WORD
{
- char *name;
+ int tok;
- plpgsql_convert_ident(yytext, &name, 1);
- $$.name = name;
+ $$.name = pstrdup(yytext);
$$.lineno = plpgsql_scanner_lineno();
+ $$.scalar = NULL;
$$.rec = NULL;
$$.row = NULL;
+ /* check for comma-separated list */
+ tok = yylex();
+ plpgsql_push_back_token(tok);
+ if (tok == ',')
+ {
+ plpgsql_error_lineno = $$.lineno;
+ ereport(ERROR,
+ (errcode(ERRCODE_SYNTAX_ERROR),
+ errmsg("\"%s\" is not a scalar variable",
+ $$.name)));
+ }
}
| T_RECORD
{
- char *name;
-
- plpgsql_convert_ident(yytext, &name, 1);
- $$.name = name;
+ $$.name = pstrdup(yytext);
$$.lineno = plpgsql_scanner_lineno();
+ $$.scalar = NULL;
$$.rec = yylval.rec;
$$.row = NULL;
}
| T_ROW
{
- char *name;
-
- plpgsql_convert_ident(yytext, &name, 1);
- $$.name = name;
+ $$.name = pstrdup(yytext);
$$.lineno = plpgsql_scanner_lineno();
+ $$.scalar = NULL;
$$.row = yylval.row;
$$.rec = NULL;
}
}
;
-stmt_exit : K_EXIT lno opt_exitlabel opt_exitcond
+stmt_exit : exit_type lno opt_label opt_exitcond
{
PLpgSQL_stmt_exit *new;
- new = malloc(sizeof(PLpgSQL_stmt_exit));
- memset(new, 0, sizeof(PLpgSQL_stmt_exit));
-
+ new = palloc0(sizeof(PLpgSQL_stmt_exit));
new->cmd_type = PLPGSQL_STMT_EXIT;
- new->lineno = $2;
+ new->is_exit = $1;
+ new->lineno = $2;
new->label = $3;
new->cond = $4;
}
;
+exit_type : K_EXIT
+ {
+ $$ = true;
+ }
+ | K_CONTINUE
+ {
+ $$ = false;
+ }
+ ;
+
stmt_return : K_RETURN lno
{
PLpgSQL_stmt_return *new;
- new = malloc(sizeof(PLpgSQL_stmt_return));
- memset(new, 0, sizeof(PLpgSQL_stmt_return));
- new->expr = NULL;
- new->retrecno = -1;
- new->retrowno = -1;
+ new = palloc0(sizeof(PLpgSQL_stmt_return));
+ new->cmd_type = PLPGSQL_STMT_RETURN;
+ new->lineno = $2;
+ new->expr = NULL;
+ new->retvarno = -1;
if (plpgsql_curr_compile->fn_retset)
{
if (yylex() != ';')
yyerror("RETURN cannot have a parameter in function returning set; use RETURN NEXT");
}
+ else if (plpgsql_curr_compile->out_param_varno >= 0)
+ {
+ if (yylex() != ';')
+ yyerror("RETURN cannot have a parameter in function with OUT parameters");
+ new->retvarno = plpgsql_curr_compile->out_param_varno;
+ }
+ else if (plpgsql_curr_compile->fn_rettype == VOIDOID)
+ {
+ if (yylex() != ';')
+ yyerror("RETURN cannot have a parameter in function returning void");
+ }
else if (plpgsql_curr_compile->fn_retistuple)
{
switch (yylex())
{
case K_NULL:
+ /* we allow this to support RETURN NULL in triggers */
break;
case T_ROW:
- new->retrowno = yylval.row->rowno;
+ new->retvarno = yylval.row->rowno;
break;
case T_RECORD:
- new->retrecno = yylval.rec->recno;
+ new->retvarno = yylval.rec->recno;
break;
default:
}
else
{
- /* ordinary expression case */
+ /*
+ * Note that a well-formed expression is
+ * _required_ here; anything else is a
+ * compile-time error.
+ */
new->expr = plpgsql_read_expression(';', ";");
}
- new->cmd_type = PLPGSQL_STMT_RETURN;
- new->lineno = $2;
-
$$ = (PLpgSQL_stmt *)new;
}
;
if (!plpgsql_curr_compile->fn_retset)
yyerror("cannot use RETURN NEXT in a non-SETOF function");
- new = malloc(sizeof(PLpgSQL_stmt_return_next));
- memset(new, 0, sizeof(PLpgSQL_stmt_return_next));
-
+ new = palloc0(sizeof(PLpgSQL_stmt_return_next));
new->cmd_type = PLPGSQL_STMT_RETURN_NEXT;
new->lineno = $2;
+ new->expr = NULL;
+ new->retvarno = -1;
- if (plpgsql_curr_compile->fn_retistuple)
+ if (plpgsql_curr_compile->out_param_varno >= 0)
{
- int tok = yylex();
+ if (yylex() != ';')
+ yyerror("RETURN NEXT cannot have a parameter in function with OUT parameters");
+ new->retvarno = plpgsql_curr_compile->out_param_varno;
+ }
+ else if (plpgsql_curr_compile->fn_retistuple)
+ {
+ switch (yylex())
+ {
+ case T_ROW:
+ new->retvarno = yylval.row->rowno;
+ break;
- if (tok == T_RECORD)
- new->rec = yylval.rec;
- else if (tok == T_ROW)
- new->row = yylval.row;
- else
- yyerror("RETURN NEXT must specify a record or row variable in function returning tuple");
+ case T_RECORD:
+ new->retvarno = yylval.rec->recno;
+ break;
+ default:
+ yyerror("RETURN NEXT must specify a record or row variable in function returning tuple");
+ break;
+ }
if (yylex() != ';')
yyerror("RETURN NEXT must specify a record or row variable in function returning tuple");
}
}
;
-stmt_raise : K_RAISE lno raise_level raise_msg raise_params ';'
+stmt_raise : K_RAISE lno raise_level raise_msg
{
PLpgSQL_stmt_raise *new;
+ int tok;
- new = malloc(sizeof(PLpgSQL_stmt_raise));
+ new = palloc(sizeof(PLpgSQL_stmt_raise));
new->cmd_type = PLPGSQL_STMT_RAISE;
new->lineno = $2;
new->elog_level = $3;
new->message = $4;
- new->nparams = $5.nused;
- new->params = malloc(sizeof(int) * $5.nused);
- memcpy(new->params, $5.nums, sizeof(int) * $5.nused);
+ new->params = NIL;
- $$ = (PLpgSQL_stmt *)new;
- }
- | K_RAISE lno raise_level raise_msg ';'
- {
- PLpgSQL_stmt_raise *new;
+ tok = yylex();
- new = malloc(sizeof(PLpgSQL_stmt_raise));
+ /*
+ * We expect either a semi-colon, which
+ * indicates no parameters, or a comma that
+ * begins the list of parameter expressions
+ */
+ if (tok != ',' && tok != ';')
+ yyerror("syntax error");
- new->cmd_type = PLPGSQL_STMT_RAISE;
- new->lineno = $2;
- new->elog_level = $3;
- new->message = $4;
- new->nparams = 0;
- new->params = NULL;
+ if (tok == ',')
+ {
+ PLpgSQL_expr *expr;
+ int term;
+
+ for (;;)
+ {
+ expr = read_sql_construct(',', ';', ", or ;",
+ "SELECT ",
+ true, true, &term);
+ new->params = lappend(new->params, expr);
+ if (term == ';')
+ break;
+ }
+ }
$$ = (PLpgSQL_stmt *)new;
}
}
| K_DEBUG
{
- $$ = DEBUG2;
- }
- ;
-
-raise_params : raise_params raise_param
- {
- if ($1.nused == $1.nalloc)
- {
- $1.nalloc *= 2;
- $1.nums = repalloc($1.nums, sizeof(int) * $1.nalloc);
- }
- $1.nums[$1.nused++] = $2;
-
- $$.nalloc = $1.nalloc;
- $$.nused = $1.nused;
- $$.nums = $1.nums;
- }
- | raise_param
- {
- $$.nalloc = 1;
- $$.nused = 1;
- $$.nums = palloc(sizeof(int) * $$.nalloc);
- $$.nums[0] = $1;
+ $$ = DEBUG1;
}
;
-raise_param : ',' T_SCALAR
+loop_body : proc_sect K_END K_LOOP opt_label ';'
{
- $$ = yylval.scalar->dno;
+ $$.stmts = $1;
+ $$.end_label = $4;
}
;
-loop_body : proc_sect K_END K_LOOP ';'
- { $$ = $1; }
- ;
-
stmt_execsql : execsql_start lno
{
PLpgSQL_stmt_execsql *new;
- new = malloc(sizeof(PLpgSQL_stmt_execsql));
+ new = palloc(sizeof(PLpgSQL_stmt_execsql));
new->cmd_type = PLPGSQL_STMT_EXECSQL;
new->lineno = $2;
new->sqlstmt = read_sql_stmt($1);
}
;
-stmt_dynexecute : K_EXECUTE lno expr_until_semi
+stmt_dynexecute : K_EXECUTE lno
+ {
+ PLpgSQL_stmt_dynexecute *new;
+ PLpgSQL_expr *expr;
+ int endtoken;
+
+ expr = read_sql_construct(K_INTO, ';', "INTO|;", "SELECT ",
+ true, true, &endtoken);
+
+ new = palloc(sizeof(PLpgSQL_stmt_dynexecute));
+ new->cmd_type = PLPGSQL_STMT_DYNEXECUTE;
+ new->lineno = $2;
+ new->query = expr;
+ new->rec = NULL;
+ new->row = NULL;
+
+ /*
+ * If we saw "INTO", look for a following row
+ * var, record var, or list of scalars.
+ */
+ if (endtoken == K_INTO)
{
- PLpgSQL_stmt_dynexecute *new;
+ switch (yylex())
+ {
+ case T_ROW:
+ new->row = yylval.row;
+ check_assignable((PLpgSQL_datum *) new->row);
+ break;
- new = malloc(sizeof(PLpgSQL_stmt_dynexecute));
- new->cmd_type = PLPGSQL_STMT_DYNEXECUTE;
- new->lineno = $2;
- new->query = $3;
+ case T_RECORD:
+ new->rec = yylval.rec;
+ check_assignable((PLpgSQL_datum *) new->rec);
+ break;
- $$ = (PLpgSQL_stmt *)new;
+ case T_SCALAR:
+ new->row = read_into_scalar_list(yytext, yylval.scalar);
+ break;
+
+ default:
+ plpgsql_error_lineno = $2;
+ ereport(ERROR,
+ (errcode(ERRCODE_SYNTAX_ERROR),
+ errmsg("syntax error at \"%s\"", yytext),
+ errdetail("Expected record variable, row variable, "
+ "or list of scalar variables.")));
+ }
+ if (yylex() != ';')
+ yyerror("syntax error");
}
+
+ $$ = (PLpgSQL_stmt *)new;
+ }
;
+
stmt_open : K_OPEN lno cursor_varptr
{
PLpgSQL_stmt_open *new;
int tok;
- new = malloc(sizeof(PLpgSQL_stmt_open));
- memset(new, 0, sizeof(PLpgSQL_stmt_open));
-
+ new = palloc0(sizeof(PLpgSQL_stmt_open));
new->cmd_type = PLPGSQL_STMT_OPEN;
new->lineno = $2;
new->curvar = $3->varno;
if ($3->cursor_explicit_expr == NULL)
{
tok = yylex();
-
if (tok != K_FOR)
{
plpgsql_error_lineno = $2;
}
tok = yylex();
- switch (tok)
+ if (tok == K_EXECUTE)
{
- case K_SELECT:
- case '(':
- plpgsql_push_back_token(tok);
- new->query = read_sql_stmt("");
- break;
-
- case K_EXECUTE:
- new->dynquery = read_sql_stmt("SELECT ");
- break;
-
- default:
- plpgsql_error_lineno = $2;
- ereport(ERROR,
- (errcode(ERRCODE_SYNTAX_ERROR),
- errmsg("syntax error at \"%s\"",
- yytext)));
+ new->dynquery = read_sql_stmt("SELECT ");
+ }
+ else
+ {
+ plpgsql_push_back_token(tok);
+ new->query = read_sql_stmt("");
}
-
}
else
{
char *cp;
tok = yylex();
-
if (tok != '(')
{
plpgsql_error_lineno = plpgsql_scanner_lineno();
else
{
tok = yylex();
-
if (tok == '(')
{
plpgsql_error_lineno = plpgsql_scanner_lineno();
errmsg("cursor \"%s\" has no arguments",
$3->refname)));
}
-
+
if (tok != ';')
{
plpgsql_error_lineno = plpgsql_scanner_lineno();
{
PLpgSQL_stmt_close *new;
- new = malloc(sizeof(PLpgSQL_stmt_close));
+ new = palloc(sizeof(PLpgSQL_stmt_close));
new->cmd_type = PLPGSQL_STMT_CLOSE;
new->lineno = $2;
new->curvar = $3;
}
;
+stmt_null : K_NULL ';'
+ {
+ /* We do not bother building a node for NULL */
+ $$ = NULL;
+ }
+ ;
+
cursor_varptr : T_SCALAR
{
if (yylval.scalar->dtype != PLPGSQL_DTYPE_VAR)
;
execsql_start : T_WORD
- { $$ = strdup(yytext); }
+ { $$ = pstrdup(yytext); }
| T_ERROR
- { $$ = strdup(yytext); }
+ { $$ = pstrdup(yytext); }
;
exception_sect :
{ $$ = NULL; }
- | K_EXCEPTION proc_exceptions
- { $$ = $2; }
+ | K_EXCEPTION lno
+ {
+ /*
+ * We use a mid-rule action to add these
+ * special variables to the namespace before
+ * parsing the WHEN clauses themselves.
+ */
+ PLpgSQL_exception_block *new = palloc(sizeof(PLpgSQL_exception_block));
+ PLpgSQL_variable *var;
+
+ var = plpgsql_build_variable("sqlstate", $2,
+ plpgsql_build_datatype(TEXTOID, -1),
+ true);
+ ((PLpgSQL_var *) var)->isconst = true;
+ new->sqlstate_varno = var->dno;
+
+ var = plpgsql_build_variable("sqlerrm", $2,
+ plpgsql_build_datatype(TEXTOID, -1),
+ true);
+ ((PLpgSQL_var *) var)->isconst = true;
+ new->sqlerrm_varno = var->dno;
+
+ $<exception_block>$ = new;
+ }
+ proc_exceptions
+ {
+ PLpgSQL_exception_block *new = $<exception_block>3;
+ new->exc_list = $4;
+
+ $$ = new;
+ }
;
proc_exceptions : proc_exceptions proc_exception
{
- if ($1->exceptions_used == $1->exceptions_alloc)
- {
- $1->exceptions_alloc *= 2;
- $1->exceptions = realloc($1->exceptions, sizeof(PLpgSQL_exception *) * $1->exceptions_alloc);
- }
- $1->exceptions[$1->exceptions_used++] = $2;
-
- $$ = $1;
+ $$ = lappend($1, $2);
}
| proc_exception
{
- PLpgSQL_exceptions *new;
-
- new = malloc(sizeof(PLpgSQL_exceptions));
- memset(new, 0, sizeof(PLpgSQL_exceptions));
-
- new->exceptions_alloc = 64;
- new->exceptions_used = 1;
- new->exceptions = malloc(sizeof(PLpgSQL_exception *) * new->exceptions_alloc);
- new->exceptions[0] = $1;
-
- $$ = new;
+ $$ = list_make1($1);
}
;
-proc_exception : K_WHEN lno opt_lblname K_THEN proc_sect
+proc_exception : K_WHEN lno proc_conditions K_THEN proc_sect
{
PLpgSQL_exception *new;
- new = malloc(sizeof(PLpgSQL_exception));
- memset(new, 0, sizeof(PLpgSQL_exception));
-
- new->lineno = $2;
- new->label = $3;
- new->action = $5;
+ new = palloc0(sizeof(PLpgSQL_exception));
+ new->lineno = $2;
+ new->conditions = $3;
+ new->action = $5;
$$ = new;
}
;
+proc_conditions : proc_conditions K_OR opt_lblname
+ {
+ PLpgSQL_condition *old;
+
+ for (old = $1; old->next != NULL; old = old->next)
+ /* skip */ ;
+ old->next = plpgsql_parse_err_condition($3);
+
+ $$ = $1;
+ }
+ | opt_lblname
+ {
+ $$ = plpgsql_parse_err_condition($1);
+ }
+ ;
+
expr_until_semi :
{ $$ = plpgsql_read_expression(';', ";"); }
;
{ $$ = plpgsql_read_expression(K_LOOP, "LOOP"); }
;
-opt_label :
+opt_block_label :
{
plpgsql_ns_push(NULL);
$$ = NULL;
}
;
-opt_exitlabel :
- { $$ = NULL; }
+opt_label :
+ {
+ $$ = NULL;
+ }
| T_LABEL
- { $$ = strdup(yytext); }
+ {
+ char *label_name;
+ plpgsql_convert_ident(yytext, &label_name, 1);
+ $$ = label_name;
+ }
+ | T_WORD
+ {
+ /* just to give a better error than "syntax error" */
+ yyerror("no such label");
+ }
;
opt_exitcond : ';'
char *name;
plpgsql_convert_ident(yytext, &name, 1);
- $$ = strdup(name);
- pfree(name);
+ $$ = name;
}
;
PLpgSQL_expr *
plpgsql_read_expression(int until, const char *expected)
{
- return read_sql_construct(until, 0, expected, true, "SELECT ", NULL);
+ return read_sql_construct(until, 0, expected, "SELECT ", true, true, NULL);
}
static PLpgSQL_expr *
read_sql_stmt(const char *sqlstart)
{
- return read_sql_construct(';', 0, ";", false, sqlstart, NULL);
+ return read_sql_construct(';', 0, ";", sqlstart, false, true, NULL);
}
/*
* until: token code for expected terminator
* until2: token code for alternate terminator (pass 0 if none)
* expected: text to use in complaining that terminator was not found
- * isexpression: whether to say we're reading an "expression" or a "statement"
* sqlstart: text to prefix to the accumulated SQL text
+ * isexpression: whether to say we're reading an "expression" or a "statement"
+ * valid_sql: whether to check the syntax of the expr (prefixed with sqlstart)
* endtoken: if not NULL, ending token is stored at *endtoken
* (this is only interesting if until2 isn't zero)
*/
read_sql_construct(int until,
int until2,
const char *expected,
- bool isexpression,
const char *sqlstart,
+ bool isexpression,
+ bool valid_sql,
int *endtoken)
{
int tok;
lno = plpgsql_scanner_lineno();
plpgsql_dstring_init(&ds);
- plpgsql_dstring_append(&ds, (char *) sqlstart);
+ plpgsql_dstring_append(&ds, sqlstart);
for (;;)
{
errmsg("missing \"%s\" at end of SQL statement",
expected)));
}
+
if (plpgsql_SpaceScanned)
plpgsql_dstring_append(&ds, " ");
+
+ /* Check for array overflow */
+ if (nparams >= 1024)
+ {
+ plpgsql_error_lineno = lno;
+ ereport(ERROR,
+ (errcode(ERRCODE_PROGRAM_LIMIT_EXCEEDED),
+ errmsg("too many variables specified in SQL statement")));
+ }
+
switch (tok)
{
case T_SCALAR:
if (endtoken)
*endtoken = tok;
- expr = malloc(sizeof(PLpgSQL_expr) + sizeof(int) * nparams - sizeof(int));
+ expr = palloc(sizeof(PLpgSQL_expr) + sizeof(int) * nparams - sizeof(int));
expr->dtype = PLPGSQL_DTYPE_EXPR;
- expr->query = strdup(plpgsql_dstring_get(&ds));
+ expr->query = pstrdup(plpgsql_dstring_get(&ds));
expr->plan = NULL;
expr->nparams = nparams;
while(nparams-- > 0)
expr->params[nparams] = params[nparams];
plpgsql_dstring_free(&ds);
+ if (valid_sql)
+ check_sql_expr(expr->query);
+
return expr;
}
return result;
}
-
static PLpgSQL_stmt *
make_select_stmt(void)
{
PLpgSQL_expr *expr;
PLpgSQL_row *row = NULL;
PLpgSQL_rec *rec = NULL;
- int tok = 0;
- int have_nexttok = 0;
- int have_into = 0;
+ int tok;
+ bool have_into = false;
plpgsql_dstring_init(&ds);
plpgsql_dstring_append(&ds, "SELECT ");
- while(1)
+ while (1)
{
- if (!have_nexttok)
- tok = yylex();
- have_nexttok = 0;
+ tok = yylex();
+
if (tok == ';')
break;
if (tok == 0)
{
case T_ROW:
row = yylval.row;
- have_into = 1;
+ check_assignable((PLpgSQL_datum *) row);
+ have_into = true;
break;
case T_RECORD:
rec = yylval.rec;
- have_into = 1;
+ check_assignable((PLpgSQL_datum *) rec);
+ have_into = true;
break;
case T_SCALAR:
- {
- int nfields = 1;
- char *fieldnames[1024];
- int varnos[1024];
-
- check_assignable(yylval.scalar);
- fieldnames[0] = strdup(yytext);
- varnos[0] = yylval.scalar->dno;
-
- while ((tok = yylex()) == ',')
- {
- tok = yylex();
- switch(tok)
- {
- case T_SCALAR:
- check_assignable(yylval.scalar);
- fieldnames[nfields] = strdup(yytext);
- varnos[nfields++] = yylval.scalar->dno;
- break;
-
- default:
- plpgsql_error_lineno = plpgsql_scanner_lineno();
- ereport(ERROR,
- (errcode(ERRCODE_SYNTAX_ERROR),
- errmsg("\"%s\" is not a variable",
- yytext)));
- }
- }
- have_nexttok = 1;
-
- row = malloc(sizeof(PLpgSQL_row));
- row->dtype = PLPGSQL_DTYPE_ROW;
- row->refname = strdup("*internal*");
- row->lineno = plpgsql_scanner_lineno();
- row->rowtupdesc = NULL;
- row->nfields = nfields;
- row->fieldnames = malloc(sizeof(char *) * nfields);
- row->varnos = malloc(sizeof(int) * nfields);
- while (--nfields >= 0)
- {
- row->fieldnames[nfields] = fieldnames[nfields];
- row->varnos[nfields] = varnos[nfields];
- }
-
- plpgsql_adddatum((PLpgSQL_datum *)row);
-
- have_into = 1;
- }
- break;
+ row = read_into_scalar_list(yytext, yylval.scalar);
+ have_into = true;
+ break;
default:
/* Treat the INTO as non-special */
plpgsql_dstring_append(&ds, " INTO ");
- have_nexttok = 1;
+ plpgsql_push_back_token(tok);
break;
}
continue;
if (plpgsql_SpaceScanned)
plpgsql_dstring_append(&ds, " ");
+
+ /* Check for array overflow */
+ if (nparams >= 1024)
+ {
+ plpgsql_error_lineno = plpgsql_scanner_lineno();
+ ereport(ERROR,
+ (errcode(ERRCODE_PROGRAM_LIMIT_EXCEEDED),
+ errmsg("too many parameters specified in SQL statement")));
+ }
+
switch (tok)
{
case T_SCALAR:
}
}
- expr = malloc(sizeof(PLpgSQL_expr) + sizeof(int) * nparams - sizeof(int));
+ expr = palloc(sizeof(PLpgSQL_expr) + sizeof(int) * nparams - sizeof(int));
expr->dtype = PLPGSQL_DTYPE_EXPR;
- expr->query = strdup(plpgsql_dstring_get(&ds));
+ expr->query = pstrdup(plpgsql_dstring_get(&ds));
expr->plan = NULL;
expr->nparams = nparams;
while(nparams-- > 0)
expr->params[nparams] = params[nparams];
plpgsql_dstring_free(&ds);
+ check_sql_expr(expr->query);
+
if (have_into)
{
PLpgSQL_stmt_select *select;
- select = malloc(sizeof(PLpgSQL_stmt_select));
- memset(select, 0, sizeof(PLpgSQL_stmt_select));
+ select = palloc0(sizeof(PLpgSQL_stmt_select));
select->cmd_type = PLPGSQL_STMT_SELECT;
select->rec = rec;
select->row = row;
{
PLpgSQL_stmt_execsql *execsql;
- execsql = malloc(sizeof(PLpgSQL_stmt_execsql));
+ execsql = palloc(sizeof(PLpgSQL_stmt_execsql));
execsql->cmd_type = PLPGSQL_STMT_EXECSQL;
execsql->sqlstmt = expr;
PLpgSQL_row *row = NULL;
PLpgSQL_rec *rec = NULL;
PLpgSQL_stmt_fetch *fetch;
- int have_nexttok = 0;
/* We have already parsed everything through the INTO keyword */
{
case T_ROW:
row = yylval.row;
+ check_assignable((PLpgSQL_datum *) row);
break;
case T_RECORD:
rec = yylval.rec;
+ check_assignable((PLpgSQL_datum *) rec);
break;
case T_SCALAR:
- {
- int nfields = 1;
- char *fieldnames[1024];
- int varnos[1024];
-
- check_assignable(yylval.scalar);
- fieldnames[0] = strdup(yytext);
- varnos[0] = yylval.scalar->dno;
-
- while ((tok = yylex()) == ',')
- {
- tok = yylex();
- switch(tok)
- {
- case T_SCALAR:
- check_assignable(yylval.scalar);
- fieldnames[nfields] = strdup(yytext);
- varnos[nfields++] = yylval.scalar->dno;
- break;
-
- default:
- plpgsql_error_lineno = plpgsql_scanner_lineno();
- ereport(ERROR,
- (errcode(ERRCODE_SYNTAX_ERROR),
- errmsg("\"%s\" is not a variable",
- yytext)));
- }
- }
- have_nexttok = 1;
-
- row = malloc(sizeof(PLpgSQL_row));
- row->dtype = PLPGSQL_DTYPE_ROW;
- row->refname = strdup("*internal*");
- row->lineno = plpgsql_scanner_lineno();
- row->rowtupdesc = NULL;
- row->nfields = nfields;
- row->fieldnames = malloc(sizeof(char *) * nfields);
- row->varnos = malloc(sizeof(int) * nfields);
- while (--nfields >= 0)
- {
- row->fieldnames[nfields] = fieldnames[nfields];
- row->varnos[nfields] = varnos[nfields];
- }
-
- plpgsql_adddatum((PLpgSQL_datum *)row);
- }
+ row = read_into_scalar_list(yytext, yylval.scalar);
break;
default:
- yyerror("syntax error");
+ plpgsql_error_lineno = plpgsql_scanner_lineno();
+ ereport(ERROR,
+ (errcode(ERRCODE_SYNTAX_ERROR),
+ errmsg("syntax error at \"%s\"", yytext),
+ errdetail("Expected record variable, row variable, "
+ "or list of scalar variables.")));
}
- if (!have_nexttok)
- tok = yylex();
-
+ tok = yylex();
if (tok != ';')
yyerror("syntax error");
- fetch = malloc(sizeof(PLpgSQL_stmt_select));
- memset(fetch, 0, sizeof(PLpgSQL_stmt_fetch));
+ fetch = palloc0(sizeof(PLpgSQL_stmt_select));
fetch->cmd_type = PLPGSQL_STMT_FETCH;
fetch->rec = rec;
fetch->row = row;
}
}
+/*
+ * Given the first datum and name in the INTO list, continue to read
+ * comma-separated scalar variables until we run out. Then construct
+ * and return a fake "row" variable that represents the list of
+ * scalars.
+ */
+static PLpgSQL_row *
+read_into_scalar_list(const char *initial_name,
+ PLpgSQL_datum *initial_datum)
+{
+ int nfields;
+ char *fieldnames[1024];
+ int varnos[1024];
+ PLpgSQL_row *row;
+ int tok;
+
+ check_assignable(initial_datum);
+ fieldnames[0] = pstrdup(initial_name);
+ varnos[0] = initial_datum->dno;
+ nfields = 1;
+
+ while ((tok = yylex()) == ',')
+ {
+ /* Check for array overflow */
+ if (nfields >= 1024)
+ {
+ plpgsql_error_lineno = plpgsql_scanner_lineno();
+ ereport(ERROR,
+ (errcode(ERRCODE_PROGRAM_LIMIT_EXCEEDED),
+ errmsg("too many INTO variables specified")));
+ }
+
+ tok = yylex();
+ switch(tok)
+ {
+ case T_SCALAR:
+ check_assignable(yylval.scalar);
+ fieldnames[nfields] = pstrdup(yytext);
+ varnos[nfields++] = yylval.scalar->dno;
+ break;
+
+ default:
+ plpgsql_error_lineno = plpgsql_scanner_lineno();
+ ereport(ERROR,
+ (errcode(ERRCODE_SYNTAX_ERROR),
+ errmsg("\"%s\" is not a scalar variable",
+ yytext)));
+ }
+ }
+
+ /*
+ * We read an extra, non-comma token from yylex(), so push it
+ * back onto the input stream
+ */
+ plpgsql_push_back_token(tok);
+
+ row = palloc(sizeof(PLpgSQL_row));
+ row->dtype = PLPGSQL_DTYPE_ROW;
+ row->refname = pstrdup("*internal*");
+ row->lineno = plpgsql_scanner_lineno();
+ row->rowtupdesc = NULL;
+ row->nfields = nfields;
+ row->fieldnames = palloc(sizeof(char *) * nfields);
+ row->varnos = palloc(sizeof(int) * nfields);
+ while (--nfields >= 0)
+ {
+ row->fieldnames[nfields] = fieldnames[nfields];
+ row->varnos[nfields] = varnos[nfields];
+ }
+
+ plpgsql_adddatum((PLpgSQL_datum *)row);
+
+ return row;
+}
+
+/*
+ * Convert a single scalar into a "row" list. This is exactly
+ * like read_into_scalar_list except we never consume any input.
+ * In fact, since this can be invoked long after the source
+ * input was actually read, the lineno has to be passed in.
+ */
+static PLpgSQL_row *
+make_scalar_list1(const char *initial_name,
+ PLpgSQL_datum *initial_datum,
+ int lineno)
+{
+ PLpgSQL_row *row;
+
+ check_assignable(initial_datum);
+
+ row = palloc(sizeof(PLpgSQL_row));
+ row->dtype = PLPGSQL_DTYPE_ROW;
+ row->refname = pstrdup("*internal*");
+ row->lineno = lineno;
+ row->rowtupdesc = NULL;
+ row->nfields = 1;
+ row->fieldnames = palloc(sizeof(char *));
+ row->varnos = palloc(sizeof(int));
+ row->fieldnames[0] = pstrdup(initial_name);
+ row->varnos[0] = initial_datum->dno;
+
+ plpgsql_adddatum((PLpgSQL_datum *)row);
+
+ return row;
+}
+
+/*
+ * When the PL/PgSQL parser expects to see a SQL statement, it is very
+ * liberal in what it accepts; for example, we often assume an
+ * unrecognized keyword is the beginning of a SQL statement. This
+ * avoids the need to duplicate parts of the SQL grammar in the
+ * PL/PgSQL grammar, but it means we can accept wildly malformed
+ * input. To try and catch some of the more obviously invalid input,
+ * we run the strings we expect to be SQL statements through the main
+ * SQL parser.
+ *
+ * We only invoke the raw parser (not the analyzer); this doesn't do
+ * any database access and does not check any semantic rules, it just
+ * checks for basic syntactic correctness. We do this here, rather
+ * than after parsing has finished, because a malformed SQL statement
+ * may cause the PL/PgSQL parser to become confused about statement
+ * borders. So it is best to bail out as early as we can.
+ */
+static void
+check_sql_expr(const char *stmt)
+{
+ ErrorContextCallback syntax_errcontext;
+ ErrorContextCallback *previous_errcontext;
+ MemoryContext oldCxt;
+
+ if (!plpgsql_check_syntax)
+ return;
+
+ /*
+ * Setup error traceback support for ereport(). The previous
+ * ereport callback is installed by pl_comp.c, but we don't want
+ * that to be invoked (since it will try to transpose the syntax
+ * error to be relative to the CREATE FUNCTION), so temporarily
+ * remove it from the list of callbacks.
+ */
+ Assert(error_context_stack->callback == plpgsql_compile_error_callback);
+
+ previous_errcontext = error_context_stack;
+ syntax_errcontext.callback = plpgsql_sql_error_callback;
+ syntax_errcontext.arg = (char *) stmt;
+ syntax_errcontext.previous = error_context_stack->previous;
+ error_context_stack = &syntax_errcontext;
+
+ oldCxt = MemoryContextSwitchTo(compile_tmp_cxt);
+ (void) raw_parser(stmt);
+ MemoryContextSwitchTo(oldCxt);
+
+ /* Restore former ereport callback */
+ error_context_stack = previous_errcontext;
+}
+
+static void
+plpgsql_sql_error_callback(void *arg)
+{
+ char *sql_stmt = (char *) arg;
+
+ Assert(plpgsql_error_funcname);
+
+ errcontext("SQL statement in PL/PgSQL function \"%s\" near line %d",
+ plpgsql_error_funcname, plpgsql_error_lineno);
+ internalerrquery(sql_stmt);
+ internalerrposition(geterrposition());
+ errposition(0);
+}
+
+static void
+check_labels(const char *start_label, const char *end_label)
+{
+ if (end_label)
+ {
+ if (!start_label)
+ {
+ plpgsql_error_lineno = plpgsql_scanner_lineno();
+ ereport(ERROR,
+ (errcode(ERRCODE_SYNTAX_ERROR),
+ errmsg("end label \"%s\" specified for unlabelled block",
+ end_label)));
+ }
+
+ if (strcmp(start_label, end_label) != 0)
+ {
+ plpgsql_error_lineno = plpgsql_scanner_lineno();
+ ereport(ERROR,
+ (errcode(ERRCODE_SYNTAX_ERROR),
+ errmsg("end label \"%s\" differs from block's label \"%s\"",
+ end_label, start_label)));
+ }
+ }
+}
+
+/* Needed to avoid conflict between different prefix settings: */
+#undef yylex
+
#include "pl_scan.c"