Sweden-Number/dlls/msi/sql.y

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%{
/*
* Implementation of the Microsoft Installer (msi.dll)
*
* Copyright 2002-2004 Mike McCormack for CodeWeavers
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "config.h"
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include "windef.h"
#include "winbase.h"
#include "query.h"
#include "wine/list.h"
#include "wine/debug.h"
#define YYLEX_PARAM info
#define YYPARSE_PARAM info
extern int SQL_error(const char *str);
WINE_DEFAULT_DEBUG_CHANNEL(msi);
typedef struct tag_SQL_input
{
MSIDATABASE *db;
LPCWSTR command;
DWORD n, len;
MSIVIEW **view; /* view structure for the resulting query */
struct list *mem;
} SQL_input;
static LPWSTR SQL_getstring( void *info, struct sql_str *str );
static INT SQL_getint( void *info );
static int SQL_lex( void *SQL_lval, SQL_input *info );
static void *parser_alloc( void *info, unsigned int sz );
static column_info *parser_alloc_column( void *info, LPCWSTR table, LPCWSTR column );
static BOOL SQL_MarkPrimaryKeys( column_info *cols, column_info *keys);
static struct expr * EXPR_complex( void *info, struct expr *l, UINT op, struct expr *r );
static struct expr * EXPR_column( void *info, column_info *column );
static struct expr * EXPR_ival( void *info, int val );
static struct expr * EXPR_sval( void *info, struct sql_str * );
static struct expr * EXPR_wildcard( void *info );
%}
%pure-parser
%union
{
struct sql_str str;
LPWSTR string;
column_info *column_list;
MSIVIEW *query;
struct expr *expr;
USHORT column_type;
int integer;
}
%token TK_ABORT TK_AFTER TK_AGG_FUNCTION TK_ALL TK_AND TK_AS TK_ASC
%token TK_BEFORE TK_BEGIN TK_BETWEEN TK_BITAND TK_BITNOT TK_BITOR TK_BY
%token TK_CASCADE TK_CASE TK_CHAR TK_CHECK TK_CLUSTER TK_COLLATE TK_COLUMN
%token TK_COMMA TK_COMMENT TK_COMMIT TK_CONCAT TK_CONFLICT
%token TK_CONSTRAINT TK_COPY TK_CREATE
%token TK_DEFAULT TK_DEFERRABLE TK_DEFERRED TK_DELETE TK_DELIMITERS TK_DESC
%token TK_DISTINCT TK_DOT TK_DROP TK_EACH
%token TK_ELSE TK_END TK_END_OF_FILE TK_EQ TK_EXCEPT TK_EXPLAIN
%token TK_FAIL TK_FLOAT TK_FOR TK_FOREIGN TK_FROM TK_FUNCTION
%token TK_GE TK_GLOB TK_GROUP TK_GT
%token TK_HAVING TK_HOLD
%token TK_IGNORE TK_ILLEGAL TK_IMMEDIATE TK_IN TK_INDEX TK_INITIALLY
%token <str> TK_ID
%token TK_INSERT TK_INSTEAD TK_INT
%token <str> TK_INTEGER
%token TK_INTERSECT TK_INTO TK_IS
%token TK_ISNULL
%token TK_JOIN TK_JOIN_KW
%token TK_KEY
%token TK_LE TK_LIKE TK_LIMIT TK_LONG TK_LONGCHAR TK_LP TK_LSHIFT TK_LT
%token TK_LOCALIZABLE
%token TK_MATCH TK_MINUS
%token TK_NE TK_NOT TK_NOTNULL TK_NULL
%token TK_OBJECT TK_OF TK_OFFSET TK_ON TK_OR TK_ORACLE_OUTER_JOIN TK_ORDER
%token TK_PLUS TK_PRAGMA TK_PRIMARY
%token TK_RAISE TK_REFERENCES TK_REM TK_REPLACE TK_RESTRICT TK_ROLLBACK
%token TK_ROW TK_RP TK_RSHIFT
%token TK_SELECT TK_SEMI TK_SET TK_SHORT TK_SLASH TK_SPACE TK_STAR TK_STATEMENT
%token <str> TK_STRING
%token TK_TABLE TK_TEMP TK_THEN TK_TRANSACTION TK_TRIGGER
%token TK_UMINUS TK_UNCLOSED_STRING TK_UNION TK_UNIQUE
%token TK_UPDATE TK_UPLUS TK_USING
%token TK_VACUUM TK_VALUES TK_VIEW
%token TK_WHEN TK_WHERE TK_WILDCARD
/*
* These are extra tokens used by the lexer but never seen by the
* parser. We put them in a rule so that the parser generator will
* add them to the parse.h output file.
*
*/
%nonassoc END_OF_FILE ILLEGAL SPACE UNCLOSED_STRING COMMENT FUNCTION
COLUMN AGG_FUNCTION.
%type <string> table id
%type <column_list> selcollist column column_and_type column_def table_def
%type <column_list> column_assignment update_assign_list constlist
%type <query> query from fromtable selectfrom unorderedsel
%type <query> oneupdate onedelete oneselect onequery onecreate oneinsert
%type <expr> expr val column_val const_val
%type <column_type> column_type data_type data_type_l data_count
%type <integer> number
%%
query:
onequery
{
SQL_input* sql = (SQL_input*) info;
*sql->view = $1;
}
;
onequery:
oneselect
| onecreate
| oneinsert
| oneupdate
| onedelete
;
oneinsert:
TK_INSERT TK_INTO table TK_LP selcollist TK_RP TK_VALUES TK_LP constlist TK_RP
{
SQL_input *sql = (SQL_input*) info;
MSIVIEW *insert = NULL;
UINT r;
r = INSERT_CreateView( sql->db, &insert, $3, $5, $9, FALSE );
if( !insert )
YYABORT;
$$ = insert;
}
| TK_INSERT TK_INTO table TK_LP selcollist TK_RP TK_VALUES TK_LP constlist TK_RP TK_TEMP
{
SQL_input *sql = (SQL_input*) info;
MSIVIEW *insert = NULL;
INSERT_CreateView( sql->db, &insert, $3, $5, $9, TRUE );
if( !insert )
YYABORT;
$$ = insert;
}
;
onecreate:
TK_CREATE TK_TABLE table TK_LP table_def TK_RP
{
SQL_input* sql = (SQL_input*) info;
MSIVIEW *create = NULL;
if( !$5 )
YYABORT;
CREATE_CreateView( sql->db, &create, $3, $5, FALSE );
if( !create )
YYABORT;
$$ = create;
}
| TK_CREATE TK_TABLE table TK_LP table_def TK_RP TK_HOLD
{
SQL_input* sql = (SQL_input*) info;
MSIVIEW *create = NULL;
if( !$5 )
YYABORT;
CREATE_CreateView( sql->db, &create, $3, $5, TRUE );
if( !create )
YYABORT;
$$ = create;
}
;
oneupdate:
TK_UPDATE table TK_SET update_assign_list TK_WHERE expr
{
SQL_input* sql = (SQL_input*) info;
MSIVIEW *update = NULL;
UPDATE_CreateView( sql->db, &update, $2, $4, $6 );
if( !update )
YYABORT;
$$ = update;
}
;
onedelete:
TK_DELETE from
{
SQL_input* sql = (SQL_input*) info;
MSIVIEW *delete = NULL;
DELETE_CreateView( sql->db, &delete, $2 );
if( !delete )
YYABORT;
$$ = delete;
}
;
table_def:
column_def TK_PRIMARY TK_KEY selcollist
{
if( SQL_MarkPrimaryKeys( $1, $4 ) )
$$ = $1;
else
$$ = NULL;
}
;
column_def:
column_def TK_COMMA column_and_type
{
column_info *ci;
for( ci = $1; ci->next; ci = ci->next )
;
ci->next = $3;
$$ = $1;
}
| column_and_type
{
$$ = $1;
}
;
column_and_type:
column column_type
{
$$ = $1;
$$->type = $2;
}
;
column_type:
data_type_l
{
$$ = $1 | MSITYPE_VALID;
}
| data_type_l TK_LOCALIZABLE
{
FIXME("LOCALIZABLE ignored\n");
$$ = $1 | MSITYPE_VALID;
}
;
data_type_l:
data_type
{
$$ |= MSITYPE_NULLABLE;
}
| data_type TK_NOT TK_NULL
{
$$ = $1;
}
;
data_type:
TK_CHAR
{
$$ = MSITYPE_STRING | 1;
}
| TK_CHAR TK_LP data_count TK_RP
{
$$ = MSITYPE_STRING | 0x400 | $3;
}
| TK_LONGCHAR
{
$$ = 2;
}
| TK_SHORT
{
$$ = 2;
}
| TK_INT
{
$$ = 2;
}
| TK_LONG
{
$$ = 4;
}
| TK_OBJECT
{
$$ = 0;
}
;
data_count:
number
{
if( ( $1 > 255 ) || ( $1 < 0 ) )
YYABORT;
$$ = $1;
}
;
oneselect:
unorderedsel TK_ORDER TK_BY selcollist
{
SQL_input* sql = (SQL_input*) info;
$$ = NULL;
if( $4 )
ORDER_CreateView( sql->db, &$$, $1, $4 );
else
$$ = $1;
if( !$$ )
YYABORT;
}
| unorderedsel
;
unorderedsel:
TK_SELECT selectfrom
{
$$ = $2;
}
| TK_SELECT TK_DISTINCT selectfrom
{
SQL_input* sql = (SQL_input*) info;
$$ = NULL;
DISTINCT_CreateView( sql->db, &$$, $3 );
if( !$$ )
YYABORT;
}
;
selectfrom:
selcollist from
{
SQL_input* sql = (SQL_input*) info;
$$ = NULL;
if( $1 )
SELECT_CreateView( sql->db, &$$, $2, $1 );
else
$$ = $2;
if( !$$ )
YYABORT;
}
;
selcollist:
column
| column TK_COMMA selcollist
{
$1->next = $3;
}
| TK_STAR
{
$$ = NULL;
}
;
from:
fromtable
| fromtable TK_WHERE expr
{
SQL_input* sql = (SQL_input*) info;
UINT r;
$$ = NULL;
r = WHERE_CreateView( sql->db, &$$, $1, $3 );
if( r != ERROR_SUCCESS || !$$ )
YYABORT;
}
;
fromtable:
TK_FROM table
{
SQL_input* sql = (SQL_input*) info;
UINT r;
$$ = NULL;
r = TABLE_CreateView( sql->db, $2, &$$ );
if( r != ERROR_SUCCESS || !$$ )
YYABORT;
}
;
expr:
TK_LP expr TK_RP
{
$$ = $2;
if( !$$ )
YYABORT;
}
| column_val TK_EQ column_val
{
$$ = EXPR_complex( info, $1, OP_EQ, $3 );
if( !$$ )
YYABORT;
}
| expr TK_AND expr
{
$$ = EXPR_complex( info, $1, OP_AND, $3 );
if( !$$ )
YYABORT;
}
| expr TK_OR expr
{
$$ = EXPR_complex( info, $1, OP_OR, $3 );
if( !$$ )
YYABORT;
}
| column_val TK_EQ val
{
$$ = EXPR_complex( info, $1, OP_EQ, $3 );
if( !$$ )
YYABORT;
}
| column_val TK_GT val
{
$$ = EXPR_complex( info, $1, OP_GT, $3 );
if( !$$ )
YYABORT;
}
| column_val TK_LT val
{
$$ = EXPR_complex( info, $1, OP_LT, $3 );
if( !$$ )
YYABORT;
}
| column_val TK_LE val
{
$$ = EXPR_complex( info, $1, OP_LE, $3 );
if( !$$ )
YYABORT;
}
| column_val TK_GE val
{
$$ = EXPR_complex( info, $1, OP_GE, $3 );
if( !$$ )
YYABORT;
}
| column_val TK_NE val
{
$$ = EXPR_complex( info, $1, OP_NE, $3 );
if( !$$ )
YYABORT;
}
| column_val TK_IS TK_NULL
{
$$ = EXPR_complex( info, $1, OP_ISNULL, NULL );
if( !$$ )
YYABORT;
}
| column_val TK_IS TK_NOT TK_NULL
{
$$ = EXPR_complex( info, $1, OP_NOTNULL, NULL );
if( !$$ )
YYABORT;
}
;
val:
column_val
| const_val
;
constlist:
const_val
{
$$ = parser_alloc_column( info, NULL, NULL );
if( !$$ )
YYABORT;
$$->val = $1;
}
| const_val TK_COMMA constlist
{
$$ = parser_alloc_column( info, NULL, NULL );
if( !$$ )
YYABORT;
$$->val = $1;
$$->next = $3;
}
;
update_assign_list:
column_assignment
| column_assignment TK_COMMA update_assign_list
{
$$ = $1;
$$->next = $3;
}
;
column_assignment:
column TK_EQ const_val
{
$$ = $1;
$$->val = $3;
}
;
const_val:
number
{
$$ = EXPR_ival( info, $1 );
if( !$$ )
YYABORT;
}
| TK_MINUS number
{
$$ = EXPR_ival( info, -$2 );
if( !$$ )
YYABORT;
}
| TK_STRING
{
$$ = EXPR_sval( info, &$1 );
if( !$$ )
YYABORT;
}
| TK_WILDCARD
{
$$ = EXPR_wildcard( info );
if( !$$ )
YYABORT;
}
;
column_val:
column
{
$$ = EXPR_column( info, $1 );
if( !$$ )
YYABORT;
}
;
column:
table TK_DOT id
{
$$ = parser_alloc_column( info, $1, $3 );
if( !$$ )
YYABORT;
}
| id
{
$$ = parser_alloc_column( info, NULL, $1 );
if( !$$ )
YYABORT;
}
;
table:
id
{
$$ = $1;
}
;
id:
TK_ID
{
$$ = SQL_getstring( info, &$1 );
if( !$$ )
YYABORT;
}
;
number:
TK_INTEGER
{
$$ = SQL_getint( info );
}
;
%%
static void *parser_alloc( void *info, unsigned int sz )
{
SQL_input* sql = (SQL_input*) info;
struct list *mem;
mem = msi_alloc( sizeof (struct list) + sz );
list_add_tail( sql->mem, mem );
return &mem[1];
}
static column_info *parser_alloc_column( void *info, LPCWSTR table, LPCWSTR column )
{
column_info *col;
col = parser_alloc( info, sizeof (*col) );
if( col )
{
col->table = table;
col->column = column;
col->val = NULL;
col->type = 0;
col->next = NULL;
}
return col;
}
int SQL_lex( void *SQL_lval, SQL_input *sql )
{
int token;
struct sql_str * str = SQL_lval;
do
{
sql->n += sql->len;
if( ! sql->command[sql->n] )
return 0; /* end of input */
TRACE("string : %s\n", debugstr_w(&sql->command[sql->n]));
sql->len = sqliteGetToken( &sql->command[sql->n], &token );
if( sql->len==0 )
break;
str->data = &sql->command[sql->n];
str->len = sql->len;
}
while( token == TK_SPACE );
TRACE("token : %d (%s)\n", token, debugstr_wn(&sql->command[sql->n], sql->len));
return token;
}
LPWSTR SQL_getstring( void *info, struct sql_str *strdata )
{
LPCWSTR p = strdata->data;
UINT len = strdata->len;
LPWSTR str;
/* if there's quotes, remove them */
if( ( (p[0]=='`') && (p[len-1]=='`') ) ||
( (p[0]=='\'') && (p[len-1]=='\'') ) )
{
p++;
len -= 2;
}
str = parser_alloc( info, (len + 1)*sizeof(WCHAR) );
if( !str )
return str;
memcpy( str, p, len*sizeof(WCHAR) );
str[len]=0;
return str;
}
INT SQL_getint( void *info )
{
SQL_input* sql = (SQL_input*) info;
LPCWSTR p = &sql->command[sql->n];
INT i, r = 0;
for( i=0; i<sql->len; i++ )
{
if( '0' > p[i] || '9' < p[i] )
{
ERR("should only be numbers here!\n");
break;
}
r = (p[i]-'0') + r*10;
}
return r;
}
int SQL_error( const char *str )
{
return 0;
}
static struct expr * EXPR_wildcard( void *info )
{
struct expr *e = parser_alloc( info, sizeof *e );
if( e )
{
e->type = EXPR_WILDCARD;
}
return e;
}
static struct expr * EXPR_complex( void *info, struct expr *l, UINT op, struct expr *r )
{
struct expr *e = parser_alloc( info, sizeof *e );
if( e )
{
e->type = EXPR_COMPLEX;
e->u.expr.left = l;
e->u.expr.op = op;
e->u.expr.right = r;
}
return e;
}
static struct expr * EXPR_column( void *info, column_info *column )
{
struct expr *e = parser_alloc( info, sizeof *e );
if( e )
{
e->type = EXPR_COLUMN;
e->u.sval = column->column;
}
return e;
}
static struct expr * EXPR_ival( void *info, int val )
{
struct expr *e = parser_alloc( info, sizeof *e );
if( e )
{
e->type = EXPR_IVAL;
e->u.ival = val;
}
return e;
}
static struct expr * EXPR_sval( void *info, struct sql_str *str )
{
struct expr *e = parser_alloc( info, sizeof *e );
if( e )
{
e->type = EXPR_SVAL;
e->u.sval = SQL_getstring( info, str );
}
return e;
}
static BOOL SQL_MarkPrimaryKeys( column_info *cols,
column_info *keys )
{
column_info *k;
BOOL found = TRUE;
for( k = keys; k && found; k = k->next )
{
column_info *c;
found = FALSE;
for( c = cols; c && !found; c = c->next )
{
if( lstrcmpW( k->column, c->column ) )
continue;
c->type |= MSITYPE_KEY;
found = TRUE;
}
}
return found;
}
UINT MSI_ParseSQL( MSIDATABASE *db, LPCWSTR command, MSIVIEW **phview,
struct list *mem )
{
SQL_input sql;
int r;
*phview = NULL;
sql.db = db;
sql.command = command;
sql.n = 0;
sql.len = 0;
sql.view = phview;
sql.mem = mem;
r = SQL_parse(&sql);
TRACE("Parse returned %d\n", r);
if( r )
{
if( *sql.view )
(*sql.view)->ops->delete( *sql.view );
*sql.view = NULL;
return ERROR_BAD_QUERY_SYNTAX;
}
return ERROR_SUCCESS;
}