/* * Implementation of the Microsoft Installer (msi.dll) * * Copyright 2002 Mike McCormack for CodeWeavers * Copyright 2011 Bernhard Loos * * 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., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include "debug.h" #include "libmsi.h" #include "msipriv.h" #include "query.h" /* below is the query interface to a table */ typedef struct _LibmsiRowEntry { struct _LibmsiWhereView *wv; /* used during sorting */ unsigned values[1]; } LibmsiRowEntry; typedef struct tagJOINTABLE { struct tagJOINTABLE *next; LibmsiView *view; unsigned col_count; unsigned row_count; unsigned table_index; } JOINTABLE; typedef struct _LibmsiOrderInfo { unsigned col_count; unsigned error; union ext_column columns[1]; } LibmsiOrderInfo; typedef struct _LibmsiWhereView { LibmsiView view; LibmsiDatabase *db; JOINTABLE *tables; unsigned row_count; unsigned col_count; unsigned table_count; LibmsiRowEntry **reorder; unsigned reorder_size; /* number of entries available in reorder */ struct expr *cond; unsigned rec_index; LibmsiOrderInfo *order_info; } LibmsiWhereView; static unsigned where_view_evaluate( LibmsiWhereView *wv, const unsigned rows[], struct expr *cond, int *val, LibmsiRecord *record ); #define INITIAL_REORDER_SIZE 16 #define INVALID_ROW_INDEX (-1) static void free_reorder(LibmsiWhereView *wv) { unsigned i; if (!wv->reorder) return; for (i = 0; i < wv->row_count; i++) msi_free(wv->reorder[i]); msi_free( wv->reorder ); wv->reorder = NULL; wv->reorder_size = 0; wv->row_count = 0; } static unsigned init_reorder(LibmsiWhereView *wv) { LibmsiRowEntry **new = msi_alloc_zero(sizeof(LibmsiRowEntry *) * INITIAL_REORDER_SIZE); if (!new) return LIBMSI_RESULT_OUTOFMEMORY; free_reorder(wv); wv->reorder = new; wv->reorder_size = INITIAL_REORDER_SIZE; return LIBMSI_RESULT_SUCCESS; } static inline unsigned find_row(LibmsiWhereView *wv, unsigned row, unsigned *(values[])) { if (row >= wv->row_count) return NO_MORE_ITEMS; *values = wv->reorder[row]->values; return LIBMSI_RESULT_SUCCESS; } static unsigned add_row(LibmsiWhereView *wv, unsigned vals[]) { LibmsiRowEntry *new; if (wv->reorder_size <= wv->row_count) { LibmsiRowEntry **new_reorder; unsigned newsize = wv->reorder_size * 2; new_reorder = msi_realloc_zero(wv->reorder, sizeof(LibmsiRowEntry *) * wv->reorder_size, sizeof(LibmsiRowEntry *) * newsize); if (!new_reorder) return LIBMSI_RESULT_OUTOFMEMORY; wv->reorder = new_reorder; wv->reorder_size = newsize; } new = msi_alloc(offsetof( LibmsiRowEntry, values[wv->table_count] )); if (!new) return LIBMSI_RESULT_OUTOFMEMORY; wv->reorder[wv->row_count++] = new; memcpy(new->values, vals, wv->table_count * sizeof(unsigned)); new->wv = wv; return LIBMSI_RESULT_SUCCESS; } static JOINTABLE *find_table(LibmsiWhereView *wv, unsigned col, unsigned *table_col) { JOINTABLE *table = wv->tables; if(col == 0 || col > wv->col_count) return NULL; while (col > table->col_count) { col -= table->col_count; table = table->next; assert(table); } *table_col = col; return table; } static unsigned parse_column(LibmsiWhereView *wv, union ext_column *column, unsigned *column_type) { JOINTABLE *table = wv->tables; unsigned i, r; do { const char *table_name; if (column->unparsed.table) { r = table->view->ops->get_column_info(table->view, 1, NULL, NULL, NULL, &table_name); if (r != LIBMSI_RESULT_SUCCESS) return r; if (strcmp(table_name, column->unparsed.table) != 0) continue; } for(i = 1; i <= table->col_count; i++) { const char *col_name; r = table->view->ops->get_column_info(table->view, i, &col_name, column_type, NULL, NULL); if(r != LIBMSI_RESULT_SUCCESS ) return r; if(strcmp(col_name, column->unparsed.column)) continue; column->parsed.column = i; column->parsed.table = table; return LIBMSI_RESULT_SUCCESS; } } while ((table = table->next)); g_warning("Couldn't find column %s.%s\n", debugstr_a( column->unparsed.table ), debugstr_a( column->unparsed.column ) ); return LIBMSI_RESULT_BAD_QUERY_SYNTAX; } static unsigned where_view_fetch_int( LibmsiView *view, unsigned row, unsigned col, unsigned *val ) { LibmsiWhereView *wv = (LibmsiWhereView*)view; JOINTABLE *table; unsigned *rows; unsigned r; TRACE("%p %d %d %p\n", wv, row, col, val ); if( !wv->tables ) return LIBMSI_RESULT_FUNCTION_FAILED; r = find_row(wv, row, &rows); if (r != LIBMSI_RESULT_SUCCESS) return r; table = find_table(wv, col, &col); if (!table) return LIBMSI_RESULT_FUNCTION_FAILED; return table->view->ops->fetch_int(table->view, rows[table->table_index], col, val); } static unsigned where_view_fetch_stream( LibmsiView *view, unsigned row, unsigned col, GsfInput **stm ) { LibmsiWhereView *wv = (LibmsiWhereView*)view; JOINTABLE *table; unsigned *rows; unsigned r; TRACE("%p %d %d %p\n", wv, row, col, stm ); if( !wv->tables ) return LIBMSI_RESULT_FUNCTION_FAILED; r = find_row(wv, row, &rows); if (r != LIBMSI_RESULT_SUCCESS) return r; table = find_table(wv, col, &col); if (!table) return LIBMSI_RESULT_FUNCTION_FAILED; return table->view->ops->fetch_stream( table->view, rows[table->table_index], col, stm ); } static unsigned where_view_get_row( LibmsiView *view, unsigned row, LibmsiRecord **rec ) { LibmsiWhereView *wv = (LibmsiWhereView *)view; TRACE("%p %d %p\n", wv, row, rec ); if (!wv->tables) return LIBMSI_RESULT_FUNCTION_FAILED; return msi_view_get_row( wv->db, view, row, rec ); } static unsigned where_view_set_row( LibmsiView *view, unsigned row, LibmsiRecord *rec, unsigned mask ) { LibmsiWhereView *wv = (LibmsiWhereView*)view; unsigned i, r, offset = 0; JOINTABLE *table = wv->tables; unsigned *rows; unsigned mask_copy = mask; TRACE("%p %d %p %08x\n", wv, row, rec, mask ); if( !wv->tables ) return LIBMSI_RESULT_FUNCTION_FAILED; r = find_row(wv, row, &rows); if (r != LIBMSI_RESULT_SUCCESS) return r; if (mask >= 1 << wv->col_count) return LIBMSI_RESULT_INVALID_PARAMETER; do { for (i = 0; i < table->col_count; i++) { unsigned type; if (!(mask_copy & (1 << i))) continue; r = table->view->ops->get_column_info(table->view, i + 1, NULL, &type, NULL, NULL ); if (r != LIBMSI_RESULT_SUCCESS) return r; if (type & MSITYPE_KEY) return LIBMSI_RESULT_FUNCTION_FAILED; } mask_copy >>= table->col_count; } while (mask_copy && (table = table->next)); table = wv->tables; do { const unsigned col_count = table->col_count; LibmsiRecord *reduced; unsigned reduced_mask = (mask >> offset) & ((1 << col_count) - 1); if (!reduced_mask) { offset += col_count; continue; } reduced = libmsi_record_new(col_count); if (!reduced) return LIBMSI_RESULT_FUNCTION_FAILED; for (i = 1; i <= col_count; i++) { r = _libmsi_record_copy_field(rec, i + offset, reduced, i); if (r != LIBMSI_RESULT_SUCCESS) break; } offset += col_count; if (r == LIBMSI_RESULT_SUCCESS) r = table->view->ops->set_row(table->view, rows[table->table_index], reduced, reduced_mask); g_object_unref(reduced); } while ((table = table->next)); return r; } static unsigned where_view_delete_row(LibmsiView *view, unsigned row) { LibmsiWhereView *wv = (LibmsiWhereView *)view; unsigned r; unsigned *rows; TRACE("(%p %d)\n", view, row); if (!wv->tables) return LIBMSI_RESULT_FUNCTION_FAILED; r = find_row(wv, row, &rows); if ( r != LIBMSI_RESULT_SUCCESS ) return r; if (wv->table_count > 1) return LIBMSI_RESULT_CALL_NOT_IMPLEMENTED; return wv->tables->view->ops->delete_row(wv->tables->view, rows[0]); } static int expr_eval_binary( LibmsiWhereView *wv, const unsigned rows[], const struct complex_expr *expr, int *val, LibmsiRecord *record ) { unsigned rl, rr; int lval, rval; rl = where_view_evaluate(wv, rows, expr->left, &lval, record); if (rl != LIBMSI_RESULT_SUCCESS && rl != LIBMSI_RESULT_CONTINUE) return rl; rr = where_view_evaluate(wv, rows, expr->right, &rval, record); if (rr != LIBMSI_RESULT_SUCCESS && rr != LIBMSI_RESULT_CONTINUE) return rr; if (rl == LIBMSI_RESULT_CONTINUE || rr == LIBMSI_RESULT_CONTINUE) { if (rl == rr) { *val = true; return LIBMSI_RESULT_CONTINUE; } if (expr->op == OP_AND) { if ((rl == LIBMSI_RESULT_CONTINUE && !rval) || (rr == LIBMSI_RESULT_CONTINUE && !lval)) { *val = false; return LIBMSI_RESULT_SUCCESS; } } else if (expr->op == OP_OR) { if ((rl == LIBMSI_RESULT_CONTINUE && rval) || (rr == LIBMSI_RESULT_CONTINUE && lval)) { *val = true; return LIBMSI_RESULT_SUCCESS; } } *val = true; return LIBMSI_RESULT_CONTINUE; } switch( expr->op ) { case OP_EQ: *val = ( lval == rval ); break; case OP_AND: *val = ( lval && rval ); break; case OP_OR: *val = ( lval || rval ); break; case OP_GT: *val = ( lval > rval ); break; case OP_LT: *val = ( lval < rval ); break; case OP_LE: *val = ( lval <= rval ); break; case OP_GE: *val = ( lval >= rval ); break; case OP_NE: *val = ( lval != rval ); break; default: g_critical("Unknown operator %d\n", expr->op ); return LIBMSI_RESULT_FUNCTION_FAILED; } return LIBMSI_RESULT_SUCCESS; } static inline unsigned expr_fetch_value(const union ext_column *expr, const unsigned rows[], unsigned *val) { JOINTABLE *table = expr->parsed.table; if( rows[table->table_index] == INVALID_ROW_INDEX ) { *val = 1; return LIBMSI_RESULT_CONTINUE; } return table->view->ops->fetch_int(table->view, rows[table->table_index], expr->parsed.column, val); } static unsigned expr_eval_unary( LibmsiWhereView *wv, const unsigned rows[], const struct complex_expr *expr, int *val, LibmsiRecord *record ) { unsigned r; unsigned lval; r = expr_fetch_value(&expr->left->u.column, rows, &lval); if(r != LIBMSI_RESULT_SUCCESS) return r; switch( expr->op ) { case OP_ISNULL: *val = !lval; break; case OP_NOTNULL: *val = lval; break; default: g_critical("Unknown operator %d\n", expr->op ); return LIBMSI_RESULT_FUNCTION_FAILED; } return LIBMSI_RESULT_SUCCESS; } static unsigned expr_eval_string( LibmsiWhereView *wv, const unsigned rows[], const struct expr *expr, const LibmsiRecord *record, const char **str ) { unsigned val = 0, r = LIBMSI_RESULT_SUCCESS; switch( expr->type ) { case EXPR_COL_NUMBER_STRING: r = expr_fetch_value(&expr->u.column, rows, &val); if (r == LIBMSI_RESULT_SUCCESS) *str = msi_string_lookup_id(wv->db->strings, val); else *str = NULL; break; case EXPR_SVAL: *str = expr->u.sval; break; case EXPR_WILDCARD: *str = _libmsi_record_get_string_raw(record, ++wv->rec_index); break; default: g_critical("Invalid expression type\n"); r = LIBMSI_RESULT_FUNCTION_FAILED; *str = NULL; break; } return r; } static unsigned expr_eval_strcmp( LibmsiWhereView *wv, const unsigned rows[], const struct complex_expr *expr, int *val, const LibmsiRecord *record ) { int sr; const char *l_str, *r_str; unsigned r; *val = true; r = expr_eval_string(wv, rows, expr->left, record, &l_str); if (r == LIBMSI_RESULT_CONTINUE) return r; r = expr_eval_string(wv, rows, expr->right, record, &r_str); if (r == LIBMSI_RESULT_CONTINUE) return r; if( l_str == r_str || ((!l_str || !*l_str) && (!r_str || !*r_str)) ) sr = 0; else if( l_str && ! r_str ) sr = 1; else if( r_str && ! l_str ) sr = -1; else sr = strcmp( l_str, r_str ); *val = ( expr->op == OP_EQ && ( sr == 0 ) ) || ( expr->op == OP_NE && ( sr != 0 ) ); return LIBMSI_RESULT_SUCCESS; } static unsigned where_view_evaluate( LibmsiWhereView *wv, const unsigned rows[], struct expr *cond, int *val, LibmsiRecord *record ) { unsigned r, tval; if( !cond ) { *val = true; return LIBMSI_RESULT_SUCCESS; } switch( cond->type ) { case EXPR_COL_NUMBER: r = expr_fetch_value(&cond->u.column, rows, &tval); if( r != LIBMSI_RESULT_SUCCESS ) return r; *val = tval - 0x8000; return LIBMSI_RESULT_SUCCESS; case EXPR_COL_NUMBER32: r = expr_fetch_value(&cond->u.column, rows, &tval); if( r != LIBMSI_RESULT_SUCCESS ) return r; *val = tval - 0x80000000; return r; case EXPR_UVAL: *val = cond->u.uval; return LIBMSI_RESULT_SUCCESS; case EXPR_COMPLEX: return expr_eval_binary(wv, rows, &cond->u.expr, val, record); case EXPR_UNARY: return expr_eval_unary( wv, rows, &cond->u.expr, val, record ); case EXPR_STRCMP: return expr_eval_strcmp( wv, rows, &cond->u.expr, val, record ); case EXPR_WILDCARD: *val = libmsi_record_get_int( record, ++wv->rec_index ); return LIBMSI_RESULT_SUCCESS; default: g_critical("Invalid expression type\n"); break; } return LIBMSI_RESULT_SUCCESS; } static unsigned check_condition( LibmsiWhereView *wv, LibmsiRecord *record, JOINTABLE **tables, unsigned table_rows[] ) { unsigned r = LIBMSI_RESULT_FUNCTION_FAILED; int val; for (table_rows[(*tables)->table_index] = 0; table_rows[(*tables)->table_index] < (*tables)->row_count; table_rows[(*tables)->table_index]++) { val = 0; wv->rec_index = 0; r = where_view_evaluate( wv, table_rows, wv->cond, &val, record ); if (r != LIBMSI_RESULT_SUCCESS && r != LIBMSI_RESULT_CONTINUE) break; if (val) { if (*(tables + 1)) { r = check_condition(wv, record, tables + 1, table_rows); if (r != LIBMSI_RESULT_SUCCESS) break; } else { if (r != LIBMSI_RESULT_SUCCESS) break; add_row (wv, table_rows); } } } table_rows[(*tables)->table_index] = INVALID_ROW_INDEX; return r; } static int compare_entry( const void *left, const void *right ) { const LibmsiRowEntry *le = *(const LibmsiRowEntry**)left; const LibmsiRowEntry *re = *(const LibmsiRowEntry**)right; const LibmsiWhereView *wv = le->wv; LibmsiOrderInfo *order = wv->order_info; unsigned i, j, r, l_val, r_val; assert(le->wv == re->wv); if (order) { for (i = 0; i < order->col_count; i++) { const union ext_column *column = &order->columns[i]; r = column->parsed.table->view->ops->fetch_int(column->parsed.table->view, le->values[column->parsed.table->table_index], column->parsed.column, &l_val); if (r != LIBMSI_RESULT_SUCCESS) { order->error = r; return 0; } r = column->parsed.table->view->ops->fetch_int(column->parsed.table->view, re->values[column->parsed.table->table_index], column->parsed.column, &r_val); if (r != LIBMSI_RESULT_SUCCESS) { order->error = r; return 0; } if (l_val != r_val) return l_val < r_val ? -1 : 1; } } for (j = 0; j < wv->table_count; j++) { if (le->values[j] != re->values[j]) return le->values[j] < re->values[j] ? -1 : 1; } return 0; } static void add_to_array( JOINTABLE **array, JOINTABLE *elem ) { while (*array && *array != elem) array++; if (!*array) *array = elem; } G_GNUC_PURE static bool in_array( JOINTABLE **array, JOINTABLE *elem ) { while (*array && *array != elem) array++; return *array != NULL; } #define CONST_EXPR 1 /* comparison to a constant value */ #define JOIN_TO_CONST_EXPR 0x10000 /* comparison to a table involved with a CONST_EXPR comaprison */ static unsigned reorder_check( const struct expr *expr, JOINTABLE **ordered_tables, bool process_joins, JOINTABLE **lastused ) { unsigned res = 0; switch (expr->type) { case EXPR_WILDCARD: case EXPR_SVAL: case EXPR_UVAL: return 0; case EXPR_COL_NUMBER: case EXPR_COL_NUMBER32: case EXPR_COL_NUMBER_STRING: if (in_array(ordered_tables, expr->u.column.parsed.table)) return JOIN_TO_CONST_EXPR; *lastused = expr->u.column.parsed.table; return CONST_EXPR; case EXPR_STRCMP: case EXPR_COMPLEX: res = reorder_check(expr->u.expr.right, ordered_tables, process_joins, lastused); /* fall through */ case EXPR_UNARY: res += reorder_check(expr->u.expr.left, ordered_tables, process_joins, lastused); if (res == 0) return 0; if (res == CONST_EXPR) add_to_array(ordered_tables, *lastused); if (process_joins && res == JOIN_TO_CONST_EXPR + CONST_EXPR) add_to_array(ordered_tables, *lastused); return res; default: g_critical("Unknown expr type: %i\n", expr->type); assert(0); return 0x1000000; } } /* reorders the tablelist in a way to evaluate the condition as fast as possible */ static JOINTABLE **ordertables( LibmsiWhereView *wv ) { JOINTABLE *table; JOINTABLE **tables; tables = msi_alloc_zero( (wv->table_count + 1) * sizeof(*tables) ); if (wv->cond) { table = NULL; reorder_check(wv->cond, tables, false, &table); table = NULL; reorder_check(wv->cond, tables, true, &table); } table = wv->tables; while (table) { add_to_array(tables, table); table = table->next; } return tables; } static unsigned where_view_execute( LibmsiView *view, LibmsiRecord *record ) { LibmsiWhereView *wv = (LibmsiWhereView*)view; unsigned r; JOINTABLE *table = wv->tables; unsigned *rows; JOINTABLE **ordered_tables; int i = 0; TRACE("%p %p\n", wv, record); if( !table ) return LIBMSI_RESULT_FUNCTION_FAILED; r = init_reorder(wv); if (r != LIBMSI_RESULT_SUCCESS) return r; do { table->view->ops->execute(table->view, NULL); r = table->view->ops->get_dimensions(table->view, &table->row_count, NULL); if (r != LIBMSI_RESULT_SUCCESS) { g_critical("failed to get table dimensions\n"); return r; } /* each table must have at least one row */ if (table->row_count == 0) return LIBMSI_RESULT_SUCCESS; } while ((table = table->next)); ordered_tables = ordertables( wv ); rows = msi_alloc( wv->table_count * sizeof(*rows) ); for (i = 0; i < wv->table_count; i++) rows[i] = INVALID_ROW_INDEX; r = check_condition(wv, record, ordered_tables, rows); if (wv->order_info) wv->order_info->error = LIBMSI_RESULT_SUCCESS; qsort(wv->reorder, wv->row_count, sizeof(LibmsiRowEntry *), compare_entry); if (wv->order_info) r = wv->order_info->error; msi_free( rows ); msi_free( ordered_tables ); return r; } static unsigned where_view_close( LibmsiView *view ) { LibmsiWhereView *wv = (LibmsiWhereView*)view; JOINTABLE *table = wv->tables; TRACE("%p\n", wv ); if (!table) return LIBMSI_RESULT_FUNCTION_FAILED; do table->view->ops->close(table->view); while ((table = table->next)); return LIBMSI_RESULT_SUCCESS; } static unsigned where_view_get_dimensions( LibmsiView *view, unsigned *rows, unsigned *cols ) { LibmsiWhereView *wv = (LibmsiWhereView*)view; TRACE("%p %p %p\n", wv, rows, cols ); if(!wv->tables) return LIBMSI_RESULT_FUNCTION_FAILED; if (rows) { if (!wv->reorder) return LIBMSI_RESULT_FUNCTION_FAILED; *rows = wv->row_count; } if (cols) *cols = wv->col_count; return LIBMSI_RESULT_SUCCESS; } static unsigned where_view_get_column_info( LibmsiView *view, unsigned n, const char **name, unsigned *type, bool *temporary, const char **table_name ) { LibmsiWhereView *wv = (LibmsiWhereView*)view; JOINTABLE *table; TRACE("%p %d %p %p %p %p\n", wv, n, name, type, temporary, table_name ); if(!wv->tables) return LIBMSI_RESULT_FUNCTION_FAILED; table = find_table(wv, n, &n); if (!table) return LIBMSI_RESULT_FUNCTION_FAILED; return table->view->ops->get_column_info(table->view, n, name, type, temporary, table_name); } static unsigned where_view_delete( LibmsiView *view ) { LibmsiWhereView *wv = (LibmsiWhereView*)view; JOINTABLE *table = wv->tables; TRACE("%p\n", wv ); while(table) { JOINTABLE *next; table->view->ops->delete(table->view); table->view = NULL; next = table->next; msi_free(table); table = next; } wv->tables = NULL; wv->table_count = 0; free_reorder(wv); msi_free(wv->order_info); wv->order_info = NULL; g_object_unref(wv->db); msi_free( wv ); return LIBMSI_RESULT_SUCCESS; } static unsigned where_view_find_matching_rows( LibmsiView *view, unsigned col, unsigned val, unsigned *row, MSIITERHANDLE *handle ) { LibmsiWhereView *wv = (LibmsiWhereView*)view; unsigned i, row_value; TRACE("%p, %d, %u, %p\n", view, col, val, *handle); if (!wv->tables) return LIBMSI_RESULT_FUNCTION_FAILED; if (col == 0 || col > wv->col_count) return LIBMSI_RESULT_INVALID_PARAMETER; for (i = (uintptr_t)*handle; i < wv->row_count; i++) { if (view->ops->fetch_int( view, i, col, &row_value ) != LIBMSI_RESULT_SUCCESS) continue; if (row_value == val) { *row = i; *handle = (MSIITERHANDLE)(uintptr_t)(i + 1); return LIBMSI_RESULT_SUCCESS; } } return NO_MORE_ITEMS; } static unsigned where_view_sort(LibmsiView *view, column_info *columns) { LibmsiWhereView *wv = (LibmsiWhereView *)view; JOINTABLE *table = wv->tables; column_info *column = columns; LibmsiOrderInfo *orderinfo; unsigned r, count = 0; int i; TRACE("%p %p\n", view, columns); if (!table) return LIBMSI_RESULT_FUNCTION_FAILED; while (column) { count++; column = column->next; } if (count == 0) return LIBMSI_RESULT_SUCCESS; orderinfo = msi_alloc(sizeof(LibmsiOrderInfo) + (count - 1) * sizeof(union ext_column)); if (!orderinfo) return LIBMSI_RESULT_OUTOFMEMORY; orderinfo->col_count = count; column = columns; for (i = 0; i < count; i++) { orderinfo->columns[i].unparsed.column = column->column; orderinfo->columns[i].unparsed.table = column->table; r = parse_column(wv, &orderinfo->columns[i], NULL); if (r != LIBMSI_RESULT_SUCCESS) goto error; } wv->order_info = orderinfo; return LIBMSI_RESULT_SUCCESS; error: msi_free(orderinfo); return r; } static const LibmsiViewOps where_ops = { where_view_fetch_int, where_view_fetch_stream, where_view_get_row, where_view_set_row, NULL, where_view_delete_row, where_view_execute, where_view_close, where_view_get_dimensions, where_view_get_column_info, where_view_delete, where_view_find_matching_rows, NULL, NULL, NULL, NULL, where_view_sort, NULL, }; static unsigned where_view_verify_condition( LibmsiWhereView *wv, struct expr *cond, unsigned *valid ) { unsigned r; switch( cond->type ) { case EXPR_COLUMN: { unsigned type; *valid = false; r = parse_column(wv, &cond->u.column, &type); if (r != LIBMSI_RESULT_SUCCESS) break; if (type&MSITYPE_STRING) cond->type = EXPR_COL_NUMBER_STRING; else if ((type&0xff) == 4) cond->type = EXPR_COL_NUMBER32; else cond->type = EXPR_COL_NUMBER; *valid = true; break; } case EXPR_COMPLEX: r = where_view_verify_condition( wv, cond->u.expr.left, valid ); if( r != LIBMSI_RESULT_SUCCESS ) return r; if( !*valid ) return LIBMSI_RESULT_SUCCESS; r = where_view_verify_condition( wv, cond->u.expr.right, valid ); if( r != LIBMSI_RESULT_SUCCESS ) return r; /* check the type of the comparison */ if( ( cond->u.expr.left->type == EXPR_SVAL ) || ( cond->u.expr.left->type == EXPR_COL_NUMBER_STRING ) || ( cond->u.expr.right->type == EXPR_SVAL ) || ( cond->u.expr.right->type == EXPR_COL_NUMBER_STRING ) ) { switch( cond->u.expr.op ) { case OP_EQ: case OP_NE: break; default: *valid = false; return LIBMSI_RESULT_INVALID_PARAMETER; } /* FIXME: check we're comparing a string to a column */ cond->type = EXPR_STRCMP; } break; case EXPR_UNARY: if ( cond->u.expr.left->type != EXPR_COLUMN ) { *valid = false; return LIBMSI_RESULT_INVALID_PARAMETER; } r = where_view_verify_condition( wv, cond->u.expr.left, valid ); if( r != LIBMSI_RESULT_SUCCESS ) return r; break; case EXPR_IVAL: *valid = 1; cond->type = EXPR_UVAL; cond->u.uval = cond->u.ival; break; case EXPR_WILDCARD: *valid = 1; break; case EXPR_SVAL: *valid = 1; break; default: g_critical("Invalid expression type\n"); *valid = 0; break; } return LIBMSI_RESULT_SUCCESS; } unsigned where_view_create( LibmsiDatabase *db, LibmsiView **view, char *tables, struct expr *cond ) { LibmsiWhereView *wv = NULL; unsigned r, valid = 0; char *ptr; TRACE("(%s)\n", debugstr_a(tables) ); wv = msi_alloc_zero( sizeof *wv ); if( !wv ) return LIBMSI_RESULT_FUNCTION_FAILED; /* fill the structure */ wv->view.ops = &where_ops; wv->db = g_object_ref(db); wv->cond = cond; while (*tables) { JOINTABLE *table; if ((ptr = strchr(tables, ' '))) *ptr = '\0'; table = msi_alloc(sizeof(JOINTABLE)); if (!table) { r = LIBMSI_RESULT_OUTOFMEMORY; goto end; } r = table_view_create(db, tables, &table->view); if (r != LIBMSI_RESULT_SUCCESS) { g_warning("can't create table: %s\n", debugstr_a(tables)); msi_free(table); r = LIBMSI_RESULT_BAD_QUERY_SYNTAX; goto end; } r = table->view->ops->get_dimensions(table->view, NULL, &table->col_count); if (r != LIBMSI_RESULT_SUCCESS) { g_critical("can't get table dimensions\n"); goto end; } wv->col_count += table->col_count; table->table_index = wv->table_count++; table->next = wv->tables; wv->tables = table; if (!ptr) break; tables = ptr + 1; } if( cond ) { r = where_view_verify_condition( wv, cond, &valid ); if( r != LIBMSI_RESULT_SUCCESS ) goto end; if( !valid ) { r = LIBMSI_RESULT_FUNCTION_FAILED; goto end; } } *view = (LibmsiView*) wv; return LIBMSI_RESULT_SUCCESS; end: where_view_delete(&wv->view); return r; }