2 * Copyright © 2010 Codethink Limited
4 * This library is free software; you can redistribute it and/or
5 * modify it under the terms of the GNU Lesser General Public
6 * License as published by the Free Software Foundation; either
7 * version 2 of the licence, or (at your option) any later version.
9 * See the included COPYING file for more information.
11 * Author: Ryan Lortie <desrt@desrt.ca>
16 #include <glib/gvariant-internal.h>
21 #define BASIC "bynqiuxthdsog?"
22 #define N_BASIC (G_N_ELEMENTS (BASIC) - 1)
24 #define INVALIDS "cefjklpwz&@^$"
25 #define N_INVALIDS (G_N_ELEMENTS (INVALIDS) - 1)
27 /* see comment in gvariant-serialiser.c about this madness.
29 * we use this to get testing of non-strictly-aligned GVariant instances
30 * on machines that can tolerate it. it is necessary to support this
31 * because some systems have malloc() that returns non-8-aligned
32 * pointers. it is necessary to have special support in the tests
33 * because on most machines malloc() is 8-aligned.
35 #define ALIGN_BITS (sizeof (struct { char a; union { \
36 guint64 x; void *y; gdouble z; } b; }) - 9)
39 randomly (gdouble prob
)
41 return g_test_rand_double_range (0, 1) < prob
;
46 append_tuple_type_string (GString
*, GString
*, gboolean
, gint
);
48 /* append a random GVariantType to a GString
49 * append a description of the type to another GString
50 * return what the type is
53 append_type_string (GString
*string
,
58 if (!depth
-- || randomly (0.3))
60 gchar b
= BASIC
[g_test_rand_int_range (0, N_BASIC
- definite
)];
61 g_string_append_c (string
, b
);
62 g_string_append_c (description
, b
);
67 return g_variant_type_copy (G_VARIANT_TYPE_BOOLEAN
);
69 return g_variant_type_copy (G_VARIANT_TYPE_BYTE
);
71 return g_variant_type_copy (G_VARIANT_TYPE_INT16
);
73 return g_variant_type_copy (G_VARIANT_TYPE_UINT16
);
75 return g_variant_type_copy (G_VARIANT_TYPE_INT32
);
77 return g_variant_type_copy (G_VARIANT_TYPE_UINT32
);
79 return g_variant_type_copy (G_VARIANT_TYPE_INT64
);
81 return g_variant_type_copy (G_VARIANT_TYPE_UINT64
);
83 return g_variant_type_copy (G_VARIANT_TYPE_HANDLE
);
85 return g_variant_type_copy (G_VARIANT_TYPE_DOUBLE
);
87 return g_variant_type_copy (G_VARIANT_TYPE_STRING
);
89 return g_variant_type_copy (G_VARIANT_TYPE_OBJECT_PATH
);
91 return g_variant_type_copy (G_VARIANT_TYPE_SIGNATURE
);
93 return g_variant_type_copy (G_VARIANT_TYPE_BASIC
);
95 g_assert_not_reached ();
100 GVariantType
*result
;
102 switch (g_test_rand_int_range (0, definite
? 5 : 7))
106 GVariantType
*element
;
108 g_string_append_c (string
, 'a');
109 g_string_append (description
, "a of ");
110 element
= append_type_string (string
, description
,
112 result
= g_variant_type_new_array (element
);
113 g_variant_type_free (element
);
116 g_assert (g_variant_type_is_array (result
));
121 GVariantType
*element
;
123 g_string_append_c (string
, 'm');
124 g_string_append (description
, "m of ");
125 element
= append_type_string (string
, description
,
127 result
= g_variant_type_new_maybe (element
);
128 g_variant_type_free (element
);
131 g_assert (g_variant_type_is_maybe (result
));
135 result
= append_tuple_type_string (string
, description
,
138 g_assert (g_variant_type_is_tuple (result
));
143 GVariantType
*key
, *value
;
145 g_string_append_c (string
, '{');
146 g_string_append (description
, "e of [");
147 key
= append_type_string (string
, description
, definite
, 0);
148 g_string_append (description
, ", ");
149 value
= append_type_string (string
, description
, definite
, depth
);
150 g_string_append_c (description
, ']');
151 g_string_append_c (string
, '}');
152 result
= g_variant_type_new_dict_entry (key
, value
);
153 g_variant_type_free (key
);
154 g_variant_type_free (value
);
157 g_assert (g_variant_type_is_dict_entry (result
));
161 g_string_append_c (string
, 'v');
162 g_string_append_c (description
, 'V');
163 result
= g_variant_type_copy (G_VARIANT_TYPE_VARIANT
);
164 g_assert (g_variant_type_equal (result
, G_VARIANT_TYPE_VARIANT
));
168 g_string_append_c (string
, '*');
169 g_string_append_c (description
, 'S');
170 result
= g_variant_type_copy (G_VARIANT_TYPE_ANY
);
171 g_assert (g_variant_type_equal (result
, G_VARIANT_TYPE_ANY
));
175 g_string_append_c (string
, 'r');
176 g_string_append_c (description
, 'R');
177 result
= g_variant_type_copy (G_VARIANT_TYPE_TUPLE
);
178 g_assert (g_variant_type_is_tuple (result
));
182 g_assert_not_reached ();
189 static GVariantType
*
190 append_tuple_type_string (GString
*string
,
191 GString
*description
,
195 GVariantType
*result
, *other_result
;
196 GVariantType
**types
;
200 g_string_append_c (string
, '(');
201 g_string_append (description
, "t of [");
203 size
= g_test_rand_int_range (0, 20);
204 types
= g_new (GVariantType
*, size
+ 1);
206 for (i
= 0; i
< size
; i
++)
208 types
[i
] = append_type_string (string
, description
, definite
, depth
);
211 g_string_append (description
, ", ");
216 g_string_append_c (description
, ']');
217 g_string_append_c (string
, ')');
219 result
= g_variant_type_new_tuple ((gpointer
) types
, size
);
220 other_result
= g_variant_type_new_tuple ((gpointer
) types
, -1);
221 g_assert (g_variant_type_equal (result
, other_result
));
222 g_variant_type_free (other_result
);
223 for (i
= 0; i
< size
; i
++)
224 g_variant_type_free (types
[i
]);
230 /* given a valid type string, make it invalid */
232 invalid_mutation (const gchar
*type_string
)
234 gboolean have_parens
, have_braces
;
236 /* it's valid, so '(' implies ')' and same for '{' and '}' */
237 have_parens
= strchr (type_string
, '(') != NULL
;
238 have_braces
= strchr (type_string
, '{') != NULL
;
240 if (have_parens
&& have_braces
&& randomly (0.3))
242 /* swap a paren and a brace */
248 new = g_strdup (type_string
);
258 /* count number of parens/braces */
259 while ((pp
= strchr (pp
+ 1, p
))) np
++;
260 while ((bp
= strchr (bp
+ 1, b
))) nb
++;
262 /* randomly pick one of each */
263 np
= g_test_rand_int_range (0, np
) + 1;
264 nb
= g_test_rand_int_range (0, nb
) + 1;
268 while (np
--) pp
= strchr (pp
+ 1, p
);
269 while (nb
--) bp
= strchr (bp
+ 1, b
);
272 g_assert (*bp
== b
&& *pp
== p
);
279 if ((have_parens
|| have_braces
) && randomly (0.3))
281 /* drop a paren/brace */
288 if (randomly (0.5)) p
= '('; else p
= ')';
290 if (randomly (0.5)) p
= '{'; else p
= '}';
292 new = g_strdup (type_string
);
296 while ((pp
= strchr (pp
+ 1, p
))) np
++;
297 np
= g_test_rand_int_range (0, np
) + 1;
299 while (np
--) pp
= strchr (pp
+ 1, p
);
311 /* else, perform a random mutation at a random point */
319 /* insert a paren/brace */
321 if (randomly (0.5)) p
= '('; else p
= ')';
323 if (randomly (0.5)) p
= '{'; else p
= '}';
325 else if (randomly (0.5))
328 p
= INVALIDS
[g_test_rand_int_range (0, N_INVALIDS
)];
337 length
= strlen (type_string
);
338 new = g_malloc (length
+ 2);
339 n
= g_test_rand_int_range (0, length
);
340 memcpy (new, type_string
, n
);
342 memcpy (new + n
+ 1, type_string
+ n
, length
- n
);
343 new[length
+ 1] = '\0';
349 /* describe a type using the same language as is generated
350 * while generating the type with append_type_string
353 describe_type (const GVariantType
*type
)
357 if (g_variant_type_is_container (type
))
359 g_assert (!g_variant_type_is_basic (type
));
361 if (g_variant_type_is_array (type
))
363 gchar
*subtype
= describe_type (g_variant_type_element (type
));
364 result
= g_strdup_printf ("a of %s", subtype
);
367 else if (g_variant_type_is_maybe (type
))
369 gchar
*subtype
= describe_type (g_variant_type_element (type
));
370 result
= g_strdup_printf ("m of %s", subtype
);
373 else if (g_variant_type_is_tuple (type
))
375 if (!g_variant_type_equal (type
, G_VARIANT_TYPE_TUPLE
))
377 const GVariantType
*sub
;
382 string
= g_string_new ("t of [");
384 length
= g_variant_type_n_items (type
);
385 sub
= g_variant_type_first (type
);
386 for (i
= 0; i
< length
; i
++)
388 gchar
*subtype
= describe_type (sub
);
389 g_string_append (string
, subtype
);
392 if ((sub
= g_variant_type_next (sub
)))
393 g_string_append (string
, ", ");
395 g_assert (sub
== NULL
);
396 g_string_append_c (string
, ']');
398 result
= g_string_free (string
, FALSE
);
401 result
= g_strdup ("R");
403 else if (g_variant_type_is_dict_entry (type
))
405 gchar
*key
, *value
, *key2
, *value2
;
407 key
= describe_type (g_variant_type_key (type
));
408 value
= describe_type (g_variant_type_value (type
));
409 key2
= describe_type (g_variant_type_first (type
));
410 value2
= describe_type (
411 g_variant_type_next (g_variant_type_first (type
)));
412 g_assert (g_variant_type_next (g_variant_type_next (
413 g_variant_type_first (type
))) == NULL
);
414 g_assert_cmpstr (key
, ==, key2
);
415 g_assert_cmpstr (value
, ==, value2
);
416 result
= g_strjoin ("", "e of [", key
, ", ", value
, "]", NULL
);
422 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_VARIANT
))
424 result
= g_strdup ("V");
427 g_assert_not_reached ();
431 if (g_variant_type_is_definite (type
))
433 g_assert (g_variant_type_is_basic (type
));
435 if (g_variant_type_equal (type
, G_VARIANT_TYPE_BOOLEAN
))
436 result
= g_strdup ("b");
437 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_BYTE
))
438 result
= g_strdup ("y");
439 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_INT16
))
440 result
= g_strdup ("n");
441 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_UINT16
))
442 result
= g_strdup ("q");
443 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_INT32
))
444 result
= g_strdup ("i");
445 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_UINT32
))
446 result
= g_strdup ("u");
447 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_INT64
))
448 result
= g_strdup ("x");
449 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_UINT64
))
450 result
= g_strdup ("t");
451 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_HANDLE
))
452 result
= g_strdup ("h");
453 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_DOUBLE
))
454 result
= g_strdup ("d");
455 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_STRING
))
456 result
= g_strdup ("s");
457 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_OBJECT_PATH
))
458 result
= g_strdup ("o");
459 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_SIGNATURE
))
460 result
= g_strdup ("g");
462 g_assert_not_reached ();
466 if (g_variant_type_equal (type
, G_VARIANT_TYPE_ANY
))
468 result
= g_strdup ("S");
470 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_BASIC
))
472 result
= g_strdup ("?");
475 g_assert_not_reached ();
482 /* given a type string, replace one of the indefinite type characters in
483 * it with a matching type (possibly the same type).
486 generate_subtype (const gchar
*type_string
)
488 GVariantType
*replacement
;
489 GString
*result
, *junk
;
490 gint length
, n
= 0, l
;
492 result
= g_string_new (NULL
);
493 junk
= g_string_new (NULL
);
495 /* count the number of indefinite type characters */
496 for (length
= 0; type_string
[length
]; length
++)
497 n
+= type_string
[length
] == 'r' ||
498 type_string
[length
] == '?' ||
499 type_string
[length
] == '*';
500 /* length now is strlen (type_string) */
502 /* pick one at random to replace */
503 n
= g_test_rand_int_range (0, n
) + 1;
507 while (n
--) l
+= strcspn (type_string
+ l
+ 1, "r?*") + 1;
508 g_assert (type_string
[l
] == 'r' ||
509 type_string
[l
] == '?' ||
510 type_string
[l
] == '*');
512 /* store up to that point in a GString */
513 g_string_append_len (result
, type_string
, l
);
515 /* then store the replacement in the GString */
516 if (type_string
[l
] == 'r')
517 replacement
= append_tuple_type_string (result
, junk
, FALSE
, 3);
519 else if (type_string
[l
] == '?')
520 replacement
= append_type_string (result
, junk
, FALSE
, 0);
522 else if (type_string
[l
] == '*')
523 replacement
= append_type_string (result
, junk
, FALSE
, 3);
526 g_assert_not_reached ();
528 /* ensure the replacement has the proper type */
529 g_assert (g_variant_type_is_subtype_of (replacement
,
530 (gpointer
) &type_string
[l
]));
532 /* store the rest from the original type string */
533 g_string_append (result
, type_string
+ l
+ 1);
535 g_variant_type_free (replacement
);
536 g_string_free (junk
, TRUE
);
538 return g_string_free (result
, FALSE
);
543 const GVariantType
*type
;
544 struct typestack
*parent
;
547 /* given an indefinite type string, replace one of the indefinite
548 * characters in it with a matching type and ensure that the result is a
549 * subtype of the original. repeat.
552 subtype_check (const gchar
*type_string
,
553 struct typestack
*parent_ts
)
555 struct typestack ts
, *node
;
559 subtype
= generate_subtype (type_string
);
561 ts
.type
= G_VARIANT_TYPE (subtype
);
562 ts
.parent
= parent_ts
;
564 for (node
= &ts
; node
; node
= node
->parent
)
566 /* this type should be a subtype of each parent type */
567 g_assert (g_variant_type_is_subtype_of (ts
.type
, node
->type
));
569 /* it should only be a supertype when it is exactly equal */
570 g_assert (g_variant_type_is_subtype_of (node
->type
, ts
.type
) ==
571 g_variant_type_equal (ts
.type
, node
->type
));
576 if (!g_variant_type_is_definite (ts
.type
) && depth
< 5)
578 /* the type is still indefinite and we haven't repeated too many
579 * times. go once more.
582 subtype_check (subtype
, &ts
);
589 test_gvarianttype (void)
593 for (i
= 0; i
< 2000; i
++)
595 GString
*type_string
, *description
;
596 GVariantType
*type
, *other_type
;
597 const GVariantType
*ctype
;
601 type_string
= g_string_new (NULL
);
602 description
= g_string_new (NULL
);
604 /* generate a random type, its type string and a description
606 * exercises type constructor functions and g_variant_type_copy()
608 type
= append_type_string (type_string
, description
, FALSE
, 6);
610 /* convert the type string to a type and ensure that it is equal
611 * to the one produced with the type constructor routines
613 ctype
= G_VARIANT_TYPE (type_string
->str
);
614 g_assert (g_variant_type_equal (ctype
, type
));
615 g_assert (g_variant_type_hash (ctype
) == g_variant_type_hash (type
));
616 g_assert (g_variant_type_is_subtype_of (ctype
, type
));
617 g_assert (g_variant_type_is_subtype_of (type
, ctype
));
619 /* check if the type is indefinite */
620 if (!g_variant_type_is_definite (type
))
622 struct typestack ts
= { type
, NULL
};
624 /* if it is indefinite, then replace one of the indefinite
625 * characters with a matching type and ensure that the result
626 * is a subtype of the original type. repeat.
628 subtype_check (type_string
->str
, &ts
);
631 /* ensure that no indefinite characters appear */
632 g_assert (strcspn (type_string
->str
, "r?*") == type_string
->len
);
635 /* describe the type.
637 * exercises the type iterator interface
639 desc
= describe_type (type
);
641 /* make sure the description matches */
642 g_assert_cmpstr (desc
, ==, description
->str
);
645 /* make an invalid mutation to the type and make sure the type
646 * validation routines catch it */
647 invalid
= invalid_mutation (type_string
->str
);
648 g_assert (g_variant_type_string_is_valid (type_string
->str
));
649 g_assert (!g_variant_type_string_is_valid (invalid
));
652 /* concatenate another type to the type string and ensure that
653 * the result is recognised as being invalid
655 other_type
= append_type_string (type_string
, description
, FALSE
, 2);
657 g_string_free (description
, TRUE
);
658 g_string_free (type_string
, TRUE
);
659 g_variant_type_free (other_type
);
660 g_variant_type_free (type
);
664 #define ALIGNED(x, y) (((x + (y - 1)) / y) * y)
666 /* do our own calculation of the fixed_size and alignment of a type
667 * using a simple algorithm to make sure the "fancy" one in the
668 * implementation is correct.
671 calculate_type_info (const GVariantType
*type
,
675 if (g_variant_type_is_array (type
) ||
676 g_variant_type_is_maybe (type
))
678 calculate_type_info (g_variant_type_element (type
), NULL
, alignment
);
683 else if (g_variant_type_is_tuple (type
) ||
684 g_variant_type_is_dict_entry (type
))
686 if (g_variant_type_n_items (type
))
688 const GVariantType
*sub
;
697 sub
= g_variant_type_first (type
);
703 calculate_type_info (sub
, &this_fs
, &this_al
);
705 al
= MAX (al
, this_al
);
715 size
= ALIGNED (size
, this_al
);
719 while ((sub
= g_variant_type_next (sub
)));
721 size
= ALIGNED (size
, al
);
742 if (g_variant_type_equal (type
, G_VARIANT_TYPE_BOOLEAN
) ||
743 g_variant_type_equal (type
, G_VARIANT_TYPE_BYTE
))
748 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_INT16
) ||
749 g_variant_type_equal (type
, G_VARIANT_TYPE_UINT16
))
754 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_INT32
) ||
755 g_variant_type_equal (type
, G_VARIANT_TYPE_UINT32
) ||
756 g_variant_type_equal (type
, G_VARIANT_TYPE_HANDLE
))
761 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_INT64
) ||
762 g_variant_type_equal (type
, G_VARIANT_TYPE_UINT64
) ||
763 g_variant_type_equal (type
, G_VARIANT_TYPE_DOUBLE
))
767 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_STRING
) ||
768 g_variant_type_equal (type
, G_VARIANT_TYPE_OBJECT_PATH
) ||
769 g_variant_type_equal (type
, G_VARIANT_TYPE_SIGNATURE
))
774 else if (g_variant_type_equal (type
, G_VARIANT_TYPE_VARIANT
))
780 g_assert_not_reached ();
790 /* same as the describe_type() function above, but iterates over
791 * typeinfo instead of types.
794 describe_info (GVariantTypeInfo
*info
)
798 switch (g_variant_type_info_get_type_char (info
))
800 case G_VARIANT_TYPE_INFO_CHAR_MAYBE
:
804 element
= describe_info (g_variant_type_info_element (info
));
805 result
= g_strdup_printf ("m of %s", element
);
810 case G_VARIANT_TYPE_INFO_CHAR_ARRAY
:
814 element
= describe_info (g_variant_type_info_element (info
));
815 result
= g_strdup_printf ("a of %s", element
);
820 case G_VARIANT_TYPE_INFO_CHAR_TUPLE
:
822 const gchar
*sep
= "";
827 string
= g_string_new ("t of [");
828 length
= g_variant_type_info_n_members (info
);
830 for (i
= 0; i
< length
; i
++)
832 const GVariantMemberInfo
*minfo
;
835 g_string_append (string
, sep
);
838 minfo
= g_variant_type_info_member_info (info
, i
);
839 subtype
= describe_info (minfo
->type_info
);
840 g_string_append (string
, subtype
);
844 g_string_append_c (string
, ']');
846 result
= g_string_free (string
, FALSE
);
850 case G_VARIANT_TYPE_INFO_CHAR_DICT_ENTRY
:
852 const GVariantMemberInfo
*keyinfo
, *valueinfo
;
855 g_assert_cmpint (g_variant_type_info_n_members (info
), ==, 2);
856 keyinfo
= g_variant_type_info_member_info (info
, 0);
857 valueinfo
= g_variant_type_info_member_info (info
, 1);
858 key
= describe_info (keyinfo
->type_info
);
859 value
= describe_info (valueinfo
->type_info
);
860 result
= g_strjoin ("", "e of [", key
, ", ", value
, "]", NULL
);
866 case G_VARIANT_TYPE_INFO_CHAR_VARIANT
:
867 result
= g_strdup ("V");
871 result
= g_strdup (g_variant_type_info_get_type_string (info
));
872 g_assert_cmpint (strlen (result
), ==, 1);
879 /* check that the O(1) method of calculating offsets meshes with the
880 * results of simple iteration.
883 check_offsets (GVariantTypeInfo
*info
,
884 const GVariantType
*type
)
889 length
= g_variant_type_info_n_members (info
);
890 g_assert_cmpint (length
, ==, g_variant_type_n_items (type
));
892 /* the 'flavour' is the low order bits of the ending point of
893 * variable-size items in the tuple. this lets us test that the type
894 * info is correct for various starting alignments.
896 for (flavour
= 0; flavour
< 8; flavour
++)
898 const GVariantType
*subtype
;
899 gsize last_offset_index
;
904 subtype
= g_variant_type_first (type
);
905 last_offset_index
= -1;
909 /* go through the tuple, keeping track of our position */
910 for (i
= 0; i
< length
; i
++)
915 calculate_type_info (subtype
, &fixed_size
, &alignment
);
917 position
= ALIGNED (position
, alignment
);
919 /* compare our current aligned position (ie: the start of this
920 * item) to the start offset that would be calculated if we
924 const GVariantMemberInfo
*member
;
927 member
= g_variant_type_info_member_info (info
, i
);
928 g_assert_cmpint (member
->i
, ==, last_offset_index
);
930 /* do the calculation using the typeinfo */
936 /* did we reach the same spot? */
937 g_assert_cmpint (start
, ==, position
);
942 /* fixed size. add that size. */
943 position
+= fixed_size
;
947 /* variable size. do the flavouring. */
948 while ((position
& 0x7) != flavour
)
951 /* and store the offset, just like it would be in the
954 last_offset
= position
;
959 subtype
= g_variant_type_next (subtype
);
962 /* make sure we used up exactly all the types */
963 g_assert (subtype
== NULL
);
968 test_gvarianttypeinfo (void)
972 for (i
= 0; i
< 2000; i
++)
974 GString
*type_string
, *description
;
975 gsize fixed_size1
, fixed_size2
;
976 guint alignment1
, alignment2
;
977 GVariantTypeInfo
*info
;
981 type_string
= g_string_new (NULL
);
982 description
= g_string_new (NULL
);
985 type
= append_type_string (type_string
, description
, TRUE
, 6);
987 /* create a typeinfo for it */
988 info
= g_variant_type_info_get (type
);
990 /* make sure the typeinfo has the right type string */
991 g_assert_cmpstr (g_variant_type_info_get_type_string (info
), ==,
994 /* calculate the alignment and fixed size, compare to the
995 * typeinfo's calculations
997 calculate_type_info (type
, &fixed_size1
, &alignment1
);
998 g_variant_type_info_query (info
, &alignment2
, &fixed_size2
);
999 g_assert_cmpint (fixed_size1
, ==, fixed_size2
);
1000 g_assert_cmpint (alignment1
, ==, alignment2
+ 1);
1002 /* test the iteration functions over typeinfo structures by
1003 * "describing" the typeinfo and verifying equality.
1005 desc
= describe_info (info
);
1006 g_assert_cmpstr (desc
, ==, description
->str
);
1008 /* do extra checks for containers */
1009 if (g_variant_type_is_array (type
) ||
1010 g_variant_type_is_maybe (type
))
1012 const GVariantType
*element
;
1016 element
= g_variant_type_element (type
);
1017 calculate_type_info (element
, &efs1
, &ea1
);
1018 g_variant_type_info_query_element (info
, &ea2
, &efs2
);
1019 g_assert_cmpint (efs1
, ==, efs2
);
1020 g_assert_cmpint (ea1
, ==, ea2
+ 1);
1022 g_assert_cmpint (ea1
, ==, alignment1
);
1023 g_assert_cmpint (0, ==, fixed_size1
);
1025 else if (g_variant_type_is_tuple (type
) ||
1026 g_variant_type_is_dict_entry (type
))
1028 /* make sure the "magic constants" are working */
1029 check_offsets (info
, type
);
1032 g_string_free (type_string
, TRUE
);
1033 g_string_free (description
, TRUE
);
1034 g_variant_type_info_unref (info
);
1035 g_variant_type_free (type
);
1039 g_variant_type_info_assert_no_infos ();
1042 #define MAX_FIXED_MULTIPLIER 256
1043 #define MAX_INSTANCE_SIZE 1024
1044 #define MAX_ARRAY_CHILDREN 128
1045 #define MAX_TUPLE_CHILDREN 128
1047 /* this function generates a random type such that all characteristics
1048 * that are "interesting" to the serialiser are tested.
1050 * this basically means:
1051 * - test different alignments
1052 * - test variable sized items and fixed sized items
1053 * - test different fixed sizes
1056 random_type_string (void)
1058 const guchar base_types
[] = "ynix";
1061 base_type
= base_types
[g_test_rand_int_range (0, 4)];
1063 if (g_test_rand_bit ())
1064 /* construct a fixed-sized type */
1066 char type_string
[MAX_FIXED_MULTIPLIER
];
1070 multiplier
= g_test_rand_int_range (1, sizeof type_string
- 1);
1072 type_string
[i
++] = '(';
1073 while (multiplier
--)
1074 type_string
[i
++] = base_type
;
1075 type_string
[i
++] = ')';
1077 return g_strndup (type_string
, i
);
1080 /* construct a variable-sized type */
1082 char type_string
[2] = { 'a', base_type
};
1084 return g_strndup (type_string
, 2);
1090 GVariantTypeInfo
*type_info
;
1093 gboolean is_fixed_sized
;
1097 #define INSTANCE_MAGIC 1287582829
1101 static RandomInstance
*
1102 random_instance (GVariantTypeInfo
*type_info
)
1104 RandomInstance
*instance
;
1106 instance
= g_slice_new (RandomInstance
);
1108 if (type_info
== NULL
)
1110 gchar
*str
= random_type_string ();
1111 instance
->type_info
= g_variant_type_info_get (G_VARIANT_TYPE (str
));
1115 instance
->type_info
= g_variant_type_info_ref (type_info
);
1117 instance
->seed
= g_test_rand_int ();
1119 g_variant_type_info_query (instance
->type_info
,
1120 &instance
->alignment
,
1123 instance
->is_fixed_sized
= instance
->size
!= 0;
1125 if (!instance
->is_fixed_sized
)
1126 instance
->size
= g_test_rand_int_range (0, MAX_INSTANCE_SIZE
);
1128 instance
->magic
= INSTANCE_MAGIC
;
1134 random_instance_free (RandomInstance
*instance
)
1136 g_variant_type_info_unref (instance
->type_info
);
1137 g_slice_free (RandomInstance
, instance
);
1141 append_instance_size (RandomInstance
*instance
,
1144 *offset
+= (-*offset
) & instance
->alignment
;
1145 *offset
+= instance
->size
;
1149 random_instance_write (RandomInstance
*instance
,
1155 g_assert_cmpint ((gsize
) buffer
& ALIGN_BITS
& instance
->alignment
, ==, 0);
1157 rand
= g_rand_new_with_seed (instance
->seed
);
1158 for (i
= 0; i
< instance
->size
; i
++)
1159 buffer
[i
] = g_rand_int (rand
);
1164 append_instance_data (RandomInstance
*instance
,
1167 while (((gsize
) *buffer
) & instance
->alignment
)
1168 *(*buffer
)++ = '\0';
1170 random_instance_write (instance
, *buffer
);
1171 *buffer
+= instance
->size
;
1175 random_instance_assert (RandomInstance
*instance
,
1182 g_assert_cmpint ((gsize
) buffer
& ALIGN_BITS
& instance
->alignment
, ==, 0);
1183 g_assert_cmpint (size
, ==, instance
->size
);
1185 rand
= g_rand_new_with_seed (instance
->seed
);
1186 for (i
= 0; i
< instance
->size
; i
++)
1188 guchar byte
= g_rand_int (rand
);
1190 g_assert (buffer
[i
] == byte
);
1194 return i
== instance
->size
;
1198 random_instance_check (RandomInstance
*instance
,
1205 g_assert_cmpint ((gsize
) buffer
& ALIGN_BITS
& instance
->alignment
, ==, 0);
1207 if (size
!= instance
->size
)
1210 rand
= g_rand_new_with_seed (instance
->seed
);
1211 for (i
= 0; i
< instance
->size
; i
++)
1212 if (buffer
[i
] != (guchar
) g_rand_int (rand
))
1216 return i
== instance
->size
;
1220 random_instance_filler (GVariantSerialised
*serialised
,
1223 RandomInstance
*instance
= data
;
1225 g_assert (instance
->magic
== INSTANCE_MAGIC
);
1227 if (serialised
->type_info
== NULL
)
1228 serialised
->type_info
= instance
->type_info
;
1230 if (serialised
->size
== 0)
1231 serialised
->size
= instance
->size
;
1233 g_assert (serialised
->type_info
== instance
->type_info
);
1234 g_assert (serialised
->size
== instance
->size
);
1236 if (serialised
->data
)
1237 random_instance_write (instance
, serialised
->data
);
1241 calculate_offset_size (gsize body_size
,
1247 if (body_size
+ n_offsets
<= G_MAXUINT8
)
1250 if (body_size
+ 2 * n_offsets
<= G_MAXUINT16
)
1253 if (body_size
+ 4 * n_offsets
<= G_MAXUINT32
)
1256 /* the test case won't generate anything bigger */
1257 g_assert_not_reached ();
1261 flavoured_malloc (gsize size
, gsize flavour
)
1263 g_assert (flavour
< 8);
1268 return ((gchar
*) g_malloc (size
+ flavour
)) + flavour
;
1272 flavoured_free (gpointer data
,
1277 g_free (((gchar
*) data
) - flavour
);
1281 align_malloc (gsize size
)
1285 #ifdef HAVE_POSIX_MEMALIGN
1286 if (posix_memalign (&mem
, 8, size
))
1287 g_error ("posix_memalign failed");
1289 /* NOTE: there may be platforms that lack posix_memalign() and also
1290 * have malloc() that returns non-8-aligned. if so, we need to try
1293 mem
= malloc (size
);
1300 align_free (gpointer mem
)
1306 append_offset (guchar
**offset_ptr
,
1312 guchar bytes
[sizeof (gsize
)];
1316 tmpvalue
.integer
= GSIZE_TO_LE (offset
);
1317 memcpy (*offset_ptr
, tmpvalue
.bytes
, offset_size
);
1318 *offset_ptr
+= offset_size
;
1322 prepend_offset (guchar
**offset_ptr
,
1328 guchar bytes
[sizeof (gsize
)];
1332 *offset_ptr
-= offset_size
;
1333 tmpvalue
.integer
= GSIZE_TO_LE (offset
);
1334 memcpy (*offset_ptr
, tmpvalue
.bytes
, offset_size
);
1340 GVariantTypeInfo
*type_info
;
1341 RandomInstance
*instance
;
1345 instance
= random_instance (NULL
);
1348 const gchar
*element
;
1351 element
= g_variant_type_info_get_type_string (instance
->type_info
);
1352 tmp
= g_strdup_printf ("m%s", element
);
1353 type_info
= g_variant_type_info_get (G_VARIANT_TYPE (tmp
));
1357 needed_size
= g_variant_serialiser_needed_size (type_info
,
1358 random_instance_filler
,
1360 g_assert_cmpint (needed_size
, ==, 0);
1362 needed_size
= g_variant_serialiser_needed_size (type_info
,
1363 random_instance_filler
,
1364 (gpointer
*) &instance
, 1);
1366 if (instance
->is_fixed_sized
)
1367 g_assert_cmpint (needed_size
, ==, instance
->size
);
1369 g_assert_cmpint (needed_size
, ==, instance
->size
+ 1);
1374 ptr
= data
= align_malloc (needed_size
);
1375 append_instance_data (instance
, &ptr
);
1377 if (!instance
->is_fixed_sized
)
1380 g_assert_cmpint (ptr
- data
, ==, needed_size
);
1387 alignment
= (instance
->alignment
& ALIGN_BITS
) + 1;
1389 for (flavour
= 0; flavour
< 8; flavour
+= alignment
)
1391 GVariantSerialised serialised
;
1392 GVariantSerialised child
;
1394 serialised
.type_info
= type_info
;
1395 serialised
.data
= flavoured_malloc (needed_size
, flavour
);
1396 serialised
.size
= needed_size
;
1398 g_variant_serialiser_serialise (serialised
,
1399 random_instance_filler
,
1400 (gpointer
*) &instance
, 1);
1401 child
= g_variant_serialised_get_child (serialised
, 0);
1402 g_assert (child
.type_info
== instance
->type_info
);
1403 random_instance_assert (instance
, child
.data
, child
.size
);
1404 g_variant_type_info_unref (child
.type_info
);
1405 flavoured_free (serialised
.data
, flavour
);
1409 g_variant_type_info_unref (type_info
);
1410 random_instance_free (instance
);
1419 for (i
= 0; i
< 1000; i
++)
1422 g_variant_type_info_assert_no_infos ();
1428 GVariantTypeInfo
*element_info
;
1429 GVariantTypeInfo
*array_info
;
1430 RandomInstance
**instances
;
1437 gchar
*element_type
, *array_type
;
1439 element_type
= random_type_string ();
1440 array_type
= g_strdup_printf ("a%s", element_type
);
1442 element_info
= g_variant_type_info_get (G_VARIANT_TYPE (element_type
));
1443 array_info
= g_variant_type_info_get (G_VARIANT_TYPE (array_type
));
1444 g_assert (g_variant_type_info_element (array_info
) == element_info
);
1446 g_free (element_type
);
1447 g_free (array_type
);
1453 n_children
= g_test_rand_int_range (0, MAX_ARRAY_CHILDREN
);
1454 instances
= g_new (RandomInstance
*, n_children
);
1455 for (i
= 0; i
< n_children
; i
++)
1456 instances
[i
] = random_instance (element_info
);
1459 needed_size
= g_variant_serialiser_needed_size (array_info
,
1460 random_instance_filler
,
1461 (gpointer
*) instances
,
1465 gsize element_fixed_size
;
1466 gsize body_size
= 0;
1469 for (i
= 0; i
< n_children
; i
++)
1470 append_instance_size (instances
[i
], &body_size
);
1472 g_variant_type_info_query (element_info
, NULL
, &element_fixed_size
);
1474 if (!element_fixed_size
)
1476 offset_size
= calculate_offset_size (body_size
, n_children
);
1478 if (offset_size
== 0)
1484 g_assert_cmpint (needed_size
, ==, body_size
+ n_children
* offset_size
);
1488 guchar
*offset_ptr
, *body_ptr
;
1491 body_ptr
= data
= align_malloc (needed_size
);
1492 offset_ptr
= body_ptr
+ needed_size
- offset_size
* n_children
;
1494 for (i
= 0; i
< n_children
; i
++)
1496 append_instance_data (instances
[i
], &body_ptr
);
1497 append_offset (&offset_ptr
, body_ptr
- data
, offset_size
);
1500 g_assert (body_ptr
== data
+ needed_size
- offset_size
* n_children
);
1501 g_assert (offset_ptr
== data
+ needed_size
);
1509 g_variant_type_info_query (array_info
, &alignment
, NULL
);
1510 alignment
= (alignment
& ALIGN_BITS
) + 1;
1512 for (flavour
= 0; flavour
< 8; flavour
+= alignment
)
1514 GVariantSerialised serialised
;
1516 serialised
.type_info
= array_info
;
1517 serialised
.data
= flavoured_malloc (needed_size
, flavour
);
1518 serialised
.size
= needed_size
;
1520 g_variant_serialiser_serialise (serialised
, random_instance_filler
,
1521 (gpointer
*) instances
, n_children
);
1523 if (serialised
.size
)
1524 g_assert (memcmp (serialised
.data
, data
, serialised
.size
) == 0);
1526 g_assert (g_variant_serialised_n_children (serialised
) == n_children
);
1528 for (i
= 0; i
< n_children
; i
++)
1530 GVariantSerialised child
;
1532 child
= g_variant_serialised_get_child (serialised
, i
);
1533 g_assert (child
.type_info
== instances
[i
]->type_info
);
1534 random_instance_assert (instances
[i
], child
.data
, child
.size
);
1535 g_variant_type_info_unref (child
.type_info
);
1538 flavoured_free (serialised
.data
, flavour
);
1545 for (i
= 0; i
< n_children
; i
++)
1546 random_instance_free (instances
[i
]);
1550 g_variant_type_info_unref (element_info
);
1551 g_variant_type_info_unref (array_info
);
1560 for (i
= 0; i
< 100; i
++)
1563 g_variant_type_info_assert_no_infos ();
1569 GVariantTypeInfo
*type_info
;
1570 RandomInstance
**instances
;
1571 gboolean fixed_size
;
1578 n_children
= g_test_rand_int_range (0, MAX_TUPLE_CHILDREN
);
1579 instances
= g_new (RandomInstance
*, n_children
);
1582 GString
*type_string
;
1588 type_string
= g_string_new ("(");
1589 for (i
= 0; i
< n_children
; i
++)
1593 instances
[i
] = random_instance (NULL
);
1595 alignment
|= instances
[i
]->alignment
;
1596 if (!instances
[i
]->is_fixed_sized
)
1599 str
= g_variant_type_info_get_type_string (instances
[i
]->type_info
);
1600 g_string_append (type_string
, str
);
1602 g_string_append_c (type_string
, ')');
1604 type_info
= g_variant_type_info_get (G_VARIANT_TYPE (type_string
->str
));
1605 g_string_free (type_string
, TRUE
);
1608 needed_size
= g_variant_serialiser_needed_size (type_info
,
1609 random_instance_filler
,
1610 (gpointer
*) instances
,
1613 gsize body_size
= 0;
1617 for (i
= 0; i
< n_children
; i
++)
1619 append_instance_size (instances
[i
], &body_size
);
1621 if (i
!= n_children
- 1 && !instances
[i
]->is_fixed_sized
)
1627 body_size
+= (-body_size
) & alignment
;
1629 g_assert ((body_size
== 0) == (n_children
== 0));
1630 if (n_children
== 0)
1634 offset_size
= calculate_offset_size (body_size
, offsets
);
1635 g_assert_cmpint (needed_size
, ==, body_size
+ offsets
* offset_size
);
1643 body_ptr
= data
= align_malloc (needed_size
);
1644 ofs_ptr
= body_ptr
+ needed_size
;
1646 for (i
= 0; i
< n_children
; i
++)
1648 append_instance_data (instances
[i
], &body_ptr
);
1650 if (i
!= n_children
- 1 && !instances
[i
]->is_fixed_sized
)
1651 prepend_offset (&ofs_ptr
, body_ptr
- data
, offset_size
);
1656 while (((gsize
) body_ptr
) & alignment
)
1659 g_assert ((body_ptr
== data
) == (n_children
== 0));
1660 if (n_children
== 0)
1666 g_assert (body_ptr
== ofs_ptr
);
1673 alignment
= (alignment
& ALIGN_BITS
) + 1;
1675 for (flavour
= 0; flavour
< 8; flavour
+= alignment
)
1677 GVariantSerialised serialised
;
1679 serialised
.type_info
= type_info
;
1680 serialised
.data
= flavoured_malloc (needed_size
, flavour
);
1681 serialised
.size
= needed_size
;
1683 g_variant_serialiser_serialise (serialised
, random_instance_filler
,
1684 (gpointer
*) instances
, n_children
);
1686 if (serialised
.size
)
1687 g_assert (memcmp (serialised
.data
, data
, serialised
.size
) == 0);
1689 g_assert (g_variant_serialised_n_children (serialised
) == n_children
);
1691 for (i
= 0; i
< n_children
; i
++)
1693 GVariantSerialised child
;
1695 child
= g_variant_serialised_get_child (serialised
, i
);
1696 g_assert (child
.type_info
== instances
[i
]->type_info
);
1697 random_instance_assert (instances
[i
], child
.data
, child
.size
);
1698 g_variant_type_info_unref (child
.type_info
);
1701 flavoured_free (serialised
.data
, flavour
);
1708 for (i
= 0; i
< n_children
; i
++)
1709 random_instance_free (instances
[i
]);
1713 g_variant_type_info_unref (type_info
);
1722 for (i
= 0; i
< 100; i
++)
1725 g_variant_type_info_assert_no_infos ();
1731 GVariantTypeInfo
*type_info
;
1732 RandomInstance
*instance
;
1733 const gchar
*type_string
;
1738 type_info
= g_variant_type_info_get (G_VARIANT_TYPE_VARIANT
);
1739 instance
= random_instance (NULL
);
1741 type_string
= g_variant_type_info_get_type_string (instance
->type_info
);
1742 len
= strlen (type_string
);
1744 needed_size
= g_variant_serialiser_needed_size (type_info
,
1745 random_instance_filler
,
1746 (gpointer
*) &instance
, 1);
1748 g_assert_cmpint (needed_size
, ==, instance
->size
+ 1 + len
);
1753 ptr
= data
= align_malloc (needed_size
);
1754 append_instance_data (instance
, &ptr
);
1756 memcpy (ptr
, type_string
, len
);
1759 g_assert (data
+ needed_size
== ptr
);
1766 /* variants are always 8-aligned */
1767 alignment
= ALIGN_BITS
+ 1;
1769 for (flavour
= 0; flavour
< 8; flavour
+= alignment
)
1771 GVariantSerialised serialised
;
1772 GVariantSerialised child
;
1774 serialised
.type_info
= type_info
;
1775 serialised
.data
= flavoured_malloc (needed_size
, flavour
);
1776 serialised
.size
= needed_size
;
1778 g_variant_serialiser_serialise (serialised
, random_instance_filler
,
1779 (gpointer
*) &instance
, 1);
1781 if (serialised
.size
)
1782 g_assert (memcmp (serialised
.data
, data
, serialised
.size
) == 0);
1784 g_assert (g_variant_serialised_n_children (serialised
) == 1);
1786 child
= g_variant_serialised_get_child (serialised
, 0);
1787 g_assert (child
.type_info
== instance
->type_info
);
1788 random_instance_check (instance
, child
.data
, child
.size
);
1790 g_variant_type_info_unref (child
.type_info
);
1791 flavoured_free (serialised
.data
, flavour
);
1795 g_variant_type_info_unref (type_info
);
1796 random_instance_free (instance
);
1801 test_variants (void)
1805 for (i
= 0; i
< 100; i
++)
1808 g_variant_type_info_assert_no_infos ();
1821 #define is_objpath is_string | 2
1822 #define is_sig is_string | 4
1824 { is_nval
, 0, NULL
},
1825 { is_nval
, 13, "hello\xffworld!" },
1826 { is_string
, 13, "hello world!" },
1827 { is_nval
, 13, "hello world\0" },
1828 { is_nval
, 13, "hello\0world!" },
1829 { is_nval
, 12, "hello world!" },
1830 { is_nval
, 13, "hello world!\xff" },
1832 { is_objpath
, 2, "/" },
1833 { is_objpath
, 3, "/a" },
1834 { is_string
, 3, "//" },
1835 { is_objpath
, 11, "/some/path" },
1836 { is_string
, 12, "/some/path/" },
1837 { is_nval
, 11, "/some\0path" },
1838 { is_string
, 11, "/some\\path" },
1839 { is_string
, 12, "/some//path" },
1840 { is_string
, 12, "/some-/path" },
1844 { is_sig
, 5, "(si)" },
1845 { is_string
, 4, "(si" },
1846 { is_string
, 2, "*" },
1847 { is_sig
, 3, "ai" },
1848 { is_string
, 3, "mi" },
1849 { is_string
, 2, "r" },
1850 { is_sig
, 15, "(yyy{sv}ssiai)" },
1851 { is_string
, 16, "(yyy{yv}ssiai))" },
1852 { is_string
, 15, "(yyy{vv}ssiai)" },
1853 { is_string
, 15, "(yyy{sv)ssiai}" }
1857 for (i
= 0; i
< G_N_ELEMENTS (test_cases
); i
++)
1861 flags
= g_variant_serialiser_is_string (test_cases
[i
].data
,
1865 flags
|= g_variant_serialiser_is_object_path (test_cases
[i
].data
,
1869 flags
|= g_variant_serialiser_is_signature (test_cases
[i
].data
,
1873 g_assert (flags
== test_cases
[i
].flags
);
1877 typedef struct _TreeInstance TreeInstance
;
1878 struct _TreeInstance
1880 GVariantTypeInfo
*info
;
1882 TreeInstance
**children
;
1893 static GVariantType
*
1894 make_random_definite_type (int depth
)
1896 GString
*description
;
1897 GString
*type_string
;
1900 description
= g_string_new (NULL
);
1901 type_string
= g_string_new (NULL
);
1902 type
= append_type_string (type_string
, description
, TRUE
, depth
);
1903 g_string_free (description
, TRUE
);
1904 g_string_free (type_string
, TRUE
);
1910 make_random_string (gchar
*string
,
1912 const GVariantType
*type
)
1916 /* create strings that are valid signature strings */
1917 #define good_chars "bynqiuxthdsog"
1919 for (i
= 0; i
< size
- 1; i
++)
1920 string
[i
] = good_chars
[g_test_rand_int_range (0, strlen (good_chars
))];
1923 /* in case we need an object path, prefix a '/' */
1924 if (*g_variant_type_peek_string (type
) == 'o')
1930 static TreeInstance
*
1931 tree_instance_new (const GVariantType
*type
,
1934 const GVariantType
*child_type
= NULL
;
1935 GVariantType
*mytype
= NULL
;
1936 TreeInstance
*instance
;
1937 gboolean is_tuple_type
;
1940 type
= mytype
= make_random_definite_type (depth
);
1942 instance
= g_slice_new (TreeInstance
);
1943 instance
->info
= g_variant_type_info_get (type
);
1944 instance
->children
= NULL
;
1945 instance
->n_children
= 0;
1946 instance
->data_size
= 0;
1948 is_tuple_type
= FALSE
;
1950 switch (*g_variant_type_peek_string (type
))
1952 case G_VARIANT_TYPE_INFO_CHAR_MAYBE
:
1953 instance
->n_children
= g_test_rand_int_range (0, 2);
1954 child_type
= g_variant_type_element (type
);
1957 case G_VARIANT_TYPE_INFO_CHAR_ARRAY
:
1958 instance
->n_children
= g_test_rand_int_range (0, MAX_ARRAY_CHILDREN
);
1959 child_type
= g_variant_type_element (type
);
1962 case G_VARIANT_TYPE_INFO_CHAR_DICT_ENTRY
:
1963 case G_VARIANT_TYPE_INFO_CHAR_TUPLE
:
1964 instance
->n_children
= g_variant_type_n_items (type
);
1965 child_type
= g_variant_type_first (type
);
1966 is_tuple_type
= TRUE
;
1969 case G_VARIANT_TYPE_INFO_CHAR_VARIANT
:
1970 instance
->n_children
= 1;
1975 instance
->data
.integer
= g_test_rand_int_range (0, 2);
1976 instance
->data_size
= 1;
1980 instance
->data
.integer
= g_test_rand_int ();
1981 instance
->data_size
= 1;
1985 instance
->data
.integer
= g_test_rand_int ();
1986 instance
->data_size
= 2;
1989 case 'i': case 'u': case 'h':
1990 instance
->data
.integer
= g_test_rand_int ();
1991 instance
->data_size
= 4;
1995 instance
->data
.integer
= g_test_rand_int ();
1996 instance
->data
.integer
<<= 32;
1997 instance
->data
.integer
|= (guint32
) g_test_rand_int ();
1998 instance
->data_size
= 8;
2002 instance
->data
.floating
= g_test_rand_double ();
2003 instance
->data_size
= 8;
2006 case 's': case 'o': case 'g':
2007 instance
->data_size
= g_test_rand_int_range (10, 200);
2008 make_random_string (instance
->data
.string
, instance
->data_size
, type
);
2012 if (instance
->data_size
== 0)
2013 /* no data -> it is a container */
2017 instance
->children
= g_new (TreeInstance
*, instance
->n_children
);
2019 for (i
= 0; i
< instance
->n_children
; i
++)
2021 instance
->children
[i
] = tree_instance_new (child_type
, depth
- 1);
2024 child_type
= g_variant_type_next (child_type
);
2027 g_assert (!is_tuple_type
|| child_type
== NULL
);
2030 g_variant_type_free (mytype
);
2036 tree_instance_free (TreeInstance
*instance
)
2040 g_variant_type_info_unref (instance
->info
);
2041 for (i
= 0; i
< instance
->n_children
; i
++)
2042 tree_instance_free (instance
->children
[i
]);
2043 g_free (instance
->children
);
2044 g_slice_free (TreeInstance
, instance
);
2047 static gboolean i_am_writing_byteswapped
;
2050 tree_filler (GVariantSerialised
*serialised
,
2053 TreeInstance
*instance
= data
;
2055 if (serialised
->type_info
== NULL
)
2056 serialised
->type_info
= instance
->info
;
2058 if (instance
->data_size
== 0)
2059 /* is a container */
2061 if (serialised
->size
== 0)
2063 g_variant_serialiser_needed_size (instance
->info
, tree_filler
,
2064 (gpointer
*) instance
->children
,
2065 instance
->n_children
);
2067 if (serialised
->data
)
2068 g_variant_serialiser_serialise (*serialised
, tree_filler
,
2069 (gpointer
*) instance
->children
,
2070 instance
->n_children
);
2075 if (serialised
->size
== 0)
2076 serialised
->size
= instance
->data_size
;
2078 if (serialised
->data
)
2080 switch (instance
->data_size
)
2083 *serialised
->data
= instance
->data
.integer
;
2088 guint16 value
= instance
->data
.integer
;
2090 if (i_am_writing_byteswapped
)
2091 value
= GUINT16_SWAP_LE_BE (value
);
2093 *(guint16
*) serialised
->data
= value
;
2099 guint32 value
= instance
->data
.integer
;
2101 if (i_am_writing_byteswapped
)
2102 value
= GUINT32_SWAP_LE_BE (value
);
2104 *(guint32
*) serialised
->data
= value
;
2110 guint64 value
= instance
->data
.integer
;
2112 if (i_am_writing_byteswapped
)
2113 value
= GUINT64_SWAP_LE_BE (value
);
2115 *(guint64
*) serialised
->data
= value
;
2120 memcpy (serialised
->data
,
2121 instance
->data
.string
,
2122 instance
->data_size
);
2130 check_tree (TreeInstance
*instance
,
2131 GVariantSerialised serialised
)
2133 if (instance
->info
!= serialised
.type_info
)
2136 if (instance
->data_size
== 0)
2137 /* is a container */
2141 if (g_variant_serialised_n_children (serialised
) !=
2142 instance
->n_children
)
2145 for (i
= 0; i
< instance
->n_children
; i
++)
2147 GVariantSerialised child
;
2148 gpointer data
= NULL
;
2151 child
= g_variant_serialised_get_child (serialised
, i
);
2152 if (child
.size
&& child
.data
== NULL
)
2153 child
.data
= data
= g_malloc0 (child
.size
);
2154 ok
= check_tree (instance
->children
[i
], child
);
2155 g_variant_type_info_unref (child
.type_info
);
2167 switch (instance
->data_size
)
2170 g_assert (serialised
.size
== 1);
2171 return *(guint8
*) serialised
.data
==
2172 (guint8
) instance
->data
.integer
;
2175 g_assert (serialised
.size
== 2);
2176 return *(guint16
*) serialised
.data
==
2177 (guint16
) instance
->data
.integer
;
2180 g_assert (serialised
.size
== 4);
2181 return *(guint32
*) serialised
.data
==
2182 (guint32
) instance
->data
.integer
;
2185 g_assert (serialised
.size
== 8);
2186 return *(guint64
*) serialised
.data
==
2187 (guint64
) instance
->data
.integer
;
2190 if (serialised
.size
!= instance
->data_size
)
2193 return memcmp (serialised
.data
,
2194 instance
->data
.string
,
2195 instance
->data_size
) == 0;
2201 serialise_tree (TreeInstance
*tree
,
2202 GVariantSerialised
*serialised
)
2204 GVariantSerialised empty
= {0, };
2206 *serialised
= empty
;
2207 tree_filler (serialised
, tree
);
2208 serialised
->data
= g_malloc (serialised
->size
);
2209 tree_filler (serialised
, tree
);
2213 test_byteswap (void)
2215 GVariantSerialised one
, two
;
2218 tree
= tree_instance_new (NULL
, 3);
2219 serialise_tree (tree
, &one
);
2221 i_am_writing_byteswapped
= TRUE
;
2222 serialise_tree (tree
, &two
);
2223 i_am_writing_byteswapped
= FALSE
;
2225 g_variant_serialised_byteswap (two
);
2227 g_assert_cmpmem (one
.data
, one
.size
, two
.data
, two
.size
);
2229 tree_instance_free (tree
);
2235 test_byteswaps (void)
2239 for (i
= 0; i
< 200; i
++)
2242 g_variant_type_info_assert_no_infos ();
2246 test_fuzz (gdouble
*fuzziness
)
2248 GVariantSerialised serialised
;
2251 /* make an instance */
2252 tree
= tree_instance_new (NULL
, 3);
2255 serialise_tree (tree
, &serialised
);
2257 g_assert (g_variant_serialised_is_normal (serialised
));
2258 g_assert (check_tree (tree
, serialised
));
2260 if (serialised
.size
)
2262 gboolean fuzzed
= FALSE
;
2269 for (i
= 0; i
< serialised
.size
; i
++)
2270 if (randomly (*fuzziness
))
2272 serialised
.data
[i
] += g_test_rand_int_range (1, 256);
2277 /* at least one byte in the serialised data has changed.
2279 * this means that at least one of the following is true:
2281 * - the serialised data now represents a different value:
2282 * check_tree() will return FALSE
2284 * - the serialised data is in non-normal form:
2285 * g_variant_serialiser_is_normal() will return FALSE
2287 * we always do both checks to increase exposure of the serialiser
2290 a
= g_variant_serialised_is_normal (serialised
);
2291 b
= check_tree (tree
, serialised
);
2293 g_assert (!a
|| !b
);
2296 tree_instance_free (tree
);
2297 g_free (serialised
.data
);
2302 test_fuzzes (gpointer data
)
2307 fuzziness
= GPOINTER_TO_INT (data
) / 100.;
2309 for (i
= 0; i
< 200; i
++)
2310 test_fuzz (&fuzziness
);
2312 g_variant_type_info_assert_no_infos ();
2316 tree_instance_get_gvariant (TreeInstance
*tree
)
2318 const GVariantType
*type
;
2321 type
= (GVariantType
*) g_variant_type_info_get_type_string (tree
->info
);
2323 switch (g_variant_type_info_get_type_char (tree
->info
))
2325 case G_VARIANT_TYPE_INFO_CHAR_MAYBE
:
2327 const GVariantType
*child_type
;
2330 if (tree
->n_children
)
2331 child
= tree_instance_get_gvariant (tree
->children
[0]);
2335 child_type
= g_variant_type_element (type
);
2337 if (child
!= NULL
&& randomly (0.5))
2340 result
= g_variant_new_maybe (child_type
, child
);
2344 case G_VARIANT_TYPE_INFO_CHAR_ARRAY
:
2346 const GVariantType
*child_type
;
2347 GVariant
**children
;
2350 children
= g_new (GVariant
*, tree
->n_children
);
2351 for (i
= 0; i
< tree
->n_children
; i
++)
2352 children
[i
] = tree_instance_get_gvariant (tree
->children
[i
]);
2354 child_type
= g_variant_type_element (type
);
2356 if (i
> 0 && randomly (0.5))
2359 result
= g_variant_new_array (child_type
, children
, tree
->n_children
);
2364 case G_VARIANT_TYPE_INFO_CHAR_TUPLE
:
2366 GVariant
**children
;
2369 children
= g_new (GVariant
*, tree
->n_children
);
2370 for (i
= 0; i
< tree
->n_children
; i
++)
2371 children
[i
] = tree_instance_get_gvariant (tree
->children
[i
]);
2373 result
= g_variant_new_tuple (children
, tree
->n_children
);
2378 case G_VARIANT_TYPE_INFO_CHAR_DICT_ENTRY
:
2380 GVariant
*key
, *val
;
2382 g_assert (tree
->n_children
== 2);
2384 key
= tree_instance_get_gvariant (tree
->children
[0]);
2385 val
= tree_instance_get_gvariant (tree
->children
[1]);
2387 result
= g_variant_new_dict_entry (key
, val
);
2391 case G_VARIANT_TYPE_INFO_CHAR_VARIANT
:
2395 g_assert (tree
->n_children
== 1);
2397 value
= tree_instance_get_gvariant (tree
->children
[0]);
2398 result
= g_variant_new_variant (value
);
2403 result
= g_variant_new_boolean (tree
->data
.integer
> 0);
2407 result
= g_variant_new_byte (tree
->data
.integer
);
2411 result
= g_variant_new_int16 (tree
->data
.integer
);
2415 result
= g_variant_new_uint16 (tree
->data
.integer
);
2419 result
= g_variant_new_int32 (tree
->data
.integer
);
2423 result
= g_variant_new_uint32 (tree
->data
.integer
);
2427 result
= g_variant_new_int64 (tree
->data
.integer
);
2431 result
= g_variant_new_uint64 (tree
->data
.integer
);
2435 result
= g_variant_new_handle (tree
->data
.integer
);
2439 result
= g_variant_new_double (tree
->data
.floating
);
2443 result
= g_variant_new_string (tree
->data
.string
);
2447 result
= g_variant_new_object_path (tree
->data
.string
);
2451 result
= g_variant_new_signature (tree
->data
.string
);
2455 g_assert_not_reached ();
2462 tree_instance_check_gvariant (TreeInstance
*tree
,
2465 const GVariantType
*type
;
2467 type
= (GVariantType
*) g_variant_type_info_get_type_string (tree
->info
);
2468 g_assert (g_variant_is_of_type (value
, type
));
2470 switch (g_variant_type_info_get_type_char (tree
->info
))
2472 case G_VARIANT_TYPE_INFO_CHAR_MAYBE
:
2477 child
= g_variant_get_maybe (value
);
2479 if (child
!= NULL
&& tree
->n_children
== 1)
2480 equal
= tree_instance_check_gvariant (tree
->children
[0], child
);
2481 else if (child
== NULL
&& tree
->n_children
== 0)
2487 g_variant_unref (child
);
2493 case G_VARIANT_TYPE_INFO_CHAR_ARRAY
:
2494 case G_VARIANT_TYPE_INFO_CHAR_TUPLE
:
2495 case G_VARIANT_TYPE_INFO_CHAR_DICT_ENTRY
:
2499 if (g_variant_n_children (value
) != tree
->n_children
)
2502 for (i
= 0; i
< tree
->n_children
; i
++)
2507 child
= g_variant_get_child_value (value
, i
);
2508 equal
= tree_instance_check_gvariant (tree
->children
[i
], child
);
2509 g_variant_unref (child
);
2519 case G_VARIANT_TYPE_INFO_CHAR_VARIANT
:
2521 const gchar
*str1
, *str2
;
2525 child
= g_variant_get_variant (value
);
2526 str1
= g_variant_get_type_string (child
);
2527 str2
= g_variant_type_info_get_type_string (tree
->children
[0]->info
);
2528 /* GVariant only keeps one copy of type strings around */
2529 equal
= str1
== str2
&&
2530 tree_instance_check_gvariant (tree
->children
[0], child
);
2532 g_variant_unref (child
);
2539 return g_variant_get_boolean (value
) == tree
->data
.integer
;
2542 return g_variant_get_byte (value
) == (guchar
) tree
->data
.integer
;
2545 return g_variant_get_int16 (value
) == (gint16
) tree
->data
.integer
;
2548 return g_variant_get_uint16 (value
) == (guint16
) tree
->data
.integer
;
2551 return g_variant_get_int32 (value
) == (gint32
) tree
->data
.integer
;
2554 return g_variant_get_uint32 (value
) == (guint32
) tree
->data
.integer
;
2557 return g_variant_get_int64 (value
) == (gint64
) tree
->data
.integer
;
2560 return g_variant_get_uint64 (value
) == (guint64
) tree
->data
.integer
;
2563 return g_variant_get_handle (value
) == (gint32
) tree
->data
.integer
;
2567 gdouble floating
= g_variant_get_double (value
);
2569 return memcmp (&floating
, &tree
->data
.floating
, sizeof floating
) == 0;
2575 return strcmp (g_variant_get_string (value
, NULL
),
2576 tree
->data
.string
) == 0;
2579 g_assert_not_reached ();
2584 tree_instance_build_gvariant (TreeInstance
*tree
,
2585 GVariantBuilder
*builder
,
2588 const GVariantType
*type
;
2590 type
= (GVariantType
*) g_variant_type_info_get_type_string (tree
->info
);
2592 if (g_variant_type_is_container (type
))
2596 /* force GVariantBuilder to guess the type half the time */
2597 if (guess_ok
&& randomly (0.5))
2599 if (g_variant_type_is_array (type
) && tree
->n_children
)
2600 type
= G_VARIANT_TYPE_ARRAY
;
2602 if (g_variant_type_is_maybe (type
) && tree
->n_children
)
2603 type
= G_VARIANT_TYPE_MAYBE
;
2605 if (g_variant_type_is_tuple (type
))
2606 type
= G_VARIANT_TYPE_TUPLE
;
2608 if (g_variant_type_is_dict_entry (type
))
2609 type
= G_VARIANT_TYPE_DICT_ENTRY
;
2614 g_variant_builder_open (builder
, type
);
2616 for (i
= 0; i
< tree
->n_children
; i
++)
2617 tree_instance_build_gvariant (tree
->children
[i
], builder
, guess_ok
);
2619 g_variant_builder_close (builder
);
2622 g_variant_builder_add_value (builder
, tree_instance_get_gvariant (tree
));
2627 tree_instance_check_iter (TreeInstance
*tree
,
2632 value
= g_variant_iter_next_value (iter
);
2634 if (g_variant_is_container (value
))
2638 iter
= g_variant_iter_new (value
);
2639 g_variant_unref (value
);
2641 if (g_variant_iter_n_children (iter
) != tree
->n_children
)
2643 g_variant_iter_free (iter
);
2647 for (i
= 0; i
< tree
->n_children
; i
++)
2648 if (!tree_instance_check_iter (tree
->children
[i
], iter
))
2650 g_variant_iter_free (iter
);
2654 g_assert (g_variant_iter_next_value (iter
) == NULL
);
2655 g_variant_iter_free (iter
);
2664 equal
= tree_instance_check_gvariant (tree
, value
);
2665 g_variant_unref (value
);
2672 test_container (void)
2678 tree
= tree_instance_new (NULL
, 3);
2679 value
= g_variant_ref_sink (tree_instance_get_gvariant (tree
));
2681 s1
= g_variant_print (value
, TRUE
);
2682 g_assert (tree_instance_check_gvariant (tree
, value
));
2684 g_variant_get_data (value
);
2686 s2
= g_variant_print (value
, TRUE
);
2687 g_assert (tree_instance_check_gvariant (tree
, value
));
2689 g_assert_cmpstr (s1
, ==, s2
);
2691 if (g_variant_is_container (value
))
2693 GVariantBuilder builder
;
2699 g_variant_builder_init (&builder
, G_VARIANT_TYPE_VARIANT
);
2700 tree_instance_build_gvariant (tree
, &builder
, TRUE
);
2701 built
= g_variant_builder_end (&builder
);
2702 g_variant_ref_sink (built
);
2703 g_variant_get_data (built
);
2704 val
= g_variant_get_variant (built
);
2706 s3
= g_variant_print (val
, TRUE
);
2707 g_assert_cmpstr (s1
, ==, s3
);
2709 g_variant_iter_init (&iter
, built
);
2710 g_assert (tree_instance_check_iter (tree
, &iter
));
2711 g_assert (g_variant_iter_next_value (&iter
) == NULL
);
2713 g_variant_unref (built
);
2714 g_variant_unref (val
);
2718 tree_instance_free (tree
);
2719 g_variant_unref (value
);
2727 /* Test some different methods of creating strings */
2730 v
= g_variant_new_string ("foo");
2731 g_assert_cmpstr (g_variant_get_string (v
, NULL
), ==, "foo");
2732 g_variant_unref (v
);
2735 v
= g_variant_new_take_string (g_strdup ("foo"));
2736 g_assert_cmpstr (g_variant_get_string (v
, NULL
), ==, "foo");
2737 g_variant_unref (v
);
2739 v
= g_variant_new_printf ("%s %d", "foo", 123);
2740 g_assert_cmpstr (g_variant_get_string (v
, NULL
), ==, "foo 123");
2741 g_variant_unref (v
);
2747 const gchar invalid
[] = "hello\xffworld";
2750 /* ensure that the test data is not valid utf8... */
2751 g_assert (!g_utf8_validate (invalid
, -1, NULL
));
2753 /* load the data untrusted */
2754 value
= g_variant_new_from_data (G_VARIANT_TYPE_STRING
,
2755 invalid
, sizeof invalid
,
2758 /* ensure that the problem is caught and we get valid UTF-8 */
2759 g_assert (g_utf8_validate (g_variant_get_string (value
, NULL
), -1, NULL
));
2760 g_variant_unref (value
);
2763 /* now load it trusted */
2764 value
= g_variant_new_from_data (G_VARIANT_TYPE_STRING
,
2765 invalid
, sizeof invalid
,
2768 /* ensure we get the invalid data (ie: make sure that time wasn't
2769 * wasted on validating data that was marked as trusted)
2771 g_assert (g_variant_get_string (value
, NULL
) == invalid
);
2772 g_variant_unref (value
);
2776 test_containers (void)
2780 for (i
= 0; i
< 100; i
++)
2785 g_variant_type_info_assert_no_infos ();
2789 test_format_strings (void)
2794 g_assert (g_variant_format_string_scan ("i", NULL
, &end
) && *end
== '\0');
2795 g_assert (g_variant_format_string_scan ("@i", NULL
, &end
) && *end
== '\0');
2796 g_assert (g_variant_format_string_scan ("@ii", NULL
, &end
) && *end
== 'i');
2797 g_assert (g_variant_format_string_scan ("^a&s", NULL
, &end
) && *end
== '\0');
2798 g_assert (g_variant_format_string_scan ("(^as)", NULL
, &end
) &&
2800 g_assert (!g_variant_format_string_scan ("(^s)", NULL
, &end
));
2801 g_assert (!g_variant_format_string_scan ("(^a)", NULL
, &end
));
2802 g_assert (!g_variant_format_string_scan ("(z)", NULL
, &end
));
2803 g_assert (!g_variant_format_string_scan ("az", NULL
, &end
));
2804 g_assert (!g_variant_format_string_scan ("{**}", NULL
, &end
));
2805 g_assert (!g_variant_format_string_scan ("{@**}", NULL
, &end
));
2806 g_assert (g_variant_format_string_scan ("{@y*}", NULL
, &end
) &&
2808 g_assert (g_variant_format_string_scan ("{yv}", NULL
, &end
) &&
2810 g_assert (!g_variant_format_string_scan ("{&?v}", NULL
, &end
));
2811 g_assert (g_variant_format_string_scan ("{@?v}", NULL
, &end
) &&
2813 g_assert (!g_variant_format_string_scan ("{&@sv}", NULL
, &end
));
2814 g_assert (!g_variant_format_string_scan ("{@&sv}", NULL
, &end
));
2815 g_assert (g_variant_format_string_scan ("{&sv}", NULL
, &end
) &&
2817 g_assert (!g_variant_format_string_scan ("{vv}", NULL
, &end
));
2818 g_assert (!g_variant_format_string_scan ("{y}", NULL
, &end
));
2819 g_assert (!g_variant_format_string_scan ("{yyy}", NULL
, &end
));
2820 g_assert (!g_variant_format_string_scan ("{ya}", NULL
, &end
));
2821 g_assert (g_variant_format_string_scan ("&s", NULL
, &end
) && *end
== '\0');
2822 g_assert (!g_variant_format_string_scan ("&as", NULL
, &end
));
2823 g_assert (!g_variant_format_string_scan ("@z", NULL
, &end
));
2824 g_assert (!g_variant_format_string_scan ("az", NULL
, &end
));
2825 g_assert (!g_variant_format_string_scan ("a&s", NULL
, &end
));
2827 type
= g_variant_format_string_scan_type ("mm(@xy^a&s*?@?)", NULL
, &end
);
2828 g_assert (type
&& *end
== '\0');
2829 g_assert (g_variant_type_equal (type
, G_VARIANT_TYPE ("mm(xyas*?\?)")));
2830 g_variant_type_free (type
);
2832 type
= g_variant_format_string_scan_type ("mm(@xy^a&*?@?)", NULL
, NULL
);
2833 g_assert (type
== NULL
);
2837 do_failed_test (const char *test
,
2838 const gchar
*pattern
)
2840 g_test_trap_subprocess (test
, 1000000, 0);
2841 g_test_trap_assert_failed ();
2842 g_test_trap_assert_stderr (pattern
);
2846 test_invalid_varargs (void)
2851 if (!g_test_undefined ())
2854 g_test_expect_message (G_LOG_DOMAIN
, G_LOG_LEVEL_CRITICAL
,
2855 "*GVariant format string*");
2856 g_test_expect_message (G_LOG_DOMAIN
, G_LOG_LEVEL_CRITICAL
,
2857 "*valid_format_string*");
2858 value
= g_variant_new ("z");
2859 g_test_assert_expected_messages ();
2860 g_assert (value
== NULL
);
2862 g_test_expect_message (G_LOG_DOMAIN
, G_LOG_LEVEL_CRITICAL
,
2863 "*valid GVariant format string as a prefix*");
2864 g_test_expect_message (G_LOG_DOMAIN
, G_LOG_LEVEL_CRITICAL
,
2865 "*valid_format_string*");
2866 value
= g_variant_new_va ("z", &end
, NULL
);
2867 g_test_assert_expected_messages ();
2868 g_assert (value
== NULL
);
2870 value
= g_variant_new ("y", 'a');
2871 g_test_expect_message (G_LOG_DOMAIN
, G_LOG_LEVEL_CRITICAL
,
2872 "*type of 'q' but * has a type of 'y'*");
2873 g_test_expect_message (G_LOG_DOMAIN
, G_LOG_LEVEL_CRITICAL
,
2874 "*valid_format_string*");
2875 g_variant_get (value
, "q");
2876 g_test_assert_expected_messages ();
2877 g_variant_unref (value
);
2881 check_and_free (GVariant
*value
,
2884 gchar
*valstr
= g_variant_print (value
, FALSE
);
2885 g_assert_cmpstr (str
, ==, valstr
);
2886 g_variant_unref (value
);
2891 test_varargs_empty_array (void)
2893 g_variant_new ("(a{s*})", NULL
);
2895 g_assert_not_reached ();
2902 GVariantBuilder array
;
2904 g_variant_builder_init (&array
, G_VARIANT_TYPE_ARRAY
);
2905 g_variant_builder_add_parsed (&array
, "{'size', <(%i, %i)> }", 800, 600);
2906 g_variant_builder_add (&array
, "{sv}", "title",
2907 g_variant_new_string ("Test case"));
2908 g_variant_builder_add_value (&array
,
2909 g_variant_new_dict_entry (g_variant_new_string ("temperature"),
2910 g_variant_new_variant (
2911 g_variant_new_double (37.5))));
2912 check_and_free (g_variant_new ("(ma{sv}m(a{sv})ma{sv}ii)",
2913 NULL
, FALSE
, NULL
, &array
, 7777, 8888),
2914 "(nothing, nothing, {'size': <(800, 600)>, "
2915 "'title': <'Test case'>, "
2916 "'temperature': <37.5>}, "
2919 check_and_free (g_variant_new ("(imimimmimmimmi)",
2926 "(123, nothing, 123, nothing, just nothing, 123)");
2928 check_and_free (g_variant_new ("(ybnixd)",
2929 'a', 1, 22, 33, (guint64
) 44, 5.5),
2930 "(0x61, true, 22, 33, 44, 5.5)");
2932 check_and_free (g_variant_new ("(@y?*rv)",
2933 g_variant_new ("y", 'a'),
2934 g_variant_new ("y", 'b'),
2935 g_variant_new ("y", 'c'),
2936 g_variant_new ("(y)", 'd'),
2937 g_variant_new ("y", 'e')),
2938 "(0x61, 0x62, 0x63, (0x64,), <byte 0x65>)");
2942 GVariantBuilder array
;
2949 g_variant_builder_init (&array
, G_VARIANT_TYPE_ARRAY
);
2950 for (i
= 0; i
< 100; i
++)
2952 number
= g_strdup_printf ("%d", i
);
2953 g_variant_builder_add (&array
, "s", number
);
2957 value
= g_variant_builder_end (&array
);
2958 g_variant_iter_init (&iter
, value
);
2961 while (g_variant_iter_loop (&iter
, "s", &number
))
2963 gchar
*check
= g_strdup_printf ("%d", i
++);
2964 g_assert_cmpstr (number
, ==, check
);
2967 g_assert (number
== NULL
);
2968 g_assert (i
== 100);
2970 g_variant_unref (value
);
2972 g_variant_builder_init (&array
, G_VARIANT_TYPE_ARRAY
);
2973 for (i
= 0; i
< 100; i
++)
2974 g_variant_builder_add (&array
, "mi", i
% 2 == 0, i
);
2975 value
= g_variant_builder_end (&array
);
2978 g_variant_iter_init (&iter
, value
);
2979 while (g_variant_iter_loop (&iter
, "mi", NULL
, &val
))
2980 g_assert (val
== i
++ || val
== 0);
2981 g_assert (i
== 100);
2984 g_variant_iter_init (&iter
, value
);
2985 while (g_variant_iter_loop (&iter
, "mi", &just
, &val
))
2992 g_assert (val
== this);
2997 g_assert (val
== 0);
3000 g_assert (i
== 100);
3002 g_variant_unref (value
);
3006 const gchar
*strvector
[] = {"/hello", "/world", NULL
};
3007 const gchar
*test_strs
[] = {"/foo", "/bar", "/baz" };
3008 GVariantBuilder builder
;
3009 GVariantIter
*array
;
3017 g_variant_builder_init (&builder
, G_VARIANT_TYPE ("as"));
3018 g_variant_builder_add (&builder
, "s", "/foo");
3019 g_variant_builder_add (&builder
, "s", "/bar");
3020 g_variant_builder_add (&builder
, "s", "/baz");
3021 value
= g_variant_new("(as^as^a&s)", &builder
, strvector
, strvector
);
3022 g_variant_iter_init (&tuple
, value
);
3023 g_variant_iter_next (&tuple
, "as", &array
);
3026 while (g_variant_iter_loop (array
, "s", &str
))
3027 g_assert_cmpstr (str
, ==, test_strs
[i
++]);
3030 g_variant_iter_free (array
);
3033 g_variant_iter_init (&tuple
, value
);
3034 g_variant_iter_next (&tuple
, "as", &array
);
3037 while (g_variant_iter_loop (array
, "&s", &str
))
3038 g_assert_cmpstr (str
, ==, test_strs
[i
++]);
3041 g_variant_iter_free (array
);
3043 g_variant_iter_next (&tuple
, "^a&s", &strv
);
3044 g_variant_iter_next (&tuple
, "^as", &my_strv
);
3046 g_assert_cmpstr (strv
[0], ==, "/hello");
3047 g_assert_cmpstr (strv
[1], ==, "/world");
3048 g_assert (strv
[2] == NULL
);
3049 g_assert_cmpstr (my_strv
[0], ==, "/hello");
3050 g_assert_cmpstr (my_strv
[1], ==, "/world");
3051 g_assert (my_strv
[2] == NULL
);
3053 g_variant_unref (value
);
3054 g_strfreev (my_strv
);
3059 const gchar
*strvector
[] = {"/hello", "/world", NULL
};
3060 const gchar
*test_strs
[] = {"/foo", "/bar", "/baz" };
3061 GVariantBuilder builder
;
3062 GVariantIter
*array
;
3070 g_variant_builder_init (&builder
, G_VARIANT_TYPE_OBJECT_PATH_ARRAY
);
3071 g_variant_builder_add (&builder
, "o", "/foo");
3072 g_variant_builder_add (&builder
, "o", "/bar");
3073 g_variant_builder_add (&builder
, "o", "/baz");
3074 value
= g_variant_new("(ao^ao^a&o)", &builder
, strvector
, strvector
);
3075 g_variant_iter_init (&tuple
, value
);
3076 g_variant_iter_next (&tuple
, "ao", &array
);
3079 while (g_variant_iter_loop (array
, "o", &str
))
3080 g_assert_cmpstr (str
, ==, test_strs
[i
++]);
3083 g_variant_iter_free (array
);
3086 g_variant_iter_init (&tuple
, value
);
3087 g_variant_iter_next (&tuple
, "ao", &array
);
3090 while (g_variant_iter_loop (array
, "&o", &str
))
3091 g_assert_cmpstr (str
, ==, test_strs
[i
++]);
3094 g_variant_iter_free (array
);
3096 g_variant_iter_next (&tuple
, "^a&o", &strv
);
3097 g_variant_iter_next (&tuple
, "^ao", &my_strv
);
3099 g_assert_cmpstr (strv
[0], ==, "/hello");
3100 g_assert_cmpstr (strv
[1], ==, "/world");
3101 g_assert (strv
[2] == NULL
);
3102 g_assert_cmpstr (my_strv
[0], ==, "/hello");
3103 g_assert_cmpstr (my_strv
[1], ==, "/world");
3104 g_assert (my_strv
[2] == NULL
);
3106 g_variant_unref (value
);
3107 g_strfreev (my_strv
);
3112 const gchar
*strvector
[] = { "i", "ii", "iii", "iv", "v", "vi", NULL
};
3113 GVariantBuilder builder
;
3122 g_variant_builder_init (&builder
, G_VARIANT_TYPE ("aas"));
3123 g_variant_builder_open (&builder
, G_VARIANT_TYPE ("as"));
3124 for (i
= 0; i
< 6; i
++)
3126 g_variant_builder_add (&builder
, "s", strvector
[i
]);
3128 g_variant_builder_add (&builder
, "&s", strvector
[i
]);
3129 g_variant_builder_close (&builder
);
3130 g_variant_builder_add (&builder
, "^as", strvector
);
3131 g_variant_builder_add (&builder
, "^as", strvector
);
3132 value
= g_variant_new ("aas", &builder
);
3134 g_variant_iter_init (&iter
, value
);
3135 while (g_variant_iter_loop (&iter
, "^as", &strv
))
3136 for (i
= 0; i
< 6; i
++)
3137 g_assert_cmpstr (strv
[i
], ==, strvector
[i
]);
3139 g_variant_iter_init (&iter
, value
);
3140 while (g_variant_iter_loop (&iter
, "^a&s", &strv
))
3141 for (i
= 0; i
< 6; i
++)
3142 g_assert_cmpstr (strv
[i
], ==, strvector
[i
]);
3144 g_variant_iter_init (&iter
, value
);
3145 while (g_variant_iter_loop (&iter
, "as", &i2
))
3150 while (g_variant_iter_loop (i2
, "s", &str
))
3151 g_assert_cmpstr (str
, ==, strvector
[i
++]);
3155 g_variant_iter_init (&iter
, value
);
3156 i3
= g_variant_iter_copy (&iter
);
3157 while (g_variant_iter_loop (&iter
, "@as", &sub
))
3159 gchar
*str
= g_variant_print (sub
, TRUE
);
3160 g_assert_cmpstr (str
, ==,
3161 "['i', 'ii', 'iii', 'iv', 'v', 'vi']");
3165 g_test_expect_message (G_LOG_DOMAIN
, G_LOG_LEVEL_CRITICAL
,
3166 "*NULL has already been returned*");
3167 g_variant_iter_next_value (&iter
);
3168 g_test_assert_expected_messages ();
3170 while (g_variant_iter_loop (i3
, "*", &sub
))
3172 gchar
*str
= g_variant_print (sub
, TRUE
);
3173 g_assert_cmpstr (str
, ==,
3174 "['i', 'ii', 'iii', 'iv', 'v', 'vi']");
3178 g_variant_iter_free (i3
);
3180 for (i
= 0; i
< g_variant_n_children (value
); i
++)
3184 g_variant_get_child (value
, i
, "*", &sub
);
3186 for (j
= 0; j
< g_variant_n_children (sub
); j
++)
3188 const gchar
*str
= NULL
;
3191 g_variant_get_child (sub
, j
, "&s", &str
);
3192 g_assert_cmpstr (str
, ==, strvector
[j
]);
3194 cval
= g_variant_get_child_value (sub
, j
);
3195 g_variant_get (cval
, "&s", &str
);
3196 g_assert_cmpstr (str
, ==, strvector
[j
]);
3197 g_variant_unref (cval
);
3200 g_variant_unref (sub
);
3203 g_variant_unref (value
);
3222 /* test all 'nothing' */
3223 value
= g_variant_new ("(mymbmnmqmimumxmtmhmdmv)",
3226 FALSE
, (gint16
) 123,
3227 FALSE
, (guint16
) 123,
3228 FALSE
, (gint32
) 123,
3229 FALSE
, (guint32
) 123,
3230 FALSE
, (gint64
) 123,
3231 FALSE
, (guint64
) 123,
3233 FALSE
, (gdouble
) 37.5,
3237 g_variant_get (value
, "(mymbmnmqmimumxmtmhmdmv)",
3251 memset (justs
, 1, sizeof justs
);
3252 g_variant_get (value
, "(mymbmnmqmimumxmtmhmdmv)",
3264 g_assert (!(justs
[0] || justs
[1] || justs
[2] || justs
[3] || justs
[4] ||
3265 justs
[5] || justs
[6] || justs
[7] || justs
[8] || justs
[9]));
3268 memset (justs
, 1, sizeof justs
);
3269 byteval
= i16val
= u16val
= i32val
= u32val
= i64val
= u64val
= hval
= 88;
3273 g_variant_get (value
, "(mymbmnmqmimumxmtmhmdmv)",
3274 &justs
[0], &byteval
,
3285 g_assert (!(justs
[0] || justs
[1] || justs
[2] || justs
[3] || justs
[4] ||
3286 justs
[5] || justs
[6] || justs
[7] || justs
[8] || justs
[9]));
3287 g_assert (byteval
== '\0' && bval
== FALSE
);
3288 g_assert (i16val
== 0 && u16val
== 0 && i32val
== 0 &&
3289 u32val
== 0 && i64val
== 0 && u64val
== 0 &&
3290 hval
== 0 && dval
== 0.0);
3291 g_assert (vval
== NULL
);
3294 byteval
= i16val
= u16val
= i32val
= u32val
= i64val
= u64val
= hval
= 88;
3298 g_variant_get (value
, "(mymbmnmqmimumxmtmhmdmv)",
3310 g_assert (byteval
== '\0' && bval
== FALSE
);
3311 g_assert (i16val
== 0 && u16val
== 0 && i32val
== 0 &&
3312 u32val
== 0 && i64val
== 0 && u64val
== 0 &&
3313 hval
== 0 && dval
== 0.0);
3314 g_assert (vval
== NULL
);
3316 g_variant_unref (value
);
3319 /* test all 'just' */
3320 value
= g_variant_new ("(mymbmnmqmimumxmtmhmdmv)",
3324 TRUE
, (guint16
) 123,
3326 TRUE
, (guint32
) 123,
3328 TRUE
, (guint64
) 123,
3330 TRUE
, (gdouble
) 37.5,
3331 g_variant_new ("()"));
3334 g_variant_get (value
, "(mymbmnmqmimumxmtmhmdmv)",
3348 memset (justs
, 0, sizeof justs
);
3349 g_variant_get (value
, "(mymbmnmqmimumxmtmhmdmv)",
3361 g_assert (justs
[0] && justs
[1] && justs
[2] && justs
[3] && justs
[4] &&
3362 justs
[5] && justs
[6] && justs
[7] && justs
[8] && justs
[9]);
3365 memset (justs
, 0, sizeof justs
);
3366 byteval
= i16val
= u16val
= i32val
= u32val
= i64val
= u64val
= hval
= 88;
3370 g_variant_get (value
, "(mymbmnmqmimumxmtmhmdmv)",
3371 &justs
[0], &byteval
,
3382 g_assert (justs
[0] && justs
[1] && justs
[2] && justs
[3] && justs
[4] &&
3383 justs
[5] && justs
[6] && justs
[7] && justs
[8] && justs
[9]);
3384 g_assert (byteval
== 'a' && bval
== TRUE
);
3385 g_assert (i16val
== 123 && u16val
== 123 && i32val
== 123 &&
3386 u32val
== 123 && i64val
== 123 && u64val
== 123 &&
3387 hval
== -1 && dval
== 37.5);
3388 g_assert (g_variant_is_of_type (vval
, G_VARIANT_TYPE_UNIT
));
3389 g_variant_unref (vval
);
3392 byteval
= i16val
= u16val
= i32val
= u32val
= i64val
= u64val
= hval
= 88;
3396 g_variant_get (value
, "(mymbmnmqmimumxmtmhmdmv)",
3408 g_assert (byteval
== 'a' && bval
== TRUE
);
3409 g_assert (i16val
== 123 && u16val
== 123 && i32val
== 123 &&
3410 u32val
== 123 && i64val
== 123 && u64val
== 123 &&
3411 hval
== -1 && dval
== 37.5);
3412 g_assert (g_variant_is_of_type (vval
, G_VARIANT_TYPE_UNIT
));
3413 g_variant_unref (vval
);
3415 g_variant_unref (value
);
3422 value
= g_variant_new ("(masas)", NULL
, NULL
);
3423 g_variant_ref_sink (value
);
3425 str
= g_variant_print (value
, TRUE
);
3426 g_assert_cmpstr (str
, ==, "(@mas nothing, @as [])");
3427 g_variant_unref (value
);
3430 do_failed_test ("/gvariant/varargs/subprocess/empty-array",
3431 "*which type of empty array*");
3434 g_variant_type_info_assert_no_infos ();
3438 hash_get (GVariant
*value
,
3439 const gchar
*format
,
3442 const gchar
*endptr
= NULL
;
3446 hash
= g_str_has_suffix (format
, "#");
3448 va_start (ap
, format
);
3449 g_variant_get_va (value
, format
, hash
? &endptr
: NULL
, &ap
);
3453 g_assert (*endptr
== '#');
3457 hash_new (const gchar
*format
,
3460 const gchar
*endptr
= NULL
;
3465 hash
= g_str_has_suffix (format
, "#");
3467 va_start (ap
, format
);
3468 value
= g_variant_new_va (format
, hash
? &endptr
: NULL
, &ap
);
3472 g_assert (*endptr
== '#');
3484 value
= hash_new ("i", 234);
3485 hash_get (value
, "i", &x
);
3486 g_assert (x
== 234);
3487 g_variant_unref (value
);
3490 value
= hash_new ("i#", 234);
3491 hash_get (value
, "i#", &x
);
3492 g_assert (x
== 234);
3493 g_variant_unref (value
);
3495 g_variant_type_info_assert_no_infos ();
3499 test_builder_memory (void)
3501 GVariantBuilder
*hb
;
3504 hb
= g_variant_builder_new (G_VARIANT_TYPE_ARRAY
);
3505 g_variant_builder_open (hb
, G_VARIANT_TYPE_ARRAY
);
3506 g_variant_builder_open (hb
, G_VARIANT_TYPE_ARRAY
);
3507 g_variant_builder_open (hb
, G_VARIANT_TYPE_ARRAY
);
3508 g_variant_builder_add (hb
, "s", "some value");
3509 g_variant_builder_ref (hb
);
3510 g_variant_builder_unref (hb
);
3511 g_variant_builder_unref (hb
);
3513 hb
= g_variant_builder_new (G_VARIANT_TYPE_ARRAY
);
3514 g_variant_builder_unref (hb
);
3516 hb
= g_variant_builder_new (G_VARIANT_TYPE_ARRAY
);
3517 g_variant_builder_clear (hb
);
3518 g_variant_builder_unref (hb
);
3520 g_variant_builder_init (&sb
, G_VARIANT_TYPE_ARRAY
);
3521 g_variant_builder_open (&sb
, G_VARIANT_TYPE_ARRAY
);
3522 g_variant_builder_open (&sb
, G_VARIANT_TYPE_ARRAY
);
3523 g_variant_builder_add (&sb
, "s", "some value");
3524 g_variant_builder_clear (&sb
);
3526 g_variant_type_info_assert_no_infos ();
3532 GVariant
*items
[4096];
3536 table
= g_hash_table_new_full (g_variant_hash
, g_variant_equal
,
3537 (GDestroyNotify
) g_variant_unref
,
3540 for (i
= 0; i
< G_N_ELEMENTS (items
); i
++)
3546 tree
= tree_instance_new (NULL
, 0);
3547 items
[i
] = tree_instance_get_gvariant (tree
);
3548 tree_instance_free (tree
);
3550 for (j
= 0; j
< i
; j
++)
3551 if (g_variant_equal (items
[i
], items
[j
]))
3553 g_variant_unref (items
[i
]);
3557 g_hash_table_insert (table
,
3558 g_variant_ref_sink (items
[i
]),
3559 GINT_TO_POINTER (i
));
3562 for (i
= 0; i
< G_N_ELEMENTS (items
); i
++)
3566 result
= g_hash_table_lookup (table
, items
[i
]);
3567 g_assert_cmpint (GPOINTER_TO_INT (result
), ==, i
);
3570 g_hash_table_unref (table
);
3572 g_variant_type_info_assert_no_infos ();
3576 test_gv_byteswap (void)
3578 #if G_BYTE_ORDER == G_LITTLE_ENDIAN
3579 # define native16(x) x, 0
3580 # define swapped16(x) 0, x
3582 # define native16(x) 0, x
3583 # define swapped16(x) x, 0
3585 /* all kinds of of crazy randomised testing already performed on the
3586 * byteswapper in the /gvariant/serialiser/byteswap test and all kinds
3587 * of crazy randomised testing performed against the serialiser
3588 * normalisation functions in the /gvariant/serialiser/fuzz/ tests.
3590 * just test a few simple cases here to make sure they each work
3592 guchar validbytes
[] = { 'a', '\0', swapped16(66), 2,
3594 'b', '\0', swapped16(77), 2,
3596 guchar corruptbytes
[] = { 'a', '\0', swapped16(66), 2,
3598 'b', '\0', swapped16(77), 2,
3600 guint valid_data
[4], corrupt_data
[4];
3601 GVariant
*value
, *swapped
;
3602 gchar
*string
, *string2
;
3604 memcpy (valid_data
, validbytes
, sizeof validbytes
);
3605 memcpy (corrupt_data
, corruptbytes
, sizeof corruptbytes
);
3608 value
= g_variant_new_from_data (G_VARIANT_TYPE ("a(sn)"),
3609 valid_data
, sizeof validbytes
, TRUE
,
3611 swapped
= g_variant_byteswap (value
);
3612 g_variant_unref (value
);
3613 g_assert (g_variant_get_size (swapped
) == 13);
3614 string
= g_variant_print (swapped
, FALSE
);
3615 g_variant_unref (swapped
);
3616 g_assert_cmpstr (string
, ==, "[('a', 66), ('b', 77)]");
3619 /* untrusted but valid */
3620 value
= g_variant_new_from_data (G_VARIANT_TYPE ("a(sn)"),
3621 valid_data
, sizeof validbytes
, FALSE
,
3623 swapped
= g_variant_byteswap (value
);
3624 g_variant_unref (value
);
3625 g_assert (g_variant_get_size (swapped
) == 13);
3626 string
= g_variant_print (swapped
, FALSE
);
3627 g_variant_unref (swapped
);
3628 g_assert_cmpstr (string
, ==, "[('a', 66), ('b', 77)]");
3631 /* untrusted, invalid */
3632 value
= g_variant_new_from_data (G_VARIANT_TYPE ("a(sn)"),
3633 corrupt_data
, sizeof corruptbytes
, FALSE
,
3635 string
= g_variant_print (value
, FALSE
);
3636 swapped
= g_variant_byteswap (value
);
3637 g_variant_unref (value
);
3638 g_assert (g_variant_get_size (swapped
) == 13);
3639 value
= g_variant_byteswap (swapped
);
3640 g_variant_unref (swapped
);
3641 string2
= g_variant_print (value
, FALSE
);
3642 g_assert (g_variant_get_size (value
) == 13);
3643 g_variant_unref (value
);
3644 g_assert_cmpstr (string
, ==, string2
);
3658 tree
= tree_instance_new (NULL
, 3);
3659 value
= tree_instance_get_gvariant (tree
);
3660 tree_instance_free (tree
);
3662 pt
= g_variant_print (value
, TRUE
);
3663 p
= g_variant_print (value
, FALSE
);
3665 parsed
= g_variant_parse (NULL
, pt
, NULL
, NULL
, NULL
);
3666 res
= g_variant_print (parsed
, FALSE
);
3667 g_assert_cmpstr (p
, ==, res
);
3668 g_variant_unref (parsed
);
3671 parsed
= g_variant_parse (g_variant_get_type (value
), p
,
3673 res
= g_variant_print (parsed
, TRUE
);
3674 g_assert_cmpstr (pt
, ==, res
);
3675 g_variant_unref (parsed
);
3678 g_variant_unref (value
);
3688 for (i
= 0; i
< 100; i
++)
3695 GError
*error
= NULL
;
3700 for (i
= 0; i
< 127; i
++)
3704 val
= g_variant_new_string (str
);
3705 p
= g_variant_print (val
, FALSE
);
3706 g_variant_unref (val
);
3708 val
= g_variant_parse (NULL
, p
, NULL
, NULL
, &error
);
3709 p2
= g_variant_print (val
, FALSE
);
3711 g_assert_cmpstr (str
, ==, g_variant_get_string (val
, NULL
));
3712 g_assert_cmpstr (p
, ==, p2
);
3714 g_variant_unref (val
);
3719 /* another mini test */
3724 value
= g_variant_parse (G_VARIANT_TYPE_INT32
, "1 2 3", NULL
, &end
, NULL
);
3725 g_assert_cmpint (g_variant_get_int32 (value
), ==, 1);
3726 /* make sure endptr returning works */
3727 g_assert_cmpstr (end
, ==, " 2 3");
3728 g_variant_unref (value
);
3731 /* unicode mini test */
3734 const gchar orig
[] = "a\xc5\x82\xf0\x9d\x84\x9e \t\n";
3738 value
= g_variant_new_string (orig
);
3739 printed
= g_variant_print (value
, FALSE
);
3740 g_variant_unref (value
);
3742 g_assert_cmpstr (printed
, ==, "'a\xc5\x82\xf0\x9d\x84\x9e \\t\\n'");
3743 value
= g_variant_parse (NULL
, printed
, NULL
, NULL
, NULL
);
3744 g_assert_cmpstr (g_variant_get_string (value
, NULL
), ==, orig
);
3745 g_variant_unref (value
);
3751 const gchar orig
[] = " \342\200\254 \360\220\210\240 \a \b \f \n \r \t \v ";
3755 value
= g_variant_new_string (orig
);
3756 printed
= g_variant_print (value
, FALSE
);
3757 g_variant_unref (value
);
3759 g_assert_cmpstr (printed
, ==, "' \\u202c \\U00010220 \\a \\b \\f \\n \\r \\t \\v '");
3760 value
= g_variant_parse (NULL
, printed
, NULL
, NULL
, NULL
);
3761 g_assert_cmpstr (g_variant_get_string (value
, NULL
), ==, orig
);
3762 g_variant_unref (value
);
3767 /* inf/nan strings are C99 features which Visual C++ does not support */
3768 /* inf/nan mini test */
3770 const gchar
*tests
[] = { "inf", "-inf", "nan" };
3773 gchar
*printed_down
;
3776 for (i
= 0; i
< G_N_ELEMENTS (tests
); i
++)
3778 GError
*error
= NULL
;
3779 value
= g_variant_parse (NULL
, tests
[i
], NULL
, NULL
, &error
);
3780 printed
= g_variant_print (value
, FALSE
);
3781 /* Canonicalize to lowercase; https://bugzilla.gnome.org/show_bug.cgi?id=704585 */
3782 printed_down
= g_ascii_strdown (printed
, -1);
3783 g_assert (g_str_has_prefix (printed_down
, tests
[i
]));
3785 g_free (printed_down
);
3786 g_variant_unref (value
);
3791 g_variant_type_info_assert_no_infos ();
3795 test_parse_failures (void)
3797 const gchar
*test
[] = {
3798 "[1, 2,", "6:", "expected value",
3799 "", "0:", "expected value",
3800 "(1, 2,", "6:", "expected value",
3801 "<1", "2:", "expected '>'",
3802 "[]", "0-2:", "unable to infer",
3803 "(,", "1:", "expected value",
3804 "[4,'']", "1-2,3-5:", "common type",
3805 "[4, '', 5]", "1-2,4-6:", "common type",
3806 "['', 4, 5]", "1-3,5-6:", "common type",
3807 "[4, 5, '']", "1-2,7-9:", "common type",
3808 "[[4], [], ['']]", "1-4,10-14:", "common type",
3809 "[[], [4], ['']]", "5-8,10-14:", "common type",
3810 "just", "4:", "expected value",
3811 "nothing", "0-7:", "unable to infer",
3812 "just [4, '']", "6-7,9-11:", "common type",
3813 "[[4,'']]", "2-3,4-6:", "common type",
3814 "([4,''],)", "2-3,4-6:", "common type",
3816 "{}", "0-2:", "unable to infer",
3817 "{[1,2],[3,4]}", "0-13:", "basic types",
3818 "{[1,2]:[3,4]}", "0-13:", "basic types",
3819 "justt", "0-5:", "unknown keyword",
3820 "nothng", "0-6:", "unknown keyword",
3821 "uint33", "0-6:", "unknown keyword",
3822 "@mi just ''", "9-11:", "can not parse as",
3823 "@ai ['']", "5-7:", "can not parse as",
3824 "@(i) ('',)", "6-8:", "can not parse as",
3825 "[[], 5]", "1-3,5-6:", "common type",
3826 "[[5], 5]", "1-4,6-7:", "common type",
3827 "5 5", "2:", "expected end of input",
3828 "[5, [5, '']]", "5-6,8-10:", "common type",
3829 "@i just 5", "3-9:", "can not parse as",
3830 "@i nothing", "3-10:", "can not parse as",
3831 "@i []", "3-5:", "can not parse as",
3832 "@i ()", "3-5:", "can not parse as",
3833 "@ai (4,)", "4-8:", "can not parse as",
3834 "@(i) []", "5-7:", "can not parse as",
3835 "(5 5)", "3:", "expected ','",
3836 "[5 5]", "3:", "expected ',' or ']'",
3837 "(5, 5 5)", "6:", "expected ',' or ')'",
3838 "[5, 5 5]", "6:", "expected ',' or ']'",
3839 "<@i []>", "4-6:", "can not parse as",
3840 "<[5 5]>", "4:", "expected ',' or ']'",
3841 "{[4,''],5}", "2-3,4-6:", "common type",
3842 "{5,[4,'']}", "4-5,6-8:", "common type",
3843 "@i {1,2}", "3-8:", "can not parse as",
3844 "{@i '', 5}", "4-6:", "can not parse as",
3845 "{5, @i ''}", "7-9:", "can not parse as",
3846 "@ai {}", "4-6:", "can not parse as",
3847 "{@i '': 5}", "4-6:", "can not parse as",
3848 "{5: @i ''}", "7-9:", "can not parse as",
3849 "{<4,5}", "3:", "expected '>'",
3850 "{4,<5}", "5:", "expected '>'",
3851 "{4,5,6}", "4:", "expected '}'",
3852 "{5 5}", "3:", "expected ':' or ','",
3853 "{4: 5: 6}", "5:", "expected ',' or '}'",
3854 "{4:5,<6:7}", "7:", "expected '>'",
3855 "{4:5,6:<7}", "9:", "expected '>'",
3856 "{4:5,6 7}", "7:", "expected ':'",
3857 "@o 'foo'", "3-8:", "object path",
3858 "@g 'zzz'", "3-8:", "signature",
3859 "@i true", "3-7:", "can not parse as",
3860 "@z 4", "0-2:", "invalid type",
3861 "@a* []", "0-3:", "definite",
3862 "@ai [3 3]", "7:", "expected ',' or ']'",
3863 "18446744073709551616", "0-20:", "too big for any type",
3864 "-18446744073709551616", "0-21:", "too big for any type",
3865 "byte 256", "5-8:", "out of range for type",
3866 "byte -1", "5-7:", "out of range for type",
3867 "int16 32768", "6-11:", "out of range for type",
3868 "int16 -32769", "6-12:", "out of range for type",
3869 "uint16 -1", "7-9:", "out of range for type",
3870 "uint16 65536", "7-12:", "out of range for type",
3871 "2147483648", "0-10:", "out of range for type",
3872 "-2147483649", "0-11:", "out of range for type",
3873 "uint32 -1", "7-9:", "out of range for type",
3874 "uint32 4294967296", "7-17:", "out of range for type",
3875 "@x 9223372036854775808", "3-22:", "out of range for type",
3876 "@x -9223372036854775809", "3-23:", "out of range for type",
3877 "@t -1", "3-5:", "out of range for type",
3878 "@t 18446744073709551616", "3-23:", "too big for any type",
3879 "handle 2147483648", "7-17:", "out of range for type",
3880 "handle -2147483649", "7-18:", "out of range for type",
3881 "1.798e308", "0-9:", "too big for any type",
3882 "37.5a488", "4-5:", "invalid character",
3883 "0x7ffgf", "5-6:", "invalid character",
3884 "07758", "4-5:", "invalid character",
3885 "123a5", "3-4:", "invalid character",
3886 "@ai 123", "4-7:", "can not parse as",
3887 "'\"\\'", "0-4:", "unterminated string",
3888 "'\"\\'\\", "0-5:", "unterminated string",
3889 "boolean 4", "8-9:", "can not parse as",
3890 "int32 true", "6-10:", "can not parse as",
3891 "[double 5, int32 5]", "1-9,11-18:", "common type",
3892 "string 4", "7-8:", "can not parse as"
3896 for (i
= 0; i
< G_N_ELEMENTS (test
); i
+= 3)
3898 GError
*error
= NULL
;
3901 value
= g_variant_parse (NULL
, test
[i
], NULL
, NULL
, &error
);
3902 g_assert (value
== NULL
);
3904 if (!strstr (error
->message
, test
[i
+2]))
3905 g_error ("test %d: Can't find '%s' in '%s'", i
/ 3,
3906 test
[i
+2], error
->message
);
3908 if (!g_str_has_prefix (error
->message
, test
[i
+1]))
3909 g_error ("test %d: Expected location '%s' in '%s'", i
/ 3,
3910 test
[i
+1], error
->message
);
3912 g_error_free (error
);
3917 test_parse_bad_format_char (void)
3919 g_variant_new_parsed ("%z");
3921 g_assert_not_reached ();
3925 test_parse_bad_format_string (void)
3927 g_variant_new_parsed ("uint32 %i", 2);
3929 g_assert_not_reached ();
3933 test_parse_bad_args (void)
3935 g_variant_new_parsed ("%@i", g_variant_new_uint32 (2));
3937 g_assert_not_reached ();
3941 test_parse_positional (void)
3944 check_and_free (g_variant_new_parsed ("[('one', 1), (%s, 2),"
3945 " ('three', %i)]", "two", 3),
3946 "[('one', 1), ('two', 2), ('three', 3)]");
3947 value
= g_variant_new_parsed ("[('one', 1), (%s, 2),"
3948 " ('three', %u)]", "two", 3);
3949 g_assert (g_variant_is_of_type (value
, G_VARIANT_TYPE ("a(su)")));
3950 check_and_free (value
, "[('one', 1), ('two', 2), ('three', 3)]");
3951 check_and_free (g_variant_new_parsed ("{%s:%i}", "one", 1), "{'one': 1}");
3953 if (g_test_undefined ())
3955 do_failed_test ("/gvariant/parse/subprocess/bad-format-char",
3956 "*GVariant format string*");
3958 do_failed_test ("/gvariant/parse/subprocess/bad-format-string",
3959 "*can not parse as*");
3961 do_failed_test ("/gvariant/parse/subprocess/bad-args",
3962 "*expected GVariant of type 'i'*");
3967 test_floating (void)
3971 value
= g_variant_new_int32 (42);
3972 g_assert (g_variant_is_floating (value
));
3973 g_variant_ref_sink (value
);
3974 g_assert (!g_variant_is_floating (value
));
3975 g_variant_unref (value
);
3979 test_bytestring (void)
3981 const gchar
*test_string
= "foo,bar,baz,quux,\xffoooo";
3985 const gchar
*const_str
;
3986 GVariant
*untrusted_empty
;
3988 strv
= g_strsplit (test_string
, ",", 0);
3990 value
= g_variant_new_bytestring_array ((const gchar
**) strv
, -1);
3991 g_assert (g_variant_is_floating (value
));
3994 str
= g_variant_print (value
, FALSE
);
3995 g_variant_unref (value
);
3997 value
= g_variant_parse (NULL
, str
, NULL
, NULL
, NULL
);
4000 strv
= g_variant_dup_bytestring_array (value
, NULL
);
4001 g_variant_unref (value
);
4003 str
= g_strjoinv (",", strv
);
4006 g_assert_cmpstr (str
, ==, test_string
);
4009 strv
= g_strsplit (test_string
, ",", 0);
4010 value
= g_variant_new ("(^aay^a&ay^ay^&ay)",
4011 strv
, strv
, strv
[0], strv
[0]);
4014 g_variant_get_child (value
, 0, "^a&ay", &strv
);
4015 str
= g_strjoinv (",", strv
);
4017 g_assert_cmpstr (str
, ==, test_string
);
4020 g_variant_get_child (value
, 0, "^aay", &strv
);
4021 str
= g_strjoinv (",", strv
);
4023 g_assert_cmpstr (str
, ==, test_string
);
4026 g_variant_get_child (value
, 1, "^a&ay", &strv
);
4027 str
= g_strjoinv (",", strv
);
4029 g_assert_cmpstr (str
, ==, test_string
);
4032 g_variant_get_child (value
, 1, "^aay", &strv
);
4033 str
= g_strjoinv (",", strv
);
4035 g_assert_cmpstr (str
, ==, test_string
);
4038 g_variant_get_child (value
, 2, "^ay", &str
);
4039 g_assert_cmpstr (str
, ==, "foo");
4042 g_variant_get_child (value
, 2, "^&ay", &str
);
4043 g_assert_cmpstr (str
, ==, "foo");
4045 g_variant_get_child (value
, 3, "^ay", &str
);
4046 g_assert_cmpstr (str
, ==, "foo");
4049 g_variant_get_child (value
, 3, "^&ay", &str
);
4050 g_assert_cmpstr (str
, ==, "foo");
4051 g_variant_unref (value
);
4053 untrusted_empty
= g_variant_new_from_data (G_VARIANT_TYPE ("ay"), NULL
, 0, FALSE
, NULL
, NULL
);
4054 value
= g_variant_get_normal_form (untrusted_empty
);
4055 const_str
= g_variant_get_bytestring (value
);
4057 g_variant_unref (value
);
4058 g_variant_unref (untrusted_empty
);
4062 test_lookup_value (void)
4065 const gchar
*dict
, *key
, *value
;
4067 { "@a{ss} {'x': 'y'}", "x", "'y'" },
4068 { "@a{ss} {'x': 'y'}", "y" },
4069 { "@a{os} {'/x': 'y'}", "/x", "'y'" },
4070 { "@a{os} {'/x': 'y'}", "/y" },
4071 { "@a{sv} {'x': <'y'>}", "x", "'y'" },
4072 { "@a{sv} {'x': <5>}", "x", "5" },
4073 { "@a{sv} {'x': <'y'>}", "y" }
4077 for (i
= 0; i
< G_N_ELEMENTS (cases
); i
++)
4079 GVariant
*dictionary
;
4083 dictionary
= g_variant_parse (NULL
, cases
[i
].dict
, NULL
, NULL
, NULL
);
4084 value
= g_variant_lookup_value (dictionary
, cases
[i
].key
, NULL
);
4085 g_variant_unref (dictionary
);
4087 if (value
== NULL
&& cases
[i
].value
== NULL
)
4090 g_assert (value
&& cases
[i
].value
);
4091 p
= g_variant_print (value
, FALSE
);
4092 g_assert_cmpstr (cases
[i
].value
, ==, p
);
4093 g_variant_unref (value
);
4106 dict
= g_variant_parse (NULL
,
4107 "{'a': <5>, 'b': <'c'>}",
4110 ok
= g_variant_lookup (dict
, "a", "i", &num
);
4112 g_assert_cmpint (num
, ==, 5);
4114 ok
= g_variant_lookup (dict
, "a", "&s", &str
);
4117 ok
= g_variant_lookup (dict
, "q", "&s", &str
);
4120 ok
= g_variant_lookup (dict
, "b", "i", &num
);
4123 ok
= g_variant_lookup (dict
, "b", "&s", &str
);
4125 g_assert_cmpstr (str
, ==, "c");
4127 ok
= g_variant_lookup (dict
, "q", "&s", &str
);
4130 g_variant_unref (dict
);
4134 untrusted (GVariant
*a
)
4137 const GVariantType
*type
;
4140 type
= g_variant_get_type (a
);
4141 bytes
= g_variant_get_data_as_bytes (a
);
4142 b
= g_variant_new_from_bytes (type
, bytes
, FALSE
);
4143 g_bytes_unref (bytes
);
4144 g_variant_unref (a
);
4155 a
= untrusted (g_variant_new_byte (5));
4156 b
= g_variant_new_byte (6);
4157 g_assert (g_variant_compare (a
, b
) < 0);
4158 g_variant_unref (a
);
4159 g_variant_unref (b
);
4160 a
= untrusted (g_variant_new_int16 (G_MININT16
));
4161 b
= g_variant_new_int16 (G_MAXINT16
);
4162 g_assert (g_variant_compare (a
, b
) < 0);
4163 g_variant_unref (a
);
4164 g_variant_unref (b
);
4165 a
= untrusted (g_variant_new_uint16 (0));
4166 b
= g_variant_new_uint16 (G_MAXUINT16
);
4167 g_assert (g_variant_compare (a
, b
) < 0);
4168 g_variant_unref (a
);
4169 g_variant_unref (b
);
4170 a
= untrusted (g_variant_new_int32 (G_MININT32
));
4171 b
= g_variant_new_int32 (G_MAXINT32
);
4172 g_assert (g_variant_compare (a
, b
) < 0);
4173 g_variant_unref (a
);
4174 g_variant_unref (b
);
4175 a
= untrusted (g_variant_new_uint32 (0));
4176 b
= g_variant_new_uint32 (G_MAXUINT32
);
4177 g_assert (g_variant_compare (a
, b
) < 0);
4178 g_variant_unref (a
);
4179 g_variant_unref (b
);
4180 a
= untrusted (g_variant_new_int64 (G_MININT64
));
4181 b
= g_variant_new_int64 (G_MAXINT64
);
4182 g_assert (g_variant_compare (a
, b
) < 0);
4183 g_variant_unref (a
);
4184 g_variant_unref (b
);
4185 a
= untrusted (g_variant_new_uint64 (0));
4186 b
= g_variant_new_uint64 (G_MAXUINT64
);
4187 g_assert (g_variant_compare (a
, b
) < 0);
4188 g_variant_unref (a
);
4189 g_variant_unref (b
);
4190 a
= untrusted (g_variant_new_double (G_MINDOUBLE
));
4191 b
= g_variant_new_double (G_MAXDOUBLE
);
4192 g_assert (g_variant_compare (a
, b
) < 0);
4193 g_variant_unref (a
);
4194 g_variant_unref (b
);
4195 a
= untrusted (g_variant_new_string ("abc"));
4196 b
= g_variant_new_string ("abd");
4197 g_assert (g_variant_compare (a
, b
) < 0);
4198 g_variant_unref (a
);
4199 g_variant_unref (b
);
4200 a
= untrusted (g_variant_new_object_path ("/abc"));
4201 b
= g_variant_new_object_path ("/abd");
4202 g_assert (g_variant_compare (a
, b
) < 0);
4203 g_variant_unref (a
);
4204 g_variant_unref (b
);
4205 a
= untrusted (g_variant_new_signature ("g"));
4206 b
= g_variant_new_signature ("o");
4207 g_assert (g_variant_compare (a
, b
) < 0);
4208 g_variant_unref (a
);
4209 g_variant_unref (b
);
4210 a
= untrusted (g_variant_new_boolean (FALSE
));
4211 b
= g_variant_new_boolean (TRUE
);
4212 g_assert (g_variant_compare (a
, b
) < 0);
4213 g_variant_unref (a
);
4214 g_variant_unref (b
);
4223 a
= untrusted (g_variant_new_byte (5));
4224 b
= g_variant_get_normal_form (a
);
4225 g_assert (g_variant_equal (a
, b
));
4226 g_variant_unref (a
);
4227 g_variant_unref (b
);
4228 a
= untrusted (g_variant_new_int16 (G_MININT16
));
4229 b
= g_variant_get_normal_form (a
);
4230 g_assert (g_variant_equal (a
, b
));
4231 g_variant_unref (a
);
4232 g_variant_unref (b
);
4233 a
= untrusted (g_variant_new_uint16 (0));
4234 b
= g_variant_get_normal_form (a
);
4235 g_assert (g_variant_equal (a
, b
));
4236 g_variant_unref (a
);
4237 g_variant_unref (b
);
4238 a
= untrusted (g_variant_new_int32 (G_MININT32
));
4239 b
= g_variant_get_normal_form (a
);
4240 g_assert (g_variant_equal (a
, b
));
4241 g_variant_unref (a
);
4242 g_variant_unref (b
);
4243 a
= untrusted (g_variant_new_uint32 (0));
4244 b
= g_variant_get_normal_form (a
);
4245 g_assert (g_variant_equal (a
, b
));
4246 g_variant_unref (a
);
4247 g_variant_unref (b
);
4248 a
= untrusted (g_variant_new_int64 (G_MININT64
));
4249 b
= g_variant_get_normal_form (a
);
4250 g_assert (g_variant_equal (a
, b
));
4251 g_variant_unref (a
);
4252 g_variant_unref (b
);
4253 a
= untrusted (g_variant_new_uint64 (0));
4254 b
= g_variant_get_normal_form (a
);
4255 g_assert (g_variant_equal (a
, b
));
4256 g_variant_unref (a
);
4257 g_variant_unref (b
);
4258 a
= untrusted (g_variant_new_double (G_MINDOUBLE
));
4259 b
= g_variant_get_normal_form (a
);
4260 g_assert (g_variant_equal (a
, b
));
4261 g_variant_unref (a
);
4262 g_variant_unref (b
);
4263 a
= untrusted (g_variant_new_string ("abc"));
4264 g_assert (g_variant_equal (a
, a
));
4265 b
= g_variant_get_normal_form (a
);
4266 g_assert (g_variant_equal (a
, b
));
4267 g_variant_unref (a
);
4268 g_variant_unref (b
);
4269 a
= untrusted (g_variant_new_object_path ("/abc"));
4270 g_assert (g_variant_equal (a
, a
));
4271 b
= g_variant_get_normal_form (a
);
4273 g_assert (g_variant_equal (a
, b
));
4274 g_variant_unref (a
);
4275 g_variant_unref (b
);
4276 a
= untrusted (g_variant_new_signature ("g"));
4277 g_assert (g_variant_equal (a
, a
));
4278 b
= g_variant_get_normal_form (a
);
4280 g_assert (g_variant_equal (a
, b
));
4281 g_variant_unref (a
);
4282 g_variant_unref (b
);
4283 a
= untrusted (g_variant_new_boolean (FALSE
));
4284 b
= g_variant_get_normal_form (a
);
4285 g_assert (g_variant_equal (a
, b
));
4286 g_variant_unref (a
);
4287 g_variant_unref (b
);
4291 test_fixed_array (void)
4300 a
= g_variant_new_parsed ("[1,2,3,4,5]");
4301 elts
= g_variant_get_fixed_array (a
, &n_elts
, sizeof (gint32
));
4302 g_assert (n_elts
== 5);
4303 for (i
= 0; i
< 5; i
++)
4304 g_assert_cmpint (elts
[i
], ==, i
+ 1);
4305 g_variant_unref (a
);
4308 for (i
= 0; i
< 5; i
++)
4310 a
= g_variant_new_fixed_array (G_VARIANT_TYPE_INT32
, values
,
4311 G_N_ELEMENTS (values
), sizeof (values
[0]));
4312 g_assert_cmpstr (g_variant_get_type_string (a
), ==, "ai");
4313 elts
= g_variant_get_fixed_array (a
, &n_elts
, sizeof (gint32
));
4314 g_assert (n_elts
== 5);
4315 for (i
= 0; i
< 5; i
++)
4316 g_assert_cmpint (elts
[i
], ==, i
+ 1);
4317 g_variant_unref (a
);
4321 test_check_format_string (void)
4325 value
= g_variant_new ("(sas)", "foo", NULL
);
4326 g_variant_ref_sink (value
);
4328 g_assert (g_variant_check_format_string (value
, "(s*)", TRUE
));
4329 g_assert (g_variant_check_format_string (value
, "(s*)", FALSE
));
4330 g_assert (!g_variant_check_format_string (value
, "(u*)", TRUE
));
4331 g_assert (!g_variant_check_format_string (value
, "(u*)", FALSE
));
4333 g_assert (g_variant_check_format_string (value
, "(&s*)", FALSE
));
4334 g_test_expect_message ("GLib", G_LOG_LEVEL_CRITICAL
, "*contains a '&' character*");
4335 g_assert (!g_variant_check_format_string (value
, "(&s*)", TRUE
));
4336 g_test_assert_expected_messages ();
4338 g_assert (g_variant_check_format_string (value
, "(s^as)", TRUE
));
4339 g_assert (g_variant_check_format_string (value
, "(s^as)", FALSE
));
4341 g_test_expect_message ("GLib", G_LOG_LEVEL_CRITICAL
, "*contains a '&' character*");
4342 g_assert (!g_variant_check_format_string (value
, "(s^a&s)", TRUE
));
4343 g_test_assert_expected_messages ();
4344 g_assert (g_variant_check_format_string (value
, "(s^a&s)", FALSE
));
4346 g_variant_unref (value
);
4348 /* Do it again with a type that will let us put a '&' after a '^' */
4349 value
= g_variant_new ("(say)", "foo", NULL
);
4350 g_variant_ref_sink (value
);
4352 g_assert (g_variant_check_format_string (value
, "(s*)", TRUE
));
4353 g_assert (g_variant_check_format_string (value
, "(s*)", FALSE
));
4354 g_assert (!g_variant_check_format_string (value
, "(u*)", TRUE
));
4355 g_assert (!g_variant_check_format_string (value
, "(u*)", FALSE
));
4357 g_assert (g_variant_check_format_string (value
, "(&s*)", FALSE
));
4358 g_test_expect_message ("GLib", G_LOG_LEVEL_CRITICAL
, "*contains a '&' character*");
4359 g_assert (!g_variant_check_format_string (value
, "(&s*)", TRUE
));
4360 g_test_assert_expected_messages ();
4362 g_assert (g_variant_check_format_string (value
, "(s^ay)", TRUE
));
4363 g_assert (g_variant_check_format_string (value
, "(s^ay)", FALSE
));
4365 g_test_expect_message ("GLib", G_LOG_LEVEL_CRITICAL
, "*contains a '&' character*");
4366 g_assert (!g_variant_check_format_string (value
, "(s^&ay)", TRUE
));
4367 g_test_assert_expected_messages ();
4368 g_assert (g_variant_check_format_string (value
, "(s^&ay)", FALSE
));
4370 g_assert (g_variant_check_format_string (value
, "r", FALSE
));
4371 g_assert (g_variant_check_format_string (value
, "(?a?)", FALSE
));
4373 g_variant_unref (value
);
4377 verify_gvariant_checksum (const gchar
*sha256
,
4382 checksum
= g_compute_checksum_for_data (G_CHECKSUM_SHA256
,
4383 g_variant_get_data (v
),
4384 g_variant_get_size (v
));
4385 g_assert_cmpstr (sha256
, ==, checksum
);
4390 verify_gvariant_checksum_va (const gchar
*sha256
,
4397 va_start (args
, fmt
);
4399 v
= g_variant_new_va (fmt
, NULL
, &args
);
4400 g_variant_ref_sink (v
);
4401 #if G_BYTE_ORDER == G_BIG_ENDIAN
4403 GVariant
*byteswapped
= g_variant_byteswap (v
);
4404 g_variant_unref (v
);
4411 verify_gvariant_checksum (sha256
, v
);
4413 g_variant_unref (v
);
4417 test_checksum_basic (void)
4419 verify_gvariant_checksum_va ("e8a4b2ee7ede79a3afb332b5b6cc3d952a65fd8cffb897f5d18016577c33d7cc",
4421 verify_gvariant_checksum_va ("c53e363c33b00cfce298229ee83856b8a98c2e6126cab13f65899f62473b0df5",
4423 verify_gvariant_checksum_va ("2b4c342f5433ebe591a1da77e013d1b72475562d48578dca8b84bac6651c3cb9",
4425 verify_gvariant_checksum_va ("12a3ae445661ce5dee78d0650d33362dec29c4f82af05e7e57fb595bbbacf0ca",
4427 verify_gvariant_checksum_va ("e25a59b24440eb6c833aa79c93b9840e6eab6966add0dacf31df7e9e7000f5b3",
4429 verify_gvariant_checksum_va ("4bf5122f344554c53bde2ebb8cd2b7e3d1600ad631c385a5d7cce23c7785459a",
4431 verify_gvariant_checksum_va ("ca2fd00fa001190744c15c317643ab092e7048ce086a243e2be9437c898de1bb",
4436 test_checksum_nested (void)
4438 static const char* const strv
[] = {"foo", "bar", "baz", NULL
};
4440 verify_gvariant_checksum_va ("31fbc92f08fddaca716188fe4b5d44ae122fc6306fd3c6925af53cfa47ea596d",
4442 verify_gvariant_checksum_va ("01759d683cead856d1d386d59af0578841698a424a265345ad5413122f220de8",
4443 "(su)", "moocow", 79);
4444 verify_gvariant_checksum_va ("52b3ae95f19b3e642ea1d01185aea14a09004c1d1712672644427403a8a0afe6",
4445 "(qyst)", G_MAXUINT16
, 9, "moocow", G_MAXUINT64
);
4446 verify_gvariant_checksum_va ("6fc6f4524161c3ae0d316812d7088e3fcd372023edaea2d7821093be40ae1060",
4447 "(@ay)", g_variant_new_bytestring ("\xFF\xFF\xFF"));
4448 verify_gvariant_checksum_va ("572aca386e1a983dd23bb6eb6e3dfa72eef9ca7c7744581aa800e18d7d9d0b0b",
4450 verify_gvariant_checksum_va ("4bddf6174c791bb44fc6a4106573031690064df34b741033a0122ed8dc05bcf3",
4451 "(yvu)", 254, g_variant_new ("(^as)", strv
), 42);
4461 const guint8 values
[5] = { 1, 2, 3, 4, 5 };
4466 bytes
= g_bytes_new (&values
, 5);
4467 a
= g_variant_new_from_bytes (G_VARIANT_TYPE_BYTESTRING
, bytes
, TRUE
);
4468 g_bytes_unref (bytes
);
4470 elts
= g_variant_get_fixed_array (a
, &n_elts
, sizeof (guint8
));
4471 g_assert (n_elts
== 5);
4472 for (i
= 0; i
< 5; i
++)
4473 g_assert_cmpint (elts
[i
], ==, i
+ 1);
4475 bytes2
= g_variant_get_data_as_bytes (a
);
4476 g_variant_unref (a
);
4478 bytes
= g_bytes_new (&values
, 5);
4479 g_assert (g_bytes_equal (bytes
, bytes2
));
4480 g_bytes_unref (bytes
);
4481 g_bytes_unref (bytes2
);
4483 tuple
= g_variant_new_parsed ("['foo', 'bar']");
4484 bytes
= g_variant_get_data_as_bytes (tuple
); /* force serialisation */
4485 a
= g_variant_get_child_value (tuple
, 1);
4486 bytes2
= g_variant_get_data_as_bytes (a
);
4487 g_assert (!g_bytes_equal (bytes
, bytes2
));
4489 g_bytes_unref (bytes
);
4490 g_bytes_unref (bytes2
);
4491 g_variant_unref (a
);
4492 g_variant_unref (tuple
);
4496 const GVariantType
*type
;
4502 test_print_context (void)
4504 ContextTest tests
[] = {
4505 { NULL
, "(1, 2, 3, 'abc", " ^^^^" },
4506 { NULL
, "[1, 2, 3, 'str']", " ^ ^^^^^" },
4507 { G_VARIANT_TYPE_UINT16
, "{ 'abc':'def' }", " ^^^^^^^^^^^^^^^" },
4508 { NULL
, "<5", " ^" },
4509 { NULL
, "'ab\\ux'", " ^^^^^^^" },
4510 { NULL
, "'ab\\U00efx'", " ^^^^^^^^^^^" }
4515 GError
*error
= NULL
;
4517 for (i
= 0; i
< G_N_ELEMENTS (tests
); i
++)
4519 v
= g_variant_parse (tests
[i
].type
, tests
[i
].in
, NULL
, NULL
, &error
);
4521 s
= g_variant_parse_error_print_context (error
, tests
[i
].in
);
4522 g_assert (strstr (s
, tests
[i
].out
) != NULL
);
4524 g_clear_error (&error
);
4529 test_error_quark (void)
4531 G_GNUC_BEGIN_IGNORE_DEPRECATIONS
4532 g_assert (g_variant_parser_get_error_quark () == g_variant_parse_error_quark ());
4533 G_GNUC_END_IGNORE_DEPRECATIONS
4537 test_stack_builder_init (void)
4539 GVariantBuilder builder
= G_VARIANT_BUILDER_INIT (G_VARIANT_TYPE_BYTESTRING
);
4542 g_variant_builder_add_value (&builder
, g_variant_new_byte ('g'));
4543 g_variant_builder_add_value (&builder
, g_variant_new_byte ('l'));
4544 g_variant_builder_add_value (&builder
, g_variant_new_byte ('i'));
4545 g_variant_builder_add_value (&builder
, g_variant_new_byte ('b'));
4546 g_variant_builder_add_value (&builder
, g_variant_new_byte ('\0'));
4548 variant
= g_variant_ref_sink (g_variant_builder_end (&builder
));
4549 g_assert_nonnull (variant
);
4550 g_assert (g_variant_type_equal (g_variant_get_type (variant
),
4551 G_VARIANT_TYPE_BYTESTRING
));
4552 g_assert_cmpuint (g_variant_n_children (variant
), ==, 5);
4553 g_assert_cmpstr (g_variant_get_bytestring (variant
), ==, "glib");
4554 g_variant_unref (variant
);
4560 GVariantBuilder builder
= G_VARIANT_BUILDER_INIT (G_VARIANT_TYPE_VARDICT
);
4562 g_variant_builder_add (&builder
, "{s@v}", "foo", g_variant_new_variant (g_variant_new_string ("FOO")));
4563 g_variant_builder_add (&builder
, "{s@v}", "bar", g_variant_new_variant (g_variant_new_string ("BAR")));
4565 return g_variant_ref_sink (g_variant_builder_end (&builder
));
4569 test_stack_dict_init (void)
4571 GVariant
*asv
= get_asv ();
4572 GVariantDict dict
= G_VARIANT_DICT_INIT (asv
);
4578 g_variant_dict_insert_value (&dict
, "baz", g_variant_new_string ("BAZ"));
4579 g_variant_dict_insert_value (&dict
, "quux", g_variant_new_string ("QUUX"));
4581 variant
= g_variant_ref_sink (g_variant_dict_end (&dict
));
4582 g_assert_nonnull (variant
);
4583 g_assert (g_variant_type_equal (g_variant_get_type (variant
),
4584 G_VARIANT_TYPE_VARDICT
));
4585 g_assert_cmpuint (g_variant_n_children (variant
), ==, 4);
4587 g_variant_iter_init (&iter
, variant
);
4588 while (g_variant_iter_next (&iter
, "{sv}", &key
, &value
))
4590 gchar
*strup
= g_ascii_strup (key
, -1);
4592 g_assert_cmpstr (strup
, ==, g_variant_get_string (value
, NULL
));
4595 g_variant_unref (value
);
4598 g_variant_unref (asv
);
4599 g_variant_unref (variant
);
4603 main (int argc
, char **argv
)
4607 g_test_init (&argc
, &argv
, NULL
);
4609 g_test_add_func ("/gvariant/type", test_gvarianttype
);
4610 g_test_add_func ("/gvariant/typeinfo", test_gvarianttypeinfo
);
4611 g_test_add_func ("/gvariant/serialiser/maybe", test_maybes
);
4612 g_test_add_func ("/gvariant/serialiser/array", test_arrays
);
4613 g_test_add_func ("/gvariant/serialiser/tuple", test_tuples
);
4614 g_test_add_func ("/gvariant/serialiser/variant", test_variants
);
4615 g_test_add_func ("/gvariant/serialiser/strings", test_strings
);
4616 g_test_add_func ("/gvariant/serialiser/byteswap", test_byteswaps
);
4618 for (i
= 1; i
<= 20; i
+= 4)
4622 testname
= g_strdup_printf ("/gvariant/serialiser/fuzz/%d%%", i
);
4623 g_test_add_data_func (testname
, GINT_TO_POINTER (i
),
4624 (gpointer
) test_fuzzes
);
4628 g_test_add_func ("/gvariant/string", test_string
);
4629 g_test_add_func ("/gvariant/utf8", test_utf8
);
4630 g_test_add_func ("/gvariant/containers", test_containers
);
4631 g_test_add_func ("/gvariant/format-strings", test_format_strings
);
4632 g_test_add_func ("/gvariant/invalid-varargs", test_invalid_varargs
);
4633 g_test_add_func ("/gvariant/varargs", test_varargs
);
4634 g_test_add_func ("/gvariant/varargs/subprocess/empty-array", test_varargs_empty_array
);
4635 g_test_add_func ("/gvariant/valist", test_valist
);
4636 g_test_add_func ("/gvariant/builder-memory", test_builder_memory
);
4637 g_test_add_func ("/gvariant/hashing", test_hashing
);
4638 g_test_add_func ("/gvariant/byteswap", test_gv_byteswap
);
4639 g_test_add_func ("/gvariant/parser", test_parses
);
4640 g_test_add_func ("/gvariant/parse-failures", test_parse_failures
);
4641 g_test_add_func ("/gvariant/parse-positional", test_parse_positional
);
4642 g_test_add_func ("/gvariant/parse/subprocess/bad-format-char", test_parse_bad_format_char
);
4643 g_test_add_func ("/gvariant/parse/subprocess/bad-format-string", test_parse_bad_format_string
);
4644 g_test_add_func ("/gvariant/parse/subprocess/bad-args", test_parse_bad_args
);
4645 g_test_add_func ("/gvariant/floating", test_floating
);
4646 g_test_add_func ("/gvariant/bytestring", test_bytestring
);
4647 g_test_add_func ("/gvariant/lookup-value", test_lookup_value
);
4648 g_test_add_func ("/gvariant/lookup", test_lookup
);
4649 g_test_add_func ("/gvariant/compare", test_compare
);
4650 g_test_add_func ("/gvariant/equal", test_equal
);
4651 g_test_add_func ("/gvariant/fixed-array", test_fixed_array
);
4652 g_test_add_func ("/gvariant/check-format-string", test_check_format_string
);
4654 g_test_add_func ("/gvariant/checksum-basic", test_checksum_basic
);
4655 g_test_add_func ("/gvariant/checksum-nested", test_checksum_nested
);
4657 g_test_add_func ("/gvariant/gbytes", test_gbytes
);
4658 g_test_add_func ("/gvariant/print-context", test_print_context
);
4659 g_test_add_func ("/gvariant/error-quark", test_error_quark
);
4661 g_test_add_func ("/gvariant/stack-builder-init", test_stack_builder_init
);
4662 g_test_add_func ("/gvariant/stack-dict-init", test_stack_dict_init
);
4663 return g_test_run ();