exec_kunit.c source code [linux/fs/tests/exec_kunit.c]

1	// SPDX-License-Identifier: GPL-2.0-only
2	#include <kunit/test.h>
3
4	struct bprm_stack_limits_result {
5	struct linux_binprm bprm;
6	int expected_rc;
7	unsigned long expected_argmin;
8	};
9
10	static const struct bprm_stack_limits_result bprm_stack_limits_results[] = {
11	/ Negative argc/envc counts produce -E2BIG /
12	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = ULONG_MAX,
13	.argc = INT_MIN, .envc = INT_MIN }, .expected_rc = -E2BIG },
14	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = ULONG_MAX,
15	.argc = `5`, .envc = -`1` }, .expected_rc = -E2BIG },
16	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = ULONG_MAX,
17	.argc = -`1`, .envc = `10` }, .expected_rc = -E2BIG },
18	/ The max value of argc or envc is MAX_ARG_STRINGS. /
19	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = ULONG_MAX,
20	.argc = INT_MAX, .envc = INT_MAX }, .expected_rc = -E2BIG },
21	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = ULONG_MAX,
22	.argc = MAX_ARG_STRINGS, .envc = MAX_ARG_STRINGS }, .expected_rc = -E2BIG },
23	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = ULONG_MAX,
24	.argc = `0`, .envc = MAX_ARG_STRINGS }, .expected_rc = -E2BIG },
25	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = ULONG_MAX,
26	.argc = MAX_ARG_STRINGS, .envc = `0` }, .expected_rc = -E2BIG },
27	/*
28	* On 32-bit system these argc and envc counts, while likely impossible
29	* to represent within the associated TASK_SIZE, could overflow the
30	* limit calculation, and bypass the ptr_size <= limit check.
31	*/
32	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = ULONG_MAX,
33	.argc = `0x20000001`, .envc = `0x20000001` }, .expected_rc = -E2BIG },
34	#ifdef CONFIG_MMU
35	/ Make sure a pathological bprm->p doesn't cause an overflow. /
36	{ { .p = sizeof(void *), .rlim_stack.rlim_cur = ULONG_MAX,
37	.argc = `10`, .envc = `10` }, .expected_rc = -E2BIG },
38	#endif
39	/*
40	* 0 rlim_stack will get raised to ARG_MAX. With 1 string pointer,
41	* we should see p - ARG_MAX + sizeof(void *).
42	*/
43	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = `0`,
44	.argc = `1`, .envc = `0` }, .expected_argmin = ULONG_MAX - ARG_MAX + sizeof(void *)},
45	/ Validate that argc is always raised to a minimum of 1. /
46	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = `0`,
47	.argc = `0`, .envc = `0` }, .expected_argmin = ULONG_MAX - ARG_MAX + sizeof(void *)},
48	/*
49	* 0 rlim_stack will get raised to ARG_MAX. With pointers filling ARG_MAX,
50	* we should see -E2BIG. (Note argc is always raised to at least 1.)
51	*/
52	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = `0`,
53	.argc = ARG_MAX / sizeof(void *), .envc = `0` }, .expected_rc = -E2BIG },
54	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = `0`,
55	.argc = `0`, .envc = ARG_MAX / sizeof(void *) - `1` }, .expected_rc = -E2BIG },
56	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = `0`,
57	.argc = ARG_MAX / sizeof(void *) + `1`, .envc = `0` }, .expected_rc = -E2BIG },
58	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = `0`,
59	.argc = `0`, .envc = ARG_MAX / sizeof(void *) }, .expected_rc = -E2BIG },
60	/ And with one less, we see space for exactly 1 pointer. /
61	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = `0`,
62	.argc = (ARG_MAX / sizeof(void *)) - `1`, .envc = `0` },
63	.expected_argmin = ULONG_MAX - sizeof(void *) },
64	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = `0`,
65	.argc = `0`, .envc = (ARG_MAX / sizeof(void *)) - `2`, },
66	.expected_argmin = ULONG_MAX - sizeof(void *) },
67	/ If we raise rlim_stack / 4 to exactly ARG_MAX, nothing changes. /
68	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = ARG_MAX * `4`,
69	.argc = ARG_MAX / sizeof(void *), .envc = `0` }, .expected_rc = -E2BIG },
70	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = ARG_MAX * `4`,
71	.argc = `0`, .envc = ARG_MAX / sizeof(void *) - `1` }, .expected_rc = -E2BIG },
72	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = ARG_MAX * `4`,
73	.argc = ARG_MAX / sizeof(void *) + `1`, .envc = `0` }, .expected_rc = -E2BIG },
74	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = ARG_MAX * `4`,
75	.argc = `0`, .envc = ARG_MAX / sizeof(void *) }, .expected_rc = -E2BIG },
76	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = ARG_MAX * `4`,
77	.argc = (ARG_MAX / sizeof(void *)) - `1`, .envc = `0` },
78	.expected_argmin = ULONG_MAX - sizeof(void *) },
79	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = ARG_MAX * `4`,
80	.argc = `0`, .envc = (ARG_MAX / sizeof(void *)) - `2`, },
81	.expected_argmin = ULONG_MAX - sizeof(void *) },
82	/ But raising it another pointer * 4 will provide space for 1 more pointer. /
83	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = (ARG_MAX + sizeof(void )) `4`,
84	.argc = ARG_MAX / sizeof(void *), .envc = `0` },
85	.expected_argmin = ULONG_MAX - sizeof(void *) },
86	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = (ARG_MAX + sizeof(void )) `4`,
87	.argc = `0`, .envc = ARG_MAX / sizeof(void *) - `1` },
88	.expected_argmin = ULONG_MAX - sizeof(void *) },
89	/ Raising rlim_stack / 4 to _STK_LIM / 4 * 3 will see more space. /
90	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = `4` * (_STK_LIM / `4` * `3`),
91	.argc = `0`, .envc = `0` },
92	.expected_argmin = ULONG_MAX - (_STK_LIM / `4` * `3`) + sizeof(void *) },
93	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = `4` * (_STK_LIM / `4` * `3`),
94	.argc = `0`, .envc = `0` },
95	.expected_argmin = ULONG_MAX - (_STK_LIM / `4` * `3`) + sizeof(void *) },
96	/ But raising it any further will see no increase. /
97	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = `4` * (_STK_LIM / `4` * `3` + sizeof(void *)),
98	.argc = `0`, .envc = `0` },
99	.expected_argmin = ULONG_MAX - (_STK_LIM / `4` * `3`) + sizeof(void *) },
100	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = `4` * (_STK_LIM / `4` * + sizeof(void *)),
101	.argc = `0`, .envc = `0` },
102	.expected_argmin = ULONG_MAX - (_STK_LIM / `4` * `3`) + sizeof(void *) },
103	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = `4` * _STK_LIM,
104	.argc = `0`, .envc = `0` },
105	.expected_argmin = ULONG_MAX - (_STK_LIM / `4` * `3`) + sizeof(void *) },
106	{ { .p = ULONG_MAX, .rlim_stack.rlim_cur = `4` * _STK_LIM,
107	.argc = `0`, .envc = `0` },
108	.expected_argmin = ULONG_MAX - (_STK_LIM / `4` * `3`) + sizeof(void *) },
109	};
110
111	static void exec_test_bprm_stack_limits(struct kunit *test)
112	{
113	/ Double-check the constants. /
114	KUNIT_EXPECT_EQ(test, _STK_LIM, SZ_8M);
115	KUNIT_EXPECT_EQ(test, ARG_MAX, `32` * SZ_4K);
116	KUNIT_EXPECT_EQ(test, MAX_ARG_STRINGS, `0x7FFFFFFF`);
117
118	for (int i = `0`; i < ARRAY_SIZE(bprm_stack_limits_results); i++) {
119	const struct bprm_stack_limits_result *result = &bprm_stack_limits_results[i];
120	struct linux_binprm bprm = result->bprm;
121	int rc;
122
123	rc = bprm_stack_limits(bprm: &bprm);
124	KUNIT_EXPECT_EQ_MSG(test, rc, result->expected_rc, "on loop %d", i);
125	#ifdef CONFIG_MMU
126	KUNIT_EXPECT_EQ_MSG(test, bprm.argmin, result->expected_argmin, "on loop %d", i);
127	#endif
128	}
129	}
130
131	static struct kunit_case exec_test_cases[] = {
132	KUNIT_CASE(exec_test_bprm_stack_limits),
133	{},
134	};
135
136	static struct kunit_suite exec_test_suite = {
137	.name = "exec",
138	.test_cases = exec_test_cases,
139	};
140
141	kunit_test_suite(exec_test_suite);
142

source code of linux/fs/tests/exec_kunit.c