1*75e34befSEric Biggers // SPDX-License-Identifier: GPL-2.0-or-later
2*75e34befSEric Biggers /*
3*75e34befSEric Biggers * Copyright 2026 Google LLC
4*75e34befSEric Biggers */
5*75e34befSEric Biggers #include <crypto/gf128hash.h>
6*75e34befSEric Biggers #include "ghash-testvecs.h"
7*75e34befSEric Biggers
8*75e34befSEric Biggers /*
9*75e34befSEric Biggers * A fixed key used when presenting GHASH as an unkeyed hash function in order
10*75e34befSEric Biggers * to reuse hash-test-template.h. At the beginning of the test suite, this is
11*75e34befSEric Biggers * initialized to a key prepared from bytes generated from a fixed seed.
12*75e34befSEric Biggers */
13*75e34befSEric Biggers static struct ghash_key test_key;
14*75e34befSEric Biggers
ghash_init_withtestkey(struct ghash_ctx * ctx)15*75e34befSEric Biggers static void ghash_init_withtestkey(struct ghash_ctx *ctx)
16*75e34befSEric Biggers {
17*75e34befSEric Biggers ghash_init(ctx, &test_key);
18*75e34befSEric Biggers }
19*75e34befSEric Biggers
ghash_withtestkey(const u8 * data,size_t len,u8 out[GHASH_BLOCK_SIZE])20*75e34befSEric Biggers static void ghash_withtestkey(const u8 *data, size_t len,
21*75e34befSEric Biggers u8 out[GHASH_BLOCK_SIZE])
22*75e34befSEric Biggers {
23*75e34befSEric Biggers ghash(&test_key, data, len, out);
24*75e34befSEric Biggers }
25*75e34befSEric Biggers
26*75e34befSEric Biggers /* Generate the HASH_KUNIT_CASES using hash-test-template.h. */
27*75e34befSEric Biggers #define HASH ghash_withtestkey
28*75e34befSEric Biggers #define HASH_CTX ghash_ctx
29*75e34befSEric Biggers #define HASH_SIZE GHASH_BLOCK_SIZE
30*75e34befSEric Biggers #define HASH_INIT ghash_init_withtestkey
31*75e34befSEric Biggers #define HASH_UPDATE ghash_update
32*75e34befSEric Biggers #define HASH_FINAL ghash_final
33*75e34befSEric Biggers #include "hash-test-template.h"
34*75e34befSEric Biggers
35*75e34befSEric Biggers /*
36*75e34befSEric Biggers * Test a key and messages containing all one bits. This is useful to detect
37*75e34befSEric Biggers * overflow bugs in implementations that emulate carryless multiplication using
38*75e34befSEric Biggers * a series of standard multiplications with the bits spread out.
39*75e34befSEric Biggers */
test_ghash_allones_key_and_message(struct kunit * test)40*75e34befSEric Biggers static void test_ghash_allones_key_and_message(struct kunit *test)
41*75e34befSEric Biggers {
42*75e34befSEric Biggers struct ghash_key key;
43*75e34befSEric Biggers struct ghash_ctx hashofhashes_ctx;
44*75e34befSEric Biggers u8 hash[GHASH_BLOCK_SIZE];
45*75e34befSEric Biggers
46*75e34befSEric Biggers static_assert(TEST_BUF_LEN >= 4096);
47*75e34befSEric Biggers memset(test_buf, 0xff, 4096);
48*75e34befSEric Biggers
49*75e34befSEric Biggers ghash_preparekey(&key, test_buf);
50*75e34befSEric Biggers ghash_init(&hashofhashes_ctx, &key);
51*75e34befSEric Biggers for (size_t len = 0; len <= 4096; len += 16) {
52*75e34befSEric Biggers ghash(&key, test_buf, len, hash);
53*75e34befSEric Biggers ghash_update(&hashofhashes_ctx, hash, sizeof(hash));
54*75e34befSEric Biggers }
55*75e34befSEric Biggers ghash_final(&hashofhashes_ctx, hash);
56*75e34befSEric Biggers KUNIT_ASSERT_MEMEQ(test, hash, ghash_allones_hashofhashes,
57*75e34befSEric Biggers sizeof(hash));
58*75e34befSEric Biggers }
59*75e34befSEric Biggers
60*75e34befSEric Biggers #define MAX_LEN_FOR_KEY_CHECK 1024
61*75e34befSEric Biggers
62*75e34befSEric Biggers /*
63*75e34befSEric Biggers * Given two prepared keys which should be identical (but may differ in
64*75e34befSEric Biggers * alignment and/or whether they are followed by a guard page or not), verify
65*75e34befSEric Biggers * that they produce consistent results on various data lengths.
66*75e34befSEric Biggers */
check_key_consistency(struct kunit * test,const struct ghash_key * key1,const struct ghash_key * key2)67*75e34befSEric Biggers static void check_key_consistency(struct kunit *test,
68*75e34befSEric Biggers const struct ghash_key *key1,
69*75e34befSEric Biggers const struct ghash_key *key2)
70*75e34befSEric Biggers {
71*75e34befSEric Biggers u8 *data = test_buf;
72*75e34befSEric Biggers u8 hash1[GHASH_BLOCK_SIZE];
73*75e34befSEric Biggers u8 hash2[GHASH_BLOCK_SIZE];
74*75e34befSEric Biggers
75*75e34befSEric Biggers rand_bytes(data, MAX_LEN_FOR_KEY_CHECK);
76*75e34befSEric Biggers KUNIT_ASSERT_MEMEQ(test, key1, key2, sizeof(*key1));
77*75e34befSEric Biggers
78*75e34befSEric Biggers for (int i = 0; i < 100; i++) {
79*75e34befSEric Biggers size_t len = rand_length(MAX_LEN_FOR_KEY_CHECK);
80*75e34befSEric Biggers
81*75e34befSEric Biggers ghash(key1, data, len, hash1);
82*75e34befSEric Biggers ghash(key2, data, len, hash2);
83*75e34befSEric Biggers KUNIT_ASSERT_MEMEQ(test, hash1, hash2, sizeof(hash1));
84*75e34befSEric Biggers }
85*75e34befSEric Biggers }
86*75e34befSEric Biggers
87*75e34befSEric Biggers /* Test that no buffer overreads occur on either raw_key or ghash_key. */
test_ghash_with_guarded_key(struct kunit * test)88*75e34befSEric Biggers static void test_ghash_with_guarded_key(struct kunit *test)
89*75e34befSEric Biggers {
90*75e34befSEric Biggers u8 raw_key[GHASH_BLOCK_SIZE];
91*75e34befSEric Biggers u8 *guarded_raw_key = &test_buf[TEST_BUF_LEN - sizeof(raw_key)];
92*75e34befSEric Biggers struct ghash_key key1, key2;
93*75e34befSEric Biggers struct ghash_key *guarded_key =
94*75e34befSEric Biggers (struct ghash_key *)&test_buf[TEST_BUF_LEN - sizeof(key1)];
95*75e34befSEric Biggers
96*75e34befSEric Biggers /* Prepare with regular buffers. */
97*75e34befSEric Biggers rand_bytes(raw_key, sizeof(raw_key));
98*75e34befSEric Biggers ghash_preparekey(&key1, raw_key);
99*75e34befSEric Biggers
100*75e34befSEric Biggers /* Prepare with guarded raw_key, then check that it works. */
101*75e34befSEric Biggers memcpy(guarded_raw_key, raw_key, sizeof(raw_key));
102*75e34befSEric Biggers ghash_preparekey(&key2, guarded_raw_key);
103*75e34befSEric Biggers check_key_consistency(test, &key1, &key2);
104*75e34befSEric Biggers
105*75e34befSEric Biggers /* Prepare guarded ghash_key, then check that it works. */
106*75e34befSEric Biggers ghash_preparekey(guarded_key, raw_key);
107*75e34befSEric Biggers check_key_consistency(test, &key1, guarded_key);
108*75e34befSEric Biggers }
109*75e34befSEric Biggers
110*75e34befSEric Biggers /*
111*75e34befSEric Biggers * Test that ghash_key only needs to be aligned to
112*75e34befSEric Biggers * __alignof__(struct ghash_key), i.e. 8 bytes. The assembly code may prefer
113*75e34befSEric Biggers * 16-byte or higher alignment, but it mustn't require it.
114*75e34befSEric Biggers */
test_ghash_with_minimally_aligned_key(struct kunit * test)115*75e34befSEric Biggers static void test_ghash_with_minimally_aligned_key(struct kunit *test)
116*75e34befSEric Biggers {
117*75e34befSEric Biggers u8 raw_key[GHASH_BLOCK_SIZE];
118*75e34befSEric Biggers struct ghash_key key;
119*75e34befSEric Biggers struct ghash_key *minaligned_key =
120*75e34befSEric Biggers (struct ghash_key *)&test_buf[MAX_LEN_FOR_KEY_CHECK +
121*75e34befSEric Biggers __alignof__(struct ghash_key)];
122*75e34befSEric Biggers
123*75e34befSEric Biggers KUNIT_ASSERT_TRUE(test, IS_ALIGNED((uintptr_t)minaligned_key,
124*75e34befSEric Biggers __alignof__(struct ghash_key)));
125*75e34befSEric Biggers KUNIT_ASSERT_TRUE(test, !IS_ALIGNED((uintptr_t)minaligned_key,
126*75e34befSEric Biggers 2 * __alignof__(struct ghash_key)));
127*75e34befSEric Biggers
128*75e34befSEric Biggers rand_bytes(raw_key, sizeof(raw_key));
129*75e34befSEric Biggers ghash_preparekey(&key, raw_key);
130*75e34befSEric Biggers ghash_preparekey(minaligned_key, raw_key);
131*75e34befSEric Biggers check_key_consistency(test, &key, minaligned_key);
132*75e34befSEric Biggers }
133*75e34befSEric Biggers
134*75e34befSEric Biggers struct ghash_irq_test_state {
135*75e34befSEric Biggers struct ghash_key expected_key;
136*75e34befSEric Biggers u8 raw_key[GHASH_BLOCK_SIZE];
137*75e34befSEric Biggers };
138*75e34befSEric Biggers
ghash_irq_test_func(void * state_)139*75e34befSEric Biggers static bool ghash_irq_test_func(void *state_)
140*75e34befSEric Biggers {
141*75e34befSEric Biggers struct ghash_irq_test_state *state = state_;
142*75e34befSEric Biggers struct ghash_key key;
143*75e34befSEric Biggers
144*75e34befSEric Biggers ghash_preparekey(&key, state->raw_key);
145*75e34befSEric Biggers return memcmp(&key, &state->expected_key, sizeof(key)) == 0;
146*75e34befSEric Biggers }
147*75e34befSEric Biggers
148*75e34befSEric Biggers /*
149*75e34befSEric Biggers * Test that ghash_preparekey() produces the same output regardless of whether
150*75e34befSEric Biggers * FPU or vector registers are usable when it is called.
151*75e34befSEric Biggers */
test_ghash_preparekey_in_irqs(struct kunit * test)152*75e34befSEric Biggers static void test_ghash_preparekey_in_irqs(struct kunit *test)
153*75e34befSEric Biggers {
154*75e34befSEric Biggers struct ghash_irq_test_state state;
155*75e34befSEric Biggers
156*75e34befSEric Biggers rand_bytes(state.raw_key, sizeof(state.raw_key));
157*75e34befSEric Biggers ghash_preparekey(&state.expected_key, state.raw_key);
158*75e34befSEric Biggers kunit_run_irq_test(test, ghash_irq_test_func, 200000, &state);
159*75e34befSEric Biggers }
160*75e34befSEric Biggers
ghash_suite_init(struct kunit_suite * suite)161*75e34befSEric Biggers static int ghash_suite_init(struct kunit_suite *suite)
162*75e34befSEric Biggers {
163*75e34befSEric Biggers u8 raw_key[GHASH_BLOCK_SIZE];
164*75e34befSEric Biggers
165*75e34befSEric Biggers rand_bytes_seeded_from_len(raw_key, sizeof(raw_key));
166*75e34befSEric Biggers ghash_preparekey(&test_key, raw_key);
167*75e34befSEric Biggers return hash_suite_init(suite);
168*75e34befSEric Biggers }
169*75e34befSEric Biggers
ghash_suite_exit(struct kunit_suite * suite)170*75e34befSEric Biggers static void ghash_suite_exit(struct kunit_suite *suite)
171*75e34befSEric Biggers {
172*75e34befSEric Biggers hash_suite_exit(suite);
173*75e34befSEric Biggers }
174*75e34befSEric Biggers
175*75e34befSEric Biggers static struct kunit_case ghash_test_cases[] = {
176*75e34befSEric Biggers HASH_KUNIT_CASES,
177*75e34befSEric Biggers KUNIT_CASE(test_ghash_allones_key_and_message),
178*75e34befSEric Biggers KUNIT_CASE(test_ghash_with_guarded_key),
179*75e34befSEric Biggers KUNIT_CASE(test_ghash_with_minimally_aligned_key),
180*75e34befSEric Biggers KUNIT_CASE(test_ghash_preparekey_in_irqs),
181*75e34befSEric Biggers KUNIT_CASE(benchmark_hash),
182*75e34befSEric Biggers {},
183*75e34befSEric Biggers };
184*75e34befSEric Biggers
185*75e34befSEric Biggers static struct kunit_suite ghash_test_suite = {
186*75e34befSEric Biggers .name = "ghash",
187*75e34befSEric Biggers .test_cases = ghash_test_cases,
188*75e34befSEric Biggers .suite_init = ghash_suite_init,
189*75e34befSEric Biggers .suite_exit = ghash_suite_exit,
190*75e34befSEric Biggers };
191*75e34befSEric Biggers kunit_test_suite(ghash_test_suite);
192*75e34befSEric Biggers
193*75e34befSEric Biggers MODULE_DESCRIPTION("KUnit tests and benchmark for GHASH");
194*75e34befSEric Biggers MODULE_LICENSE("GPL");
195