test_div64.c - cachepc-linux - Fork of AMDESE/linux with modifications for CachePC side-channel attack

	cachepc-linux Fork of AMDESE/linux with modifications for CachePC side-channel attack
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test_div64.c (7472B)
      1// SPDX-License-Identifier: GPL-2.0
      2/*
      3 * Copyright (C) 2021  Maciej W. Rozycki
      4 */
      5
      6#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
      7
      8#include <linux/init.h>
      9#include <linux/ktime.h>
     10#include <linux/module.h>
     11#include <linux/printk.h>
     12#include <linux/time64.h>
     13#include <linux/types.h>
     14
     15#include <asm/div64.h>
     16
     17#define TEST_DIV64_N_ITER 1024
     18
     19static const u64 test_div64_dividends[] = {
     20	0x00000000ab275080,
     21	0x0000000fe73c1959,
     22	0x000000e54c0a74b1,
     23	0x00000d4398ff1ef9,
     24	0x0000a18c2ee1c097,
     25	0x00079fb80b072e4a,
     26	0x0072db27380dd689,
     27	0x0842f488162e2284,
     28	0xf66745411d8ab063,
     29};
     30#define SIZE_DIV64_DIVIDENDS ARRAY_SIZE(test_div64_dividends)
     31
     32#define TEST_DIV64_DIVISOR_0 0x00000009
     33#define TEST_DIV64_DIVISOR_1 0x0000007c
     34#define TEST_DIV64_DIVISOR_2 0x00000204
     35#define TEST_DIV64_DIVISOR_3 0x0000cb5b
     36#define TEST_DIV64_DIVISOR_4 0x00010000
     37#define TEST_DIV64_DIVISOR_5 0x0008a880
     38#define TEST_DIV64_DIVISOR_6 0x003fd3ae
     39#define TEST_DIV64_DIVISOR_7 0x0b658fac
     40#define TEST_DIV64_DIVISOR_8 0xdc08b349
     41
     42static const u32 test_div64_divisors[] = {
     43	TEST_DIV64_DIVISOR_0,
     44	TEST_DIV64_DIVISOR_1,
     45	TEST_DIV64_DIVISOR_2,
     46	TEST_DIV64_DIVISOR_3,
     47	TEST_DIV64_DIVISOR_4,
     48	TEST_DIV64_DIVISOR_5,
     49	TEST_DIV64_DIVISOR_6,
     50	TEST_DIV64_DIVISOR_7,
     51	TEST_DIV64_DIVISOR_8,
     52};
     53#define SIZE_DIV64_DIVISORS ARRAY_SIZE(test_div64_divisors)
     54
     55static const struct {
     56	u64 quotient;
     57	u32 remainder;
     58} test_div64_results[SIZE_DIV64_DIVISORS][SIZE_DIV64_DIVIDENDS] = {
     59	{
     60		{ 0x0000000013045e47, 0x00000001 },
     61		{ 0x000000000161596c, 0x00000030 },
     62		{ 0x000000000054e9d4, 0x00000130 },
     63		{ 0x000000000000d776, 0x0000278e },
     64		{ 0x000000000000ab27, 0x00005080 },
     65		{ 0x00000000000013c4, 0x0004ce80 },
     66		{ 0x00000000000002ae, 0x001e143c },
     67		{ 0x000000000000000f, 0x0033e56c },
     68		{ 0x0000000000000000, 0xab275080 },
     69	}, {
     70		{ 0x00000001c45c02d1, 0x00000000 },
     71		{ 0x0000000020d5213c, 0x00000049 },
     72		{ 0x0000000007e3d65f, 0x000001dd },
     73		{ 0x0000000000140531, 0x000065ee },
     74		{ 0x00000000000fe73c, 0x00001959 },
     75		{ 0x000000000001d637, 0x0004e5d9 },
     76		{ 0x0000000000003fc9, 0x000713bb },
     77		{ 0x0000000000000165, 0x029abe7d },
     78		{ 0x0000000000000012, 0x6e9f7e37 },
     79	}, {
     80		{ 0x000000197a3a0cf7, 0x00000002 },
     81		{ 0x00000001d9632e5c, 0x00000021 },
     82		{ 0x0000000071c28039, 0x000001cd },
     83		{ 0x000000000120a844, 0x0000b885 },
     84		{ 0x0000000000e54c0a, 0x000074b1 },
     85		{ 0x00000000001a7bb3, 0x00072331 },
     86		{ 0x00000000000397ad, 0x0002c61b },
     87		{ 0x000000000000141e, 0x06ea2e89 },
     88		{ 0x000000000000010a, 0xab002ad7 },
     89	}, {
     90		{ 0x0000017949e37538, 0x00000001 },
     91		{ 0x0000001b62441f37, 0x00000055 },
     92		{ 0x0000000694a3391d, 0x00000085 },
     93		{ 0x0000000010b2a5d2, 0x0000a753 },
     94		{ 0x000000000d4398ff, 0x00001ef9 },
     95		{ 0x0000000001882ec6, 0x0005cbf9 },
     96		{ 0x000000000035333b, 0x0017abdf },
     97		{ 0x00000000000129f1, 0x0ab4520d },
     98		{ 0x0000000000000f6e, 0x8ac0ce9b },
     99	}, {
    100		{ 0x000011f321a74e49, 0x00000006 },
    101		{ 0x0000014d8481d211, 0x0000005b },
    102		{ 0x0000005025cbd92d, 0x000001e3 },
    103		{ 0x00000000cb5e71e3, 0x000043e6 },
    104		{ 0x00000000a18c2ee1, 0x0000c097 },
    105		{ 0x0000000012a88828, 0x00036c97 },
    106		{ 0x000000000287f16f, 0x002c2a25 },
    107		{ 0x00000000000e2cc7, 0x02d581e3 },
    108		{ 0x000000000000bbf4, 0x1ba08c03 },
    109	}, {
    110		{ 0x0000d8db8f72935d, 0x00000005 },
    111		{ 0x00000fbd5aed7a2e, 0x00000002 },
    112		{ 0x000003c84b6ea64a, 0x00000122 },
    113		{ 0x0000000998fa8829, 0x000044b7 },
    114		{ 0x000000079fb80b07, 0x00002e4a },
    115		{ 0x00000000e16b20fa, 0x0002a14a },
    116		{ 0x000000001e940d22, 0x00353b2e },
    117		{ 0x0000000000ab40ac, 0x06fba6ba },
    118		{ 0x000000000008debd, 0x72d98365 },
    119	}, {
    120		{ 0x000cc3045b8fc281, 0x00000000 },
    121		{ 0x0000ed1f48b5c9fc, 0x00000079 },
    122		{ 0x000038fb9c63406a, 0x000000e1 },
    123		{ 0x000000909705b825, 0x00000a62 },
    124		{ 0x00000072db27380d, 0x0000d689 },
    125		{ 0x0000000d43fce827, 0x00082b09 },
    126		{ 0x00000001ccaba11a, 0x0037e8dd },
    127		{ 0x000000000a13f729, 0x0566dffd },
    128		{ 0x000000000085a14b, 0x23d36726 },
    129	}, {
    130		{ 0x00eafeb9c993592b, 0x00000001 },
    131		{ 0x00110e5befa9a991, 0x00000048 },
    132		{ 0x00041947b4a1d36a, 0x000000dc },
    133		{ 0x00000a6679327311, 0x0000c079 },
    134		{ 0x00000842f488162e, 0x00002284 },
    135		{ 0x000000f4459740fc, 0x00084484 },
    136		{ 0x0000002122c47bf9, 0x002ca446 },
    137		{ 0x00000000b9936290, 0x004979c4 },
    138		{ 0x00000000099ca89d, 0x9db446bf },
    139	}, {
    140		{ 0x1b60cece589da1d2, 0x00000001 },
    141		{ 0x01fcb42be1453f5b, 0x0000004f },
    142		{ 0x007a3f2457df0749, 0x0000013f },
    143		{ 0x0001363130e3ec7b, 0x000017aa },
    144		{ 0x0000f66745411d8a, 0x0000b063 },
    145		{ 0x00001c757dfab350, 0x00048863 },
    146		{ 0x000003dc4979c652, 0x00224ea7 },
    147		{ 0x000000159edc3144, 0x06409ab3 },
    148		{ 0x000000011eadfee3, 0xa99c48a8 },
    149	},
    150};
    151
    152static inline bool test_div64_verify(u64 quotient, u32 remainder, int i, int j)
    153{
    154	return (quotient == test_div64_results[i][j].quotient &&
    155		remainder == test_div64_results[i][j].remainder);
    156}
    157
    158/*
    159 * This needs to be a macro, because we don't want to rely on the compiler
    160 * to do constant propagation, and `do_div' may take a different path for
    161 * constants, so we do want to verify that as well.
    162 */
    163#define test_div64_one(dividend, divisor, i, j) ({			\
    164	bool result = true;						\
    165	u64 quotient;							\
    166	u32 remainder;							\
    167									\
    168	quotient = dividend;						\
    169	remainder = do_div(quotient, divisor);				\
    170	if (!test_div64_verify(quotient, remainder, i, j)) {		\
    171		pr_err("ERROR: %016llx / %08x => %016llx,%08x\n",	\
    172		       dividend, divisor, quotient, remainder);		\
    173		pr_err("ERROR: expected value              => %016llx,%08x\n",\
    174		       test_div64_results[i][j].quotient,		\
    175		       test_div64_results[i][j].remainder);		\
    176		result = false;						\
    177	}								\
    178	result;								\
    179})
    180
    181/*
    182 * Run calculation for the same divisor value expressed as a constant
    183 * and as a variable, so as to verify the implementation for both cases
    184 * should they be handled by different code execution paths.
    185 */
    186static bool __init test_div64(void)
    187{
    188	u64 dividend;
    189	int i, j;
    190
    191	for (i = 0; i < SIZE_DIV64_DIVIDENDS; i++) {
    192		dividend = test_div64_dividends[i];
    193		if (!test_div64_one(dividend, TEST_DIV64_DIVISOR_0, i, 0))
    194			return false;
    195		if (!test_div64_one(dividend, TEST_DIV64_DIVISOR_1, i, 1))
    196			return false;
    197		if (!test_div64_one(dividend, TEST_DIV64_DIVISOR_2, i, 2))
    198			return false;
    199		if (!test_div64_one(dividend, TEST_DIV64_DIVISOR_3, i, 3))
    200			return false;
    201		if (!test_div64_one(dividend, TEST_DIV64_DIVISOR_4, i, 4))
    202			return false;
    203		if (!test_div64_one(dividend, TEST_DIV64_DIVISOR_5, i, 5))
    204			return false;
    205		if (!test_div64_one(dividend, TEST_DIV64_DIVISOR_6, i, 6))
    206			return false;
    207		if (!test_div64_one(dividend, TEST_DIV64_DIVISOR_7, i, 7))
    208			return false;
    209		if (!test_div64_one(dividend, TEST_DIV64_DIVISOR_8, i, 8))
    210			return false;
    211		for (j = 0; j < SIZE_DIV64_DIVISORS; j++) {
    212			if (!test_div64_one(dividend, test_div64_divisors[j],
    213					    i, j))
    214				return false;
    215		}
    216	}
    217	return true;
    218}
    219
    220static int __init test_div64_init(void)
    221{
    222	struct timespec64 ts, ts0, ts1;
    223	int i;
    224
    225	pr_info("Starting 64bit/32bit division and modulo test\n");
    226	ktime_get_ts64(&ts0);
    227
    228	for (i = 0; i < TEST_DIV64_N_ITER; i++)
    229		if (!test_div64())
    230			break;
    231
    232	ktime_get_ts64(&ts1);
    233	ts = timespec64_sub(ts1, ts0);
    234	pr_info("Completed 64bit/32bit division and modulo test, "
    235		"%llu.%09lus elapsed\n", ts.tv_sec, ts.tv_nsec);
    236
    237	return 0;
    238}
    239
    240static void __exit test_div64_exit(void)
    241{
    242}
    243
    244module_init(test_div64_init);
    245module_exit(test_div64_exit);
    246
    247MODULE_AUTHOR("Maciej W. Rozycki <macro@orcam.me.uk>");
    248MODULE_LICENSE("GPL");
    249MODULE_DESCRIPTION("64bit/32bit division and modulo test module");