Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Yury Norov | 4211 | 48.72% | 18 | 34.62% |
David Decotigny | 881 | 10.19% | 1 | 1.92% |
Alexander Potapenko | 806 | 9.32% | 2 | 3.85% |
Andy Shevchenko | 727 | 8.41% | 12 | 23.08% |
Barry Song | 461 | 5.33% | 1 | 1.92% |
Stefano Brivio | 454 | 5.25% | 1 | 1.92% |
Alexander Lobakin | 403 | 4.66% | 3 | 5.77% |
William Breathitt Gray | 263 | 3.04% | 1 | 1.92% |
Matthew Wilcox | 204 | 2.36% | 2 | 3.85% |
Paul Gortmaker | 170 | 1.97% | 4 | 7.69% |
Geert Uytterhoeven | 36 | 0.42% | 1 | 1.92% |
Christoph Hellwig | 10 | 0.12% | 1 | 1.92% |
Tobin C Harding | 7 | 0.08% | 1 | 1.92% |
Jeff Johnson | 5 | 0.06% | 1 | 1.92% |
Timur Tabi | 3 | 0.03% | 1 | 1.92% |
Kees Cook | 2 | 0.02% | 1 | 1.92% |
Thomas Gleixner | 1 | 0.01% | 1 | 1.92% |
Total | 8644 | 52 |
// SPDX-License-Identifier: GPL-2.0-only /* * Test cases for bitmap API. */ #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt #include <linux/bitmap.h> #include <linux/init.h> #include <linux/kernel.h> #include <linux/module.h> #include <linux/printk.h> #include <linux/slab.h> #include <linux/string.h> #include <linux/uaccess.h> #include "../tools/testing/selftests/kselftest_module.h" #define EXP1_IN_BITS (sizeof(exp1) * 8) KSTM_MODULE_GLOBALS(); static char pbl_buffer[PAGE_SIZE] __initdata; static char print_buf[PAGE_SIZE * 2] __initdata; static const unsigned long exp1[] __initconst = { BITMAP_FROM_U64(1), BITMAP_FROM_U64(2), BITMAP_FROM_U64(0x0000ffff), BITMAP_FROM_U64(0xffff0000), BITMAP_FROM_U64(0x55555555), BITMAP_FROM_U64(0xaaaaaaaa), BITMAP_FROM_U64(0x11111111), BITMAP_FROM_U64(0x22222222), BITMAP_FROM_U64(0xffffffff), BITMAP_FROM_U64(0xfffffffe), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0xffffffff77777777ULL), BITMAP_FROM_U64(0), BITMAP_FROM_U64(0x00008000), BITMAP_FROM_U64(0x80000000), }; static const unsigned long exp2[] __initconst = { BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0xffffffff77777777ULL), }; /* Fibonacci sequence */ static const unsigned long exp2_to_exp3_mask[] __initconst = { BITMAP_FROM_U64(0x008000020020212eULL), }; /* exp3_0_1 = (exp2[0] & ~exp2_to_exp3_mask) | (exp2[1] & exp2_to_exp3_mask) */ static const unsigned long exp3_0_1[] __initconst = { BITMAP_FROM_U64(0x33b3333311313137ULL), }; /* exp3_1_0 = (exp2[1] & ~exp2_to_exp3_mask) | (exp2[0] & exp2_to_exp3_mask) */ static const unsigned long exp3_1_0[] __initconst = { BITMAP_FROM_U64(0xff7fffff77575751ULL), }; static bool __init __check_eq_ulong(const char *srcfile, unsigned int line, const unsigned long exp_ulong, unsigned long x) { if (exp_ulong != x) { pr_err("[%s:%u] expected %lu, got %lu\n", srcfile, line, exp_ulong, x); return false; } return true; } static bool __init __check_eq_bitmap(const char *srcfile, unsigned int line, const unsigned long *exp_bmap, const unsigned long *bmap, unsigned int nbits) { if (!bitmap_equal(exp_bmap, bmap, nbits)) { pr_warn("[%s:%u] bitmaps contents differ: expected \"%*pbl\", got \"%*pbl\"\n", srcfile, line, nbits, exp_bmap, nbits, bmap); return false; } return true; } static bool __init __check_eq_pbl(const char *srcfile, unsigned int line, const char *expected_pbl, const unsigned long *bitmap, unsigned int nbits) { snprintf(pbl_buffer, sizeof(pbl_buffer), "%*pbl", nbits, bitmap); if (strcmp(expected_pbl, pbl_buffer)) { pr_warn("[%s:%u] expected \"%s\", got \"%s\"\n", srcfile, line, expected_pbl, pbl_buffer); return false; } return true; } static bool __init __check_eq_u32_array(const char *srcfile, unsigned int line, const u32 *exp_arr, unsigned int exp_len, const u32 *arr, unsigned int len) __used; static bool __init __check_eq_u32_array(const char *srcfile, unsigned int line, const u32 *exp_arr, unsigned int exp_len, const u32 *arr, unsigned int len) { if (exp_len != len) { pr_warn("[%s:%u] array length differ: expected %u, got %u\n", srcfile, line, exp_len, len); return false; } if (memcmp(exp_arr, arr, len*sizeof(*arr))) { pr_warn("[%s:%u] array contents differ\n", srcfile, line); print_hex_dump(KERN_WARNING, " exp: ", DUMP_PREFIX_OFFSET, 32, 4, exp_arr, exp_len*sizeof(*exp_arr), false); print_hex_dump(KERN_WARNING, " got: ", DUMP_PREFIX_OFFSET, 32, 4, arr, len*sizeof(*arr), false); return false; } return true; } static bool __init __check_eq_clump8(const char *srcfile, unsigned int line, const unsigned int offset, const unsigned int size, const unsigned char *const clump_exp, const unsigned long *const clump) { unsigned long exp; if (offset >= size) { pr_warn("[%s:%u] bit offset for clump out-of-bounds: expected less than %u, got %u\n", srcfile, line, size, offset); return false; } exp = clump_exp[offset / 8]; if (!exp) { pr_warn("[%s:%u] bit offset for zero clump: expected nonzero clump, got bit offset %u with clump value 0", srcfile, line, offset); return false; } if (*clump != exp) { pr_warn("[%s:%u] expected clump value of 0x%lX, got clump value of 0x%lX", srcfile, line, exp, *clump); return false; } return true; } static bool __init __check_eq_str(const char *srcfile, unsigned int line, const char *exp_str, const char *str, unsigned int len) { bool eq; eq = strncmp(exp_str, str, len) == 0; if (!eq) pr_err("[%s:%u] expected %s, got %s\n", srcfile, line, exp_str, str); return eq; } #define __expect_eq(suffix, ...) \ ({ \ int result = 0; \ total_tests++; \ if (!__check_eq_ ## suffix(__FILE__, __LINE__, \ ##__VA_ARGS__)) { \ failed_tests++; \ result = 1; \ } \ result; \ }) #define expect_eq_ulong(...) __expect_eq(ulong, ##__VA_ARGS__) #define expect_eq_uint(x, y) expect_eq_ulong((unsigned int)(x), (unsigned int)(y)) #define expect_eq_bitmap(...) __expect_eq(bitmap, ##__VA_ARGS__) #define expect_eq_pbl(...) __expect_eq(pbl, ##__VA_ARGS__) #define expect_eq_u32_array(...) __expect_eq(u32_array, ##__VA_ARGS__) #define expect_eq_clump8(...) __expect_eq(clump8, ##__VA_ARGS__) #define expect_eq_str(...) __expect_eq(str, ##__VA_ARGS__) static void __init test_zero_clear(void) { DECLARE_BITMAP(bmap, 1024); /* Known way to set all bits */ memset(bmap, 0xff, 128); expect_eq_pbl("0-22", bmap, 23); expect_eq_pbl("0-1023", bmap, 1024); /* single-word bitmaps */ bitmap_clear(bmap, 0, 9); expect_eq_pbl("9-1023", bmap, 1024); bitmap_zero(bmap, 35); expect_eq_pbl("64-1023", bmap, 1024); /* cross boundaries operations */ bitmap_clear(bmap, 79, 19); expect_eq_pbl("64-78,98-1023", bmap, 1024); bitmap_zero(bmap, 115); expect_eq_pbl("128-1023", bmap, 1024); /* Zeroing entire area */ bitmap_zero(bmap, 1024); expect_eq_pbl("", bmap, 1024); } static void __init test_find_nth_bit(void) { unsigned long b, bit, cnt = 0; DECLARE_BITMAP(bmap, 64 * 3); bitmap_zero(bmap, 64 * 3); __set_bit(10, bmap); __set_bit(20, bmap); __set_bit(30, bmap); __set_bit(40, bmap); __set_bit(50, bmap); __set_bit(60, bmap); __set_bit(80, bmap); __set_bit(123, bmap); expect_eq_uint(10, find_nth_bit(bmap, 64 * 3, 0)); expect_eq_uint(20, find_nth_bit(bmap, 64 * 3, 1)); expect_eq_uint(30, find_nth_bit(bmap, 64 * 3, 2)); expect_eq_uint(40, find_nth_bit(bmap, 64 * 3, 3)); expect_eq_uint(50, find_nth_bit(bmap, 64 * 3, 4)); expect_eq_uint(60, find_nth_bit(bmap, 64 * 3, 5)); expect_eq_uint(80, find_nth_bit(bmap, 64 * 3, 6)); expect_eq_uint(123, find_nth_bit(bmap, 64 * 3, 7)); expect_eq_uint(0, !!(find_nth_bit(bmap, 64 * 3, 8) < 64 * 3)); expect_eq_uint(10, find_nth_bit(bmap, 64 * 3 - 1, 0)); expect_eq_uint(20, find_nth_bit(bmap, 64 * 3 - 1, 1)); expect_eq_uint(30, find_nth_bit(bmap, 64 * 3 - 1, 2)); expect_eq_uint(40, find_nth_bit(bmap, 64 * 3 - 1, 3)); expect_eq_uint(50, find_nth_bit(bmap, 64 * 3 - 1, 4)); expect_eq_uint(60, find_nth_bit(bmap, 64 * 3 - 1, 5)); expect_eq_uint(80, find_nth_bit(bmap, 64 * 3 - 1, 6)); expect_eq_uint(123, find_nth_bit(bmap, 64 * 3 - 1, 7)); expect_eq_uint(0, !!(find_nth_bit(bmap, 64 * 3 - 1, 8) < 64 * 3 - 1)); for_each_set_bit(bit, exp1, EXP1_IN_BITS) { b = find_nth_bit(exp1, EXP1_IN_BITS, cnt++); expect_eq_uint(b, bit); } } static void __init test_fill_set(void) { DECLARE_BITMAP(bmap, 1024); /* Known way to clear all bits */ memset(bmap, 0x00, 128); expect_eq_pbl("", bmap, 23); expect_eq_pbl("", bmap, 1024); /* single-word bitmaps */ bitmap_set(bmap, 0, 9); expect_eq_pbl("0-8", bmap, 1024); bitmap_fill(bmap, 35); expect_eq_pbl("0-63", bmap, 1024); /* cross boundaries operations */ bitmap_set(bmap, 79, 19); expect_eq_pbl("0-63,79-97", bmap, 1024); bitmap_fill(bmap, 115); expect_eq_pbl("0-127", bmap, 1024); /* Zeroing entire area */ bitmap_fill(bmap, 1024); expect_eq_pbl("0-1023", bmap, 1024); } static void __init test_copy(void) { DECLARE_BITMAP(bmap1, 1024); DECLARE_BITMAP(bmap2, 1024); bitmap_zero(bmap1, 1024); bitmap_zero(bmap2, 1024); /* single-word bitmaps */ bitmap_set(bmap1, 0, 19); bitmap_copy(bmap2, bmap1, 23); expect_eq_pbl("0-18", bmap2, 1024); bitmap_set(bmap2, 0, 23); bitmap_copy(bmap2, bmap1, 23); expect_eq_pbl("0-18", bmap2, 1024); /* multi-word bitmaps */ bitmap_set(bmap1, 0, 109); bitmap_copy(bmap2, bmap1, 1024); expect_eq_pbl("0-108", bmap2, 1024); bitmap_fill(bmap2, 1024); bitmap_copy(bmap2, bmap1, 1024); expect_eq_pbl("0-108", bmap2, 1024); /* the following tests assume a 32- or 64-bit arch (even 128b * if we care) */ bitmap_fill(bmap2, 1024); bitmap_copy(bmap2, bmap1, 109); /* ... but 0-padded til word length */ expect_eq_pbl("0-108,128-1023", bmap2, 1024); bitmap_fill(bmap2, 1024); bitmap_copy(bmap2, bmap1, 97); /* ... but aligned on word length */ expect_eq_pbl("0-108,128-1023", bmap2, 1024); } static void __init test_bitmap_region(void) { int pos, order; DECLARE_BITMAP(bmap, 1000); bitmap_zero(bmap, 1000); for (order = 0; order < 10; order++) { pos = bitmap_find_free_region(bmap, 1000, order); if (order == 0) expect_eq_uint(pos, 0); else expect_eq_uint(pos, order < 9 ? BIT(order) : -ENOMEM); } bitmap_release_region(bmap, 0, 0); for (order = 1; order < 9; order++) bitmap_release_region(bmap, BIT(order), order); expect_eq_uint(bitmap_weight(bmap, 1000), 0); } #define EXP2_IN_BITS (sizeof(exp2) * 8) static void __init test_replace(void) { unsigned int nbits = 64; unsigned int nlongs = DIV_ROUND_UP(nbits, BITS_PER_LONG); DECLARE_BITMAP(bmap, 1024); BUILD_BUG_ON(EXP2_IN_BITS < nbits * 2); bitmap_zero(bmap, 1024); bitmap_replace(bmap, &exp2[0 * nlongs], &exp2[1 * nlongs], exp2_to_exp3_mask, nbits); expect_eq_bitmap(bmap, exp3_0_1, nbits); bitmap_zero(bmap, 1024); bitmap_replace(bmap, &exp2[1 * nlongs], &exp2[0 * nlongs], exp2_to_exp3_mask, nbits); expect_eq_bitmap(bmap, exp3_1_0, nbits); bitmap_fill(bmap, 1024); bitmap_replace(bmap, &exp2[0 * nlongs], &exp2[1 * nlongs], exp2_to_exp3_mask, nbits); expect_eq_bitmap(bmap, exp3_0_1, nbits); bitmap_fill(bmap, 1024); bitmap_replace(bmap, &exp2[1 * nlongs], &exp2[0 * nlongs], exp2_to_exp3_mask, nbits); expect_eq_bitmap(bmap, exp3_1_0, nbits); } static const unsigned long sg_mask[] __initconst = { BITMAP_FROM_U64(0x000000000000035aULL), }; static const unsigned long sg_src[] __initconst = { BITMAP_FROM_U64(0x0000000000000667ULL), }; static const unsigned long sg_gather_exp[] __initconst = { BITMAP_FROM_U64(0x0000000000000029ULL), }; static const unsigned long sg_scatter_exp[] __initconst = { BITMAP_FROM_U64(0x000000000000021aULL), }; static void __init test_bitmap_sg(void) { unsigned int nbits = 64; DECLARE_BITMAP(bmap_gather, 100); DECLARE_BITMAP(bmap_scatter, 100); DECLARE_BITMAP(bmap_tmp, 100); DECLARE_BITMAP(bmap_res, 100); /* Simple gather call */ bitmap_zero(bmap_gather, 100); bitmap_gather(bmap_gather, sg_src, sg_mask, nbits); expect_eq_bitmap(sg_gather_exp, bmap_gather, nbits); /* Simple scatter call */ bitmap_zero(bmap_scatter, 100); bitmap_scatter(bmap_scatter, sg_src, sg_mask, nbits); expect_eq_bitmap(sg_scatter_exp, bmap_scatter, nbits); /* Scatter/gather relationship */ bitmap_zero(bmap_tmp, 100); bitmap_gather(bmap_tmp, bmap_scatter, sg_mask, nbits); bitmap_scatter(bmap_res, bmap_tmp, sg_mask, nbits); expect_eq_bitmap(bmap_scatter, bmap_res, nbits); } #define PARSE_TIME 0x1 #define NO_LEN 0x2 struct test_bitmap_parselist{ const int errno; const char *in; const unsigned long *expected; const int nbits; const int flags; }; static const struct test_bitmap_parselist parselist_tests[] __initconst = { #define step (sizeof(u64) / sizeof(unsigned long)) {0, "0", &exp1[0], 8, 0}, {0, "1", &exp1[1 * step], 8, 0}, {0, "0-15", &exp1[2 * step], 32, 0}, {0, "16-31", &exp1[3 * step], 32, 0}, {0, "0-31:1/2", &exp1[4 * step], 32, 0}, {0, "1-31:1/2", &exp1[5 * step], 32, 0}, {0, "0-31:1/4", &exp1[6 * step], 32, 0}, {0, "1-31:1/4", &exp1[7 * step], 32, 0}, {0, "0-31:4/4", &exp1[8 * step], 32, 0}, {0, "1-31:4/4", &exp1[9 * step], 32, 0}, {0, "0-31:1/4,32-63:2/4", &exp1[10 * step], 64, 0}, {0, "0-31:3/4,32-63:4/4", &exp1[11 * step], 64, 0}, {0, " ,, 0-31:3/4 ,, 32-63:4/4 ,, ", &exp1[11 * step], 64, 0}, {0, "0-31:1/4,32-63:2/4,64-95:3/4,96-127:4/4", exp2, 128, 0}, {0, "0-2047:128/256", NULL, 2048, PARSE_TIME}, {0, "", &exp1[12 * step], 8, 0}, {0, "\n", &exp1[12 * step], 8, 0}, {0, ",, ,, , , ,", &exp1[12 * step], 8, 0}, {0, " , ,, , , ", &exp1[12 * step], 8, 0}, {0, " , ,, , , \n", &exp1[12 * step], 8, 0}, {0, "0-0", &exp1[0], 32, 0}, {0, "1-1", &exp1[1 * step], 32, 0}, {0, "15-15", &exp1[13 * step], 32, 0}, {0, "31-31", &exp1[14 * step], 32, 0}, {0, "0-0:0/1", &exp1[12 * step], 32, 0}, {0, "0-0:1/1", &exp1[0], 32, 0}, {0, "0-0:1/31", &exp1[0], 32, 0}, {0, "0-0:31/31", &exp1[0], 32, 0}, {0, "1-1:1/1", &exp1[1 * step], 32, 0}, {0, "0-15:16/31", &exp1[2 * step], 32, 0}, {0, "15-15:1/2", &exp1[13 * step], 32, 0}, {0, "15-15:31/31", &exp1[13 * step], 32, 0}, {0, "15-31:1/31", &exp1[13 * step], 32, 0}, {0, "16-31:16/31", &exp1[3 * step], 32, 0}, {0, "31-31:31/31", &exp1[14 * step], 32, 0}, {0, "N-N", &exp1[14 * step], 32, 0}, {0, "0-0:1/N", &exp1[0], 32, 0}, {0, "0-0:N/N", &exp1[0], 32, 0}, {0, "0-15:16/N", &exp1[2 * step], 32, 0}, {0, "15-15:N/N", &exp1[13 * step], 32, 0}, {0, "15-N:1/N", &exp1[13 * step], 32, 0}, {0, "16-N:16/N", &exp1[3 * step], 32, 0}, {0, "N-N:N/N", &exp1[14 * step], 32, 0}, {0, "0-N:1/3,1-N:1/3,2-N:1/3", &exp1[8 * step], 32, 0}, {0, "0-31:1/3,1-31:1/3,2-31:1/3", &exp1[8 * step], 32, 0}, {0, "1-10:8/12,8-31:24/29,0-31:0/3", &exp1[9 * step], 32, 0}, {0, "all", &exp1[8 * step], 32, 0}, {0, "0, 1, all, ", &exp1[8 * step], 32, 0}, {0, "all:1/2", &exp1[4 * step], 32, 0}, {0, "ALL:1/2", &exp1[4 * step], 32, 0}, {-EINVAL, "al", NULL, 8, 0}, {-EINVAL, "alll", NULL, 8, 0}, {-EINVAL, "-1", NULL, 8, 0}, {-EINVAL, "-0", NULL, 8, 0}, {-EINVAL, "10-1", NULL, 8, 0}, {-ERANGE, "8-8", NULL, 8, 0}, {-ERANGE, "0-31", NULL, 8, 0}, {-EINVAL, "0-31:", NULL, 32, 0}, {-EINVAL, "0-31:0", NULL, 32, 0}, {-EINVAL, "0-31:0/", NULL, 32, 0}, {-EINVAL, "0-31:0/0", NULL, 32, 0}, {-EINVAL, "0-31:1/0", NULL, 32, 0}, {-EINVAL, "0-31:10/1", NULL, 32, 0}, {-EOVERFLOW, "0-98765432123456789:10/1", NULL, 8, 0}, {-EINVAL, "a-31", NULL, 8, 0}, {-EINVAL, "0-a1", NULL, 8, 0}, {-EINVAL, "a-31:10/1", NULL, 8, 0}, {-EINVAL, "0-31:a/1", NULL, 8, 0}, {-EINVAL, "0-\n", NULL, 8, 0}, }; static void __init test_bitmap_parselist(void) { int i; int err; ktime_t time; DECLARE_BITMAP(bmap, 2048); for (i = 0; i < ARRAY_SIZE(parselist_tests); i++) { #define ptest parselist_tests[i] time = ktime_get(); err = bitmap_parselist(ptest.in, bmap, ptest.nbits); time = ktime_get() - time; if (err != ptest.errno) { pr_err("parselist: %d: input is %s, errno is %d, expected %d\n", i, ptest.in, err, ptest.errno); failed_tests++; continue; } if (!err && ptest.expected && !__bitmap_equal(bmap, ptest.expected, ptest.nbits)) { pr_err("parselist: %d: input is %s, result is 0x%lx, expected 0x%lx\n", i, ptest.in, bmap[0], *ptest.expected); failed_tests++; continue; } if (ptest.flags & PARSE_TIME) pr_info("parselist: %d: input is '%s' OK, Time: %llu\n", i, ptest.in, time); #undef ptest } } static void __init test_bitmap_printlist(void) { unsigned long *bmap = kmalloc(PAGE_SIZE, GFP_KERNEL); char *buf = kmalloc(PAGE_SIZE, GFP_KERNEL); char expected[256]; int ret, slen; ktime_t time; if (!buf || !bmap) goto out; memset(bmap, -1, PAGE_SIZE); slen = snprintf(expected, 256, "0-%ld", PAGE_SIZE * 8 - 1); if (slen < 0) goto out; time = ktime_get(); ret = bitmap_print_to_pagebuf(true, buf, bmap, PAGE_SIZE * 8); time = ktime_get() - time; if (ret != slen + 1) { pr_err("bitmap_print_to_pagebuf: result is %d, expected %d\n", ret, slen); failed_tests++; goto out; } if (strncmp(buf, expected, slen)) { pr_err("bitmap_print_to_pagebuf: result is %s, expected %s\n", buf, expected); failed_tests++; goto out; } pr_info("bitmap_print_to_pagebuf: input is '%s', Time: %llu\n", buf, time); out: kfree(buf); kfree(bmap); } static const unsigned long parse_test[] __initconst = { BITMAP_FROM_U64(0), BITMAP_FROM_U64(1), BITMAP_FROM_U64(0xdeadbeef), BITMAP_FROM_U64(0x100000000ULL), }; static const unsigned long parse_test2[] __initconst = { BITMAP_FROM_U64(0x100000000ULL), BITMAP_FROM_U64(0xdeadbeef), BITMAP_FROM_U64(0x100000000ULL), BITMAP_FROM_U64(0xbaadf00ddeadbeef), BITMAP_FROM_U64(0x100000000ULL), BITMAP_FROM_U64(0x0badf00ddeadbeef), }; static const struct test_bitmap_parselist parse_tests[] __initconst = { {0, "", &parse_test[0 * step], 32, 0}, {0, " ", &parse_test[0 * step], 32, 0}, {0, "0", &parse_test[0 * step], 32, 0}, {0, "0\n", &parse_test[0 * step], 32, 0}, {0, "1", &parse_test[1 * step], 32, 0}, {0, "deadbeef", &parse_test[2 * step], 32, 0}, {0, "1,0", &parse_test[3 * step], 33, 0}, {0, "deadbeef,\n,0,1", &parse_test[2 * step], 96, 0}, {0, "deadbeef,1,0", &parse_test2[0 * 2 * step], 96, 0}, {0, "baadf00d,deadbeef,1,0", &parse_test2[1 * 2 * step], 128, 0}, {0, "badf00d,deadbeef,1,0", &parse_test2[2 * 2 * step], 124, 0}, {0, "badf00d,deadbeef,1,0", &parse_test2[2 * 2 * step], 124, NO_LEN}, {0, " badf00d,deadbeef,1,0 ", &parse_test2[2 * 2 * step], 124, 0}, {0, " , badf00d,deadbeef,1,0 , ", &parse_test2[2 * 2 * step], 124, 0}, {0, " , badf00d, ,, ,,deadbeef,1,0 , ", &parse_test2[2 * 2 * step], 124, 0}, {-EINVAL, "goodfood,deadbeef,1,0", NULL, 128, 0}, {-EOVERFLOW, "3,0", NULL, 33, 0}, {-EOVERFLOW, "123badf00d,deadbeef,1,0", NULL, 128, 0}, {-EOVERFLOW, "badf00d,deadbeef,1,0", NULL, 90, 0}, {-EOVERFLOW, "fbadf00d,deadbeef,1,0", NULL, 95, 0}, {-EOVERFLOW, "badf00d,deadbeef,1,0", NULL, 100, 0}, #undef step }; static void __init test_bitmap_parse(void) { int i; int err; ktime_t time; DECLARE_BITMAP(bmap, 2048); for (i = 0; i < ARRAY_SIZE(parse_tests); i++) { struct test_bitmap_parselist test = parse_tests[i]; size_t len = test.flags & NO_LEN ? UINT_MAX : strlen(test.in); time = ktime_get(); err = bitmap_parse(test.in, len, bmap, test.nbits); time = ktime_get() - time; if (err != test.errno) { pr_err("parse: %d: input is %s, errno is %d, expected %d\n", i, test.in, err, test.errno); failed_tests++; continue; } if (!err && test.expected && !__bitmap_equal(bmap, test.expected, test.nbits)) { pr_err("parse: %d: input is %s, result is 0x%lx, expected 0x%lx\n", i, test.in, bmap[0], *test.expected); failed_tests++; continue; } if (test.flags & PARSE_TIME) pr_info("parse: %d: input is '%s' OK, Time: %llu\n", i, test.in, time); } } static void __init test_bitmap_arr32(void) { unsigned int nbits, next_bit; u32 arr[EXP1_IN_BITS / 32]; DECLARE_BITMAP(bmap2, EXP1_IN_BITS); memset(arr, 0xa5, sizeof(arr)); for (nbits = 0; nbits < EXP1_IN_BITS; ++nbits) { bitmap_to_arr32(arr, exp1, nbits); bitmap_from_arr32(bmap2, arr, nbits); expect_eq_bitmap(bmap2, exp1, nbits); next_bit = find_next_bit(bmap2, round_up(nbits, BITS_PER_LONG), nbits); if (next_bit < round_up(nbits, BITS_PER_LONG)) { pr_err("bitmap_copy_arr32(nbits == %d:" " tail is not safely cleared: %d\n", nbits, next_bit); failed_tests++; } if (nbits < EXP1_IN_BITS - 32) expect_eq_uint(arr[DIV_ROUND_UP(nbits, 32)], 0xa5a5a5a5); } } static void __init test_bitmap_arr64(void) { unsigned int nbits, next_bit; u64 arr[EXP1_IN_BITS / 64]; DECLARE_BITMAP(bmap2, EXP1_IN_BITS); memset(arr, 0xa5, sizeof(arr)); for (nbits = 0; nbits < EXP1_IN_BITS; ++nbits) { memset(bmap2, 0xff, sizeof(arr)); bitmap_to_arr64(arr, exp1, nbits); bitmap_from_arr64(bmap2, arr, nbits); expect_eq_bitmap(bmap2, exp1, nbits); next_bit = find_next_bit(bmap2, round_up(nbits, BITS_PER_LONG), nbits); if (next_bit < round_up(nbits, BITS_PER_LONG)) { pr_err("bitmap_copy_arr64(nbits == %d:" " tail is not safely cleared: %d\n", nbits, next_bit); failed_tests++; } if ((nbits % 64) && (arr[(nbits - 1) / 64] & ~GENMASK_ULL((nbits - 1) % 64, 0))) { pr_err("bitmap_to_arr64(nbits == %d): tail is not safely cleared: 0x%016llx (must be 0x%016llx)\n", nbits, arr[(nbits - 1) / 64], GENMASK_ULL((nbits - 1) % 64, 0)); failed_tests++; } if (nbits < EXP1_IN_BITS - 64) expect_eq_uint(arr[DIV_ROUND_UP(nbits, 64)], 0xa5a5a5a5); } } static void noinline __init test_mem_optimisations(void) { DECLARE_BITMAP(bmap1, 1024); DECLARE_BITMAP(bmap2, 1024); unsigned int start, nbits; for (start = 0; start < 1024; start += 8) { for (nbits = 0; nbits < 1024 - start; nbits += 8) { memset(bmap1, 0x5a, sizeof(bmap1)); memset(bmap2, 0x5a, sizeof(bmap2)); bitmap_set(bmap1, start, nbits); __bitmap_set(bmap2, start, nbits); if (!bitmap_equal(bmap1, bmap2, 1024)) { printk("set not equal %d %d\n", start, nbits); failed_tests++; } if (!__bitmap_equal(bmap1, bmap2, 1024)) { printk("set not __equal %d %d\n", start, nbits); failed_tests++; } bitmap_clear(bmap1, start, nbits); __bitmap_clear(bmap2, start, nbits); if (!bitmap_equal(bmap1, bmap2, 1024)) { printk("clear not equal %d %d\n", start, nbits); failed_tests++; } if (!__bitmap_equal(bmap1, bmap2, 1024)) { printk("clear not __equal %d %d\n", start, nbits); failed_tests++; } } } } static const unsigned char clump_exp[] __initconst = { 0x01, /* 1 bit set */ 0x02, /* non-edge 1 bit set */ 0x00, /* zero bits set */ 0x38, /* 3 bits set across 4-bit boundary */ 0x38, /* Repeated clump */ 0x0F, /* 4 bits set */ 0xFF, /* all bits set */ 0x05, /* non-adjacent 2 bits set */ }; static void __init test_for_each_set_clump8(void) { #define CLUMP_EXP_NUMBITS 64 DECLARE_BITMAP(bits, CLUMP_EXP_NUMBITS); unsigned int start; unsigned long clump; /* set bitmap to test case */ bitmap_zero(bits, CLUMP_EXP_NUMBITS); bitmap_set(bits, 0, 1); /* 0x01 */ bitmap_set(bits, 9, 1); /* 0x02 */ bitmap_set(bits, 27, 3); /* 0x28 */ bitmap_set(bits, 35, 3); /* 0x28 */ bitmap_set(bits, 40, 4); /* 0x0F */ bitmap_set(bits, 48, 8); /* 0xFF */ bitmap_set(bits, 56, 1); /* 0x05 - part 1 */ bitmap_set(bits, 58, 1); /* 0x05 - part 2 */ for_each_set_clump8(start, clump, bits, CLUMP_EXP_NUMBITS) expect_eq_clump8(start, CLUMP_EXP_NUMBITS, clump_exp, &clump); } static void __init test_for_each_set_bit_wrap(void) { DECLARE_BITMAP(orig, 500); DECLARE_BITMAP(copy, 500); unsigned int wr, bit; bitmap_zero(orig, 500); /* Set individual bits */ for (bit = 0; bit < 500; bit += 10) bitmap_set(orig, bit, 1); /* Set range of bits */ bitmap_set(orig, 100, 50); for (wr = 0; wr < 500; wr++) { bitmap_zero(copy, 500); for_each_set_bit_wrap(bit, orig, 500, wr) bitmap_set(copy, bit, 1); expect_eq_bitmap(orig, copy, 500); } } static void __init test_for_each_set_bit(void) { DECLARE_BITMAP(orig, 500); DECLARE_BITMAP(copy, 500); unsigned int bit; bitmap_zero(orig, 500); bitmap_zero(copy, 500); /* Set individual bits */ for (bit = 0; bit < 500; bit += 10) bitmap_set(orig, bit, 1); /* Set range of bits */ bitmap_set(orig, 100, 50); for_each_set_bit(bit, orig, 500) bitmap_set(copy, bit, 1); expect_eq_bitmap(orig, copy, 500); } static void __init test_for_each_set_bit_from(void) { DECLARE_BITMAP(orig, 500); DECLARE_BITMAP(copy, 500); unsigned int wr, bit; bitmap_zero(orig, 500); /* Set individual bits */ for (bit = 0; bit < 500; bit += 10) bitmap_set(orig, bit, 1); /* Set range of bits */ bitmap_set(orig, 100, 50); for (wr = 0; wr < 500; wr++) { DECLARE_BITMAP(tmp, 500); bitmap_zero(copy, 500); bit = wr; for_each_set_bit_from(bit, orig, 500) bitmap_set(copy, bit, 1); bitmap_copy(tmp, orig, 500); bitmap_clear(tmp, 0, wr); expect_eq_bitmap(tmp, copy, 500); } } static void __init test_for_each_clear_bit(void) { DECLARE_BITMAP(orig, 500); DECLARE_BITMAP(copy, 500); unsigned int bit; bitmap_fill(orig, 500); bitmap_fill(copy, 500); /* Set individual bits */ for (bit = 0; bit < 500; bit += 10) bitmap_clear(orig, bit, 1); /* Set range of bits */ bitmap_clear(orig, 100, 50); for_each_clear_bit(bit, orig, 500) bitmap_clear(copy, bit, 1); expect_eq_bitmap(orig, copy, 500); } static void __init test_for_each_clear_bit_from(void) { DECLARE_BITMAP(orig, 500); DECLARE_BITMAP(copy, 500); unsigned int wr, bit; bitmap_fill(orig, 500); /* Set individual bits */ for (bit = 0; bit < 500; bit += 10) bitmap_clear(orig, bit, 1); /* Set range of bits */ bitmap_clear(orig, 100, 50); for (wr = 0; wr < 500; wr++) { DECLARE_BITMAP(tmp, 500); bitmap_fill(copy, 500); bit = wr; for_each_clear_bit_from(bit, orig, 500) bitmap_clear(copy, bit, 1); bitmap_copy(tmp, orig, 500); bitmap_set(tmp, 0, wr); expect_eq_bitmap(tmp, copy, 500); } } static void __init test_for_each_set_bitrange(void) { DECLARE_BITMAP(orig, 500); DECLARE_BITMAP(copy, 500); unsigned int s, e; bitmap_zero(orig, 500); bitmap_zero(copy, 500); /* Set individual bits */ for (s = 0; s < 500; s += 10) bitmap_set(orig, s, 1); /* Set range of bits */ bitmap_set(orig, 100, 50); for_each_set_bitrange(s, e, orig, 500) bitmap_set(copy, s, e-s); expect_eq_bitmap(orig, copy, 500); } static void __init test_for_each_clear_bitrange(void) { DECLARE_BITMAP(orig, 500); DECLARE_BITMAP(copy, 500); unsigned int s, e; bitmap_fill(orig, 500); bitmap_fill(copy, 500); /* Set individual bits */ for (s = 0; s < 500; s += 10) bitmap_clear(orig, s, 1); /* Set range of bits */ bitmap_clear(orig, 100, 50); for_each_clear_bitrange(s, e, orig, 500) bitmap_clear(copy, s, e-s); expect_eq_bitmap(orig, copy, 500); } static void __init test_for_each_set_bitrange_from(void) { DECLARE_BITMAP(orig, 500); DECLARE_BITMAP(copy, 500); unsigned int wr, s, e; bitmap_zero(orig, 500); /* Set individual bits */ for (s = 0; s < 500; s += 10) bitmap_set(orig, s, 1); /* Set range of bits */ bitmap_set(orig, 100, 50); for (wr = 0; wr < 500; wr++) { DECLARE_BITMAP(tmp, 500); bitmap_zero(copy, 500); s = wr; for_each_set_bitrange_from(s, e, orig, 500) bitmap_set(copy, s, e - s); bitmap_copy(tmp, orig, 500); bitmap_clear(tmp, 0, wr); expect_eq_bitmap(tmp, copy, 500); } } static void __init test_for_each_clear_bitrange_from(void) { DECLARE_BITMAP(orig, 500); DECLARE_BITMAP(copy, 500); unsigned int wr, s, e; bitmap_fill(orig, 500); /* Set individual bits */ for (s = 0; s < 500; s += 10) bitmap_clear(orig, s, 1); /* Set range of bits */ bitmap_set(orig, 100, 50); for (wr = 0; wr < 500; wr++) { DECLARE_BITMAP(tmp, 500); bitmap_fill(copy, 500); s = wr; for_each_clear_bitrange_from(s, e, orig, 500) bitmap_clear(copy, s, e - s); bitmap_copy(tmp, orig, 500); bitmap_set(tmp, 0, wr); expect_eq_bitmap(tmp, copy, 500); } } struct test_bitmap_cut { unsigned int first; unsigned int cut; unsigned int nbits; unsigned long in[4]; unsigned long expected[4]; }; static struct test_bitmap_cut test_cut[] = { { 0, 0, 8, { 0x0000000aUL, }, { 0x0000000aUL, }, }, { 0, 0, 32, { 0xdadadeadUL, }, { 0xdadadeadUL, }, }, { 0, 3, 8, { 0x000000aaUL, }, { 0x00000015UL, }, }, { 3, 3, 8, { 0x000000aaUL, }, { 0x00000012UL, }, }, { 0, 1, 32, { 0xa5a5a5a5UL, }, { 0x52d2d2d2UL, }, }, { 0, 8, 32, { 0xdeadc0deUL, }, { 0x00deadc0UL, }, }, { 1, 1, 32, { 0x5a5a5a5aUL, }, { 0x2d2d2d2cUL, }, }, { 0, 15, 32, { 0xa5a5a5a5UL, }, { 0x00014b4bUL, }, }, { 0, 16, 32, { 0xa5a5a5a5UL, }, { 0x0000a5a5UL, }, }, { 15, 15, 32, { 0xa5a5a5a5UL, }, { 0x000125a5UL, }, }, { 15, 16, 32, { 0xa5a5a5a5UL, }, { 0x0000a5a5UL, }, }, { 16, 15, 32, { 0xa5a5a5a5UL, }, { 0x0001a5a5UL, }, }, { BITS_PER_LONG, BITS_PER_LONG, BITS_PER_LONG, { 0xa5a5a5a5UL, 0xa5a5a5a5UL, }, { 0xa5a5a5a5UL, 0xa5a5a5a5UL, }, }, { 1, BITS_PER_LONG - 1, BITS_PER_LONG, { 0xa5a5a5a5UL, 0xa5a5a5a5UL, }, { 0x00000001UL, 0x00000001UL, }, }, { 0, BITS_PER_LONG * 2, BITS_PER_LONG * 2 + 1, { 0xa5a5a5a5UL, 0x00000001UL, 0x00000001UL, 0x00000001UL }, { 0x00000001UL, }, }, { 16, BITS_PER_LONG * 2 + 1, BITS_PER_LONG * 2 + 1 + 16, { 0x0000ffffUL, 0x5a5a5a5aUL, 0x5a5a5a5aUL, 0x5a5a5a5aUL }, { 0x2d2dffffUL, }, }, }; static void __init test_bitmap_cut(void) { unsigned long b[5], *in = &b[1], *out = &b[0]; /* Partial overlap */ int i; for (i = 0; i < ARRAY_SIZE(test_cut); i++) { struct test_bitmap_cut *t = &test_cut[i]; memcpy(in, t->in, sizeof(t->in)); bitmap_cut(out, in, t->first, t->cut, t->nbits); expect_eq_bitmap(t->expected, out, t->nbits); } } struct test_bitmap_print { const unsigned long *bitmap; unsigned long nbits; const char *mask; const char *list; }; static const unsigned long small_bitmap[] __initconst = { BITMAP_FROM_U64(0x3333333311111111ULL), }; static const char small_mask[] __initconst = "33333333,11111111\n"; static const char small_list[] __initconst = "0,4,8,12,16,20,24,28,32-33,36-37,40-41,44-45,48-49,52-53,56-57,60-61\n"; static const unsigned long large_bitmap[] __initconst = { BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), BITMAP_FROM_U64(0x3333333311111111ULL), }; static const char large_mask[] __initconst = "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111," "33333333,11111111,33333333,11111111\n"; static const char large_list[] __initconst = /* more than 4KB */ "0,4,8,12,16,20,24,28,32-33,36-37,40-41,44-45,48-49,52-53,56-57,60-61,64,68,72,76,80,84,88,92,96-97,100-101,104-1" "05,108-109,112-113,116-117,120-121,124-125,128,132,136,140,144,148,152,156,160-161,164-165,168-169,172-173,176-1" "77,180-181,184-185,188-189,192,196,200,204,208,212,216,220,224-225,228-229,232-233,236-237,240-241,244-245,248-2" "49,252-253,256,260,264,268,272,276,280,284,288-289,292-293,296-297,300-301,304-305,308-309,312-313,316-317,320,3" "24,328,332,336,340,344,348,352-353,356-357,360-361,364-365,368-369,372-373,376-377,380-381,384,388,392,396,400,4" "04,408,412,416-417,420-421,424-425,428-429,432-433,436-437,440-441,444-445,448,452,456,460,464,468,472,476,480-4" "81,484-485,488-489,492-493,496-497,500-501,504-505,508-509,512,516,520,524,528,532,536,540,544-545,548-549,552-5" "53,556-557,560-561,564-565,568-569,572-573,576,580,584,588,592,596,600,604,608-609,612-613,616-617,620-621,624-6" "25,628-629,632-633,636-637,640,644,648,652,656,660,664,668,672-673,676-677,680-681,684-685,688-689,692-693,696-6" "97,700-701,704,708,712,716,720,724,728,732,736-737,740-741,744-745,748-749,752-753,756-757,760-761,764-765,768,7" "72,776,780,784,788,792,796,800-801,804-805,808-809,812-813,816-817,820-821,824-825,828-829,832,836,840,844,848,8" "52,856,860,864-865,868-869,872-873,876-877,880-881,884-885,888-889,892-893,896,900,904,908,912,916,920,924,928-9" "29,932-933,936-937,940-941,944-945,948-949,952-953,956-957,960,964,968,972,976,980,984,988,992-993,996-997,1000-" "1001,1004-1005,1008-1009,1012-1013,1016-1017,1020-1021,1024,1028,1032,1036,1040,1044,1048,1052,1056-1057,1060-10" "61,1064-1065,1068-1069,1072-1073,1076-1077,1080-1081,1084-1085,1088,1092,1096,1100,1104,1108,1112,1116,1120-1121" ",1124-1125,1128-1129,1132-1133,1136-1137,1140-1141,1144-1145,1148-1149,1152,1156,1160,1164,1168,1172,1176,1180,1" "184-1185,1188-1189,1192-1193,1196-1197,1200-1201,1204-1205,1208-1209,1212-1213,1216,1220,1224,1228,1232,1236,124" "0,1244,1248-1249,1252-1253,1256-1257,1260-1261,1264-1265,1268-1269,1272-1273,1276-1277,1280,1284,1288,1292,1296," "1300,1304,1308,1312-1313,1316-1317,1320-1321,1324-1325,1328-1329,1332-1333,1336-1337,1340-1341,1344,1348,1352,13" "56,1360,1364,1368,1372,1376-1377,1380-1381,1384-1385,1388-1389,1392-1393,1396-1397,1400-1401,1404-1405,1408,1412" ",1416,1420,1424,1428,1432,1436,1440-1441,1444-1445,1448-1449,1452-1453,1456-1457,1460-1461,1464-1465,1468-1469,1" "472,1476,1480,1484,1488,1492,1496,1500,1504-1505,1508-1509,1512-1513,1516-1517,1520-1521,1524-1525,1528-1529,153" "2-1533,1536,1540,1544,1548,1552,1556,1560,1564,1568-1569,1572-1573,1576-1577,1580-1581,1584-1585,1588-1589,1592-" "1593,1596-1597,1600,1604,1608,1612,1616,1620,1624,1628,1632-1633,1636-1637,1640-1641,1644-1645,1648-1649,1652-16" "53,1656-1657,1660-1661,1664,1668,1672,1676,1680,1684,1688,1692,1696-1697,1700-1701,1704-1705,1708-1709,1712-1713" ",1716-1717,1720-1721,1724-1725,1728,1732,1736,1740,1744,1748,1752,1756,1760-1761,1764-1765,1768-1769,1772-1773,1" "776-1777,1780-1781,1784-1785,1788-1789,1792,1796,1800,1804,1808,1812,1816,1820,1824-1825,1828-1829,1832-1833,183" "6-1837,1840-1841,1844-1845,1848-1849,1852-1853,1856,1860,1864,1868,1872,1876,1880,1884,1888-1889,1892-1893,1896-" "1897,1900-1901,1904-1905,1908-1909,1912-1913,1916-1917,1920,1924,1928,1932,1936,1940,1944,1948,1952-1953,1956-19" "57,1960-1961,1964-1965,1968-1969,1972-1973,1976-1977,1980-1981,1984,1988,1992,1996,2000,2004,2008,2012,2016-2017" ",2020-2021,2024-2025,2028-2029,2032-2033,2036-2037,2040-2041,2044-2045,2048,2052,2056,2060,2064,2068,2072,2076,2" "080-2081,2084-2085,2088-2089,2092-2093,2096-2097,2100-2101,2104-2105,2108-2109,2112,2116,2120,2124,2128,2132,213" "6,2140,2144-2145,2148-2149,2152-2153,2156-2157,2160-2161,2164-2165,2168-2169,2172-2173,2176,2180,2184,2188,2192," "2196,2200,2204,2208-2209,2212-2213,2216-2217,2220-2221,2224-2225,2228-2229,2232-2233,2236-2237,2240,2244,2248,22" "52,2256,2260,2264,2268,2272-2273,2276-2277,2280-2281,2284-2285,2288-2289,2292-2293,2296-2297,2300-2301,2304,2308" ",2312,2316,2320,2324,2328,2332,2336-2337,2340-2341,2344-2345,2348-2349,2352-2353,2356-2357,2360-2361,2364-2365,2" "368,2372,2376,2380,2384,2388,2392,2396,2400-2401,2404-2405,2408-2409,2412-2413,2416-2417,2420-2421,2424-2425,242" "8-2429,2432,2436,2440,2444,2448,2452,2456,2460,2464-2465,2468-2469,2472-2473,2476-2477,2480-2481,2484-2485,2488-" "2489,2492-2493,2496,2500,2504,2508,2512,2516,2520,2524,2528-2529,2532-2533,2536-2537,2540-2541,2544-2545,2548-25" "49,2552-2553,2556-2557\n"; static const struct test_bitmap_print test_print[] __initconst = { { small_bitmap, sizeof(small_bitmap) * BITS_PER_BYTE, small_mask, small_list }, { large_bitmap, sizeof(large_bitmap) * BITS_PER_BYTE, large_mask, large_list }, }; static void __init test_bitmap_print_buf(void) { int i; for (i = 0; i < ARRAY_SIZE(test_print); i++) { const struct test_bitmap_print *t = &test_print[i]; int n; n = bitmap_print_bitmask_to_buf(print_buf, t->bitmap, t->nbits, 0, 2 * PAGE_SIZE); expect_eq_uint(strlen(t->mask) + 1, n); expect_eq_str(t->mask, print_buf, n); n = bitmap_print_list_to_buf(print_buf, t->bitmap, t->nbits, 0, 2 * PAGE_SIZE); expect_eq_uint(strlen(t->list) + 1, n); expect_eq_str(t->list, print_buf, n); /* test by non-zero offset */ if (strlen(t->list) > PAGE_SIZE) { n = bitmap_print_list_to_buf(print_buf, t->bitmap, t->nbits, PAGE_SIZE, PAGE_SIZE); expect_eq_uint(strlen(t->list) + 1 - PAGE_SIZE, n); expect_eq_str(t->list + PAGE_SIZE, print_buf, n); } } } /* * FIXME: Clang breaks compile-time evaluations when KASAN and GCOV are enabled. * To workaround it, GCOV is force-disabled in Makefile for this configuration. */ static void __init test_bitmap_const_eval(void) { DECLARE_BITMAP(bitmap, BITS_PER_LONG); unsigned long initvar = BIT(2); unsigned long bitopvar = 0; unsigned long var = 0; int res; /* * Compilers must be able to optimize all of those to compile-time * constants on any supported optimization level (-O2, -Os) and any * architecture. Otherwise, trigger a build bug. * The whole function gets optimized out then, there's nothing to do * in runtime. */ /* Equals to `unsigned long bitmap[1] = { GENMASK(6, 5), }` */ bitmap_clear(bitmap, 0, BITS_PER_LONG); if (!test_bit(7, bitmap)) bitmap_set(bitmap, 5, 2); /* Equals to `unsigned long bitopvar = BIT(20)` */ __change_bit(31, &bitopvar); bitmap_shift_right(&bitopvar, &bitopvar, 11, BITS_PER_LONG); /* Equals to `unsigned long var = BIT(25)` */ var |= BIT(25); if (var & BIT(0)) var ^= GENMASK(9, 6); /* __const_hweight<32|64>(GENMASK(6, 5)) == 2 */ res = bitmap_weight(bitmap, 20); BUILD_BUG_ON(!__builtin_constant_p(res)); BUILD_BUG_ON(res != 2); /* !(BIT(31) & BIT(18)) == 1 */ res = !test_bit(18, &bitopvar); BUILD_BUG_ON(!__builtin_constant_p(res)); BUILD_BUG_ON(!res); /* BIT(2) & GENMASK(14, 8) == 0 */ res = initvar & GENMASK(14, 8); BUILD_BUG_ON(!__builtin_constant_p(res)); BUILD_BUG_ON(res); /* ~BIT(25) */ BUILD_BUG_ON(!__builtin_constant_p(~var)); BUILD_BUG_ON(~var != ~BIT(25)); /* ~BIT(25) | BIT(25) == ~0UL */ bitmap_complement(&var, &var, BITS_PER_LONG); __assign_bit(25, &var, true); /* !(~(~0UL)) == 1 */ res = bitmap_full(&var, BITS_PER_LONG); BUILD_BUG_ON(!__builtin_constant_p(res)); BUILD_BUG_ON(!res); } /* * Test bitmap should be big enough to include the cases when start is not in * the first word, and start+nbits lands in the following word. */ #define TEST_BIT_LEN (1000) /* * Helper function to test bitmap_write() overwriting the chosen byte pattern. */ static void __init test_bitmap_write_helper(const char *pattern) { DECLARE_BITMAP(bitmap, TEST_BIT_LEN); DECLARE_BITMAP(exp_bitmap, TEST_BIT_LEN); DECLARE_BITMAP(pat_bitmap, TEST_BIT_LEN); unsigned long w, r, bit; int i, n, nbits; /* * Only parse the pattern once and store the result in the intermediate * bitmap. */ bitmap_parselist(pattern, pat_bitmap, TEST_BIT_LEN); /* * Check that writing a single bit does not accidentally touch the * adjacent bits. */ for (i = 0; i < TEST_BIT_LEN; i++) { bitmap_copy(bitmap, pat_bitmap, TEST_BIT_LEN); bitmap_copy(exp_bitmap, pat_bitmap, TEST_BIT_LEN); for (bit = 0; bit <= 1; bit++) { bitmap_write(bitmap, bit, i, 1); __assign_bit(i, exp_bitmap, bit); expect_eq_bitmap(exp_bitmap, bitmap, TEST_BIT_LEN); } } /* Ensure writing 0 bits does not change anything. */ bitmap_copy(bitmap, pat_bitmap, TEST_BIT_LEN); bitmap_copy(exp_bitmap, pat_bitmap, TEST_BIT_LEN); for (i = 0; i < TEST_BIT_LEN; i++) { bitmap_write(bitmap, ~0UL, i, 0); expect_eq_bitmap(exp_bitmap, bitmap, TEST_BIT_LEN); } for (nbits = BITS_PER_LONG; nbits >= 1; nbits--) { w = IS_ENABLED(CONFIG_64BIT) ? 0xdeadbeefdeadbeefUL : 0xdeadbeefUL; w >>= (BITS_PER_LONG - nbits); for (i = 0; i <= TEST_BIT_LEN - nbits; i++) { bitmap_copy(bitmap, pat_bitmap, TEST_BIT_LEN); bitmap_copy(exp_bitmap, pat_bitmap, TEST_BIT_LEN); for (n = 0; n < nbits; n++) __assign_bit(i + n, exp_bitmap, w & BIT(n)); bitmap_write(bitmap, w, i, nbits); expect_eq_bitmap(exp_bitmap, bitmap, TEST_BIT_LEN); r = bitmap_read(bitmap, i, nbits); expect_eq_ulong(r, w); } } } static void __init test_bitmap_read_write(void) { unsigned char *pattern[3] = {"", "all:1/2", "all"}; DECLARE_BITMAP(bitmap, TEST_BIT_LEN); unsigned long zero_bits = 0, bits_per_long = BITS_PER_LONG; unsigned long val; int i, pi; /* * Reading/writing zero bits should not crash the kernel. * READ_ONCE() prevents constant folding. */ bitmap_write(NULL, 0, 0, READ_ONCE(zero_bits)); /* Return value of bitmap_read() is undefined here. */ bitmap_read(NULL, 0, READ_ONCE(zero_bits)); /* * Reading/writing more than BITS_PER_LONG bits should not crash the * kernel. READ_ONCE() prevents constant folding. */ bitmap_write(NULL, 0, 0, READ_ONCE(bits_per_long) + 1); /* Return value of bitmap_read() is undefined here. */ bitmap_read(NULL, 0, READ_ONCE(bits_per_long) + 1); /* * Ensure that bitmap_read() reads the same value that was previously * written, and two consequent values are correctly merged. * The resulting bit pattern is asymmetric to rule out possible issues * with bit numeration order. */ for (i = 0; i < TEST_BIT_LEN - 7; i++) { bitmap_zero(bitmap, TEST_BIT_LEN); bitmap_write(bitmap, 0b10101UL, i, 5); val = bitmap_read(bitmap, i, 5); expect_eq_ulong(0b10101UL, val); bitmap_write(bitmap, 0b101UL, i + 5, 3); val = bitmap_read(bitmap, i + 5, 3); expect_eq_ulong(0b101UL, val); val = bitmap_read(bitmap, i, 8); expect_eq_ulong(0b10110101UL, val); } for (pi = 0; pi < ARRAY_SIZE(pattern); pi++) test_bitmap_write_helper(pattern[pi]); } static void __init test_bitmap_read_perf(void) { DECLARE_BITMAP(bitmap, TEST_BIT_LEN); unsigned int cnt, nbits, i; unsigned long val; ktime_t time; bitmap_fill(bitmap, TEST_BIT_LEN); time = ktime_get(); for (cnt = 0; cnt < 5; cnt++) { for (nbits = 1; nbits <= BITS_PER_LONG; nbits++) { for (i = 0; i < TEST_BIT_LEN; i++) { if (i + nbits > TEST_BIT_LEN) break; /* * Prevent the compiler from optimizing away the * bitmap_read() by using its value. */ WRITE_ONCE(val, bitmap_read(bitmap, i, nbits)); } } } time = ktime_get() - time; pr_info("Time spent in %s:\t%llu\n", __func__, time); } static void __init test_bitmap_write_perf(void) { DECLARE_BITMAP(bitmap, TEST_BIT_LEN); unsigned int cnt, nbits, i; unsigned long val = 0xfeedface; ktime_t time; bitmap_zero(bitmap, TEST_BIT_LEN); time = ktime_get(); for (cnt = 0; cnt < 5; cnt++) { for (nbits = 1; nbits <= BITS_PER_LONG; nbits++) { for (i = 0; i < TEST_BIT_LEN; i++) { if (i + nbits > TEST_BIT_LEN) break; bitmap_write(bitmap, val, i, nbits); } } } time = ktime_get() - time; pr_info("Time spent in %s:\t%llu\n", __func__, time); } #undef TEST_BIT_LEN static void __init selftest(void) { test_zero_clear(); test_fill_set(); test_copy(); test_bitmap_region(); test_replace(); test_bitmap_sg(); test_bitmap_arr32(); test_bitmap_arr64(); test_bitmap_parse(); test_bitmap_parselist(); test_bitmap_printlist(); test_mem_optimisations(); test_bitmap_cut(); test_bitmap_print_buf(); test_bitmap_const_eval(); test_bitmap_read_write(); test_bitmap_read_perf(); test_bitmap_write_perf(); test_find_nth_bit(); test_for_each_set_bit(); test_for_each_set_bit_from(); test_for_each_clear_bit(); test_for_each_clear_bit_from(); test_for_each_set_bitrange(); test_for_each_clear_bitrange(); test_for_each_set_bitrange_from(); test_for_each_clear_bitrange_from(); test_for_each_set_clump8(); test_for_each_set_bit_wrap(); } KSTM_MODULE_LOADERS(test_bitmap); MODULE_AUTHOR("david decotigny <david.decotigny@googlers.com>"); MODULE_DESCRIPTION("Test cases for bitmap API"); MODULE_LICENSE("GPL");
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