1*913e65a2SCoiby Xu // SPDX-License-Identifier: GPL-2.0-only 2*913e65a2SCoiby Xu #include <kunit/test.h> 3*913e65a2SCoiby Xu #include <linux/crash_core.h> // For struct crash_mem and struct range if defined there 4*913e65a2SCoiby Xu 5*913e65a2SCoiby Xu // Helper to create and initialize crash_mem 6*913e65a2SCoiby Xu static struct crash_mem *create_crash_mem(struct kunit *test, unsigned int max_ranges, 7*913e65a2SCoiby Xu unsigned int nr_initial_ranges, 8*913e65a2SCoiby Xu const struct range *initial_ranges) 9*913e65a2SCoiby Xu { 10*913e65a2SCoiby Xu struct crash_mem *mem; 11*913e65a2SCoiby Xu size_t alloc_size; 12*913e65a2SCoiby Xu 13*913e65a2SCoiby Xu // Check if max_ranges can even hold initial_ranges 14*913e65a2SCoiby Xu if (max_ranges < nr_initial_ranges) { 15*913e65a2SCoiby Xu kunit_err(test, "max_ranges (%u) < nr_initial_ranges (%u)\n", 16*913e65a2SCoiby Xu max_ranges, nr_initial_ranges); 17*913e65a2SCoiby Xu return NULL; 18*913e65a2SCoiby Xu } 19*913e65a2SCoiby Xu 20*913e65a2SCoiby Xu alloc_size = sizeof(struct crash_mem) + (size_t)max_ranges * sizeof(struct range); 21*913e65a2SCoiby Xu mem = kunit_kzalloc(test, alloc_size, GFP_KERNEL); 22*913e65a2SCoiby Xu if (!mem) { 23*913e65a2SCoiby Xu kunit_err(test, "Failed to allocate crash_mem\n"); 24*913e65a2SCoiby Xu return NULL; 25*913e65a2SCoiby Xu } 26*913e65a2SCoiby Xu 27*913e65a2SCoiby Xu mem->max_nr_ranges = max_ranges; 28*913e65a2SCoiby Xu mem->nr_ranges = nr_initial_ranges; 29*913e65a2SCoiby Xu if (initial_ranges && nr_initial_ranges > 0) { 30*913e65a2SCoiby Xu memcpy(mem->ranges, initial_ranges, 31*913e65a2SCoiby Xu nr_initial_ranges * sizeof(struct range)); 32*913e65a2SCoiby Xu } 33*913e65a2SCoiby Xu 34*913e65a2SCoiby Xu return mem; 35*913e65a2SCoiby Xu } 36*913e65a2SCoiby Xu 37*913e65a2SCoiby Xu // Helper to compare ranges for assertions 38*913e65a2SCoiby Xu static void assert_ranges_equal(struct kunit *test, 39*913e65a2SCoiby Xu const struct range *actual_ranges, 40*913e65a2SCoiby Xu unsigned int actual_nr_ranges, 41*913e65a2SCoiby Xu const struct range *expected_ranges, 42*913e65a2SCoiby Xu unsigned int expected_nr_ranges, 43*913e65a2SCoiby Xu const char *case_name) 44*913e65a2SCoiby Xu { 45*913e65a2SCoiby Xu unsigned int i; 46*913e65a2SCoiby Xu 47*913e65a2SCoiby Xu KUNIT_ASSERT_EQ_MSG(test, expected_nr_ranges, actual_nr_ranges, 48*913e65a2SCoiby Xu "%s: Number of ranges mismatch.", case_name); 49*913e65a2SCoiby Xu 50*913e65a2SCoiby Xu for (i = 0; i < expected_nr_ranges; i++) { 51*913e65a2SCoiby Xu KUNIT_ASSERT_EQ_MSG(test, expected_ranges[i].start, actual_ranges[i].start, 52*913e65a2SCoiby Xu "%s: Range %u start mismatch.", case_name, i); 53*913e65a2SCoiby Xu KUNIT_ASSERT_EQ_MSG(test, expected_ranges[i].end, actual_ranges[i].end, 54*913e65a2SCoiby Xu "%s: Range %u end mismatch.", case_name, i); 55*913e65a2SCoiby Xu } 56*913e65a2SCoiby Xu } 57*913e65a2SCoiby Xu 58*913e65a2SCoiby Xu // Structure for test parameters 59*913e65a2SCoiby Xu struct exclude_test_param { 60*913e65a2SCoiby Xu const char *description; 61*913e65a2SCoiby Xu unsigned long long exclude_start; 62*913e65a2SCoiby Xu unsigned long long exclude_end; 63*913e65a2SCoiby Xu unsigned int initial_max_ranges; 64*913e65a2SCoiby Xu const struct range *initial_ranges; 65*913e65a2SCoiby Xu unsigned int initial_nr_ranges; 66*913e65a2SCoiby Xu const struct range *expected_ranges; 67*913e65a2SCoiby Xu unsigned int expected_nr_ranges; 68*913e65a2SCoiby Xu int expected_ret; 69*913e65a2SCoiby Xu }; 70*913e65a2SCoiby Xu 71*913e65a2SCoiby Xu static void run_exclude_test_case(struct kunit *test, const struct exclude_test_param *params) 72*913e65a2SCoiby Xu { 73*913e65a2SCoiby Xu struct crash_mem *mem; 74*913e65a2SCoiby Xu int ret; 75*913e65a2SCoiby Xu 76*913e65a2SCoiby Xu kunit_info(test, "%s", params->description); 77*913e65a2SCoiby Xu 78*913e65a2SCoiby Xu mem = create_crash_mem(test, params->initial_max_ranges, 79*913e65a2SCoiby Xu params->initial_nr_ranges, params->initial_ranges); 80*913e65a2SCoiby Xu if (!mem) 81*913e65a2SCoiby Xu return; // Error already logged by create_crash_mem or kunit_kzalloc 82*913e65a2SCoiby Xu 83*913e65a2SCoiby Xu ret = crash_exclude_mem_range(mem, params->exclude_start, params->exclude_end); 84*913e65a2SCoiby Xu 85*913e65a2SCoiby Xu KUNIT_ASSERT_EQ_MSG(test, params->expected_ret, ret, 86*913e65a2SCoiby Xu "%s: Return value mismatch.", params->description); 87*913e65a2SCoiby Xu 88*913e65a2SCoiby Xu if (params->expected_ret == 0) { 89*913e65a2SCoiby Xu assert_ranges_equal(test, mem->ranges, mem->nr_ranges, 90*913e65a2SCoiby Xu params->expected_ranges, params->expected_nr_ranges, 91*913e65a2SCoiby Xu params->description); 92*913e65a2SCoiby Xu } else { 93*913e65a2SCoiby Xu // If an error is expected, nr_ranges might still be relevant to check 94*913e65a2SCoiby Xu // depending on the exact point of failure. For ENOMEM on split, 95*913e65a2SCoiby Xu // nr_ranges shouldn't have changed. 96*913e65a2SCoiby Xu KUNIT_ASSERT_EQ_MSG(test, params->initial_nr_ranges, 97*913e65a2SCoiby Xu mem->nr_ranges, 98*913e65a2SCoiby Xu "%s: Number of ranges mismatch on error.", 99*913e65a2SCoiby Xu params->description); 100*913e65a2SCoiby Xu } 101*913e65a2SCoiby Xu } 102*913e65a2SCoiby Xu 103*913e65a2SCoiby Xu /* 104*913e65a2SCoiby Xu * Test Strategy 1: One to-be-excluded range A and one existing range B. 105*913e65a2SCoiby Xu * 106*913e65a2SCoiby Xu * Exhaust all possibilities of the position of A regarding B. 107*913e65a2SCoiby Xu */ 108*913e65a2SCoiby Xu 109*913e65a2SCoiby Xu static const struct range single_range_b = { .start = 100, .end = 199 }; 110*913e65a2SCoiby Xu 111*913e65a2SCoiby Xu static const struct exclude_test_param exclude_single_range_test_data[] = { 112*913e65a2SCoiby Xu { 113*913e65a2SCoiby Xu .description = "1.1: A is left of B, no overlap", 114*913e65a2SCoiby Xu .exclude_start = 10, .exclude_end = 50, 115*913e65a2SCoiby Xu .initial_max_ranges = 1, 116*913e65a2SCoiby Xu .initial_ranges = &single_range_b, .initial_nr_ranges = 1, 117*913e65a2SCoiby Xu .expected_ranges = &single_range_b, .expected_nr_ranges = 1, 118*913e65a2SCoiby Xu .expected_ret = 0, 119*913e65a2SCoiby Xu }, 120*913e65a2SCoiby Xu { 121*913e65a2SCoiby Xu .description = "1.2: A's right boundary touches B's left boundary", 122*913e65a2SCoiby Xu .exclude_start = 10, .exclude_end = 99, 123*913e65a2SCoiby Xu .initial_max_ranges = 1, 124*913e65a2SCoiby Xu .initial_ranges = &single_range_b, .initial_nr_ranges = 1, 125*913e65a2SCoiby Xu .expected_ranges = &single_range_b, .expected_nr_ranges = 1, 126*913e65a2SCoiby Xu .expected_ret = 0, 127*913e65a2SCoiby Xu }, 128*913e65a2SCoiby Xu { 129*913e65a2SCoiby Xu .description = "1.3: A overlaps B's left part", 130*913e65a2SCoiby Xu .exclude_start = 50, .exclude_end = 149, 131*913e65a2SCoiby Xu .initial_max_ranges = 1, 132*913e65a2SCoiby Xu .initial_ranges = &single_range_b, .initial_nr_ranges = 1, 133*913e65a2SCoiby Xu .expected_ranges = (const struct range[]){{ .start = 150, .end = 199 }}, 134*913e65a2SCoiby Xu .expected_nr_ranges = 1, 135*913e65a2SCoiby Xu .expected_ret = 0, 136*913e65a2SCoiby Xu }, 137*913e65a2SCoiby Xu { 138*913e65a2SCoiby Xu .description = "1.4: A is completely inside B", 139*913e65a2SCoiby Xu .exclude_start = 120, .exclude_end = 179, 140*913e65a2SCoiby Xu .initial_max_ranges = 2, // Needs space for split 141*913e65a2SCoiby Xu .initial_ranges = &single_range_b, .initial_nr_ranges = 1, 142*913e65a2SCoiby Xu .expected_ranges = (const struct range[]){ 143*913e65a2SCoiby Xu { .start = 100, .end = 119 }, 144*913e65a2SCoiby Xu { .start = 180, .end = 199 } 145*913e65a2SCoiby Xu }, 146*913e65a2SCoiby Xu .expected_nr_ranges = 2, 147*913e65a2SCoiby Xu .expected_ret = 0, 148*913e65a2SCoiby Xu }, 149*913e65a2SCoiby Xu { 150*913e65a2SCoiby Xu .description = "1.5: A overlaps B's right part", 151*913e65a2SCoiby Xu .exclude_start = 150, .exclude_end = 249, 152*913e65a2SCoiby Xu .initial_max_ranges = 1, 153*913e65a2SCoiby Xu .initial_ranges = &single_range_b, .initial_nr_ranges = 1, 154*913e65a2SCoiby Xu .expected_ranges = (const struct range[]){{ .start = 100, .end = 149 }}, 155*913e65a2SCoiby Xu .expected_nr_ranges = 1, 156*913e65a2SCoiby Xu .expected_ret = 0, 157*913e65a2SCoiby Xu }, 158*913e65a2SCoiby Xu { 159*913e65a2SCoiby Xu .description = "1.6: A's left boundary touches B's right boundary", 160*913e65a2SCoiby Xu .exclude_start = 200, .exclude_end = 250, 161*913e65a2SCoiby Xu .initial_max_ranges = 1, 162*913e65a2SCoiby Xu .initial_ranges = &single_range_b, .initial_nr_ranges = 1, 163*913e65a2SCoiby Xu .expected_ranges = &single_range_b, .expected_nr_ranges = 1, 164*913e65a2SCoiby Xu .expected_ret = 0, 165*913e65a2SCoiby Xu }, 166*913e65a2SCoiby Xu { 167*913e65a2SCoiby Xu .description = "1.7: A is right of B, no overlap", 168*913e65a2SCoiby Xu .exclude_start = 250, .exclude_end = 300, 169*913e65a2SCoiby Xu .initial_max_ranges = 1, 170*913e65a2SCoiby Xu .initial_ranges = &single_range_b, .initial_nr_ranges = 1, 171*913e65a2SCoiby Xu .expected_ranges = &single_range_b, .expected_nr_ranges = 1, 172*913e65a2SCoiby Xu .expected_ret = 0, 173*913e65a2SCoiby Xu }, 174*913e65a2SCoiby Xu { 175*913e65a2SCoiby Xu .description = "1.8: A completely covers B and extends beyond", 176*913e65a2SCoiby Xu .exclude_start = 50, .exclude_end = 250, 177*913e65a2SCoiby Xu .initial_max_ranges = 1, 178*913e65a2SCoiby Xu .initial_ranges = &single_range_b, .initial_nr_ranges = 1, 179*913e65a2SCoiby Xu .expected_ranges = NULL, .expected_nr_ranges = 0, 180*913e65a2SCoiby Xu .expected_ret = 0, 181*913e65a2SCoiby Xu }, 182*913e65a2SCoiby Xu { 183*913e65a2SCoiby Xu .description = "1.9: A covers B and extends to the left", 184*913e65a2SCoiby Xu .exclude_start = 50, .exclude_end = 199, // A ends exactly where B ends 185*913e65a2SCoiby Xu .initial_max_ranges = 1, 186*913e65a2SCoiby Xu .initial_ranges = &single_range_b, .initial_nr_ranges = 1, 187*913e65a2SCoiby Xu .expected_ranges = NULL, .expected_nr_ranges = 0, 188*913e65a2SCoiby Xu .expected_ret = 0, 189*913e65a2SCoiby Xu }, 190*913e65a2SCoiby Xu { 191*913e65a2SCoiby Xu .description = "1.10: A covers B and extends to the right", 192*913e65a2SCoiby Xu .exclude_start = 100, .exclude_end = 250, // A starts exactly where B starts 193*913e65a2SCoiby Xu .initial_max_ranges = 1, 194*913e65a2SCoiby Xu .initial_ranges = &single_range_b, .initial_nr_ranges = 1, 195*913e65a2SCoiby Xu .expected_ranges = NULL, .expected_nr_ranges = 0, 196*913e65a2SCoiby Xu .expected_ret = 0, 197*913e65a2SCoiby Xu }, 198*913e65a2SCoiby Xu { 199*913e65a2SCoiby Xu .description = "1.11: A is identical to B", 200*913e65a2SCoiby Xu .exclude_start = 100, .exclude_end = 199, 201*913e65a2SCoiby Xu .initial_max_ranges = 1, 202*913e65a2SCoiby Xu .initial_ranges = &single_range_b, .initial_nr_ranges = 1, 203*913e65a2SCoiby Xu .expected_ranges = NULL, .expected_nr_ranges = 0, 204*913e65a2SCoiby Xu .expected_ret = 0, 205*913e65a2SCoiby Xu }, 206*913e65a2SCoiby Xu { 207*913e65a2SCoiby Xu .description = "1.12: A is a point, left of B, no overlap", 208*913e65a2SCoiby Xu .exclude_start = 10, .exclude_end = 10, 209*913e65a2SCoiby Xu .initial_max_ranges = 1, 210*913e65a2SCoiby Xu .initial_ranges = &single_range_b, .initial_nr_ranges = 1, 211*913e65a2SCoiby Xu .expected_ranges = &single_range_b, .expected_nr_ranges = 1, 212*913e65a2SCoiby Xu .expected_ret = 0, 213*913e65a2SCoiby Xu }, 214*913e65a2SCoiby Xu { 215*913e65a2SCoiby Xu .description = "1.13: A is a point, at start of B", 216*913e65a2SCoiby Xu .exclude_start = 100, .exclude_end = 100, 217*913e65a2SCoiby Xu .initial_max_ranges = 1, 218*913e65a2SCoiby Xu .initial_ranges = &single_range_b, .initial_nr_ranges = 1, 219*913e65a2SCoiby Xu .expected_ranges = (const struct range[]){{ .start = 101, .end = 199 }}, 220*913e65a2SCoiby Xu .expected_nr_ranges = 1, 221*913e65a2SCoiby Xu .expected_ret = 0, 222*913e65a2SCoiby Xu }, 223*913e65a2SCoiby Xu { 224*913e65a2SCoiby Xu .description = "1.14: A is a point, in middle of B (causes split)", 225*913e65a2SCoiby Xu .exclude_start = 150, .exclude_end = 150, 226*913e65a2SCoiby Xu .initial_max_ranges = 2, // Needs space for split 227*913e65a2SCoiby Xu .initial_ranges = &single_range_b, .initial_nr_ranges = 1, 228*913e65a2SCoiby Xu .expected_ranges = (const struct range[]){ 229*913e65a2SCoiby Xu { .start = 100, .end = 149 }, 230*913e65a2SCoiby Xu { .start = 151, .end = 199 } 231*913e65a2SCoiby Xu }, 232*913e65a2SCoiby Xu .expected_nr_ranges = 2, 233*913e65a2SCoiby Xu .expected_ret = 0, 234*913e65a2SCoiby Xu }, 235*913e65a2SCoiby Xu { 236*913e65a2SCoiby Xu .description = "1.15: A is a point, at end of B", 237*913e65a2SCoiby Xu .exclude_start = 199, .exclude_end = 199, 238*913e65a2SCoiby Xu .initial_max_ranges = 1, 239*913e65a2SCoiby Xu .initial_ranges = &single_range_b, .initial_nr_ranges = 1, 240*913e65a2SCoiby Xu .expected_ranges = (const struct range[]){{ .start = 100, .end = 198 }}, 241*913e65a2SCoiby Xu .expected_nr_ranges = 1, 242*913e65a2SCoiby Xu .expected_ret = 0, 243*913e65a2SCoiby Xu }, 244*913e65a2SCoiby Xu { 245*913e65a2SCoiby Xu .description = "1.16: A is a point, right of B, no overlap", 246*913e65a2SCoiby Xu .exclude_start = 250, .exclude_end = 250, 247*913e65a2SCoiby Xu .initial_max_ranges = 1, 248*913e65a2SCoiby Xu .initial_ranges = &single_range_b, .initial_nr_ranges = 1, 249*913e65a2SCoiby Xu .expected_ranges = &single_range_b, .expected_nr_ranges = 1, 250*913e65a2SCoiby Xu .expected_ret = 0, 251*913e65a2SCoiby Xu }, 252*913e65a2SCoiby Xu // ENOMEM case for single range split 253*913e65a2SCoiby Xu { 254*913e65a2SCoiby Xu .description = "1.17: A completely inside B (split), no space (ENOMEM)", 255*913e65a2SCoiby Xu .exclude_start = 120, .exclude_end = 179, 256*913e65a2SCoiby Xu .initial_max_ranges = 1, // Not enough for split 257*913e65a2SCoiby Xu .initial_ranges = &single_range_b, .initial_nr_ranges = 1, 258*913e65a2SCoiby Xu .expected_ranges = NULL, // Not checked on error by assert_ranges_equal for content 259*913e65a2SCoiby Xu .expected_nr_ranges = 1, // Should remain unchanged 260*913e65a2SCoiby Xu .expected_ret = -ENOMEM, 261*913e65a2SCoiby Xu }, 262*913e65a2SCoiby Xu }; 263*913e65a2SCoiby Xu 264*913e65a2SCoiby Xu 265*913e65a2SCoiby Xu static void exclude_single_range_test(struct kunit *test) 266*913e65a2SCoiby Xu { 267*913e65a2SCoiby Xu size_t i; 268*913e65a2SCoiby Xu 269*913e65a2SCoiby Xu for (i = 0; i < ARRAY_SIZE(exclude_single_range_test_data); i++) { 270*913e65a2SCoiby Xu kunit_log(KERN_INFO, test, "Running: %s", exclude_single_range_test_data[i].description); 271*913e65a2SCoiby Xu run_exclude_test_case(test, &exclude_single_range_test_data[i]); 272*913e65a2SCoiby Xu // KUnit will stop on first KUNIT_ASSERT failure within run_exclude_test_case 273*913e65a2SCoiby Xu } 274*913e65a2SCoiby Xu } 275*913e65a2SCoiby Xu 276*913e65a2SCoiby Xu /* 277*913e65a2SCoiby Xu * Test Strategy 2: Regression test. 278*913e65a2SCoiby Xu */ 279*913e65a2SCoiby Xu 280*913e65a2SCoiby Xu static const struct exclude_test_param exclude_range_regression_test_data[] = { 281*913e65a2SCoiby Xu // Test data from commit a2e9a95d2190 282*913e65a2SCoiby Xu { 283*913e65a2SCoiby Xu .description = "2.1: exclude low 1M", 284*913e65a2SCoiby Xu .exclude_start = 0, .exclude_end = (1 << 20) - 1, 285*913e65a2SCoiby Xu .initial_max_ranges = 3, 286*913e65a2SCoiby Xu .initial_ranges = (const struct range[]){ 287*913e65a2SCoiby Xu { .start = 0, .end = 0x3efff }, 288*913e65a2SCoiby Xu { .start = 0x3f000, .end = 0x3ffff }, 289*913e65a2SCoiby Xu { .start = 0x40000, .end = 0x9ffff } 290*913e65a2SCoiby Xu }, 291*913e65a2SCoiby Xu .initial_nr_ranges = 3, 292*913e65a2SCoiby Xu .expected_nr_ranges = 0, 293*913e65a2SCoiby Xu .expected_ret = 0, 294*913e65a2SCoiby Xu }, 295*913e65a2SCoiby Xu // Test data from https://lore.kernel.org/all/ZXrY7QbXAlxydsSC@MiWiFi-R3L-srv/T/#u 296*913e65a2SCoiby Xu { 297*913e65a2SCoiby Xu .description = "2.2: when range out of bound", 298*913e65a2SCoiby Xu .exclude_start = 100, .exclude_end = 200, 299*913e65a2SCoiby Xu .initial_max_ranges = 3, 300*913e65a2SCoiby Xu .initial_ranges = (const struct range[]){ 301*913e65a2SCoiby Xu { .start = 1, .end = 299 }, 302*913e65a2SCoiby Xu { .start = 401, .end = 1000 }, 303*913e65a2SCoiby Xu { .start = 1001, .end = 2000 } 304*913e65a2SCoiby Xu }, 305*913e65a2SCoiby Xu .initial_nr_ranges = 3, 306*913e65a2SCoiby Xu .expected_ranges = NULL, // Not checked on error by assert_ranges_equal for content 307*913e65a2SCoiby Xu .expected_nr_ranges = 3, // Should remain unchanged 308*913e65a2SCoiby Xu .expected_ret = -ENOMEM 309*913e65a2SCoiby Xu }, 310*913e65a2SCoiby Xu 311*913e65a2SCoiby Xu }; 312*913e65a2SCoiby Xu 313*913e65a2SCoiby Xu 314*913e65a2SCoiby Xu static void exclude_range_regression_test(struct kunit *test) 315*913e65a2SCoiby Xu { 316*913e65a2SCoiby Xu size_t i; 317*913e65a2SCoiby Xu 318*913e65a2SCoiby Xu for (i = 0; i < ARRAY_SIZE(exclude_range_regression_test_data); i++) { 319*913e65a2SCoiby Xu kunit_log(KERN_INFO, test, "Running: %s", exclude_range_regression_test_data[i].description); 320*913e65a2SCoiby Xu run_exclude_test_case(test, &exclude_range_regression_test_data[i]); 321*913e65a2SCoiby Xu // KUnit will stop on first KUNIT_ASSERT failure within run_exclude_test_case 322*913e65a2SCoiby Xu } 323*913e65a2SCoiby Xu } 324*913e65a2SCoiby Xu 325*913e65a2SCoiby Xu /* 326*913e65a2SCoiby Xu * KUnit Test Suite 327*913e65a2SCoiby Xu */ 328*913e65a2SCoiby Xu static struct kunit_case crash_exclude_mem_range_test_cases[] = { 329*913e65a2SCoiby Xu KUNIT_CASE(exclude_single_range_test), 330*913e65a2SCoiby Xu KUNIT_CASE(exclude_range_regression_test), 331*913e65a2SCoiby Xu {} 332*913e65a2SCoiby Xu }; 333*913e65a2SCoiby Xu 334*913e65a2SCoiby Xu static struct kunit_suite crash_exclude_mem_range_suite = { 335*913e65a2SCoiby Xu .name = "crash_exclude_mem_range_tests", 336*913e65a2SCoiby Xu .test_cases = crash_exclude_mem_range_test_cases, 337*913e65a2SCoiby Xu // .init and .exit can be NULL if not needed globally for the suite 338*913e65a2SCoiby Xu }; 339*913e65a2SCoiby Xu 340*913e65a2SCoiby Xu kunit_test_suite(crash_exclude_mem_range_suite); 341*913e65a2SCoiby Xu 342*913e65a2SCoiby Xu MODULE_DESCRIPTION("crash dump KUnit test suite"); 343*913e65a2SCoiby Xu MODULE_LICENSE("GPL"); 344