test/test/test_memzone.c

   1 /* SPDX-License-Identifier: BSD-3-Clause
   2  * Copyright(c) 2010-2014 Intel Corporation
   3  */
   4
   5 #include <stdio.h>
   6 #include <stdint.h>
   7 #include <string.h>
   8 #include <inttypes.h>
   9 #include <sys/queue.h>
  10
  11 #include <rte_random.h>
  12 #include <rte_cycles.h>
  13 #include <rte_memory.h>
  14 #include <rte_memzone.h>
  15 #include <rte_eal.h>
  16 #include <rte_eal_memconfig.h>
  17 #include <rte_common.h>
  18 #include <rte_string_fns.h>
  19 #include <rte_errno.h>
  20 #include <rte_malloc.h>
  21 #include "../../lib/librte_eal/common/malloc_elem.h"
  22
  23 #include "test.h"
  24
  25 /*
  26  * Memzone
  27  * =======
  28  *
  29  * - Search for three reserved zones or reserve them if they do not exist:
  30  *
  31  *   - One is on any socket id.
  32  *   - The second is on socket 0.
  33  *   - The last one is on socket 1 (if socket 1 exists).
  34  *
  35  * - Check that the zones exist.
  36  *
  37  * - Check that the zones are cache-aligned.
  38  *
  39  * - Check that zones do not overlap.
  40  *
  41  * - Check that the zones are on the correct socket id.
  42  *
  43  * - Check that a lookup of the first zone returns the same pointer.
  44  *
  45  * - Check that it is not possible to create another zone with the
  46  *   same name as an existing zone.
  47  *
  48  * - Check flags for specific huge page size reservation
  49  */
  50
  51 #define TEST_MEMZONE_NAME(suffix) "MZ_TEST_" suffix
  52
  53 /* Test if memory overlaps: return 1 if true, or 0 if false. */
  54 static int
  55 is_memory_overlap(rte_iova_t ptr1, size_t len1, rte_iova_t ptr2, size_t len2)
  56 {
  57         if (ptr2 >= ptr1 && (ptr2 - ptr1) < len1)
  58                 return 1;
  59         else if (ptr2 < ptr1 && (ptr1 - ptr2) < len2)
  60                 return 1;
  61         return 0;
  62 }
  63
  64 static int
  65 test_memzone_invalid_alignment(void)
  66 {
  67         const struct rte_memzone * mz;
  68
  69         mz = rte_memzone_lookup(TEST_MEMZONE_NAME("invalid_alignment"));
  70         if (mz != NULL) {
  71                 printf("Zone with invalid alignment has been reserved\n");
  72                 return -1;
  73         }
  74
  75         mz = rte_memzone_reserve_aligned(TEST_MEMZONE_NAME("invalid_alignment"),
  76                                          100, SOCKET_ID_ANY, 0, 100);
  77         if (mz != NULL) {
  78                 printf("Zone with invalid alignment has been reserved\n");
  79                 return -1;
  80         }
  81         return 0;
  82 }
  83
  84 static int
  85 test_memzone_reserving_zone_size_bigger_than_the_maximum(void)
  86 {
  87         const struct rte_memzone * mz;
  88
  89         mz = rte_memzone_lookup(
  90                         TEST_MEMZONE_NAME("zone_size_bigger_than_the_maximum"));
  91         if (mz != NULL) {
  92                 printf("zone_size_bigger_than_the_maximum has been reserved\n");
  93                 return -1;
  94         }
  95
  96         mz = rte_memzone_reserve(
  97                         TEST_MEMZONE_NAME("zone_size_bigger_than_the_maximum"),
  98                         (size_t)-1, SOCKET_ID_ANY, 0);
  99         if (mz != NULL) {
 100                 printf("It is impossible to reserve such big a memzone\n");
 101                 return -1;
 102         }
 103
 104         return 0;
 105 }
 106
 107 struct walk_arg {
 108         int hugepage_2MB_avail;
 109         int hugepage_1GB_avail;
 110         int hugepage_16MB_avail;
 111         int hugepage_16GB_avail;
 112 };
 113 static int
 114 find_available_pagesz(const struct rte_memseg_list *msl, void *arg)
 115 {
 116         struct walk_arg *wa = arg;
 117
 118         if (msl->page_sz == RTE_PGSIZE_2M)
 119                 wa->hugepage_2MB_avail = 1;
 120         if (msl->page_sz == RTE_PGSIZE_1G)
 121                 wa->hugepage_1GB_avail = 1;
 122         if (msl->page_sz == RTE_PGSIZE_16M)
 123                 wa->hugepage_16MB_avail = 1;
 124         if (msl->page_sz == RTE_PGSIZE_16G)
 125                 wa->hugepage_16GB_avail = 1;
 126
 127         return 0;
 128 }
 129
 130 static int
 131 test_memzone_reserve_flags(void)
 132 {
 133         const struct rte_memzone *mz;
 134         struct walk_arg wa;
 135         int hugepage_2MB_avail, hugepage_1GB_avail;
 136         int hugepage_16MB_avail, hugepage_16GB_avail;
 137         const size_t size = 100;
 138
 139         memset(&wa, 0, sizeof(wa));
 140
 141         rte_memseg_list_walk(find_available_pagesz, &wa);
 142
 143         hugepage_2MB_avail = wa.hugepage_2MB_avail;
 144         hugepage_1GB_avail = wa.hugepage_1GB_avail;
 145         hugepage_16MB_avail = wa.hugepage_16MB_avail;
 146         hugepage_16GB_avail = wa.hugepage_16GB_avail;
 147
 148         /* Display the availability of 2MB ,1GB, 16MB, 16GB pages */
 149         if (hugepage_2MB_avail)
 150                 printf("2MB Huge pages available\n");
 151         if (hugepage_1GB_avail)
 152                 printf("1GB Huge pages available\n");
 153         if (hugepage_16MB_avail)
 154                 printf("16MB Huge pages available\n");
 155         if (hugepage_16GB_avail)
 156                 printf("16GB Huge pages available\n");
 157         /*
 158          * If 2MB pages available, check that a small memzone is correctly
 159          * reserved from 2MB huge pages when requested by the RTE_MEMZONE_2MB flag.
 160          * Also check that RTE_MEMZONE_SIZE_HINT_ONLY flag only defaults to an
 161          * available page size (i.e 1GB ) when 2MB pages are unavailable.
 162          */
 163         if (hugepage_2MB_avail) {
 164                 mz = rte_memzone_reserve(TEST_MEMZONE_NAME("flag_zone_2M"),
 165                                 size, SOCKET_ID_ANY, RTE_MEMZONE_2MB);
 166                 if (mz == NULL) {
 167                         printf("MEMZONE FLAG 2MB\n");
 168                         return -1;
 169                 }
 170                 if (mz->hugepage_sz != RTE_PGSIZE_2M) {
 171                         printf("hugepage_sz not equal 2M\n");
 172                         return -1;
 173                 }
 174                 if (rte_memzone_free(mz)) {
 175                         printf("Fail memzone free\n");
 176                         return -1;
 177                 }
 178
 179                 mz = rte_memzone_reserve(TEST_MEMZONE_NAME("flag_zone_2M_HINT"),
 180                                 size, SOCKET_ID_ANY,
 181                                 RTE_MEMZONE_2MB|RTE_MEMZONE_SIZE_HINT_ONLY);
 182                 if (mz == NULL) {
 183                         printf("MEMZONE FLAG 2MB\n");
 184                         return -1;
 185                 }
 186                 if (mz->hugepage_sz != RTE_PGSIZE_2M) {
 187                         printf("hugepage_sz not equal 2M\n");
 188                         return -1;
 189                 }
 190                 if (rte_memzone_free(mz)) {
 191                         printf("Fail memzone free\n");
 192                         return -1;
 193                 }
 194
 195                 /* Check if 1GB huge pages are unavailable, that function fails unless
 196                  * HINT flag is indicated
 197                  */
 198                 if (!hugepage_1GB_avail) {
 199                         mz = rte_memzone_reserve(
 200                                         TEST_MEMZONE_NAME("flag_zone_1G_HINT"),
 201                                         size, SOCKET_ID_ANY,
 202                                         RTE_MEMZONE_1GB|RTE_MEMZONE_SIZE_HINT_ONLY);
 203                         if (mz == NULL) {
 204                                 printf("MEMZONE FLAG 1GB & HINT\n");
 205                                 return -1;
 206                         }
 207                         if (mz->hugepage_sz != RTE_PGSIZE_2M) {
 208                                 printf("hugepage_sz not equal 2M\n");
 209                                 return -1;
 210                         }
 211                         if (rte_memzone_free(mz)) {
 212                                 printf("Fail memzone free\n");
 213                                 return -1;
 214                         }
 215
 216                         mz = rte_memzone_reserve(
 217                                         TEST_MEMZONE_NAME("flag_zone_1G"), size,
 218                                         SOCKET_ID_ANY, RTE_MEMZONE_1GB);
 219                         if (mz != NULL) {
 220                                 printf("MEMZONE FLAG 1GB\n");
 221                                 return -1;
 222                         }
 223                 }
 224         }
 225
 226         /*As with 2MB tests above for 1GB huge page requests*/
 227         if (hugepage_1GB_avail) {
 228                 mz = rte_memzone_reserve(TEST_MEMZONE_NAME("flag_zone_1G"),
 229                                 size, SOCKET_ID_ANY, RTE_MEMZONE_1GB);
 230                 if (mz == NULL) {
 231                         printf("MEMZONE FLAG 1GB\n");
 232                         return -1;
 233                 }
 234                 if (mz->hugepage_sz != RTE_PGSIZE_1G) {
 235                         printf("hugepage_sz not equal 1G\n");
 236                         return -1;
 237                 }
 238                 if (rte_memzone_free(mz)) {
 239                         printf("Fail memzone free\n");
 240                         return -1;
 241                 }
 242
 243                 mz = rte_memzone_reserve(TEST_MEMZONE_NAME("flag_zone_1G_HINT"),
 244                                 size, SOCKET_ID_ANY,
 245                                 RTE_MEMZONE_1GB|RTE_MEMZONE_SIZE_HINT_ONLY);
 246                 if (mz == NULL) {
 247                         printf("MEMZONE FLAG 1GB\n");
 248                         return -1;
 249                 }
 250                 if (mz->hugepage_sz != RTE_PGSIZE_1G) {
 251                         printf("hugepage_sz not equal 1G\n");
 252                         return -1;
 253                 }
 254                 if (rte_memzone_free(mz)) {
 255                         printf("Fail memzone free\n");
 256                         return -1;
 257                 }
 258
 259                 /* Check if 1GB huge pages are unavailable, that function fails unless
 260                  * HINT flag is indicated
 261                  */
 262                 if (!hugepage_2MB_avail) {
 263                         mz = rte_memzone_reserve(
 264                                         TEST_MEMZONE_NAME("flag_zone_2M_HINT"),
 265                                         size, SOCKET_ID_ANY,
 266                                         RTE_MEMZONE_2MB|RTE_MEMZONE_SIZE_HINT_ONLY);
 267                         if (mz == NULL){
 268                                 printf("MEMZONE FLAG 2MB & HINT\n");
 269                                 return -1;
 270                         }
 271                         if (mz->hugepage_sz != RTE_PGSIZE_1G) {
 272                                 printf("hugepage_sz not equal 1G\n");
 273                                 return -1;
 274                         }
 275                         if (rte_memzone_free(mz)) {
 276                                 printf("Fail memzone free\n");
 277                                 return -1;
 278                         }
 279                         mz = rte_memzone_reserve(
 280                                         TEST_MEMZONE_NAME("flag_zone_2M"), size,
 281                                         SOCKET_ID_ANY, RTE_MEMZONE_2MB);
 282                         if (mz != NULL) {
 283                                 printf("MEMZONE FLAG 2MB\n");
 284                                 return -1;
 285                         }
 286                 }
 287
 288                 if (hugepage_2MB_avail && hugepage_1GB_avail) {
 289                         mz = rte_memzone_reserve(
 290                                         TEST_MEMZONE_NAME("flag_zone_2M_HINT"),
 291                                         size, SOCKET_ID_ANY,
 292                                         RTE_MEMZONE_2MB|RTE_MEMZONE_1GB);
 293                         if (mz == NULL) {
 294                                 printf("BOTH SIZES SET\n");
 295                                 return -1;
 296                         }
 297                         if (mz->hugepage_sz != RTE_PGSIZE_1G &&
 298                                         mz->hugepage_sz != RTE_PGSIZE_2M) {
 299                                 printf("Wrong size when both sizes set\n");
 300                                 return -1;
 301                         }
 302                         if (rte_memzone_free(mz)) {
 303                                 printf("Fail memzone free\n");
 304                                 return -1;
 305                         }
 306                 }
 307         }
 308         /*
 309          * This option is for IBM Power. If 16MB pages available, check
 310          * that a small memzone is correctly reserved from 16MB huge pages
 311          * when requested by the RTE_MEMZONE_16MB flag. Also check that
 312          * RTE_MEMZONE_SIZE_HINT_ONLY flag only defaults to an available
 313          * page size (i.e 16GB ) when 16MB pages are unavailable.
 314          */
 315         if (hugepage_16MB_avail) {
 316                 mz = rte_memzone_reserve(TEST_MEMZONE_NAME("flag_zone_16M"),
 317                                 size, SOCKET_ID_ANY, RTE_MEMZONE_16MB);
 318                 if (mz == NULL) {
 319                         printf("MEMZONE FLAG 16MB\n");
 320                         return -1;
 321                 }
 322                 if (mz->hugepage_sz != RTE_PGSIZE_16M) {
 323                         printf("hugepage_sz not equal 16M\n");
 324                         return -1;
 325                 }
 326                 if (rte_memzone_free(mz)) {
 327                         printf("Fail memzone free\n");
 328                         return -1;
 329                 }
 330
 331                 mz = rte_memzone_reserve(
 332                                 TEST_MEMZONE_NAME("flag_zone_16M_HINT"), size,
 333                                 SOCKET_ID_ANY,
 334                                 RTE_MEMZONE_16MB|RTE_MEMZONE_SIZE_HINT_ONLY);
 335                 if (mz == NULL) {
 336                         printf("MEMZONE FLAG 16MB\n");
 337                         return -1;
 338                 }
 339                 if (mz->hugepage_sz != RTE_PGSIZE_16M) {
 340                         printf("hugepage_sz not equal 16M\n");
 341                         return -1;
 342                 }
 343                 if (rte_memzone_free(mz)) {
 344                         printf("Fail memzone free\n");
 345                         return -1;
 346                 }
 347
 348                 /* Check if 1GB huge pages are unavailable, that function fails
 349                  * unless HINT flag is indicated
 350                  */
 351                 if (!hugepage_16GB_avail) {
 352                         mz = rte_memzone_reserve(
 353                                         TEST_MEMZONE_NAME("flag_zone_16G_HINT"),
 354                                         size, SOCKET_ID_ANY,
 355                                         RTE_MEMZONE_16GB |
 356                                         RTE_MEMZONE_SIZE_HINT_ONLY);
 357                         if (mz == NULL) {
 358                                 printf("MEMZONE FLAG 16GB & HINT\n");
 359                                 return -1;
 360                         }
 361                         if (mz->hugepage_sz != RTE_PGSIZE_16M) {
 362                                 printf("hugepage_sz not equal 16M\n");
 363                                 return -1;
 364                         }
 365                         if (rte_memzone_free(mz)) {
 366                                 printf("Fail memzone free\n");
 367                                 return -1;
 368                         }
 369
 370                         mz = rte_memzone_reserve(
 371                                         TEST_MEMZONE_NAME("flag_zone_16G"),
 372                                         size,
 373                                         SOCKET_ID_ANY, RTE_MEMZONE_16GB);
 374                         if (mz != NULL) {
 375                                 printf("MEMZONE FLAG 16GB\n");
 376                                 return -1;
 377                         }
 378                 }
 379         }
 380         /*As with 16MB tests above for 16GB huge page requests*/
 381         if (hugepage_16GB_avail) {
 382                 mz = rte_memzone_reserve(TEST_MEMZONE_NAME("flag_zone_16G"),
 383                                 size, SOCKET_ID_ANY, RTE_MEMZONE_16GB);
 384                 if (mz == NULL) {
 385                         printf("MEMZONE FLAG 16GB\n");
 386                         return -1;
 387                 }
 388                 if (mz->hugepage_sz != RTE_PGSIZE_16G) {
 389                         printf("hugepage_sz not equal 16G\n");
 390                         return -1;
 391                 }
 392                 if (rte_memzone_free(mz)) {
 393                         printf("Fail memzone free\n");
 394                         return -1;
 395                 }
 396
 397                 mz = rte_memzone_reserve(
 398                                 TEST_MEMZONE_NAME("flag_zone_16G_HINT"), size,
 399                                 SOCKET_ID_ANY,
 400                                 RTE_MEMZONE_16GB|RTE_MEMZONE_SIZE_HINT_ONLY);
 401                 if (mz == NULL) {
 402                         printf("MEMZONE FLAG 16GB\n");
 403                         return -1;
 404                 }
 405                 if (mz->hugepage_sz != RTE_PGSIZE_16G) {
 406                         printf("hugepage_sz not equal 16G\n");
 407                         return -1;
 408                 }
 409                 if (rte_memzone_free(mz)) {
 410                         printf("Fail memzone free\n");
 411                         return -1;
 412                 }
 413
 414                 /* Check if 1GB huge pages are unavailable, that function fails
 415                  * unless HINT flag is indicated
 416                  */
 417                 if (!hugepage_16MB_avail) {
 418                         mz = rte_memzone_reserve(
 419                                         TEST_MEMZONE_NAME("flag_zone_16M_HINT"),
 420                                         size, SOCKET_ID_ANY,
 421                                         RTE_MEMZONE_16MB |
 422                                         RTE_MEMZONE_SIZE_HINT_ONLY);
 423                         if (mz == NULL) {
 424                                 printf("MEMZONE FLAG 16MB & HINT\n");
 425                                 return -1;
 426                         }
 427                         if (mz->hugepage_sz != RTE_PGSIZE_16G) {
 428                                 printf("hugepage_sz not equal 16G\n");
 429                                 return -1;
 430                         }
 431                         if (rte_memzone_free(mz)) {
 432                                 printf("Fail memzone free\n");
 433                                 return -1;
 434                         }
 435                         mz = rte_memzone_reserve(
 436                                         TEST_MEMZONE_NAME("flag_zone_16M"),
 437                                         size, SOCKET_ID_ANY, RTE_MEMZONE_16MB);
 438                         if (mz != NULL) {
 439                                 printf("MEMZONE FLAG 16MB\n");
 440                                 return -1;
 441                         }
 442                 }
 443
 444                 if (hugepage_16MB_avail && hugepage_16GB_avail) {
 445                         mz = rte_memzone_reserve(
 446                                         TEST_MEMZONE_NAME("flag_zone_16M_HINT"),
 447                                         size, SOCKET_ID_ANY,
 448                                         RTE_MEMZONE_16MB|RTE_MEMZONE_16GB);
 449                         if (mz == NULL) {
 450                                 printf("BOTH SIZES SET\n");
 451                                 return -1;
 452                         }
 453                         if (mz->hugepage_sz != RTE_PGSIZE_16G &&
 454                                         mz->hugepage_sz != RTE_PGSIZE_16M) {
 455                                 printf("Wrong size when both sizes set\n");
 456                                 return -1;
 457                         }
 458                         if (rte_memzone_free(mz)) {
 459                                 printf("Fail memzone free\n");
 460                                 return -1;
 461                         }
 462                 }
 463         }
 464         return 0;
 465 }
 466
 467
 468 /* Find the heap with the greatest free block size */
 469 static size_t
 470 find_max_block_free_size(unsigned int align, unsigned int socket_id)
 471 {
 472         struct rte_malloc_socket_stats stats;
 473         size_t len, overhead;
 474
 475         rte_malloc_get_socket_stats(socket_id, &stats);
 476
 477         len = stats.greatest_free_size;
 478         overhead = MALLOC_ELEM_OVERHEAD;
 479
 480         if (len == 0)
 481                 return 0;
 482
 483         align = RTE_CACHE_LINE_ROUNDUP(align);
 484         overhead += align;
 485
 486         if (len < overhead)
 487                 return 0;
 488
 489         return len - overhead;
 490 }
 491
 492 static int
 493 test_memzone_reserve_max(void)
 494 {
 495         unsigned int i;
 496
 497         for (i = 0; i < rte_socket_count(); i++) {
 498                 const struct rte_memzone *mz;
 499                 size_t maxlen;
 500                 int socket;
 501
 502                 socket = rte_socket_id_by_idx(i);
 503                 maxlen = find_max_block_free_size(0, socket);
 504
 505                 if (maxlen == 0) {
 506                         printf("There is no space left!\n");
 507                         return 0;
 508                 }
 509
 510                 mz = rte_memzone_reserve(TEST_MEMZONE_NAME("max_zone"), 0,
 511                                 socket, 0);
 512                 if (mz == NULL) {
 513                         printf("Failed to reserve a big chunk of memory - %s\n",
 514                                         rte_strerror(rte_errno));
 515                         rte_dump_physmem_layout(stdout);
 516                         rte_memzone_dump(stdout);
 517                         return -1;
 518                 }
 519
 520                 if (mz->len != maxlen) {
 521                         printf("Memzone reserve with 0 size did not return bigest block\n");
 522                         printf("Expected size = %zu, actual size = %zu\n",
 523                                         maxlen, mz->len);
 524                         rte_dump_physmem_layout(stdout);
 525                         rte_memzone_dump(stdout);
 526                         return -1;
 527                 }
 528
 529                 if (rte_memzone_free(mz)) {
 530                         printf("Fail memzone free\n");
 531                         return -1;
 532                 }
 533         }
 534
 535         return 0;
 536 }
 537
 538 static int
 539 test_memzone_reserve_max_aligned(void)
 540 {
 541         unsigned int i;
 542
 543         for (i = 0; i < rte_socket_count(); i++) {
 544                 const struct rte_memzone *mz;
 545                 size_t maxlen, minlen = 0;
 546                 int socket;
 547
 548                 socket = rte_socket_id_by_idx(i);
 549
 550                 /* random alignment */
 551                 rte_srand((unsigned int)rte_rdtsc());
 552                 const unsigned int align = 1 << ((rte_rand() % 8) + 5); /* from 128 up to 4k alignment */
 553
 554                 /* memzone size may be between size and size - align */
 555                 minlen = find_max_block_free_size(align, socket);
 556                 maxlen = find_max_block_free_size(0, socket);
 557
 558                 if (minlen == 0 || maxlen == 0) {
 559                         printf("There is no space left for biggest %u-aligned memzone!\n",
 560                                         align);
 561                         return 0;
 562                 }
 563
 564                 mz = rte_memzone_reserve_aligned(
 565                                 TEST_MEMZONE_NAME("max_zone_aligned"),
 566                                 0, socket, 0, align);
 567                 if (mz == NULL) {
 568                         printf("Failed to reserve a big chunk of memory - %s\n",
 569                                         rte_strerror(rte_errno));
 570                         rte_dump_physmem_layout(stdout);
 571                         rte_memzone_dump(stdout);
 572                         return -1;
 573                 }
 574                 if (mz->addr != RTE_PTR_ALIGN(mz->addr, align)) {
 575                         printf("Memzone reserve with 0 size and alignment %u did not return aligned block\n",
 576                                         align);
 577                         rte_dump_physmem_layout(stdout);
 578                         rte_memzone_dump(stdout);
 579                         return -1;
 580                 }
 581
 582                 if (mz->len < minlen || mz->len > maxlen) {
 583                         printf("Memzone reserve with 0 size and alignment %u did not return"
 584                                         " bigest block\n", align);
 585                         printf("Expected size = %zu-%zu, actual size = %zu\n",
 586                                         minlen, maxlen, mz->len);
 587                         rte_dump_physmem_layout(stdout);
 588                         rte_memzone_dump(stdout);
 589                         return -1;
 590                 }
 591
 592                 if (rte_memzone_free(mz)) {
 593                         printf("Fail memzone free\n");
 594                         return -1;
 595                 }
 596         }
 597         return 0;
 598 }
 599
 600 static int
 601 test_memzone_aligned(void)
 602 {
 603         const struct rte_memzone *memzone_aligned_32;
 604         const struct rte_memzone *memzone_aligned_128;
 605         const struct rte_memzone *memzone_aligned_256;
 606         const struct rte_memzone *memzone_aligned_512;
 607         const struct rte_memzone *memzone_aligned_1024;
 608
 609         /* memzone that should automatically be adjusted to align on 64 bytes */
 610         memzone_aligned_32 = rte_memzone_reserve_aligned(
 611                         TEST_MEMZONE_NAME("aligned_32"), 100, SOCKET_ID_ANY, 0,
 612                         32);
 613
 614         /* memzone that is supposed to be aligned on a 128 byte boundary */
 615         memzone_aligned_128 = rte_memzone_reserve_aligned(
 616                         TEST_MEMZONE_NAME("aligned_128"), 100, SOCKET_ID_ANY, 0,
 617                         128);
 618
 619         /* memzone that is supposed to be aligned on a 256 byte boundary */
 620         memzone_aligned_256 = rte_memzone_reserve_aligned(
 621                         TEST_MEMZONE_NAME("aligned_256"), 100, SOCKET_ID_ANY, 0,
 622                         256);
 623
 624         /* memzone that is supposed to be aligned on a 512 byte boundary */
 625         memzone_aligned_512 = rte_memzone_reserve_aligned(
 626                         TEST_MEMZONE_NAME("aligned_512"), 100, SOCKET_ID_ANY, 0,
 627                         512);
 628
 629         /* memzone that is supposed to be aligned on a 1024 byte boundary */
 630         memzone_aligned_1024 = rte_memzone_reserve_aligned(
 631                         TEST_MEMZONE_NAME("aligned_1024"), 100, SOCKET_ID_ANY,
 632                         0, 1024);
 633
 634         printf("check alignments and lengths\n");
 635         if (memzone_aligned_32 == NULL) {
 636                 printf("Unable to reserve 64-byte aligned memzone!\n");
 637                 return -1;
 638         }
 639         if ((memzone_aligned_32->iova & RTE_CACHE_LINE_MASK) != 0)
 640                 return -1;
 641         if (((uintptr_t) memzone_aligned_32->addr & RTE_CACHE_LINE_MASK) != 0)
 642                 return -1;
 643         if ((memzone_aligned_32->len & RTE_CACHE_LINE_MASK) != 0)
 644                 return -1;
 645
 646         if (memzone_aligned_128 == NULL) {
 647                 printf("Unable to reserve 128-byte aligned memzone!\n");
 648                 return -1;
 649         }
 650         if ((memzone_aligned_128->iova & 127) != 0)
 651                 return -1;
 652         if (((uintptr_t) memzone_aligned_128->addr & 127) != 0)
 653                 return -1;
 654         if ((memzone_aligned_128->len & RTE_CACHE_LINE_MASK) != 0)
 655                 return -1;
 656
 657         if (memzone_aligned_256 == NULL) {
 658                 printf("Unable to reserve 256-byte aligned memzone!\n");
 659                 return -1;
 660         }
 661         if ((memzone_aligned_256->iova & 255) != 0)
 662                 return -1;
 663         if (((uintptr_t) memzone_aligned_256->addr & 255) != 0)
 664                 return -1;
 665         if ((memzone_aligned_256->len & RTE_CACHE_LINE_MASK) != 0)
 666                 return -1;
 667
 668         if (memzone_aligned_512 == NULL) {
 669                 printf("Unable to reserve 512-byte aligned memzone!\n");
 670                 return -1;
 671         }
 672         if ((memzone_aligned_512->iova & 511) != 0)
 673                 return -1;
 674         if (((uintptr_t) memzone_aligned_512->addr & 511) != 0)
 675                 return -1;
 676         if ((memzone_aligned_512->len & RTE_CACHE_LINE_MASK) != 0)
 677                 return -1;
 678
 679         if (memzone_aligned_1024 == NULL) {
 680                 printf("Unable to reserve 1024-byte aligned memzone!\n");
 681                 return -1;
 682         }
 683         if ((memzone_aligned_1024->iova & 1023) != 0)
 684                 return -1;
 685         if (((uintptr_t) memzone_aligned_1024->addr & 1023) != 0)
 686                 return -1;
 687         if ((memzone_aligned_1024->len & RTE_CACHE_LINE_MASK) != 0)
 688                 return -1;
 689
 690         /* check that zones don't overlap */
 691         printf("check overlapping\n");
 692         if (is_memory_overlap(memzone_aligned_32->iova, memzone_aligned_32->len,
 693                                         memzone_aligned_128->iova, memzone_aligned_128->len))
 694                 return -1;
 695         if (is_memory_overlap(memzone_aligned_32->iova, memzone_aligned_32->len,
 696                                         memzone_aligned_256->iova, memzone_aligned_256->len))
 697                 return -1;
 698         if (is_memory_overlap(memzone_aligned_32->iova, memzone_aligned_32->len,
 699                                         memzone_aligned_512->iova, memzone_aligned_512->len))
 700                 return -1;
 701         if (is_memory_overlap(memzone_aligned_32->iova, memzone_aligned_32->len,
 702                                         memzone_aligned_1024->iova, memzone_aligned_1024->len))
 703                 return -1;
 704         if (is_memory_overlap(memzone_aligned_128->iova, memzone_aligned_128->len,
 705                                         memzone_aligned_256->iova, memzone_aligned_256->len))
 706                 return -1;
 707         if (is_memory_overlap(memzone_aligned_128->iova, memzone_aligned_128->len,
 708                                         memzone_aligned_512->iova, memzone_aligned_512->len))
 709                 return -1;
 710         if (is_memory_overlap(memzone_aligned_128->iova, memzone_aligned_128->len,
 711                                         memzone_aligned_1024->iova, memzone_aligned_1024->len))
 712                 return -1;
 713         if (is_memory_overlap(memzone_aligned_256->iova, memzone_aligned_256->len,
 714                                         memzone_aligned_512->iova, memzone_aligned_512->len))
 715                 return -1;
 716         if (is_memory_overlap(memzone_aligned_256->iova, memzone_aligned_256->len,
 717                                         memzone_aligned_1024->iova, memzone_aligned_1024->len))
 718                 return -1;
 719         if (is_memory_overlap(memzone_aligned_512->iova, memzone_aligned_512->len,
 720                                         memzone_aligned_1024->iova, memzone_aligned_1024->len))
 721                 return -1;
 722
 723         /* free all used zones */
 724         if (rte_memzone_free(memzone_aligned_32)) {
 725                 printf("Fail memzone free\n");
 726                 return -1;
 727         }
 728         if (rte_memzone_free(memzone_aligned_128)) {
 729                 printf("Fail memzone free\n");
 730                 return -1;
 731         }
 732         if (rte_memzone_free(memzone_aligned_256)) {
 733                 printf("Fail memzone free\n");
 734                 return -1;
 735         }
 736         if (rte_memzone_free(memzone_aligned_512)) {
 737                 printf("Fail memzone free\n");
 738                 return -1;
 739         }
 740         if (rte_memzone_free(memzone_aligned_1024)) {
 741                 printf("Fail memzone free\n");
 742                 return -1;
 743         }
 744         return 0;
 745 }
 746
 747 static int
 748 check_memzone_bounded(const char *name, uint32_t len,  uint32_t align,
 749         uint32_t bound)
 750 {
 751         const struct rte_memzone *mz;
 752         rte_iova_t bmask;
 753
 754         bmask = ~((rte_iova_t)bound - 1);
 755
 756         if ((mz = rte_memzone_reserve_bounded(name, len, SOCKET_ID_ANY, 0,
 757                         align, bound)) == NULL) {
 758                 printf("%s(%s): memzone creation failed\n",
 759                         __func__, name);
 760                 return -1;
 761         }
 762
 763         if ((mz->iova & ((rte_iova_t)align - 1)) != 0) {
 764                 printf("%s(%s): invalid phys addr alignment\n",
 765                         __func__, mz->name);
 766                 return -1;
 767         }
 768
 769         if (((uintptr_t) mz->addr & ((uintptr_t)align - 1)) != 0) {
 770                 printf("%s(%s): invalid virtual addr alignment\n",
 771                         __func__, mz->name);
 772                 return -1;
 773         }
 774
 775         if ((mz->len & RTE_CACHE_LINE_MASK) != 0 || mz->len < len ||
 776                         mz->len < RTE_CACHE_LINE_SIZE) {
 777                 printf("%s(%s): invalid length\n",
 778                         __func__, mz->name);
 779                 return -1;
 780         }
 781
 782         if ((mz->iova & bmask) !=
 783                         ((mz->iova + mz->len - 1) & bmask)) {
 784                 printf("%s(%s): invalid memzone boundary %u crossed\n",
 785                         __func__, mz->name, bound);
 786                 return -1;
 787         }
 788
 789         if (rte_memzone_free(mz)) {
 790                 printf("Fail memzone free\n");
 791                 return -1;
 792         }
 793
 794         return 0;
 795 }
 796
 797 static int
 798 test_memzone_bounded(void)
 799 {
 800         const struct rte_memzone *memzone_err;
 801         int rc;
 802
 803         /* should fail as boundary is not power of two */
 804         memzone_err = rte_memzone_reserve_bounded(
 805                         TEST_MEMZONE_NAME("bounded_error_31"), 100,
 806                         SOCKET_ID_ANY, 0, 32, UINT32_MAX);
 807         if (memzone_err != NULL) {
 808                 printf("%s(%s)created a memzone with invalid boundary "
 809                         "conditions\n", __func__, memzone_err->name);
 810                 return -1;
 811         }
 812
 813         /* should fail as len is greater then boundary */
 814         memzone_err = rte_memzone_reserve_bounded(
 815                         TEST_MEMZONE_NAME("bounded_error_32"), 100,
 816                         SOCKET_ID_ANY, 0, 32, 32);
 817         if (memzone_err != NULL) {
 818                 printf("%s(%s)created a memzone with invalid boundary "
 819                         "conditions\n", __func__, memzone_err->name);
 820                 return -1;
 821         }
 822
 823         rc = check_memzone_bounded(TEST_MEMZONE_NAME("bounded_128"), 100, 128,
 824                         128);
 825         if (rc != 0)
 826                 return rc;
 827
 828         rc = check_memzone_bounded(TEST_MEMZONE_NAME("bounded_256"), 100, 256,
 829                         128);
 830         if (rc != 0)
 831                 return rc;
 832
 833         rc = check_memzone_bounded(TEST_MEMZONE_NAME("bounded_1K"), 100, 64,
 834                         1024);
 835         if (rc != 0)
 836                 return rc;
 837
 838         rc = check_memzone_bounded(TEST_MEMZONE_NAME("bounded_1K_MAX"), 0, 64,
 839                         1024);
 840         if (rc != 0)
 841                 return rc;
 842
 843         return 0;
 844 }
 845
 846 static int
 847 test_memzone_free(void)
 848 {
 849         const struct rte_memzone *mz[RTE_MAX_MEMZONE + 1];
 850         int i;
 851         char name[20];
 852
 853         mz[0] = rte_memzone_reserve(TEST_MEMZONE_NAME("tempzone0"), 2000,
 854                         SOCKET_ID_ANY, 0);
 855         mz[1] = rte_memzone_reserve(TEST_MEMZONE_NAME("tempzone1"), 4000,
 856                         SOCKET_ID_ANY, 0);
 857
 858         if (mz[0] > mz[1])
 859                 return -1;
 860         if (!rte_memzone_lookup(TEST_MEMZONE_NAME("tempzone0")))
 861                 return -1;
 862         if (!rte_memzone_lookup(TEST_MEMZONE_NAME("tempzone1")))
 863                 return -1;
 864
 865         if (rte_memzone_free(mz[0])) {
 866                 printf("Fail memzone free - tempzone0\n");
 867                 return -1;
 868         }
 869         if (rte_memzone_lookup(TEST_MEMZONE_NAME("tempzone0"))) {
 870                 printf("Found previously free memzone - tempzone0\n");
 871                 return -1;
 872         }
 873         mz[2] = rte_memzone_reserve(TEST_MEMZONE_NAME("tempzone2"), 2000,
 874                         SOCKET_ID_ANY, 0);
 875
 876         if (mz[2] > mz[1]) {
 877                 printf("tempzone2 should have gotten the free entry from tempzone0\n");
 878                 return -1;
 879         }
 880         if (rte_memzone_free(mz[2])) {
 881                 printf("Fail memzone free - tempzone2\n");
 882                 return -1;
 883         }
 884         if (rte_memzone_lookup(TEST_MEMZONE_NAME("tempzone2"))) {
 885                 printf("Found previously free memzone - tempzone2\n");
 886                 return -1;
 887         }
 888         if (rte_memzone_free(mz[1])) {
 889                 printf("Fail memzone free - tempzone1\n");
 890                 return -1;
 891         }
 892         if (rte_memzone_lookup(TEST_MEMZONE_NAME("tempzone1"))) {
 893                 printf("Found previously free memzone - tempzone1\n");
 894                 return -1;
 895         }
 896
 897         i = 0;
 898         do {
 899                 snprintf(name, sizeof(name), TEST_MEMZONE_NAME("tempzone%u"),
 900                                 i);
 901                 mz[i] = rte_memzone_reserve(name, 1, SOCKET_ID_ANY, 0);
 902         } while (mz[i++] != NULL);
 903
 904         if (rte_memzone_free(mz[0])) {
 905                 printf("Fail memzone free - tempzone0\n");
 906                 return -1;
 907         }
 908         mz[0] = rte_memzone_reserve(TEST_MEMZONE_NAME("tempzone0new"), 0,
 909                         SOCKET_ID_ANY, 0);
 910
 911         if (mz[0] == NULL) {
 912                 printf("Fail to create memzone - tempzone0new - when MAX memzones were "
 913                                 "created and one was free\n");
 914                 return -1;
 915         }
 916
 917         for (i = i - 2; i >= 0; i--) {
 918                 if (rte_memzone_free(mz[i])) {
 919                         printf("Fail memzone free - tempzone%d\n", i);
 920                         return -1;
 921                 }
 922         }
 923
 924         return 0;
 925 }
 926
 927 static int
 928 test_memzone_basic(void)
 929 {
 930         const struct rte_memzone *memzone1;
 931         const struct rte_memzone *memzone2;
 932         const struct rte_memzone *memzone3;
 933         const struct rte_memzone *memzone4;
 934         const struct rte_memzone *mz;
 935         int memzone_cnt_after, memzone_cnt_expected;
 936         int memzone_cnt_before =
 937                         rte_eal_get_configuration()->mem_config->memzones.count;
 938
 939         memzone1 = rte_memzone_reserve(TEST_MEMZONE_NAME("testzone1"), 100,
 940                                 SOCKET_ID_ANY, 0);
 941
 942         memzone2 = rte_memzone_reserve(TEST_MEMZONE_NAME("testzone2"), 1000,
 943                                 0, 0);
 944
 945         memzone3 = rte_memzone_reserve(TEST_MEMZONE_NAME("testzone3"), 1000,
 946                                 1, 0);
 947
 948         memzone4 = rte_memzone_reserve(TEST_MEMZONE_NAME("testzone4"), 1024,
 949                                 SOCKET_ID_ANY, 0);
 950
 951         /* memzone3 may be NULL if we don't have NUMA */
 952         if (memzone1 == NULL || memzone2 == NULL || memzone4 == NULL)
 953                 return -1;
 954
 955         /* check how many memzones we are expecting */
 956         memzone_cnt_expected = memzone_cnt_before +
 957                         (memzone1 != NULL) + (memzone2 != NULL) +
 958                         (memzone3 != NULL) + (memzone4 != NULL);
 959
 960         memzone_cnt_after =
 961                         rte_eal_get_configuration()->mem_config->memzones.count;
 962
 963         if (memzone_cnt_after != memzone_cnt_expected)
 964                 return -1;
 965
 966
 967         rte_memzone_dump(stdout);
 968
 969         /* check cache-line alignments */
 970         printf("check alignments and lengths\n");
 971
 972         if ((memzone1->iova & RTE_CACHE_LINE_MASK) != 0)
 973                 return -1;
 974         if ((memzone2->iova & RTE_CACHE_LINE_MASK) != 0)
 975                 return -1;
 976         if (memzone3 != NULL && (memzone3->iova & RTE_CACHE_LINE_MASK) != 0)
 977                 return -1;
 978         if ((memzone1->len & RTE_CACHE_LINE_MASK) != 0 || memzone1->len == 0)
 979                 return -1;
 980         if ((memzone2->len & RTE_CACHE_LINE_MASK) != 0 || memzone2->len == 0)
 981                 return -1;
 982         if (memzone3 != NULL && ((memzone3->len & RTE_CACHE_LINE_MASK) != 0 ||
 983                         memzone3->len == 0))
 984                 return -1;
 985         if (memzone4->len != 1024)
 986                 return -1;
 987
 988         /* check that zones don't overlap */
 989         printf("check overlapping\n");
 990
 991         if (is_memory_overlap(memzone1->iova, memzone1->len,
 992                         memzone2->iova, memzone2->len))
 993                 return -1;
 994         if (memzone3 != NULL &&
 995                         is_memory_overlap(memzone1->iova, memzone1->len,
 996                                         memzone3->iova, memzone3->len))
 997                 return -1;
 998         if (memzone3 != NULL &&
 999                         is_memory_overlap(memzone2->iova, memzone2->len,
1000                                         memzone3->iova, memzone3->len))
1001                 return -1;
1002
1003         printf("check socket ID\n");
1004
1005         /* memzone2 must be on socket id 0 and memzone3 on socket 1 */
1006         if (memzone2->socket_id != 0)
1007                 return -1;
1008         if (memzone3 != NULL && memzone3->socket_id != 1)
1009                 return -1;
1010
1011         printf("test zone lookup\n");
1012         mz = rte_memzone_lookup(TEST_MEMZONE_NAME("testzone1"));
1013         if (mz != memzone1)
1014                 return -1;
1015
1016         printf("test duplcate zone name\n");
1017         mz = rte_memzone_reserve(TEST_MEMZONE_NAME("testzone1"), 100,
1018                         SOCKET_ID_ANY, 0);
1019         if (mz != NULL)
1020                 return -1;
1021
1022         if (rte_memzone_free(memzone1)) {
1023                 printf("Fail memzone free - memzone1\n");
1024                 return -1;
1025         }
1026         if (rte_memzone_free(memzone2)) {
1027                 printf("Fail memzone free - memzone2\n");
1028                 return -1;
1029         }
1030         if (memzone3 && rte_memzone_free(memzone3)) {
1031                 printf("Fail memzone free - memzone3\n");
1032                 return -1;
1033         }
1034         if (rte_memzone_free(memzone4)) {
1035                 printf("Fail memzone free - memzone4\n");
1036                 return -1;
1037         }
1038
1039         memzone_cnt_after =
1040                         rte_eal_get_configuration()->mem_config->memzones.count;
1041         if (memzone_cnt_after != memzone_cnt_before)
1042                 return -1;
1043
1044         return 0;
1045 }
1046
1047 static int test_memzones_left;
1048 static int memzone_walk_cnt;
1049 static void memzone_walk_clb(const struct rte_memzone *mz,
1050                              void *arg __rte_unused)
1051 {
1052         memzone_walk_cnt++;
1053         if (!strncmp(TEST_MEMZONE_NAME(""), mz->name, RTE_MEMZONE_NAMESIZE))
1054                 test_memzones_left++;
1055 }
1056
1057 static int
1058 test_memzone(void)
1059 {
1060         /* take note of how many memzones were allocated before running */
1061         int memzone_cnt =
1062                         rte_eal_get_configuration()->mem_config->memzones.count;
1063
1064         printf("test basic memzone API\n");
1065         if (test_memzone_basic() < 0)
1066                 return -1;
1067
1068         printf("test free memzone\n");
1069         if (test_memzone_free() < 0)
1070                 return -1;
1071
1072         printf("test reserving memzone with bigger size than the maximum\n");
1073         if (test_memzone_reserving_zone_size_bigger_than_the_maximum() < 0)
1074                 return -1;
1075
1076         printf("test memzone_reserve flags\n");
1077         if (test_memzone_reserve_flags() < 0)
1078                 return -1;
1079
1080         printf("test alignment for memzone_reserve\n");
1081         if (test_memzone_aligned() < 0)
1082                 return -1;
1083
1084         printf("test boundary alignment for memzone_reserve\n");
1085         if (test_memzone_bounded() < 0)
1086                 return -1;
1087
1088         printf("test invalid alignment for memzone_reserve\n");
1089         if (test_memzone_invalid_alignment() < 0)
1090                 return -1;
1091
1092         printf("test reserving the largest size memzone possible\n");
1093         if (test_memzone_reserve_max() < 0)
1094                 return -1;
1095
1096         printf("test reserving the largest size aligned memzone possible\n");
1097         if (test_memzone_reserve_max_aligned() < 0)
1098                 return -1;
1099
1100         printf("check memzone cleanup\n");
1101         memzone_walk_cnt = 0;
1102         test_memzones_left = 0;
1103         rte_memzone_walk(memzone_walk_clb, NULL);
1104         if (memzone_walk_cnt != memzone_cnt || test_memzones_left > 0) {
1105                 printf("there are some memzones left after test\n");
1106                 rte_memzone_dump(stdout);
1107                 return -1;
1108         }
1109
1110         return 0;
1111 }
1112
1113 REGISTER_TEST_COMMAND(memzone_autotest, test_memzone);