blob: 8b435e27ca39376b7e9c0f754e7b075cb27f741f [file] [log] [blame]
Simon Glass78b0ef52018-11-15 18:43:53 -07001// SPDX-License-Identifier: GPL-2.0+
2/*
3 * Copyright (c) 2018, Google Inc. All rights reserved.
4 */
5
6#include <common.h>
7#include <bloblist.h>
8#include <log.h>
9#include <mapmem.h>
Simon Glass3ba929a2020-10-30 21:38:53 -060010#include <asm/global_data.h>
Simon Glass78b0ef52018-11-15 18:43:53 -070011#include <test/suites.h>
12#include <test/test.h>
13#include <test/ut.h>
14
15DECLARE_GLOBAL_DATA_PTR;
16
Simon Glass723ef9d2021-08-18 21:40:28 -060017/* Declare a new bloblist test */
Simon Glass78b0ef52018-11-15 18:43:53 -070018#define BLOBLIST_TEST(_name, _flags) \
19 UNIT_TEST(_name, _flags, bloblist_test)
20
21enum {
Simon Glassfd20df42022-01-12 19:26:19 -070022 TEST_TAG = BLOBLISTT_U_BOOT_SPL_HANDOFF,
23 TEST_TAG2 = BLOBLISTT_VBOOT_CTX,
24 TEST_TAG_MISSING = 0x10000,
Simon Glass78b0ef52018-11-15 18:43:53 -070025
26 TEST_SIZE = 10,
27 TEST_SIZE2 = 20,
Simon Glass06373972020-09-19 18:49:29 -060028 TEST_SIZE_LARGE = 0x3e0,
Simon Glass78b0ef52018-11-15 18:43:53 -070029
30 TEST_ADDR = CONFIG_BLOBLIST_ADDR,
Simon Glass06373972020-09-19 18:49:29 -060031 TEST_BLOBLIST_SIZE = 0x400,
Simon Glassd7985e62020-09-19 18:49:28 -060032
33 ERASE_BYTE = '\xff',
Simon Glass78b0ef52018-11-15 18:43:53 -070034};
35
Simon Glassf20a1132021-07-05 16:32:53 -060036static const char test1_str[] = "the eyes are open";
37static const char test2_str[] = "the mouth moves";
38
Simon Glass78b0ef52018-11-15 18:43:53 -070039static struct bloblist_hdr *clear_bloblist(void)
40{
41 struct bloblist_hdr *hdr;
42
Simon Glass3e85ea02020-01-27 08:49:52 -070043 /*
44 * Clear out any existing bloblist so we have a clean slate. Zero the
45 * header so that existing records are removed, but set everything else
46 * to 0xff for testing purposes.
47 */
Simon Glass78b0ef52018-11-15 18:43:53 -070048 hdr = map_sysmem(CONFIG_BLOBLIST_ADDR, TEST_BLOBLIST_SIZE);
Simon Glassd7985e62020-09-19 18:49:28 -060049 memset(hdr, ERASE_BYTE, TEST_BLOBLIST_SIZE);
Simon Glass3e85ea02020-01-27 08:49:52 -070050 memset(hdr, '\0', sizeof(*hdr));
Simon Glass78b0ef52018-11-15 18:43:53 -070051
52 return hdr;
53}
54
Simon Glass3e85ea02020-01-27 08:49:52 -070055static int check_zero(void *data, int size)
56{
57 u8 *ptr;
58 int i;
59
60 for (ptr = data, i = 0; i < size; i++, ptr++) {
61 if (*ptr)
62 return -EINVAL;
63 }
64
65 return 0;
66}
67
Simon Glass78b0ef52018-11-15 18:43:53 -070068static int bloblist_test_init(struct unit_test_state *uts)
69{
70 struct bloblist_hdr *hdr;
71
72 hdr = clear_bloblist();
73 ut_asserteq(-ENOENT, bloblist_check(TEST_ADDR, TEST_BLOBLIST_SIZE));
Simon Glass9341a3f2022-01-12 19:26:16 -070074 ut_asserteq_ptr(NULL, bloblist_check_magic(TEST_ADDR));
Simon Glass78b0ef52018-11-15 18:43:53 -070075 ut_assertok(bloblist_new(TEST_ADDR, TEST_BLOBLIST_SIZE, 0));
Simon Glass9341a3f2022-01-12 19:26:16 -070076 ut_asserteq_ptr(hdr, bloblist_check_magic(TEST_ADDR));
Simon Glass78b0ef52018-11-15 18:43:53 -070077 hdr->version++;
78 ut_asserteq(-EPROTONOSUPPORT, bloblist_check(TEST_ADDR,
79 TEST_BLOBLIST_SIZE));
80
81 ut_asserteq(-ENOSPC, bloblist_new(TEST_ADDR, 0x10, 0));
82 ut_asserteq(-EFAULT, bloblist_new(1, TEST_BLOBLIST_SIZE, 0));
83 ut_assertok(bloblist_new(TEST_ADDR, TEST_BLOBLIST_SIZE, 0));
84
85 ut_asserteq(-EIO, bloblist_check(TEST_ADDR, TEST_BLOBLIST_SIZE));
86 ut_assertok(bloblist_finish());
87 ut_assertok(bloblist_check(TEST_ADDR, TEST_BLOBLIST_SIZE));
Simon Glass9341a3f2022-01-12 19:26:16 -070088
89 hdr->magic++;
90 ut_asserteq_ptr(NULL, bloblist_check_magic(TEST_ADDR));
91 hdr->magic--;
92
Simon Glass78b0ef52018-11-15 18:43:53 -070093 hdr->flags++;
94 ut_asserteq(-EIO, bloblist_check(TEST_ADDR, TEST_BLOBLIST_SIZE));
95
96 return 1;
97}
98BLOBLIST_TEST(bloblist_test_init, 0);
99
100static int bloblist_test_blob(struct unit_test_state *uts)
101{
102 struct bloblist_hdr *hdr;
103 struct bloblist_rec *rec, *rec2;
104 char *data;
105
106 /* At the start there should be no records */
107 hdr = clear_bloblist();
108 ut_assertnull(bloblist_find(TEST_TAG, TEST_BLOBLIST_SIZE));
109 ut_assertok(bloblist_new(TEST_ADDR, TEST_BLOBLIST_SIZE, 0));
Simon Glass01fd56a2022-01-12 19:26:23 -0700110 ut_asserteq(TEST_BLOBLIST_SIZE, bloblist_get_size());
111 ut_asserteq(TEST_ADDR, bloblist_get_base());
Simon Glass7c58b082020-09-19 18:49:27 -0600112 ut_asserteq(map_to_sysmem(hdr), TEST_ADDR);
Simon Glass78b0ef52018-11-15 18:43:53 -0700113
114 /* Add a record and check that we can find it */
Simon Glass06373972020-09-19 18:49:29 -0600115 data = bloblist_add(TEST_TAG, TEST_SIZE, 0);
Simon Glass78b0ef52018-11-15 18:43:53 -0700116 rec = (void *)(hdr + 1);
Simon Glass7c58b082020-09-19 18:49:27 -0600117 ut_asserteq_addr(rec + 1, data);
Simon Glass78b0ef52018-11-15 18:43:53 -0700118 data = bloblist_find(TEST_TAG, TEST_SIZE);
Simon Glass7c58b082020-09-19 18:49:27 -0600119 ut_asserteq_addr(rec + 1, data);
Simon Glass78b0ef52018-11-15 18:43:53 -0700120
Simon Glass3e85ea02020-01-27 08:49:52 -0700121 /* Check the data is zeroed */
122 ut_assertok(check_zero(data, TEST_SIZE));
123
Simon Glass78b0ef52018-11-15 18:43:53 -0700124 /* Check the 'ensure' method */
Simon Glass7c58b082020-09-19 18:49:27 -0600125 ut_asserteq_addr(data, bloblist_ensure(TEST_TAG, TEST_SIZE));
Simon Glass78b0ef52018-11-15 18:43:53 -0700126 ut_assertnull(bloblist_ensure(TEST_TAG, TEST_SIZE2));
127 rec2 = (struct bloblist_rec *)(data + ALIGN(TEST_SIZE, BLOBLIST_ALIGN));
Simon Glass3e85ea02020-01-27 08:49:52 -0700128 ut_assertok(check_zero(data, TEST_SIZE));
Simon Glass78b0ef52018-11-15 18:43:53 -0700129
130 /* Check for a non-existent record */
Simon Glass7c58b082020-09-19 18:49:27 -0600131 ut_asserteq_addr(data, bloblist_ensure(TEST_TAG, TEST_SIZE));
132 ut_asserteq_addr(rec2 + 1, bloblist_ensure(TEST_TAG2, TEST_SIZE2));
Simon Glass78b0ef52018-11-15 18:43:53 -0700133 ut_assertnull(bloblist_find(TEST_TAG_MISSING, 0));
134
135 return 0;
136}
137BLOBLIST_TEST(bloblist_test_blob, 0);
138
Simon Glass1e0304e2020-01-27 08:49:50 -0700139/* Check bloblist_ensure_size_ret() */
140static int bloblist_test_blob_ensure(struct unit_test_state *uts)
141{
142 void *data, *data2;
143 int size;
144
145 /* At the start there should be no records */
146 clear_bloblist();
147 ut_assertok(bloblist_new(TEST_ADDR, TEST_BLOBLIST_SIZE, 0));
148
149 /* Test with an empty bloblist */
150 size = TEST_SIZE;
151 ut_assertok(bloblist_ensure_size_ret(TEST_TAG, &size, &data));
152 ut_asserteq(TEST_SIZE, size);
Simon Glass3e85ea02020-01-27 08:49:52 -0700153 ut_assertok(check_zero(data, TEST_SIZE));
Simon Glass1e0304e2020-01-27 08:49:50 -0700154
155 /* Check that we get the same thing again */
156 ut_assertok(bloblist_ensure_size_ret(TEST_TAG, &size, &data2));
157 ut_asserteq(TEST_SIZE, size);
Simon Glass7c58b082020-09-19 18:49:27 -0600158 ut_asserteq_addr(data, data2);
Simon Glass1e0304e2020-01-27 08:49:50 -0700159
160 /* Check that the size remains the same */
161 size = TEST_SIZE2;
162 ut_assertok(bloblist_ensure_size_ret(TEST_TAG, &size, &data));
163 ut_asserteq(TEST_SIZE, size);
164
165 /* Check running out of space */
166 size = TEST_SIZE_LARGE;
167 ut_asserteq(-ENOSPC, bloblist_ensure_size_ret(TEST_TAG2, &size, &data));
168
169 return 0;
170}
171BLOBLIST_TEST(bloblist_test_blob_ensure, 0);
172
Simon Glass78b0ef52018-11-15 18:43:53 -0700173static int bloblist_test_bad_blob(struct unit_test_state *uts)
174{
175 struct bloblist_hdr *hdr;
176 void *data;
177
178 hdr = clear_bloblist();
179 ut_assertok(bloblist_new(TEST_ADDR, TEST_BLOBLIST_SIZE, 0));
180 data = hdr + 1;
181 data += sizeof(struct bloblist_rec);
Simon Glass7c58b082020-09-19 18:49:27 -0600182 ut_asserteq_addr(data, bloblist_ensure(TEST_TAG, TEST_SIZE));
183 ut_asserteq_addr(data, bloblist_ensure(TEST_TAG, TEST_SIZE));
Simon Glass78b0ef52018-11-15 18:43:53 -0700184
185 return 0;
186}
187BLOBLIST_TEST(bloblist_test_bad_blob, 0);
188
189static int bloblist_test_checksum(struct unit_test_state *uts)
190{
191 struct bloblist_hdr *hdr;
192 char *data, *data2;
193
194 hdr = clear_bloblist();
195 ut_assertok(bloblist_new(TEST_ADDR, TEST_BLOBLIST_SIZE, 0));
196 ut_assertok(bloblist_finish());
197 ut_assertok(bloblist_check(TEST_ADDR, TEST_BLOBLIST_SIZE));
198
199 /*
200 * Now change things amd make sure that the checksum notices. We cannot
201 * change the size or alloced fields, since that will crash the code.
202 * It has to rely on these being correct.
203 */
204 hdr->flags--;
205 ut_asserteq(-EIO, bloblist_check(TEST_ADDR, TEST_BLOBLIST_SIZE));
206 hdr->flags++;
207
208 hdr->size--;
209 ut_asserteq(-EFBIG, bloblist_check(TEST_ADDR, TEST_BLOBLIST_SIZE));
210 hdr->size++;
211
212 hdr->spare++;
213 ut_asserteq(-EIO, bloblist_check(TEST_ADDR, TEST_BLOBLIST_SIZE));
214 hdr->spare--;
215
216 hdr->chksum++;
217 ut_asserteq(-EIO, bloblist_check(TEST_ADDR, TEST_BLOBLIST_SIZE));
218 hdr->chksum--;
219
220 /* Make sure the checksum changes when we add blobs */
Simon Glass06373972020-09-19 18:49:29 -0600221 data = bloblist_add(TEST_TAG, TEST_SIZE, 0);
Simon Glass78b0ef52018-11-15 18:43:53 -0700222 ut_asserteq(-EIO, bloblist_check(TEST_ADDR, TEST_BLOBLIST_SIZE));
223
Simon Glass06373972020-09-19 18:49:29 -0600224 data2 = bloblist_add(TEST_TAG2, TEST_SIZE2, 0);
Simon Glass78b0ef52018-11-15 18:43:53 -0700225 ut_asserteq(-EIO, bloblist_check(TEST_ADDR, TEST_BLOBLIST_SIZE));
226 ut_assertok(bloblist_finish());
227
228 /* It should also change if we change the data */
229 ut_assertok(bloblist_check(TEST_ADDR, TEST_BLOBLIST_SIZE));
230 *data += 1;
231 ut_asserteq(-EIO, bloblist_check(TEST_ADDR, TEST_BLOBLIST_SIZE));
232 *data -= 1;
233
234 ut_assertok(bloblist_check(TEST_ADDR, TEST_BLOBLIST_SIZE));
235 *data2 += 1;
236 ut_asserteq(-EIO, bloblist_check(TEST_ADDR, TEST_BLOBLIST_SIZE));
237 *data2 -= 1;
238
239 /*
240 * Changing data outside the range of valid data should not affect
241 * the checksum.
242 */
243 ut_assertok(bloblist_check(TEST_ADDR, TEST_BLOBLIST_SIZE));
244 data[TEST_SIZE]++;
245 data2[TEST_SIZE2]++;
246 ut_assertok(bloblist_check(TEST_ADDR, TEST_BLOBLIST_SIZE));
247
248 return 0;
249}
Simon Glass78b0ef52018-11-15 18:43:53 -0700250BLOBLIST_TEST(bloblist_test_checksum, 0);
251
Simon Glassb936a972020-09-19 18:49:26 -0600252/* Test the 'bloblist info' command */
253static int bloblist_test_cmd_info(struct unit_test_state *uts)
254{
Simon Glassb936a972020-09-19 18:49:26 -0600255 struct bloblist_hdr *hdr;
256 char *data, *data2;
257
258 hdr = clear_bloblist();
259 ut_assertok(bloblist_new(TEST_ADDR, TEST_BLOBLIST_SIZE, 0));
260 data = bloblist_ensure(TEST_TAG, TEST_SIZE);
261 data2 = bloblist_ensure(TEST_TAG2, TEST_SIZE2);
262
263 console_record_reset_enable();
Simon Glassb8f00822020-11-08 21:08:43 -0700264 ut_silence_console(uts);
Simon Glassb936a972020-09-19 18:49:26 -0600265 console_record_reset();
266 run_command("bloblist info", 0);
Simon Glass7c58b082020-09-19 18:49:27 -0600267 ut_assert_nextline("base: %lx", (ulong)map_to_sysmem(hdr));
Simon Glass06373972020-09-19 18:49:29 -0600268 ut_assert_nextline("size: 400 1 KiB");
Simon Glassb936a972020-09-19 18:49:26 -0600269 ut_assert_nextline("alloced: 70 112 Bytes");
Simon Glass06373972020-09-19 18:49:29 -0600270 ut_assert_nextline("free: 390 912 Bytes");
Simon Glassb936a972020-09-19 18:49:26 -0600271 ut_assert_console_end();
Simon Glassb8f00822020-11-08 21:08:43 -0700272 ut_unsilence_console(uts);
Simon Glassb936a972020-09-19 18:49:26 -0600273
274 return 0;
275}
276BLOBLIST_TEST(bloblist_test_cmd_info, 0);
277
278/* Test the 'bloblist list' command */
279static int bloblist_test_cmd_list(struct unit_test_state *uts)
280{
Simon Glassb936a972020-09-19 18:49:26 -0600281 struct bloblist_hdr *hdr;
282 char *data, *data2;
283
284 hdr = clear_bloblist();
285 ut_assertok(bloblist_new(TEST_ADDR, TEST_BLOBLIST_SIZE, 0));
286 data = bloblist_ensure(TEST_TAG, TEST_SIZE);
287 data2 = bloblist_ensure(TEST_TAG2, TEST_SIZE2);
288
289 console_record_reset_enable();
Simon Glassb8f00822020-11-08 21:08:43 -0700290 ut_silence_console(uts);
Simon Glassb936a972020-09-19 18:49:26 -0600291 console_record_reset();
292 run_command("bloblist list", 0);
Simon Glassfd20df42022-01-12 19:26:19 -0700293 ut_assert_nextline("Address Size Tag Name");
Simon Glass871e5d02023-12-27 13:06:59 -0800294 ut_assert_nextline("%08lx %8x fff000 SPL hand-off",
Simon Glass7c58b082020-09-19 18:49:27 -0600295 (ulong)map_to_sysmem(data), TEST_SIZE);
Simon Glass871e5d02023-12-27 13:06:59 -0800296 ut_assert_nextline("%08lx %8x 202 Chrome OS vboot context",
Simon Glass7c58b082020-09-19 18:49:27 -0600297 (ulong)map_to_sysmem(data2), TEST_SIZE2);
Simon Glassb936a972020-09-19 18:49:26 -0600298 ut_assert_console_end();
Simon Glassb8f00822020-11-08 21:08:43 -0700299 ut_unsilence_console(uts);
Simon Glassb936a972020-09-19 18:49:26 -0600300
301 return 0;
302}
303BLOBLIST_TEST(bloblist_test_cmd_list, 0);
304
Simon Glassd7985e62020-09-19 18:49:28 -0600305/* Test alignment of bloblist blobs */
306static int bloblist_test_align(struct unit_test_state *uts)
307{
308 struct bloblist_hdr *hdr;
Simon Glass06373972020-09-19 18:49:29 -0600309 ulong addr;
310 char *data;
Simon Glassd7985e62020-09-19 18:49:28 -0600311 int i;
312
313 /* At the start there should be no records */
314 hdr = clear_bloblist();
315 ut_assertok(bloblist_new(TEST_ADDR, TEST_BLOBLIST_SIZE, 0));
316 ut_assertnull(bloblist_find(TEST_TAG, TEST_BLOBLIST_SIZE));
317
Simon Glass06373972020-09-19 18:49:29 -0600318 /* Check the default alignment */
Simon Glassd7985e62020-09-19 18:49:28 -0600319 for (i = 0; i < 3; i++) {
320 int size = i * 3;
321 ulong addr;
322 char *data;
323 int j;
324
Simon Glass06373972020-09-19 18:49:29 -0600325 data = bloblist_add(i, size, 0);
Simon Glassd7985e62020-09-19 18:49:28 -0600326 ut_assertnonnull(data);
327 addr = map_to_sysmem(data);
328 ut_asserteq(0, addr & (BLOBLIST_ALIGN - 1));
329
330 /* Only the bytes in the blob data should be zeroed */
331 for (j = 0; j < size; j++)
332 ut_asserteq(0, data[j]);
333 for (; j < BLOBLIST_ALIGN; j++)
334 ut_asserteq(ERASE_BYTE, data[j]);
335 }
336
Simon Glass06373972020-09-19 18:49:29 -0600337 /* Check larger alignment */
338 for (i = 0; i < 3; i++) {
Simon Glassc2aa4ef2023-12-27 13:07:00 -0800339 int align = 5 - i;
Simon Glass06373972020-09-19 18:49:29 -0600340
341 data = bloblist_add(3 + i, i * 4, align);
342 ut_assertnonnull(data);
343 addr = map_to_sysmem(data);
344 ut_asserteq(0, addr & (align - 1));
345 }
346
347 /* Check alignment with an bloblist starting on a smaller alignment */
348 hdr = map_sysmem(TEST_ADDR + BLOBLIST_ALIGN, TEST_BLOBLIST_SIZE);
349 memset(hdr, ERASE_BYTE, TEST_BLOBLIST_SIZE);
350 memset(hdr, '\0', sizeof(*hdr));
351 ut_assertok(bloblist_new(TEST_ADDR + BLOBLIST_ALIGN, TEST_BLOBLIST_SIZE,
352 0));
353
Simon Glassc2aa4ef2023-12-27 13:07:00 -0800354 data = bloblist_add(1, 5, BLOBLIST_ALIGN_LOG2 + 1);
Simon Glass06373972020-09-19 18:49:29 -0600355 ut_assertnonnull(data);
356 addr = map_to_sysmem(data);
357 ut_asserteq(0, addr & (BLOBLIST_ALIGN * 2 - 1));
358
Simon Glassd7985e62020-09-19 18:49:28 -0600359 return 0;
360}
361BLOBLIST_TEST(bloblist_test_align, 0);
362
Simon Glassab7e7462021-01-13 20:29:43 -0700363/* Test relocation of a bloblist */
364static int bloblist_test_reloc(struct unit_test_state *uts)
365{
366 const uint large_size = TEST_BLOBLIST_SIZE;
367 const uint small_size = 0x20;
368 void *old_ptr, *new_ptr;
369 void *blob1, *blob2;
370 ulong new_addr;
371 ulong new_size;
372
373 ut_assertok(bloblist_new(TEST_ADDR, TEST_BLOBLIST_SIZE, 0));
374 old_ptr = map_sysmem(TEST_ADDR, TEST_BLOBLIST_SIZE);
375
376 /* Add one blob and then one that won't fit */
377 blob1 = bloblist_add(TEST_TAG, small_size, 0);
378 ut_assertnonnull(blob1);
379 blob2 = bloblist_add(TEST_TAG2, large_size, 0);
380 ut_assertnull(blob2);
381
382 /* Relocate the bloblist somewhere else, a bit larger */
383 new_addr = TEST_ADDR + TEST_BLOBLIST_SIZE;
384 new_size = TEST_BLOBLIST_SIZE + 0x100;
385 new_ptr = map_sysmem(new_addr, TEST_BLOBLIST_SIZE);
386 bloblist_reloc(new_ptr, new_size, old_ptr, TEST_BLOBLIST_SIZE);
387 gd->bloblist = new_ptr;
388
389 /* Check the old blob is there and that we can now add the bigger one */
390 ut_assertnonnull(bloblist_find(TEST_TAG, small_size));
391 ut_assertnull(bloblist_find(TEST_TAG2, small_size));
392 blob2 = bloblist_add(TEST_TAG2, large_size, 0);
393 ut_assertnonnull(blob2);
394
395 return 0;
396}
397BLOBLIST_TEST(bloblist_test_reloc, 0);
398
Simon Glassf20a1132021-07-05 16:32:53 -0600399/* Test expansion of a blob */
400static int bloblist_test_grow(struct unit_test_state *uts)
401{
402 const uint small_size = 0x20;
403 void *blob1, *blob2, *blob1_new;
404 struct bloblist_hdr *hdr;
405 void *ptr;
406
407 ptr = map_sysmem(TEST_ADDR, TEST_BLOBLIST_SIZE);
408 hdr = ptr;
409 memset(hdr, ERASE_BYTE, TEST_BLOBLIST_SIZE);
410
411 /* Create two blobs */
412 ut_assertok(bloblist_new(TEST_ADDR, TEST_BLOBLIST_SIZE, 0));
413 blob1 = bloblist_add(TEST_TAG, small_size, 0);
414 ut_assertnonnull(blob1);
415 ut_assertok(check_zero(blob1, small_size));
416 strcpy(blob1, test1_str);
417
418 blob2 = bloblist_add(TEST_TAG2, small_size, 0);
419 ut_assertnonnull(blob2);
420 strcpy(blob2, test2_str);
421
422 ut_asserteq(sizeof(struct bloblist_hdr) +
423 sizeof(struct bloblist_rec) * 2 + small_size * 2,
424 hdr->alloced);
425
426 /* Resize the first one */
427 ut_assertok(bloblist_resize(TEST_TAG, small_size + 4));
428
429 /* The first one should not have moved, just got larger */
430 blob1_new = bloblist_find(TEST_TAG, small_size + 4);
431 ut_asserteq_ptr(blob1, blob1_new);
432
433 /* The new space should be zeroed */
434 ut_assertok(check_zero(blob1 + small_size, 4));
435
436 /* The second one should have moved */
437 blob2 = bloblist_find(TEST_TAG2, small_size);
438 ut_assertnonnull(blob2);
439 ut_asserteq_str(test2_str, blob2);
440
441 /* The header should have more bytes in use */
442 hdr = ptr;
443 ut_asserteq(sizeof(struct bloblist_hdr) +
444 sizeof(struct bloblist_rec) * 2 + small_size * 2 +
445 BLOBLIST_ALIGN,
446 hdr->alloced);
447
448 return 0;
449}
450BLOBLIST_TEST(bloblist_test_grow, 0);
451
452/* Test shrinking of a blob */
453static int bloblist_test_shrink(struct unit_test_state *uts)
454{
455 const uint small_size = 0x20;
456 void *blob1, *blob2, *blob1_new;
457 struct bloblist_hdr *hdr;
458 int new_size;
459 void *ptr;
460
461 ptr = map_sysmem(TEST_ADDR, TEST_BLOBLIST_SIZE);
462
463 /* Create two blobs */
464 ut_assertok(bloblist_new(TEST_ADDR, TEST_BLOBLIST_SIZE, 0));
465 blob1 = bloblist_add(TEST_TAG, small_size, 0);
466 ut_assertnonnull(blob1);
467 strcpy(blob1, test1_str);
468
469 blob2 = bloblist_add(TEST_TAG2, small_size, 0);
470 ut_assertnonnull(blob2);
471 strcpy(blob2, test2_str);
472
473 hdr = ptr;
474 ut_asserteq(sizeof(struct bloblist_hdr) +
475 sizeof(struct bloblist_rec) * 2 + small_size * 2,
476 hdr->alloced);
477
478 /* Resize the first one */
479 new_size = small_size - BLOBLIST_ALIGN - 4;
480 ut_assertok(bloblist_resize(TEST_TAG, new_size));
481
482 /* The first one should not have moved, just got smaller */
483 blob1_new = bloblist_find(TEST_TAG, new_size);
484 ut_asserteq_ptr(blob1, blob1_new);
485
486 /* The second one should have moved */
487 blob2 = bloblist_find(TEST_TAG2, small_size);
488 ut_assertnonnull(blob2);
489 ut_asserteq_str(test2_str, blob2);
490
491 /* The header should have fewer bytes in use */
492 hdr = ptr;
493 ut_asserteq(sizeof(struct bloblist_hdr) +
494 sizeof(struct bloblist_rec) * 2 + small_size * 2 -
495 BLOBLIST_ALIGN,
496 hdr->alloced);
497
498 return 0;
499}
500BLOBLIST_TEST(bloblist_test_shrink, 0);
501
502/* Test failing to adjust a blob size */
503static int bloblist_test_resize_fail(struct unit_test_state *uts)
504{
505 const uint small_size = 0x20;
506 struct bloblist_hdr *hdr;
507 void *blob1, *blob2;
508 int new_size;
509 void *ptr;
510
511 ptr = map_sysmem(TEST_ADDR, TEST_BLOBLIST_SIZE);
512
513 /* Create two blobs */
514 ut_assertok(bloblist_new(TEST_ADDR, TEST_BLOBLIST_SIZE, 0));
515 blob1 = bloblist_add(TEST_TAG, small_size, 0);
516 ut_assertnonnull(blob1);
517
518 blob2 = bloblist_add(TEST_TAG2, small_size, 0);
519 ut_assertnonnull(blob2);
520
521 hdr = ptr;
522 ut_asserteq(sizeof(struct bloblist_hdr) +
523 sizeof(struct bloblist_rec) * 2 + small_size * 2,
524 hdr->alloced);
525
526 /* Resize the first one, to check the boundary conditions */
527 ut_asserteq(-EINVAL, bloblist_resize(TEST_TAG, -1));
528
529 new_size = small_size + (hdr->size - hdr->alloced);
530 ut_asserteq(-ENOSPC, bloblist_resize(TEST_TAG, new_size + 1));
531 ut_assertok(bloblist_resize(TEST_TAG, new_size));
532
533 return 0;
534}
535BLOBLIST_TEST(bloblist_test_resize_fail, 0);
536
537/* Test expanding the last blob in a bloblist */
538static int bloblist_test_resize_last(struct unit_test_state *uts)
539{
540 const uint small_size = 0x20;
541 struct bloblist_hdr *hdr;
542 void *blob1, *blob2, *blob2_new;
543 int alloced_val;
544 void *ptr;
545
546 ptr = map_sysmem(TEST_ADDR, TEST_BLOBLIST_SIZE);
547 memset(ptr, ERASE_BYTE, TEST_BLOBLIST_SIZE);
548 hdr = ptr;
549
550 /* Create two blobs */
551 ut_assertok(bloblist_new(TEST_ADDR, TEST_BLOBLIST_SIZE, 0));
552 blob1 = bloblist_add(TEST_TAG, small_size, 0);
553 ut_assertnonnull(blob1);
554
555 blob2 = bloblist_add(TEST_TAG2, small_size, 0);
556 ut_assertnonnull(blob2);
557
558 /* Check the byte after the last blob */
559 alloced_val = sizeof(struct bloblist_hdr) +
560 sizeof(struct bloblist_rec) * 2 + small_size * 2;
561 ut_asserteq(alloced_val, hdr->alloced);
562 ut_asserteq_ptr((void *)hdr + alloced_val, blob2 + small_size);
563 ut_asserteq((u8)ERASE_BYTE, *((u8 *)hdr + hdr->alloced));
564
565 /* Resize the second one, checking nothing changes */
566 ut_asserteq(0, bloblist_resize(TEST_TAG2, small_size + 4));
567
568 blob2_new = bloblist_find(TEST_TAG2, small_size + 4);
569 ut_asserteq_ptr(blob2, blob2_new);
570
571 /*
572 * the new blob should encompass the byte we checked now, so it should
573 * be zeroed. This zeroing should affect only the four new bytes added
574 * to the blob.
575 */
576 ut_asserteq(0, *((u8 *)hdr + alloced_val));
577 ut_asserteq((u8)ERASE_BYTE, *((u8 *)hdr + alloced_val + 4));
578
579 /* Check that the new top of the allocated blobs has not been touched */
580 alloced_val += BLOBLIST_ALIGN;
581 ut_asserteq(alloced_val, hdr->alloced);
582 ut_asserteq((u8)ERASE_BYTE, *((u8 *)hdr + hdr->alloced));
583
584 return 0;
585}
586BLOBLIST_TEST(bloblist_test_resize_last, 0);
587
Simon Glass3e26de52021-07-05 16:32:55 -0600588/* Check a completely full bloblist */
589static int bloblist_test_blob_maxsize(struct unit_test_state *uts)
590{
591 void *ptr;
592 int size;
593
594 /* At the start there should be no records */
595 clear_bloblist();
596 ut_assertok(bloblist_new(TEST_ADDR, TEST_BLOBLIST_SIZE, 0));
597
598 /* Add a blob that takes up all space */
599 size = TEST_BLOBLIST_SIZE - sizeof(struct bloblist_hdr) -
600 sizeof(struct bloblist_rec);
601 ptr = bloblist_add(TEST_TAG, size, 0);
602 ut_assertnonnull(ptr);
603
604 ptr = bloblist_add(TEST_TAG, size + 1, 0);
605 ut_assertnull(ptr);
606
607 return 0;
608}
609BLOBLIST_TEST(bloblist_test_blob_maxsize, 0);
610
Simon Glassed38aef2020-05-10 11:40:03 -0600611int do_ut_bloblist(struct cmd_tbl *cmdtp, int flag, int argc,
612 char *const argv[])
Simon Glass78b0ef52018-11-15 18:43:53 -0700613{
Simon Glassb50211f2021-03-07 17:35:10 -0700614 struct unit_test *tests = UNIT_TEST_SUITE_START(bloblist_test);
615 const int n_ents = UNIT_TEST_SUITE_COUNT(bloblist_test);
Simon Glass78b0ef52018-11-15 18:43:53 -0700616
Philippe Reynes1f99f842019-12-17 19:07:04 +0100617 return cmd_ut_category("bloblist", "bloblist_test_",
618 tests, n_ents, argc, argv);
Simon Glass78b0ef52018-11-15 18:43:53 -0700619}