From 466a378b9a6e5cc4dd5f90cc158b39842098639d Mon Sep 17 00:00:00 2001 From: Jakub Czapiga Date: Mon, 5 Oct 2020 10:44:46 +0200 Subject: tests: Add lib/imd-test test case Implement unit tests for src/lib/imd.c module. Signed-off-by: Jakub Czapiga Signed-off-by: Anna Karas Signed-off-by: Jan Dabros Change-Id: I3902f8638669440144064ce0e3756918338f4068 Reviewed-on: https://review.coreboot.org/c/coreboot/+/46457 Reviewed-by: Angel Pons Reviewed-by: Paul Fagerburg Tested-by: build bot (Jenkins) --- tests/lib/Makefile.inc | 5 + tests/lib/imd-test.c | 763 +++++++++++++++++++++++++++++++++++++++++++++++++ 2 files changed, 768 insertions(+) create mode 100644 tests/lib/imd-test.c (limited to 'tests') diff --git a/tests/lib/Makefile.inc b/tests/lib/Makefile.inc index b66d386787..3062bcaa70 100644 --- a/tests/lib/Makefile.inc +++ b/tests/lib/Makefile.inc @@ -3,6 +3,7 @@ tests-y += string-test tests-y += b64_decode-test tests-y += hexstrtobin-test +tests-y += imd-test string-test-srcs += tests/lib/string-test.c string-test-srcs += src/lib/string.c @@ -13,3 +14,7 @@ b64_decode-test-srcs += src/lib/b64_decode.c hexstrtobin-test-srcs += tests/lib/hexstrtobin-test.c hexstrtobin-test-srcs += src/lib/hexstrtobin.c + +imd-test-srcs += tests/lib/imd-test.c +imd-test-srcs += tests/stubs/console.c +imd-test-srcs += src/lib/imd.c \ No newline at end of file diff --git a/tests/lib/imd-test.c b/tests/lib/imd-test.c new file mode 100644 index 0000000000..dce542cf8f --- /dev/null +++ b/tests/lib/imd-test.c @@ -0,0 +1,763 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +#include +#include +#include +#include +#include +#include +#include +#include +#include + +/* Auxiliary functions and definitions. */ + +#define LG_ROOT_SIZE align_up_pow2(sizeof(struct imd_root_pointer) +\ + sizeof(struct imd_root) + 3 * sizeof(struct imd_entry)) +#define LG_ENTRY_ALIGN (2 * sizeof(int32_t)) +#define LG_ENTRY_SIZE (2 * sizeof(int32_t)) +#define LG_ENTRY_ID 0xA001 + +#define SM_ROOT_SIZE LG_ROOT_SIZE +#define SM_ENTRY_ALIGN sizeof(uint32_t) +#define SM_ENTRY_SIZE sizeof(uint32_t) +#define SM_ENTRY_ID 0xB001 + +#define INVALID_REGION_ID 0xC001 + +static uint32_t align_up_pow2(uint32_t x) +{ + return (1 << log2_ceil(x)); +} + +static size_t max_entries(size_t root_size) +{ + return (root_size - sizeof(struct imd_root_pointer) - sizeof(struct imd_root)) + / sizeof(struct imd_entry); +} + +/* + * Mainly, we should check that imd_handle_init() aligns upper_limit properly + * for various inputs. Upper limit is the _exclusive_ address, so we expect + * ALIGN_DOWN. + */ +static void test_imd_handle_init(void **state) +{ + int i; + void *base; + struct imd imd; + uintptr_t test_inputs[] = { + 0, /* Lowest possible address */ + 0xA000, /* Fits in 16 bits, should not get rounded down*/ + 0xDEAA, /* Fits in 16 bits */ + 0xB0B0B000, /* Fits in 32 bits, should not get rounded down */ + 0xF0F0F0F0, /* Fits in 32 bits */ + ((1ULL << 32) + 4), /* Just above 32-bit limit */ + 0x6666777788889000, /* Fits in 64 bits, should not get rounded down */ + ((1ULL << 60) - 100) /* Very large address, fitting in 64 bits */ + }; + + for (i = 0; i < ARRAY_SIZE(test_inputs); i++) { + base = (void *)test_inputs[i]; + + imd_handle_init(&imd, (void *)base); + + assert_int_equal(imd.lg.limit % LIMIT_ALIGN, 0); + assert_int_equal(imd.lg.limit, ALIGN_DOWN(test_inputs[i], LIMIT_ALIGN)); + assert_ptr_equal(imd.lg.r, NULL); + + /* Small allocations not initialized */ + assert_ptr_equal(imd.sm.limit, NULL); + assert_ptr_equal(imd.sm.r, NULL); + } +} + +static void test_imd_handle_init_partial_recovery(void **state) +{ + void *base; + struct imd imd = {0}; + const struct imd_entry *entry; + + imd_handle_init_partial_recovery(&imd); + assert_null(imd.lg.limit); + assert_null(imd.sm.limit); + + base = malloc(LIMIT_ALIGN); + if (base == NULL) + fail_msg("Cannot allocate enough memory - fail test"); + + imd_handle_init(&imd, (void *)(LIMIT_ALIGN + (uintptr_t)base)); + imd_handle_init_partial_recovery(&imd); + + assert_non_null(imd.lg.r); + assert_null(imd.sm.limit); + + assert_int_equal(0, imd_create_empty(&imd, LG_ROOT_SIZE, LG_ENTRY_ALIGN)); + entry = imd_entry_add(&imd, SMALL_REGION_ID, LG_ENTRY_SIZE); + assert_non_null(entry); + + imd_handle_init_partial_recovery(&imd); + + assert_non_null(imd.lg.r); + assert_non_null(imd.sm.limit); + assert_ptr_equal(imd.lg.r + entry->start_offset + LG_ENTRY_SIZE, imd.sm.limit); + assert_non_null(imd.sm.r); + + free(base); +} + +static void test_imd_create_empty(void **state) +{ + struct imd imd = {0}; + void *base; + struct imd_root *r; + struct imd_entry *e; + + /* Expect imd_create_empty to fail, since imd handle is not initialized */ + assert_int_equal(-1, imd_create_empty(&imd, LG_ROOT_SIZE, LG_ENTRY_ALIGN)); + base = malloc(sizeof(struct imd_root_pointer) + sizeof(struct imd_root)); + if (base == NULL) + fail_msg("Cannot allocate enough memory - fail test"); + + imd_handle_init(&imd, (void *)(LIMIT_ALIGN + (uintptr_t)base)); + + /* Try incorrect sizes */ + assert_int_equal(-1, imd_create_empty(&imd, + sizeof(struct imd_root_pointer), + LG_ENTRY_ALIGN)); + assert_int_equal(-1, imd_create_empty(&imd, LG_ROOT_SIZE, 2 * LG_ROOT_SIZE)); + + /* Working case */ + assert_int_equal(0, imd_create_empty(&imd, LG_ROOT_SIZE, LG_ENTRY_ALIGN)); + + /* Only large allocation initialized with one entry for the root region */ + r = (struct imd_root *) (imd.lg.r); + assert_non_null(r); + + e = &r->entries[r->num_entries - 1]; + + assert_int_equal(max_entries(LG_ROOT_SIZE), r->max_entries); + assert_int_equal(1, r->num_entries); + assert_int_equal(0, r->flags); + assert_int_equal(LG_ENTRY_ALIGN, r->entry_align); + assert_int_equal(0, r->max_offset); + assert_ptr_equal(e, &r->entries); + + assert_int_equal(IMD_ENTRY_MAGIC, e->magic); + assert_int_equal(0, e->start_offset); + assert_int_equal(LG_ROOT_SIZE, e->size); + assert_int_equal(CBMEM_ID_IMD_ROOT, e->id); + + free(base); +} + +static void test_imd_create_tiered_empty(void **state) +{ + void *base; + size_t sm_region_size, lg_region_wrong_size; + struct imd imd = {0}; + struct imd_root *r; + struct imd_entry *fst_lg_entry, *snd_lg_entry, *sm_entry; + + /* Uninitialized imd handle */ + assert_int_equal(-1, imd_create_tiered_empty(&imd, LG_ROOT_SIZE, LG_ENTRY_ALIGN, + LG_ROOT_SIZE, SM_ENTRY_ALIGN)); + + base = malloc(LIMIT_ALIGN); + if (base == NULL) + fail_msg("Cannot allocate enough memory - fail test"); + + imd_handle_init(&imd, (void *)(LIMIT_ALIGN + (uintptr_t)base)); + + /* Too small root_size for small region */ + assert_int_equal(-1, imd_create_tiered_empty(&imd, LG_ROOT_SIZE, LG_ENTRY_ALIGN, + sizeof(int32_t), 2 * sizeof(int32_t))); + + /* Fail when large region doesn't have capacity for more than 1 entry */ + lg_region_wrong_size = sizeof(struct imd_root_pointer) + sizeof(struct imd_root) + + sizeof(struct imd_entry); + assert_int_equal(-1, imd_create_tiered_empty(&imd, lg_region_wrong_size, + LG_ENTRY_ALIGN, SM_ROOT_SIZE, + SM_ENTRY_ALIGN)); + + assert_int_equal(0, imd_create_tiered_empty(&imd, LG_ROOT_SIZE, LG_ENTRY_ALIGN, + SM_ROOT_SIZE, SM_ENTRY_ALIGN)); + + r = imd.lg.r; + + /* One entry for root_region and one for small allocations */ + assert_int_equal(2, r->num_entries); + + fst_lg_entry = &r->entries[0]; + assert_int_equal(IMD_ENTRY_MAGIC, fst_lg_entry->magic); + assert_int_equal(0, fst_lg_entry->start_offset); + assert_int_equal(LG_ROOT_SIZE, fst_lg_entry->size); + assert_int_equal(CBMEM_ID_IMD_ROOT, fst_lg_entry->id); + + /* Calculated like in imd_create_tiered_empty */ + sm_region_size = max_entries(SM_ROOT_SIZE) * SM_ENTRY_ALIGN; + sm_region_size += SM_ROOT_SIZE; + sm_region_size = ALIGN_UP(sm_region_size, LG_ENTRY_ALIGN); + + snd_lg_entry = &r->entries[1]; + assert_int_equal(IMD_ENTRY_MAGIC, snd_lg_entry->magic); + assert_int_equal(-sm_region_size, snd_lg_entry->start_offset); + assert_int_equal(CBMEM_ID_IMD_SMALL, snd_lg_entry->id); + + assert_int_equal(sm_region_size, snd_lg_entry->size); + + r = imd.sm.r; + assert_int_equal(1, r->num_entries); + + sm_entry = &r->entries[0]; + assert_int_equal(IMD_ENTRY_MAGIC, sm_entry->magic); + assert_int_equal(0, sm_entry->start_offset); + assert_int_equal(SM_ROOT_SIZE, sm_entry->size); + assert_int_equal(CBMEM_ID_IMD_ROOT, sm_entry->id); + + free(base); +} + +/* Tests for imdr_recover. */ +static void test_imd_recover(void **state) +{ + int32_t offset_copy, max_offset_copy; + uint32_t rp_magic_copy, num_entries_copy; + uint32_t e_align_copy, e_magic_copy, e_id_copy; + uint32_t size_copy, diff; + void *base; + struct imd imd = {0}; + struct imd_root_pointer *rp; + struct imd_root *r; + struct imd_entry *lg_root_entry, *sm_root_entry, *ptr; + const struct imd_entry *lg_entry; + + /* Fail when the limit for lg was not set. */ + imd.lg.limit = (uintptr_t) NULL; + assert_int_equal(-1, imd_recover(&imd)); + + /* Set the limit for lg. */ + base = malloc(LIMIT_ALIGN); + if (base == NULL) + fail_msg("Cannot allocate enough memory - fail test"); + + imd_handle_init(&imd, (void *)(LIMIT_ALIGN + (uintptr_t)base)); + + /* Fail when the root pointer is not valid. */ + rp = (void *)imd.lg.limit - sizeof(struct imd_root_pointer); + assert_non_null(rp); + assert_int_equal(IMD_ROOT_PTR_MAGIC, rp->magic); + + rp_magic_copy = rp->magic; + rp->magic = 0; + assert_int_equal(-1, imd_recover(&imd)); + rp->magic = rp_magic_copy; + + /* Set the root pointer. */ + assert_int_equal(0, imd_create_tiered_empty(&imd, LG_ROOT_SIZE, LG_ENTRY_ALIGN, + SM_ROOT_SIZE, SM_ENTRY_ALIGN)); + assert_int_equal(2, ((struct imd_root *)imd.lg.r)->num_entries); + assert_int_equal(1, ((struct imd_root *)imd.sm.r)->num_entries); + + /* Fail if the number of entries exceeds the maximum number of entries. */ + r = imd.lg.r; + num_entries_copy = r->num_entries; + r->num_entries = r->max_entries + 1; + assert_int_equal(-1, imd_recover(&imd)); + r->num_entries = num_entries_copy; + + /* Fail if entry align is not a power of 2. */ + e_align_copy = r->entry_align; + r->entry_align++; + assert_int_equal(-1, imd_recover(&imd)); + r->entry_align = e_align_copy; + + /* Fail when an entry is not valid. */ + lg_root_entry = &r->entries[0]; + e_magic_copy = lg_root_entry->magic; + lg_root_entry->magic = 0; + assert_int_equal(-1, imd_recover(&imd)); + lg_root_entry->magic = e_magic_copy; + + /* Add new entries: large and small. */ + lg_entry = imd_entry_add(&imd, LG_ENTRY_ID, LG_ENTRY_SIZE); + assert_non_null(lg_entry); + assert_int_equal(3, r->num_entries); + + assert_non_null(imd_entry_add(&imd, SM_ENTRY_ID, SM_ENTRY_SIZE)); + assert_int_equal(2, ((struct imd_root *)imd.sm.r)->num_entries); + + /* Fail when start_addr is lower than low_limit. */ + r = imd.lg.r; + max_offset_copy = r->max_offset; + r->max_offset = lg_entry->start_offset + sizeof(int32_t); + assert_int_equal(-1, imd_recover(&imd)); + r->max_offset = max_offset_copy; + + /* Fail when start_addr is at least imdr->limit. */ + offset_copy = lg_entry->start_offset; + ptr = (struct imd_entry *)lg_entry; + ptr->start_offset = (void *)imd.lg.limit - (void *)r; + assert_int_equal(-1, imd_recover(&imd)); + ptr->start_offset = offset_copy; + + /* Fail when (start_addr + e->size) is higher than imdr->limit. */ + size_copy = lg_entry->size; + diff = (void *)imd.lg.limit - ((void *)r + lg_entry->start_offset); + ptr->size = diff + 1; + assert_int_equal(-1, imd_recover(&imd)); + ptr->size = size_copy; + + /* Succeed if small region is not present. */ + sm_root_entry = &r->entries[1]; + e_id_copy = sm_root_entry->id; + sm_root_entry->id = 0; + assert_int_equal(0, imd_recover(&imd)); + sm_root_entry->id = e_id_copy; + + assert_int_equal(0, imd_recover(&imd)); + + free(base); +} + +static void test_imd_limit_size(void **state) +{ + void *base; + struct imd imd = {0}; + size_t root_size, max_size; + + max_size = align_up_pow2(sizeof(struct imd_root_pointer) + + sizeof(struct imd_root) + 3 * sizeof(struct imd_entry)); + + assert_int_equal(-1, imd_limit_size(&imd, max_size)); + + base = malloc(LIMIT_ALIGN); + if (base == NULL) + fail_msg("Cannot allocate enough memory - fail test"); + imd_handle_init(&imd, (void *)(LIMIT_ALIGN + (uintptr_t)base)); + + root_size = align_up_pow2(sizeof(struct imd_root_pointer) + + sizeof(struct imd_root) + 2 * sizeof(struct imd_entry)); + imd.lg.r = (void *)imd.lg.limit - root_size; + + imd_create_empty(&imd, root_size, LG_ENTRY_ALIGN); + assert_int_equal(-1, imd_limit_size(&imd, root_size - 1)); + assert_int_equal(0, imd_limit_size(&imd, max_size)); + + /* Cannot create such a big entry */ + assert_null(imd_entry_add(&imd, LG_ENTRY_ID, max_size - root_size + 1)); + + free(base); +} + +static void test_imd_lockdown(void **state) +{ + struct imd imd = {0}; + struct imd_root *r_lg, *r_sm; + + assert_int_equal(-1, imd_lockdown(&imd)); + + imd.lg.r = malloc(sizeof(struct imd_root)); + if (imd.lg.r == NULL) + fail_msg("Cannot allocate enough memory - fail test"); + + r_lg = (struct imd_root *) (imd.lg.r); + + assert_int_equal(0, imd_lockdown(&imd)); + assert_true(r_lg->flags & IMD_FLAG_LOCKED); + + imd.sm.r = malloc(sizeof(struct imd_root)); + if (imd.sm.r == NULL) + fail_msg("Cannot allocate enough memory - fail test"); + r_sm = (struct imd_root *) (imd.sm.r); + + assert_int_equal(0, imd_lockdown(&imd)); + assert_true(r_sm->flags & IMD_FLAG_LOCKED); + + free(imd.lg.r); + free(imd.sm.r); +} + +static void test_imd_region_used(void **state) +{ + struct imd imd = {0}; + struct imd_entry *first_entry, *new_entry; + struct imd_root *r; + size_t size; + void *imd_base; + void *base; + + assert_int_equal(-1, imd_region_used(&imd, &base, &size)); + + imd_base = malloc(LIMIT_ALIGN); + if (imd_base == NULL) + fail_msg("Cannot allocate enough memory - fail test"); + imd_handle_init(&imd, (void *)(LIMIT_ALIGN + (uintptr_t)imd_base)); + + assert_int_equal(-1, imd_region_used(&imd, &base, &size)); + assert_int_equal(0, imd_create_empty(&imd, LG_ROOT_SIZE, LG_ENTRY_ALIGN)); + assert_int_equal(0, imd_region_used(&imd, &base, &size)); + + r = (struct imd_root *)imd.lg.r; + first_entry = &r->entries[r->num_entries - 1]; + + assert_int_equal(r + first_entry->start_offset, (uintptr_t)base); + assert_int_equal(first_entry->size, size); + + assert_non_null(imd_entry_add(&imd, LG_ENTRY_ID, LG_ENTRY_SIZE)); + assert_int_equal(2, r->num_entries); + + assert_int_equal(0, imd_region_used(&imd, &base, &size)); + + new_entry = &r->entries[r->num_entries - 1]; + + assert_true((void *)r + new_entry->start_offset == base); + assert_int_equal(first_entry->size + new_entry->size, size); + + free(imd_base); +} + +static void test_imd_entry_add(void **state) +{ + int i; + struct imd imd = {0}; + size_t entry_size = 0; + size_t used_size; + ssize_t entry_offset; + void *base; + struct imd_root *r, *sm_r, *lg_r; + struct imd_entry *first_entry, *new_entry; + uint32_t num_entries_copy; + int32_t max_offset_copy; + + /* No small region case. */ + assert_null(imd_entry_add(&imd, LG_ENTRY_ID, entry_size)); + + base = malloc(LIMIT_ALIGN); + if (base == NULL) + fail_msg("Cannot allocate enough memory - fail test"); + + imd_handle_init(&imd, (void *)(LIMIT_ALIGN + (uintptr_t)base)); + + assert_int_equal(0, imd_create_empty(&imd, LG_ROOT_SIZE, LG_ENTRY_ALIGN)); + + r = (struct imd_root *)imd.lg.r; + first_entry = &r->entries[r->num_entries - 1]; + + /* Cannot add an entry when root is locked. */ + r->flags = IMD_FLAG_LOCKED; + assert_null(imd_entry_add(&imd, LG_ENTRY_ID, entry_size)); + r->flags = 0; + + /* Fail when the maximum number of entries has been reached. */ + num_entries_copy = r->num_entries; + r->num_entries = r->max_entries; + assert_null(imd_entry_add(&imd, LG_ENTRY_ID, entry_size)); + r->num_entries = num_entries_copy; + + /* Fail when entry size is 0 */ + assert_null(imd_entry_add(&imd, LG_ENTRY_ID, 0)); + + /* Fail when entry size (after alignment) overflows imd total size. */ + entry_size = 2049; + max_offset_copy = r->max_offset; + r->max_offset = -entry_size; + assert_null(imd_entry_add(&imd, LG_ENTRY_ID, entry_size)); + r->max_offset = max_offset_copy; + + /* Finally succeed. */ + entry_size = 2 * sizeof(int32_t); + assert_non_null(imd_entry_add(&imd, LG_ENTRY_ID, entry_size)); + assert_int_equal(2, r->num_entries); + + new_entry = &r->entries[r->num_entries - 1]; + assert_int_equal(sizeof(struct imd_entry), (void *)new_entry - (void *)first_entry); + + assert_int_equal(IMD_ENTRY_MAGIC, new_entry->magic); + assert_int_equal(LG_ENTRY_ID, new_entry->id); + assert_int_equal(entry_size, new_entry->size); + + used_size = ALIGN_UP(entry_size, r->entry_align); + entry_offset = first_entry->start_offset - used_size; + assert_int_equal(entry_offset, new_entry->start_offset); + + /* Use small region case. */ + imd_create_tiered_empty(&imd, LG_ROOT_SIZE, LG_ENTRY_ALIGN, SM_ROOT_SIZE, + SM_ENTRY_ALIGN); + + lg_r = imd.lg.r; + sm_r = imd.sm.r; + + /* All five new entries should be added to small allocations */ + for (i = 0; i < 5; i++) { + assert_non_null(imd_entry_add(&imd, SM_ENTRY_ID, SM_ENTRY_SIZE)); + assert_int_equal(i+2, sm_r->num_entries); + assert_int_equal(2, lg_r->num_entries); + } + + /* But next should fall back on large region */ + assert_non_null(imd_entry_add(&imd, SM_ENTRY_ID, SM_ENTRY_SIZE)); + assert_int_equal(6, sm_r->num_entries); + assert_int_equal(3, lg_r->num_entries); + + /* + * Small allocation is created when occupies less than 1/4 of available + * small region. Verify this. + */ + imd_create_tiered_empty(&imd, LG_ROOT_SIZE, LG_ENTRY_ALIGN, SM_ROOT_SIZE, + SM_ENTRY_ALIGN); + + assert_non_null(imd_entry_add(&imd, SM_ENTRY_ID, -sm_r->max_offset / 4 + 1)); + assert_int_equal(1, sm_r->num_entries); + assert_int_equal(3, lg_r->num_entries); + + /* Next two should go into small region */ + assert_non_null(imd_entry_add(&imd, SM_ENTRY_ID, -sm_r->max_offset / 4)); + assert_int_equal(2, sm_r->num_entries); + assert_int_equal(3, lg_r->num_entries); + + /* (1/4 * 3/4) */ + assert_non_null(imd_entry_add(&imd, SM_ENTRY_ID, -sm_r->max_offset / 16 * 3)); + assert_int_equal(3, sm_r->num_entries); + assert_int_equal(3, lg_r->num_entries); + + free(base); +} + +static void test_imd_entry_find(void **state) +{ + struct imd imd = {0}; + void *base; + + base = malloc(LIMIT_ALIGN); + if (base == NULL) + fail_msg("Cannot allocate enough memory - fail test"); + imd_handle_init(&imd, (void *)(LIMIT_ALIGN + (uintptr_t)base)); + + assert_int_equal(0, imd_create_tiered_empty(&imd, LG_ROOT_SIZE, LG_ENTRY_ALIGN, + SM_ROOT_SIZE, SM_ENTRY_ALIGN)); + + assert_non_null(imd_entry_add(&imd, LG_ENTRY_ID, LG_ENTRY_SIZE)); + + assert_non_null(imd_entry_find(&imd, LG_ENTRY_ID)); + assert_non_null(imd_entry_find(&imd, SMALL_REGION_ID)); + + /* Try invalid id, should fail */ + assert_null(imd_entry_find(&imd, INVALID_REGION_ID)); + + free(base); +} + +static void test_imd_entry_find_or_add(void **state) +{ + struct imd imd = {0}; + const struct imd_entry *entry; + struct imd_root *r; + void *base; + + base = malloc(LIMIT_ALIGN); + if (base == NULL) + fail_msg("Cannot allocate enough memory - fail test"); + imd_handle_init(&imd, (void *)(LIMIT_ALIGN + (uintptr_t)base)); + + assert_null(imd_entry_find_or_add(&imd, LG_ENTRY_ID, LG_ENTRY_SIZE)); + + assert_int_equal(0, imd_create_empty(&imd, LG_ROOT_SIZE, LG_ENTRY_ALIGN)); + entry = imd_entry_find_or_add(&imd, LG_ENTRY_ID, LG_ENTRY_SIZE); + assert_non_null(entry); + + r = (struct imd_root *)imd.lg.r; + + assert_int_equal(entry->id, LG_ENTRY_ID); + assert_int_equal(2, r->num_entries); + assert_non_null(imd_entry_find_or_add(&imd, LG_ENTRY_ID, LG_ENTRY_SIZE)); + assert_int_equal(2, r->num_entries); + + free(base); +} + +static void test_imd_entry_size(void **state) +{ + struct imd_entry entry = { .size = LG_ENTRY_SIZE }; + + assert_int_equal(LG_ENTRY_SIZE, imd_entry_size(&entry)); + + entry.size = 0; + assert_int_equal(0, imd_entry_size(&entry)); +} + +static void test_imd_entry_at(void **state) +{ + struct imd imd = {0}; + struct imd_root *r; + struct imd_entry *e = NULL; + const struct imd_entry *entry; + void *base; + + base = malloc(LIMIT_ALIGN); + if (base == NULL) + fail_msg("Cannot allocate enough memory - fail test"); + imd_handle_init(&imd, (void *)(LIMIT_ALIGN + (uintptr_t)base)); + + assert_int_equal(0, imd_create_empty(&imd, LG_ROOT_SIZE, LG_ENTRY_ALIGN)); + + /* Fail when entry is NULL */ + assert_null(imd_entry_at(&imd, e)); + + entry = imd_entry_add(&imd, LG_ENTRY_ID, LG_ENTRY_SIZE); + assert_non_null(entry); + + r = (struct imd_root *)imd.lg.r; + assert_ptr_equal((void *)r + entry->start_offset, imd_entry_at(&imd, entry)); + + free(base); +} + +static void test_imd_entry_id(void **state) +{ + struct imd_entry entry = { .id = LG_ENTRY_ID }; + + assert_int_equal(LG_ENTRY_ID, imd_entry_id(&entry)); +} + +static void test_imd_entry_remove(void **state) +{ + void *base; + struct imd imd = {0}; + struct imd_root *r; + const struct imd_entry *fst_lg_entry, *snd_lg_entry, *fst_sm_entry; + const struct imd_entry *e = NULL; + + /* Uninitialized handle */ + assert_int_equal(-1, imd_entry_remove(&imd, e)); + + base = malloc(LIMIT_ALIGN); + if (base == NULL) + fail_msg("Cannot allocate enough memory - fail test"); + + imd_handle_init(&imd, (void *)(LIMIT_ALIGN + (uintptr_t)base)); + + assert_int_equal(0, imd_create_tiered_empty(&imd, LG_ROOT_SIZE, LG_ENTRY_ALIGN, + SM_ROOT_SIZE, SM_ENTRY_ALIGN)); + + r = imd.lg.r; + assert_int_equal(2, r->num_entries); + fst_lg_entry = &r->entries[0]; + snd_lg_entry = &r->entries[1]; + + /* Only last entry can be removed */ + assert_int_equal(-1, imd_entry_remove(&imd, fst_lg_entry)); + r->flags = IMD_FLAG_LOCKED; + assert_int_equal(-1, imd_entry_remove(&imd, snd_lg_entry)); + r->flags = 0; + + r = imd.sm.r; + assert_int_equal(1, r->num_entries); + fst_sm_entry = &r->entries[0]; + + /* Fail trying to remove root entry */ + assert_int_equal(-1, imd_entry_remove(&imd, fst_sm_entry)); + assert_int_equal(1, r->num_entries); + + r = imd.lg.r; + assert_int_equal(0, imd_entry_remove(&imd, snd_lg_entry)); + assert_int_equal(1, r->num_entries); + + /* Fail trying to remove root entry */ + assert_int_equal(-1, imd_entry_remove(&imd, fst_lg_entry)); + assert_int_equal(1, r->num_entries); + + free(base); +} + +static void test_imd_cursor_init(void **state) +{ + struct imd imd = {0}; + struct imd_cursor cursor; + + assert_int_equal(-1, imd_cursor_init(NULL, NULL)); + assert_int_equal(-1, imd_cursor_init(NULL, &cursor)); + assert_int_equal(-1, imd_cursor_init(&imd, NULL)); + assert_int_equal(0, imd_cursor_init(&imd, &cursor)); + + assert_ptr_equal(cursor.imdr[0], &imd.lg); + assert_ptr_equal(cursor.imdr[1], &imd.sm); +} + +static void test_imd_cursor_next(void **state) +{ + void *base; + struct imd imd = {0}; + struct imd_cursor cursor; + struct imd_root *r; + const struct imd_entry *entry; + struct imd_entry *fst_lg_entry, *snd_lg_entry, *fst_sm_entry; + assert_int_equal(0, imd_cursor_init(&imd, &cursor)); + + cursor.current_imdr = 3; + cursor.current_entry = 0; + assert_null(imd_cursor_next(&cursor)); + + cursor.current_imdr = 0; + assert_null(imd_cursor_next(&cursor)); + + base = malloc(LIMIT_ALIGN); + if (base == NULL) + fail_msg("Cannot allocate enough memory - fail test"); + imd_handle_init(&imd, (void *)(LIMIT_ALIGN + (uintptr_t)base)); + + assert_int_equal(0, imd_create_tiered_empty(&imd, LG_ROOT_SIZE, LG_ENTRY_ALIGN, + SM_ROOT_SIZE, SM_ENTRY_ALIGN)); + + r = imd.lg.r; + entry = imd_cursor_next(&cursor); + assert_non_null(entry); + + fst_lg_entry = &r->entries[0]; + assert_int_equal(fst_lg_entry->id, entry->id); + assert_ptr_equal(fst_lg_entry, entry); + + entry = imd_cursor_next(&cursor); + assert_non_null(entry); + + snd_lg_entry = &r->entries[1]; + assert_int_equal(snd_lg_entry->id, entry->id); + assert_ptr_equal(snd_lg_entry, entry); + + entry = imd_cursor_next(&cursor); + assert_non_null(entry); + + r = imd.sm.r; + fst_sm_entry = &r->entries[0]; + assert_int_equal(fst_sm_entry->id, entry->id); + assert_ptr_equal(fst_sm_entry, entry); + + entry = imd_cursor_next(&cursor); + assert_null(entry); +} + +int main(void) +{ + const struct CMUnitTest tests[] = { + cmocka_unit_test(test_imd_handle_init), + cmocka_unit_test(test_imd_handle_init_partial_recovery), + cmocka_unit_test(test_imd_create_empty), + cmocka_unit_test(test_imd_create_tiered_empty), + cmocka_unit_test(test_imd_recover), + cmocka_unit_test(test_imd_limit_size), + cmocka_unit_test(test_imd_lockdown), + cmocka_unit_test(test_imd_region_used), + cmocka_unit_test(test_imd_entry_add), + cmocka_unit_test(test_imd_entry_find), + cmocka_unit_test(test_imd_entry_find_or_add), + cmocka_unit_test(test_imd_entry_size), + cmocka_unit_test(test_imd_entry_at), + cmocka_unit_test(test_imd_entry_id), + cmocka_unit_test(test_imd_entry_remove), + cmocka_unit_test(test_imd_cursor_init), + cmocka_unit_test(test_imd_cursor_next), + }; + + return cmocka_run_group_tests(tests, NULL, NULL); +} + -- cgit v1.2.3