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/* SPDX-License-Identifier: GPL-2.0-only */
#include <tests/test.h>
#include <device/device.h>
#include <device/resource.h>
#include <commonlib/helpers.h>
#include <memrange.h>
#define MEMRANGE_ALIGN (POWER_OF_2(12))
enum mem_types {
/* Avoid using 0 to verify that UUT really sets this memory,
but keep value small, as this will be an index in the table */
CACHEABLE_TAG = 0x10,
RESERVED_TAG,
READONLY_TAG,
INSERTED_TAG,
HOLE_TAG,
END_OF_RESOURCES
};
/* Indices of entries matters, since it must reflect mem_types enum */
struct resource res_mock_1[] = {
[CACHEABLE_TAG] = { .base = 0xE000, .size = 0xF2000,
.next = &res_mock_1[RESERVED_TAG], .flags = IORESOURCE_CACHEABLE | IORESOURCE_MEM },
[RESERVED_TAG] = { .base = 4ULL * GiB, .size = 4ULL * KiB,
.next = &res_mock_1[READONLY_TAG], .flags = IORESOURCE_RESERVE | IORESOURCE_MEM },
[READONLY_TAG] = { .base = 0xFF0000, .size = 0x10000, .next = NULL,
.flags = IORESOURCE_READONLY | IORESOURCE_MEM }
};
/* Boundary 1 byte below 4GiB and 1 byte above 4GiB. */
struct resource res_mock_2[] = {
[CACHEABLE_TAG] = { .base = 0x1000000, .size = 4ULL * GiB - 0x1000001ULL,
.next = &res_mock_2[RESERVED_TAG], .flags = IORESOURCE_CACHEABLE | IORESOURCE_MEM },
[RESERVED_TAG] = { .base = 4ULL * GiB + 1ULL, .size = 4ULL * GiB,
.next = &res_mock_2[READONLY_TAG], .flags = IORESOURCE_RESERVE | IORESOURCE_MEM },
[READONLY_TAG] = { .base = 0, .size = 0x10000, .next = NULL,
.flags = IORESOURCE_READONLY | IORESOURCE_MEM}
};
/* Boundary crossing 4GiB. */
struct resource res_mock_3[] = {
[CACHEABLE_TAG] = { .base = 0xD000, .size = 0xF3000,
.next = &res_mock_3[RESERVED_TAG], .flags = IORESOURCE_CACHEABLE | IORESOURCE_MEM },
[RESERVED_TAG] = { .base = 1ULL * GiB, .size = 4ULL * GiB,
.next = &res_mock_3[READONLY_TAG], .flags = IORESOURCE_RESERVE | IORESOURCE_MEM },
[READONLY_TAG] = { .base = 0xFF0000, .size = 0x10000, .next = NULL,
.flags = IORESOURCE_READONLY | IORESOURCE_MEM}
};
struct device mock_device = { .enabled = 1 };
/* Fake memory devices handle */
struct device *all_devices = &mock_device;
int setup_test_1(void **state)
{
*state = res_mock_1;
mock_device.resource_list = &res_mock_1[CACHEABLE_TAG];
return 0;
}
int setup_test_2(void **state)
{
*state = res_mock_2;
mock_device.resource_list = &res_mock_2[CACHEABLE_TAG];
return 0;
}
int setup_test_3(void **state)
{
*state = res_mock_3;
mock_device.resource_list = &res_mock_3[CACHEABLE_TAG];
return 0;
}
resource_t get_aligned_base(struct resource *res, struct range_entry *entry)
{
return ALIGN_DOWN(res[range_entry_tag(entry)].base, MEMRANGE_ALIGN);
}
resource_t get_aligned_end(struct resource *res, struct range_entry *entry)
{
resource_t end = res[range_entry_tag(entry)].base +
res[range_entry_tag(entry)].size +
(res[range_entry_tag(entry)].base - range_entry_base(entry));
return ALIGN_UP(end, MEMRANGE_ALIGN);
}
/*
* This test verifies memranges_init(), memranges_add_resources() and memranges_teardown()
* functions. It covers basic functionality of memrange library - implementation of creating
* memrange structure from resources available on the platform and method for free'ing
* allocated memory.
*
* Example memory ranges (res_mock1) for test_memrange_basic.
* Ranges marked with asterisks (***) are not added to the test_memrange.
*
* +--------CACHEABLE_TAG--------+ <-0xE000
* | |
* | |
* | |
* +-----------------------------+ <-0x100000
*
*
*
* +-----***READONLY_TAG***------+ <-0xFF0000
* | |
* | |
* | |
* +-----------------------------+ <-0x1000000
*
*
* +--------RESERVED_TAG---------+ <-0x100000000
* | |
* +-----------------------------+ <-0x100001000
*/
static void test_memrange_basic(void **state)
{
int counter = 0;
const unsigned long cacheable = IORESOURCE_CACHEABLE;
const unsigned long reserved = IORESOURCE_RESERVE;
struct range_entry *ptr;
struct memranges test_memrange;
struct resource *res_mock = *state;
resource_t prev_base = 0;
memranges_init(&test_memrange, cacheable, cacheable, CACHEABLE_TAG);
memranges_add_resources(&test_memrange, reserved, reserved, RESERVED_TAG);
/* There should be two entries, since cacheable and
reserved regions are not neighbors */
memranges_each_entry(ptr, &test_memrange) {
assert_in_range(range_entry_tag(ptr), CACHEABLE_TAG, RESERVED_TAG);
assert_int_equal(range_entry_base(ptr), get_aligned_base(res_mock, ptr));
assert_int_equal(range_entry_end(ptr), get_aligned_end(res_mock, ptr));
/* Ranges have to be returned in increasing order */
assert_true(prev_base <= range_entry_base(ptr));
prev_base = range_entry_base(ptr);
counter++;
};
assert_int_equal(counter, 2);
counter = 0;
/* Remove initial memrange */
memranges_teardown(&test_memrange);
memranges_each_entry(ptr, &test_memrange)
counter++;
assert_int_equal(counter, 0);
}
/*
* This test verifies memranges_clone(), memranges_insert() and memranges_update_tag()
* functions. All operations are performed on cloned memrange. One of the most important thing
* to check, is that memrange_insert() should remove all ranges which are covered by the newly
* inserted one.
*
* Example memory ranges (res_mock1) for test_memrange_clone_insert.
* Ranges marked with asterisks (***) are not added to the clone_memrange.
* Ranges marked with (^) have tag value changed during test.
*
* +--------CACHEABLE_TAG--------+ <-0xE000
* +------|----INSERTED_TAG----------+ | <-0xF000
* | | (^READONLY_TAG^) | |
* | | | |
* | +-----------------------------+ <-0x100000
* +---------------------------------+ <-0x101000
*
*
* +-----***READONLY_TAG***------+ <-0xFF0000
* | |
* | |
* | |
* +-----------------------------+ <-0x1000000
*
*
* +------+---------RESERVED_TAG-----+--+ <-0x100000000
* | | | |
* | +-----------------------------+ <-0x100001000
* +-----------INSERTED_TAG----------+ <-0x100002000
*/
static void test_memrange_clone_insert(void **state)
{
int counter = 0;
const unsigned long cacheable = IORESOURCE_CACHEABLE;
const unsigned long reserved = IORESOURCE_RESERVE;
struct range_entry *ptr;
struct memranges test_memrange, clone_memrange;
struct resource *res_mock = *state;
const resource_t new_range_begin_offset = 1ULL << 12;
memranges_init(&test_memrange, cacheable, cacheable, CACHEABLE_TAG);
memranges_add_resources(&test_memrange, reserved, reserved, RESERVED_TAG);
memranges_clone(&clone_memrange, &test_memrange);
memranges_teardown(&test_memrange);
/* Verify that new one is really a clone */
memranges_each_entry(ptr, &clone_memrange) {
assert_in_range(range_entry_tag(ptr), CACHEABLE_TAG, END_OF_RESOURCES - 1);
assert_int_equal(range_entry_base(ptr), get_aligned_base(res_mock, ptr));
assert_int_equal(range_entry_end(ptr), get_aligned_end(res_mock, ptr));
counter++;
};
assert_int_equal(counter, 2);
counter = 0;
/* Insert new range, which will overlap with first region. */
memranges_insert(&clone_memrange, res_mock[CACHEABLE_TAG].base + new_range_begin_offset,
res_mock[CACHEABLE_TAG].size, INSERTED_TAG);
/* Three ranges should be there - CACHEABLE(shrunk), INSERTED and RESERVED */
memranges_each_entry(ptr, &clone_memrange) {
resource_t expected_end;
if (range_entry_tag(ptr) == CACHEABLE_TAG) {
assert_int_equal(range_entry_base(ptr), res_mock[CACHEABLE_TAG].base);
expected_end = res_mock[CACHEABLE_TAG].base + new_range_begin_offset;
assert_int_equal(range_entry_end(ptr), expected_end);
}
if (range_entry_tag(ptr) == INSERTED_TAG) {
assert_int_equal(range_entry_base(ptr),
res_mock[CACHEABLE_TAG].base + new_range_begin_offset);
expected_end = res_mock[CACHEABLE_TAG].base + new_range_begin_offset +
res_mock[CACHEABLE_TAG].size;
assert_int_equal(range_entry_end(ptr),
ALIGN_UP(expected_end, MEMRANGE_ALIGN));
}
counter++;
}
assert_int_equal(counter, 3);
counter = 0;
/* Insert new region, which will shadow readonly range.
* Additionally verify API for updating tags */
memranges_update_tag(&clone_memrange, INSERTED_TAG, READONLY_TAG);
memranges_each_entry(ptr, &clone_memrange) {
resource_t expected_end;
assert_int_not_equal(range_entry_tag(ptr), INSERTED_TAG);
if (range_entry_tag(ptr) == READONLY_TAG) {
assert_int_equal(range_entry_base(ptr),
res_mock[CACHEABLE_TAG].base + new_range_begin_offset);
expected_end = res_mock[CACHEABLE_TAG].base + new_range_begin_offset +
res_mock[CACHEABLE_TAG].size;
assert_int_equal(range_entry_end(ptr),
ALIGN_UP(expected_end, MEMRANGE_ALIGN));
}
};
/* Check if alignment (4KiB) is properly applied, that is begin - DOWN and end - UP */
memranges_insert(&clone_memrange, res_mock[RESERVED_TAG].base + 0xAD,
res_mock[RESERVED_TAG].size, INSERTED_TAG);
memranges_each_entry(ptr, &clone_memrange) {
resource_t expected_end;
assert_int_not_equal(range_entry_tag(ptr), RESERVED_TAG);
if (range_entry_tag(ptr) == INSERTED_TAG) {
assert_int_equal(range_entry_base(ptr),
ALIGN_DOWN(res_mock[RESERVED_TAG].base,
MEMRANGE_ALIGN));
expected_end = ALIGN_DOWN(res_mock[RESERVED_TAG].base, MEMRANGE_ALIGN) +
new_range_begin_offset + res_mock[RESERVED_TAG].size;
expected_end = ALIGN_UP(expected_end, MEMRANGE_ALIGN);
assert_int_equal(range_entry_end(ptr), expected_end);
}
counter++;
}
assert_int_equal(counter, 3);
/* Free clone */
memranges_teardown(&clone_memrange);
}
/*
* This test verifies memranges_fill_holes_up_to() and memranges_create_hole(). Idea of the test
* is to fill all holes, so that we end up with contiguous address space fully covered by
* entries. Then, holes are created on the border of two different regions
*
* Example memory ranges (res_mock1) for test_memrange_holes.
* Space marked with (/) is not covered by any region at the end of the test.
*
* +--------CACHEABLE_TAG--------+ <-0xE000
* | |
* | |
* //|/////////////////////////////| <-0xFF000
* //+-----------HOLE_TAG----------+ <-0x100000
* //|/////////////////////////////| <-0x101000
* | |
* | |
* | |
* | |
* +--------RESERVED_TAG---------+ <-0x100000000
* | |
* +-----------------------------+ <-0x100001000
*/
static void test_memrange_holes(void **state)
{
int counter = 0;
const unsigned long cacheable = IORESOURCE_CACHEABLE;
const unsigned long reserved = IORESOURCE_RESERVE;
struct range_entry *ptr;
struct range_entry *hole_ptr = NULL;
struct memranges test_memrange;
struct resource *res_mock = *state;
int holes_found = 0;
resource_t last_range_end = 0;
const resource_t holes_fill_end = res_mock[RESERVED_TAG].base;
memranges_init(&test_memrange, cacheable, cacheable, CACHEABLE_TAG);
memranges_add_resources(&test_memrange, reserved, reserved, RESERVED_TAG);
/* Count holes in ranges */
memranges_each_entry(ptr, &test_memrange) {
if (!last_range_end) {
last_range_end = range_entry_end(ptr);
continue;
}
if (range_entry_base(ptr) != last_range_end) {
holes_found++;
last_range_end = range_entry_end(ptr);
}
if (range_entry_base(ptr) >= holes_fill_end)
break;
}
/* Create range entries which covers continuous memory range
(but with different tags) */
memranges_fill_holes_up_to(&test_memrange, holes_fill_end, HOLE_TAG);
memranges_each_entry(ptr, &test_memrange) {
if (range_entry_tag(ptr) == HOLE_TAG) {
assert_int_equal(range_entry_base(ptr),
ALIGN_UP(res_mock[CACHEABLE_TAG].base +
res_mock[CACHEABLE_TAG].size,
MEMRANGE_ALIGN));
assert_int_equal(range_entry_end(ptr), holes_fill_end);
/* Store pointer to HOLE_TAG region for future use */
hole_ptr = ptr;
}
counter++;
}
assert_int_equal(counter, 2 + holes_found);
/* If test data does not have any holes in it then terminate this test */
if (holes_found == 0)
return;
assert_non_null(hole_ptr);
counter = 0;
/* Create hole crossing the border of two range entries */
const resource_t new_cacheable_end = ALIGN_DOWN(
res_mock[CACHEABLE_TAG].base + res_mock[CACHEABLE_TAG].size - 4 * KiB,
MEMRANGE_ALIGN);
const resource_t new_hole_begin = ALIGN_UP(range_entry_base(hole_ptr) + 4 * KiB,
MEMRANGE_ALIGN);
const resource_t ranges_diff = new_hole_begin - new_cacheable_end;
memranges_create_hole(&test_memrange, new_cacheable_end, ranges_diff);
memranges_each_entry(ptr, &test_memrange) {
switch (range_entry_tag(ptr)) {
case CACHEABLE_TAG:
assert_int_equal(range_entry_base(ptr), res_mock[CACHEABLE_TAG].base);
assert_int_equal(range_entry_end(ptr), new_cacheable_end);
break;
case RESERVED_TAG:
assert_int_equal(range_entry_base(ptr), res_mock[RESERVED_TAG].base);
assert_int_equal(range_entry_end(ptr), res_mock[RESERVED_TAG].base +
res_mock[RESERVED_TAG].size);
break;
case HOLE_TAG:
assert_int_equal(range_entry_base(ptr), new_hole_begin);
assert_int_equal(range_entry_end(ptr), res_mock[RESERVED_TAG].base);
break;
default:
break;
}
counter++;
}
assert_int_equal(counter, 3);
memranges_teardown(&test_memrange);
}
/*
* This test verifies memranges_steal() function. Simple check is done by attempt so steal some
* memory from region with READONLY_TAG.
*
* Example memory ranges (res_mock1) for test_memrange_steal.
* Space marked with (/) is not covered by any region at the end of the test.
*
* +--------CACHEABLE_TAG--------+ <-0xE000
* | |
* | |
* | |
* +-----------------------------+ <-0x100000
*
*
*
* +--------READONLY_TAG---------+ <-0xFF0000
* | |
* |/////////////////////////////| <-stolen_base
* |/////////////////////////////| <-stolen_base + 0x4000
* +-----------------------------+ <-0x1000000
*
*
* +--------RESERVED_TAG---------+ <-0x100000000
* | |
* +-----------------------------+ <-0x100001000
*/
static void test_memrange_steal(void **state)
{
bool status = false;
resource_t stolen;
const unsigned long cacheable = IORESOURCE_CACHEABLE;
const unsigned long reserved = IORESOURCE_RESERVE;
const unsigned long readonly = IORESOURCE_READONLY;
const resource_t stolen_range_size = 0x4000;
struct memranges test_memrange;
struct resource *res_mock = *state;
struct range_entry *ptr;
size_t count = 0;
memranges_init(&test_memrange, cacheable, cacheable, CACHEABLE_TAG);
memranges_add_resources(&test_memrange, reserved, reserved, RESERVED_TAG);
memranges_add_resources(&test_memrange, readonly, readonly, READONLY_TAG);
status = memranges_steal(&test_memrange, res_mock[RESERVED_TAG].base +
res_mock[RESERVED_TAG].size,
stolen_range_size, 12, READONLY_TAG, &stolen);
assert_true(status);
assert_in_range(stolen, res_mock[READONLY_TAG].base, res_mock[READONLY_TAG].base +
res_mock[READONLY_TAG].size);
memranges_each_entry(ptr, &test_memrange) {
if (range_entry_tag(ptr) == READONLY_TAG) {
assert_int_equal(range_entry_base(ptr),
ALIGN_DOWN(res_mock[READONLY_TAG].base, MEMRANGE_ALIGN)
+ stolen_range_size);
}
count++;
}
assert_int_equal(count, 3);
count = 0;
/* Check if inserting range in previously stolen area will merge it. */
memranges_insert(&test_memrange, res_mock[READONLY_TAG].base + 0xCC, stolen_range_size,
READONLY_TAG);
memranges_each_entry(ptr, &test_memrange) {
if (range_entry_tag(ptr) == READONLY_TAG) {
assert_int_equal(range_entry_base(ptr),
ALIGN_DOWN(res_mock[READONLY_TAG].base,
MEMRANGE_ALIGN));
assert_int_equal(range_entry_end(ptr),
ALIGN_UP(range_entry_base(ptr) +
res_mock[READONLY_TAG].size,
MEMRANGE_ALIGN));
}
count++;
}
assert_int_equal(count, 3);
count = 0;
memranges_teardown(&test_memrange);
}
/* Utility function checking number of entries and alignment of their base and end pointers */
static void check_range_entries_count_and_alignment(struct memranges *ranges,
size_t ranges_count, resource_t alignment)
{
size_t count = 0;
struct range_entry *ptr;
memranges_each_entry(ptr, ranges) {
assert_true(IS_ALIGNED(range_entry_base(ptr), alignment));
assert_true(IS_ALIGNED(range_entry_end(ptr), alignment));
count++;
}
assert_int_equal(ranges_count, count);
}
/* This test verifies memranges_init*() and memranges_teardown() functions.
Added ranges are checked correct count and alignment. */
static void test_memrange_init_and_teardown(void **state)
{
const unsigned long cacheable = IORESOURCE_CACHEABLE;
const unsigned long reserved = IORESOURCE_RESERVE;
const unsigned long readonly = IORESOURCE_READONLY;
struct memranges test_memrange;
struct range_entry range_entries[4] = { 0 };
/* Test memranges_init() correctness */
memranges_init(&test_memrange, cacheable, cacheable, CACHEABLE_TAG);
memranges_add_resources(&test_memrange, reserved, reserved, RESERVED_TAG);
memranges_add_resources(&test_memrange, readonly, readonly, READONLY_TAG);
/* Expect all entries to be aligned to 4KiB (2^12) */
check_range_entries_count_and_alignment(&test_memrange, 3, MEMRANGE_ALIGN);
/* Expect ranges list to be empty after teardown */
memranges_teardown(&test_memrange);
assert_true(memranges_is_empty(&test_memrange));
/* Test memranges_init_with_alignment() correctness with alignment of 1KiB (2^10) */
memranges_init_with_alignment(&test_memrange, cacheable, cacheable,
CACHEABLE_TAG, 10);
memranges_add_resources(&test_memrange, reserved, reserved, RESERVED_TAG);
memranges_add_resources(&test_memrange, readonly, readonly, READONLY_TAG);
check_range_entries_count_and_alignment(&test_memrange, 3, POWER_OF_2(10));
memranges_teardown(&test_memrange);
assert_true(memranges_is_empty(&test_memrange));
/* Test memranges_init_empty() correctness */
memranges_init_empty(&test_memrange, &range_entries[0], ARRAY_SIZE(range_entries));
assert_true(memranges_is_empty(&test_memrange));
memranges_add_resources(&test_memrange, cacheable, cacheable, CACHEABLE_TAG);
memranges_add_resources(&test_memrange, reserved, reserved, RESERVED_TAG);
memranges_add_resources(&test_memrange, readonly, readonly, READONLY_TAG);
check_range_entries_count_and_alignment(&test_memrange, 3, MEMRANGE_ALIGN);
memranges_teardown(&test_memrange);
assert_true(memranges_is_empty(&test_memrange));
/* Test memranges_init_with_alignment() correctness with alignment of 8KiB (2^13) */
memranges_init_empty_with_alignment(&test_memrange, &range_entries[0],
ARRAY_SIZE(range_entries), 13);
assert_true(memranges_is_empty(&test_memrange));
memranges_add_resources(&test_memrange, cacheable, cacheable, CACHEABLE_TAG);
memranges_add_resources(&test_memrange, reserved, reserved, RESERVED_TAG);
memranges_add_resources(&test_memrange, readonly, readonly, READONLY_TAG);
check_range_entries_count_and_alignment(&test_memrange, 3, POWER_OF_2(13));
memranges_teardown(&test_memrange);
assert_true(memranges_is_empty(&test_memrange));
}
/* Filter function accepting ranges having memory resource flag */
static int memrange_filter_mem_only(struct device *dev, struct resource *res)
{
/* Accept only memory resources */
return res->flags & IORESOURCE_MEM;
}
/* Filter function rejecting ranges having memory resource flag */
static int memrange_filter_non_mem(struct device *dev, struct resource *res)
{
/* Accept only memory resources */
return !(res->flags & IORESOURCE_MEM);
}
/* This test verifies memranges_add_resources_filter() function by providing filter functions
which accept or reject ranges. */
static void test_memrange_add_resources_filter(void **state)
{
const unsigned long cacheable = IORESOURCE_CACHEABLE;
const unsigned long reserved = IORESOURCE_RESERVE;
struct memranges test_memrange;
struct range_entry *ptr;
size_t count = 0;
size_t accepted_tags[] = {CACHEABLE_TAG, RESERVED_TAG};
/* Check if filter accepts range correctly */
memranges_init(&test_memrange, reserved, reserved, RESERVED_TAG);
memranges_add_resources_filter(&test_memrange, cacheable, cacheable, CACHEABLE_TAG,
memrange_filter_mem_only);
/* Check if filter accepted desired range. */
memranges_each_entry(ptr, &test_memrange) {
assert_in_set(range_entry_tag(ptr), accepted_tags, ARRAY_SIZE(accepted_tags));
assert_true(IS_ALIGNED(range_entry_base(ptr), MEMRANGE_ALIGN));
assert_true(IS_ALIGNED(range_entry_end(ptr), MEMRANGE_ALIGN));
count++;
}
assert_int_equal(2, count);
count = 0;
memranges_teardown(&test_memrange);
/* Check if filter rejects range correctly */
memranges_init(&test_memrange, reserved, reserved, RESERVED_TAG);
memranges_add_resources_filter(&test_memrange, cacheable, cacheable, CACHEABLE_TAG,
memrange_filter_non_mem);
check_range_entries_count_and_alignment(&test_memrange, 1, MEMRANGE_ALIGN);
memranges_teardown(&test_memrange);
}
int main(void)
{
const struct CMUnitTest tests[] = {
cmocka_unit_test(test_memrange_basic),
cmocka_unit_test(test_memrange_clone_insert),
cmocka_unit_test(test_memrange_holes),
cmocka_unit_test(test_memrange_steal),
cmocka_unit_test(test_memrange_init_and_teardown),
cmocka_unit_test(test_memrange_add_resources_filter),
};
return cmocka_run_group_tests_name(__TEST_NAME__"(Boundary on 4GiB)",
tests, setup_test_1, NULL) +
cmocka_run_group_tests_name(__TEST_NAME__"(Boundaries 1 byte from 4GiB)",
tests, setup_test_2, NULL) +
cmocka_run_group_tests_name(__TEST_NAME__"(Range over 4GiB boundary)",
tests, setup_test_3, NULL);
}
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