diff options
Diffstat (limited to 'tests/commonlib')
-rw-r--r-- | tests/commonlib/Makefile.inc | 7 | ||||
-rw-r--r-- | tests/commonlib/region-test.c | 404 |
2 files changed, 411 insertions, 0 deletions
diff --git a/tests/commonlib/Makefile.inc b/tests/commonlib/Makefile.inc new file mode 100644 index 0000000000..ce3499cb2b --- /dev/null +++ b/tests/commonlib/Makefile.inc @@ -0,0 +1,7 @@ +# SPDX-License-Identifier: GPL-2.0-only +# This file is part of the coreboot project. + +tests-y += region-test + +region-test-srcs += tests/commonlib/region-test.c +region-test-srcs += src/commonlib/region.c diff --git a/tests/commonlib/region-test.c b/tests/commonlib/region-test.c new file mode 100644 index 0000000000..2c960e099a --- /dev/null +++ b/tests/commonlib/region-test.c @@ -0,0 +1,404 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ +/* This file is part of the coreboot project. */ + +#include <commonlib/region.h> +#include <string.h> +#include <tests/test.h> + +/* We'd like to test overflow conditions, but for tests size_t is dependent on the HOSTCC + architecture. We use this to normalize the available address space to [VAL(0x0):VAL(0xf)). */ +#define VAL(v) ((size_t)(v##ULL << (sizeof(size_t) * 8 - 4))) + +static void test_region(void **state) +{ + /* Self-test: make sure VAL() overflow works as intended. */ + assert_true(VAL(5) + VAL(10) > VAL(10)); + assert_true(VAL(7) + VAL(10) < VAL(10)); + + struct region outer = { .offset = VAL(2), .size = VAL(4) }; + assert_int_equal(region_offset(&outer), VAL(2)); + assert_int_equal(region_sz(&outer), VAL(4)); + assert_int_equal(region_end(&outer), VAL(6)); + + struct region inner = { .offset = VAL(3), .size = VAL(2) }; + assert_true(region_is_subregion(&outer, &inner)); + + struct region touching_bottom = { .offset = VAL(2), .size = VAL(1) }; + assert_true(region_is_subregion(&outer, &touching_bottom)); + + struct region touching_top = { .offset = VAL(5), .size = VAL(1) }; + assert_true(region_is_subregion(&outer, &touching_top)); + + struct region overlap_bottom = { .offset = VAL(1), .size = VAL(2) }; + assert_false(region_is_subregion(&outer, &overlap_bottom)); + + struct region overlap_top = { .offset = VAL(5), .size = VAL(2) }; + assert_false(region_is_subregion(&outer, &overlap_top)); + + struct region below = { .offset = 0, .size = VAL(1) }; + assert_false(region_is_subregion(&outer, &below)); + + struct region above = { .offset = VAL(0xf), .size = VAL(1) }; + assert_false(region_is_subregion(&outer, &above)); +} + +static void *mock_mmap(const struct region_device *rdev, size_t offset, size_t size) +{ + check_expected_ptr(rdev); + check_expected(offset); + check_expected(size); + + return mock_ptr_type(void *); +} + +static int mock_unmap(const struct region_device *rdev, void *mapping) +{ + check_expected_ptr(rdev); + check_expected_ptr(mapping); + + return mock(); +} + +static ssize_t mock_readat(const struct region_device *rdev, void *buffer, + size_t offset, size_t size) +{ + check_expected_ptr(rdev); + check_expected_ptr(buffer); + check_expected(offset); + check_expected(size); + + ssize_t ret = mock(); + if (!ret) + return size; +} + +static ssize_t mock_writeat(const struct region_device *rdev, const void *buffer, + size_t offset, size_t size) +{ + check_expected_ptr(rdev); + check_expected_ptr(buffer); + check_expected(offset); + check_expected(size); + + ssize_t ret = mock(); + if (!ret) + return size; +} + +static ssize_t mock_eraseat(const struct region_device *rdev, size_t offset, size_t size) +{ + check_expected_ptr(rdev); + check_expected(offset); + check_expected(size); + + ssize_t ret = mock(); + if (!ret) + return size; +} + +struct region_device_ops mock_rdev_ops = { + .mmap = mock_mmap, + .munmap = mock_unmap, + .readat = mock_readat, + .writeat = mock_writeat, + .eraseat = mock_eraseat, +}; + +struct region_device mock_rdev = REGION_DEV_INIT(&mock_rdev_ops, 0, ~(size_t)0); +void *mmap_result = (void *)0x12345678; +const size_t mock_size = 256; +u8 mock_buffer[256]; + +static void test_rdev_basics(void **state) +{ + assert_int_equal(region_device_offset(&mock_rdev), 0); + assert_int_equal(region_device_sz(&mock_rdev), ~(size_t)0); + assert_int_equal(region_device_end(&mock_rdev), ~(size_t)0); +} + +/* + * This function sets up defaults for the mock_rdev_ops functions so we don't have to explicitly + * mock every parameter every time. cmocka doesn't really work well for this sort of use case + * and won't let you override these anymore once they're set (because these are stored as + * queues, not stacks, and once you store an "infinite" element the test can never proceed + * behind it), so tests will always have to enqueue any custom values they may need for the rest + * of the test function before calling this. + */ +static void rdev_mock_defaults(void) +{ + will_return_maybe(mock_mmap, mmap_result); + will_return_maybe(mock_unmap, 0); + will_return_maybe(mock_readat, 0); + will_return_maybe(mock_writeat, 0); + will_return_maybe(mock_eraseat, 0); + + expect_value_count(mock_mmap, rdev, &mock_rdev, -2); + expect_value_count(mock_unmap, rdev, &mock_rdev, -2); + expect_value_count(mock_readat, rdev, &mock_rdev, -2); + expect_value_count(mock_writeat, rdev, &mock_rdev, -2); + expect_value_count(mock_eraseat, rdev, &mock_rdev, -2); + + expect_value_count(mock_readat, buffer, &mock_buffer, -2); + expect_value_count(mock_writeat, buffer, &mock_buffer, -2); + + expect_value_count(mock_mmap, offset, 0, -2); + expect_value_count(mock_readat, offset, 0, -2); + expect_value_count(mock_writeat, offset, 0, -2); + expect_value_count(mock_eraseat, offset, 0, -2); + + expect_value_count(mock_mmap, size, mock_size, -2); + expect_value_count(mock_readat, size, mock_size, -2); + expect_value_count(mock_writeat, size, mock_size, -2); + expect_value_count(mock_eraseat, size, mock_size, -2); + + expect_value_count(mock_unmap, mapping, mmap_result, -2); +} + +static void test_rdev_success(void **state) +{ + struct region_device child; + + expect_value(mock_mmap, size, region_device_sz(&mock_rdev)); + + rdev_mock_defaults(); + + assert_ptr_equal(rdev_mmap_full(&mock_rdev), mmap_result); + + assert_ptr_equal(rdev_mmap(&mock_rdev, 0, mock_size), mmap_result); + assert_int_equal(rdev_munmap(&mock_rdev, mmap_result), 0); + assert_int_equal(rdev_readat(&mock_rdev, mock_buffer, 0, mock_size), mock_size); + assert_int_equal(rdev_writeat(&mock_rdev, mock_buffer, 0, mock_size), mock_size); + assert_int_equal(rdev_eraseat(&mock_rdev, 0, mock_size), mock_size); +} + +static void test_rdev_failure(void **state) +{ + will_return(mock_mmap, NULL); + will_return(mock_unmap, -1); + will_return(mock_readat, -1); + will_return(mock_writeat, -1); + will_return(mock_eraseat, -1); + + rdev_mock_defaults(); + + assert_null(rdev_mmap(&mock_rdev, 0, mock_size)); + assert_int_equal(rdev_munmap(&mock_rdev, mmap_result), -1); + assert_int_equal(rdev_readat(&mock_rdev, mock_buffer, 0, mock_size), -1); + assert_int_equal(rdev_writeat(&mock_rdev, mock_buffer, 0, mock_size), -1); + assert_int_equal(rdev_eraseat(&mock_rdev, 0, mock_size), -1); +} + +static void test_rdev_wrap(void **state) +{ + struct region_device child; + const size_t offs = VAL(0xf); + const size_t wrap_size = VAL(2); + /* Known API limitation -- can't exactly touch address space limit from below. */ + const size_t fit_size = VAL(1) - 1; + + /* For the 'wrap' cases, the underlying rdev_ops aren't even called, so only add + expectations for the 'fit' cases. */ + expect_value(mock_mmap, offset, offs); + expect_value(mock_readat, offset, offs); + expect_value(mock_writeat, offset, offs); + expect_value(mock_eraseat, offset, offs); + + expect_value(mock_mmap, size, fit_size); + expect_value(mock_readat, size, fit_size); + expect_value(mock_writeat, size, fit_size); + expect_value(mock_eraseat, size, fit_size); + + rdev_mock_defaults(); + + /* Accesses to regions that wrap around the end of the address space should fail. */ + assert_null(rdev_mmap(&mock_rdev, offs, wrap_size)); + assert_int_equal(rdev_readat(&mock_rdev, mock_buffer, offs, wrap_size), -1); + assert_int_equal(rdev_writeat(&mock_rdev, mock_buffer, offs, wrap_size), -1); + assert_int_equal(rdev_eraseat(&mock_rdev, offs, wrap_size), -1); + assert_int_equal(rdev_chain(&child, &mock_rdev, offs, wrap_size), -1); + + /* Just barely touching the end of the address space (and the rdev) should be fine. */ + assert_ptr_equal(rdev_mmap(&mock_rdev, offs, fit_size), mmap_result); + assert_int_equal(rdev_readat(&mock_rdev, mock_buffer, offs, fit_size), fit_size); + assert_int_equal(rdev_writeat(&mock_rdev, mock_buffer, offs, fit_size), fit_size); + assert_int_equal(rdev_eraseat(&mock_rdev, offs, fit_size), fit_size); + assert_int_equal(rdev_chain(&child, &mock_rdev, offs, fit_size), 0); +} + +static void test_rdev_chain(void **state) +{ + struct region_device child; + const size_t child_offs = VAL(2); + const size_t child_size = VAL(4); + const size_t offs = VAL(1); + const size_t ovrflw_size = child_size - offs + 1; + + /* The mock_size test is the only one that will go through to underlying rdev_ops. */ + expect_value(mock_mmap, offset, child_offs + offs); + expect_value(mock_readat, offset, child_offs + offs); + expect_value(mock_writeat, offset, child_offs + offs); + expect_value(mock_eraseat, offset, child_offs + offs); + + rdev_mock_defaults(); + + /* First a quick test for rdev_chain_full(). */ + assert_int_equal(rdev_chain_full(&child, &mock_rdev), 0); + assert_int_equal(region_device_sz(&child), region_device_sz(&mock_rdev)); + assert_int_equal(region_device_offset(&child), region_device_offset(&mock_rdev)); + assert_int_equal(rdev_relative_offset(&mock_rdev, &child), 0); + + /* Remaining tests use rdev chained to [child_offs:child_size) subregion. */ + assert_int_equal(rdev_chain(&child, &mock_rdev, child_offs, child_size), 0); + assert_int_equal(region_device_sz(&child), child_size); + assert_int_equal(region_device_offset(&child), child_offs); + assert_int_equal(region_device_end(&child), child_offs + child_size); + assert_int_equal(rdev_relative_offset(&mock_rdev, &child), child_offs); + assert_int_equal(rdev_relative_offset(&child, &mock_rdev), -1); + + /* offs + mock_size < child_size, so will succeed. */ + assert_ptr_equal(rdev_mmap(&child, offs, mock_size), mmap_result); + assert_int_equal(rdev_munmap(&child, mmap_result), 0); + assert_int_equal(rdev_readat(&child, mock_buffer, offs, mock_size), mock_size); + assert_int_equal(rdev_writeat(&child, mock_buffer, offs, mock_size), mock_size); + assert_int_equal(rdev_eraseat(&child, offs, mock_size), mock_size); + + /* offs + ovrflw_size > child_size, so will fail. */ + assert_null(rdev_mmap(&child, offs, ovrflw_size)); + assert_int_equal(rdev_readat(&child, mock_buffer, offs, ovrflw_size), -1); + assert_int_equal(rdev_writeat(&child, mock_buffer, offs, ovrflw_size), -1); + assert_int_equal(rdev_eraseat(&child, offs, ovrflw_size), -1); + + /* Using child_size as offset, the start of the area will already be out of range. */ + assert_null(rdev_mmap(&child, child_size, mock_size)); + assert_int_equal(rdev_readat(&child, mock_buffer, child_size, mock_size), -1); + assert_int_equal(rdev_writeat(&child, mock_buffer, child_size, mock_size), -1); + assert_int_equal(rdev_eraseat(&child, child_size, mock_size), -1); +} + +static void test_rdev_double_chain(void **state) +{ + struct region_device first, second; + const size_t first_offs = VAL(2); + const size_t first_size = VAL(6); + const size_t second_offs = VAL(2); + const size_t second_size = VAL(2); + const size_t offs = VAL(1); + const size_t ovrflw_size = second_size - offs + 1; + + /* The mock_size test is the only one that will go through to underlying rdev_ops. */ + expect_value(mock_mmap, offset, first_offs + second_offs + offs); + expect_value(mock_readat, offset, first_offs + second_offs + offs); + expect_value(mock_writeat, offset, first_offs + second_offs + offs); + expect_value(mock_eraseat, offset, first_offs + second_offs + offs); + + rdev_mock_defaults(); + + /* First, chain an rdev to root over [first_offs:first_size). */ + assert_int_equal(rdev_chain(&first, &mock_rdev, first_offs, first_size), 0); + + /* Trying to chain a second to first beyond its end should fail. */ + assert_int_equal(rdev_chain(&second, &first, second_offs, first_size), -1); + + /* Chain second to first at [second_offs:second_size). */ + assert_int_equal(rdev_chain(&second, &first, second_offs, second_size), 0); + assert_int_equal(rdev_relative_offset(&first, &second), second_offs); + assert_int_equal(rdev_relative_offset(&mock_rdev, &second), first_offs + second_offs); + + /* offs + mock_size < second_size, so will succeed. */ + assert_ptr_equal(rdev_mmap(&second, offs, mock_size), mmap_result); + assert_int_equal(rdev_munmap(&second, mmap_result), 0); + assert_int_equal(rdev_readat(&second, mock_buffer, offs, mock_size), mock_size); + assert_int_equal(rdev_writeat(&second, mock_buffer, offs, mock_size), mock_size); + assert_int_equal(rdev_eraseat(&second, offs, mock_size), mock_size); + + /* offs + ovrflw_size > second_size, so will fail. */ + assert_null(rdev_mmap(&second, offs, ovrflw_size)); + assert_int_equal(rdev_readat(&second, mock_buffer, offs, ovrflw_size), -1); + assert_int_equal(rdev_writeat(&second, mock_buffer, offs, ovrflw_size), -1); + assert_int_equal(rdev_eraseat(&second, offs, ovrflw_size), -1); + + /* offs + second_size + offs way out of range. */ + assert_null(rdev_mmap(&second, second_size + offs, mock_size)); + assert_int_equal(rdev_readat(&second, mock_buffer, second_size + offs, mock_size), -1); + assert_int_equal(rdev_writeat(&second, mock_buffer, second_size + offs, mock_size), -1); + assert_int_equal(rdev_eraseat(&second, second_size + offs, mock_size), -1); +} + +static void test_mem_rdev(void **state) +{ + const size_t size = 256; + u8 backing[size]; + u8 scratch[size]; + int i; + struct mem_region_device mem = MEM_REGION_DEV_RW_INIT(backing, size); + + /* Test writing to and reading from full mapping. */ + memset(backing, 0xa5, size); + u8 *mapping = rdev_mmap_full(&mem.rdev); + assert_non_null(mapping); + for (i = 0; i < size; i++) + assert_int_equal(mapping[i], 0xa5); + memset(mapping, 0x5a, size); + for (i = 0; i < size; i++) + assert_int_equal(backing[i], 0x5a); + assert_int_equal(rdev_munmap(&mem.rdev, mapping), 0); + + /* Test read/write/erase of single bytes. */ + for (i = 0; i < size; i++) { + u8 val = i + 0xaa; + scratch[0] = val; + assert_int_equal(rdev_writeat(&mem.rdev, &scratch, i, 1), 1); + assert_int_equal(backing[i], val); + assert_int_equal(scratch[0], val); + val = i + 0x55; + backing[i] = val; + assert_int_equal(rdev_readat(&mem.rdev, &scratch, i, 1), 1); + assert_int_equal(scratch[0], val); + assert_int_equal(backing[i], val); + assert_int_equal(rdev_eraseat(&mem.rdev, i, 1), 1); + assert_int_equal(backing[i], 0); + } + + /* Test read/write/erase of larger chunk. */ + size_t offs = 0x47; + size_t chunk = 0x72; + memset(backing, 0, size); + memset(scratch, 0, size); + memset(scratch + offs, 0x39, chunk); + assert_int_equal(rdev_writeat(&mem.rdev, scratch + offs, offs, chunk), chunk); + assert_memory_equal(backing, scratch, size); + memset(backing, 0, size); + assert_int_equal(rdev_readat(&mem.rdev, scratch + offs, offs, chunk), chunk); + assert_memory_equal(backing, scratch, size); + memset(scratch + offs + 1, 0, chunk - 1); + assert_int_equal(rdev_eraseat(&mem.rdev, offs + 1, chunk - 1), chunk - 1); + assert_memory_equal(backing, scratch, size); + + /* Test mapping of larger chunk. */ + memset(backing, 0, size); + mapping = rdev_mmap(&mem.rdev, offs, chunk); + assert_non_null(mapping); + memset(scratch, 0x93, size); + memcpy(mapping, scratch, chunk); + memset(scratch, 0, size); + memset(scratch + offs, 0x93, chunk); + assert_memory_equal(backing, scratch, size); + assert_int_equal(rdev_munmap(&mem.rdev, mapping), 0); + assert_memory_equal(backing, scratch, size); +} + +int main(void) +{ + const struct CMUnitTest tests[] = { + cmocka_unit_test(test_region), + cmocka_unit_test(test_rdev_basics), + cmocka_unit_test(test_rdev_success), + cmocka_unit_test(test_rdev_failure), + cmocka_unit_test(test_rdev_wrap), + cmocka_unit_test(test_rdev_chain), + cmocka_unit_test(test_rdev_double_chain), + cmocka_unit_test(test_mem_rdev), + }; + + return cmocka_run_group_tests(tests, NULL, NULL); +} |