cef0744299
multiple fixes for linux target Closes IDF-6641 See merge request espressif/esp-idf!21993 |
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.. | ||
main | ||
CMakeLists.txt | ||
pytest_nvs_page_linux.py | ||
README.md | ||
sdkconfig.defaults |
Supported Targets | Linux |
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NVS Page Unit Test
This unit test for the nvs::Page
C++ class uses CMock to abstract its dependency to the spi_flash
component. Its CMakeLists.txt
builds mocks instead of the actual spi_flash
component by setting the component property USE_MOCK
for spi_flash
. It also needs some stubs for CRC32 since the ROM component can not be mocked yet. These are retrieved from the mock
directory inside nvs_flash
.
The mocked version of spi_flash
receives all function calls to the esp_partition
API. E.g., have a look at the first unit test in the NVS page test, the test function test_Page_load_reading_header_fails()
. It simply checks whether an error is propagated correctly from the esp_partition
API to upper layers during a call to nvs::Page::load
. The relevant mocking code here is:
esp_partition_read_raw_ExpectAnyArgsAndReturn(ESP_ERR_INVALID_ARG);
It tells the generated mocks to expect a call to esp_partition
API's esp_partition_read_raw()
, accept any arguments and return ESP_ERR_INVALID_ARG
. When nvs::Page::load
is called later, the mock will "replay" this action and the test will check that the return value is correctly propagated with:
TEST_ASSERT_EQUAL(ESP_ERR_INVALID_ARG, page.load(&mock, 0));
For more information on how to control the mock's behavior, take a look at the CMock README. The rest of main/nvs_page_test.cpp
also provides many more examples on how to control the mocks.
Requirements
- The usual IDF requirements
- The host's gcc/g++
ruby
This application has been tested on Ubuntu 20.04 with gcc
version 9.3.0.
Build
First, make sure that the target is set to Linux. Run idf.py --preview set-target linux
if you are not sure. Then do a normal IDF build: idf.py build
.
Run
idf.py monitor
Coverage
To generate the coverage, run: idf.py coverage
. Afterwards, you can view the coverage by opening build/coverage_report/index.html
with your browser. Note that you need to run the application at least once before generating the coverage information. If you run it multiple times, the coverage information adds up.
Example Output
Ideally, all tests pass, which is indicated by the last two log lines after the dashed line:
$ idf.py monitor
../main/nvs_page_test.cpp:880:test_Page_load_reading_header_fails:PASS
../main/nvs_page_test.cpp:881:test_Page_load_reading_data_fails:PASS
../main/nvs_page_test.cpp:882:test_Page_load__uninitialized_page_has_0xfe:PASS
../main/nvs_page_test.cpp:883:test_Page_load__initialized_corrupt_header:PASS
../main/nvs_page_test.cpp:884:test_Page_load_success:PASS
../main/nvs_page_test.cpp:885:test_Page_load_full_page:PASS
../main/nvs_page_test.cpp:886:test_Page_load__seq_number_0:PASS
../main/nvs_page_test.cpp:887:test_Page_erase__write_fail:PASS
../main/nvs_page_test.cpp:888:test_Page_erase__success:PASS
../main/nvs_page_test.cpp:889:test_Page_write__initialize_write_failure:PASS
../main/nvs_page_test.cpp:890:test_Page_write__write_data_fails:PASS
../main/nvs_page_test.cpp:891:test_page_write__write_correct_entry_state:PASS
../main/nvs_page_test.cpp:892:test_Page_write__write_correct_data:PASS
../main/nvs_page_test.cpp:893:test_Page_readItem__read_entry_fails:PASS
../main/nvs_page_test.cpp:894:test_Page_readItem__read_corrupted_entry:PASS
../main/nvs_page_test.cpp:895:test_Page_readItem__read_corrupted_second_read_fail:PASS
../main/nvs_page_test.cpp:896:test_Page_readItem__read_corrupted_erase_fail:PASS
../main/nvs_page_test.cpp:897:test_Page_readItem__read_entry_suceeds:PASS
../main/nvs_page_test.cpp:898:test_Page_readItem__blob_read_data_fails:PASS
../main/nvs_page_test.cpp:899:test_Page_readItem__blob_corrupt_data:PASS
../main/nvs_page_test.cpp:900:test_Page_readItem__blob_read_entry_suceeds:PASS
../main/nvs_page_test.cpp:901:test_Page_cmp__uninitialized:PASS
../main/nvs_page_test.cpp:902:test_Page_cmp__item_not_found:PASS
../main/nvs_page_test.cpp:903:test_Page_cmp__item_type_mismatch:PASS
../main/nvs_page_test.cpp:904:test_Page_cmp__item_content_mismatch:PASS
../main/nvs_page_test.cpp:905:test_Page_cmp__item_content_match:PASS
../main/nvs_page_test.cpp:906:test_Page_cmpItem__blob_data_mismatch:PASS
../main/nvs_page_test.cpp:907:test_Page_cmpItem__blob_data_match:PASS
../main/nvs_page_test.cpp:908:test_Page_eraseItem__uninitialized:PASS
../main/nvs_page_test.cpp:909:test_Page_eraseItem__key_not_found:PASS
../main/nvs_page_test.cpp:910:test_Page_eraseItem__write_fail:PASS
../main/nvs_page_test.cpp:911:test_Page_readItem__corrupt_data_erase_failure:PASS
../main/nvs_page_test.cpp:912:test_Page_eraseItem__write_succeed:PASS
../main/nvs_page_test.cpp:913:test_Page_findItem__uninitialized:PASS
../main/nvs_page_test.cpp:914:test_Page_find__wrong_ns:PASS
../main/nvs_page_test.cpp:915:test_Page_find__wrong_type:PASS
../main/nvs_page_test.cpp:916:test_Page_find__key_empty:PASS
../main/nvs_page_test.cpp:917:test_Page_find__wrong_key:PASS
../main/nvs_page_test.cpp:918:test_Page_find__too_large_index:PASS
../main/nvs_page_test.cpp:919:test_Page_findItem__without_read:PASS
../main/nvs_page_test.cpp:920:test_Page_markFull__wrong_state:PASS
../main/nvs_page_test.cpp:921:test_Page_markFreeing__wrong_state:PASS
../main/nvs_page_test.cpp:922:test_Page_markFull__success:PASS
../main/nvs_page_test.cpp:923:test_Page_markFreeing__success:PASS
../main/nvs_page_test.cpp:924:test_Page_markFull__write_fail:PASS
../main/nvs_page_test.cpp:925:test_Page_getVarDataTailroom__uninitialized_page:PASS
../main/nvs_page_test.cpp:926:test_Page_getVarDataTailroom__success:PASS
../main/nvs_page_test.cpp:927:test_Page_calcEntries__uninit:PASS
../main/nvs_page_test.cpp:928:test_Page_calcEntries__corrupt:PASS
../main/nvs_page_test.cpp:929:test_Page_calcEntries__active_wo_blob:PASS
../main/nvs_page_test.cpp:930:test_Page_calcEntries__active_with_blob:PASS
../main/nvs_page_test.cpp:931:test_Page_calcEntries__invalid:PASS
-----------------------
52 Tests 0 Failures 0 Ignored
OK