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Persistent Memory Development Kit This is src/test/README. This directory contains the unit tests for the Persistent Memory Development Kit. Unit tests require a config file, testconfig.sh, to exist in this directory. That file describes the local machine configuration (where to find persistent memory, for example) and must be created by hand in each repo as it makes no sense to check in that configuration description to the main repo. testconfig.sh.example provides more detail. The script RUNTESTS.sh, when run with no arguments, will run all unit tests through all the combinations of fs-types and build-types, running the "check" level test. DEPENDENCIES You will need to install the following package to run unit tests: ndctl DETAILS ON HOW TO RUN UNIT TESTS See the top-level README for instructions on building, installing, running tests for the entire tree. Here are some additional details on running tests. Once the libraries are built, tests may be built from this directory using: $ make test A testconfig.sh must exist to run these tests! $ cp testconfig.sh.example testconfig.sh $ ...edit testconfig.sh and modify as appropriate... Tests may be run using the RUNTESTS.sh script: $ RUNTESTS.sh (runs them all) $ RUNTESTS.sh testname (runs just the named test) Each test script (named something like "TEST0") is potentially run multiple times with a different set of environment variables so run the test with different target file systems or different versions of the libraries. To see how RUNTESTS.sh will run a test, use the -n option. For example: $ RUNTESTS.sh -n blk_nblock -s TEST0 (in ./blk_nblock) TEST=check FS=none BUILD=debug ./TEST0 (in ./blk_nblock) TEST=check FS=none BUILD=nondebug ./TEST0 (in ./blk_nblock) TEST=check FS=none BUILD=static_debug ./TEST0 (in ./blk_nblock) TEST=check FS=none BUILD=static_nondebug ./TEST0 (in ./blk_nblock) TEST=check FS=pmem BUILD=debug ./TEST0 (in ./blk_nblock) TEST=check FS=pmem BUILD=nondebug ./TEST0 (in ./blk_nblock) TEST=check FS=pmem BUILD=static_debug ./TEST0 (in ./blk_nblock) TEST=check FS=pmem BUILD=static_nondebug ./TEST0 (in ./blk_nblock) TEST=check FS=non-pmem BUILD=debug ./TEST0 (in ./blk_nblock) TEST=check FS=non-pmem BUILD=nondebug ./TEST0 (in ./blk_nblock) TEST=check FS=non-pmem BUILD=static_debug ./TEST0 (in ./blk_nblock) TEST=check FS=non-pmem BUILD=static_nondebug ./TEST0 (in ./blk_nblock) TEST=check FS=any BUILD=debug ./TEST0 (in ./blk_nblock) TEST=check FS=any BUILD=nondebug ./TEST0 (in ./blk_nblock) TEST=check FS=any BUILD=static_debug ./TEST0 (in ./blk_nblock) TEST=check FS=any BUILD=static_nondebug ./TEST0 Notice how the TEST0 script is run repeatedly with different settings for the three environment variables TEST, FS, and BUILD, providing the test type, file system type, and build type to test. RUNTESTS.sh takes options to limit what it runs. The usage is: RUNTESTS.sh [ -hnv ] [ -b build-type ] [ -t test-type ] [ -f fs-type ] [ -o timeout ] [ -s test-file ] [ -k skip-dir ] [[ -m memcheck ] [-p pmemcheck ] [ -e helgrind ] [ -d drd ] || [ --force-enable memcheck|pmemcheck|helgrind|drd|none ]] [ -c ] [tests...] Build types are: debug, nondebug, static_debug, static_nondebug, all (default) Test types are: check (default), short, medium, long, all where: check = short + medium; all = short + medium + long File system types are: none, pmem, non-pmem, any, all (default) Timeout is: a floating point number with an optional suffix: 's' for seconds (the default), 'm' for minutes, 'h' for hours or 'd' for days. Default value is 3 minutes. Test file is: a name of the particular test script (test case). all (default), TEST0, TEST1, ... memcheck, helgrind, drd and pmemcheck modes are: auto (default, enable/disable based on test requirements), force-enable (enable when test does not require given valgrind tool, but obey test's explicit tool disable) For example: $ RUNTESTS.sh -b debug blk_nblock -s TEST0 blk_nblock/TEST0: SETUP (check/pmem/debug) blk_nblock/TEST0: START: blk_nblock blk_nblock/TEST0: PASS Since the "-b debug" option was given, the RUNTESTS.sh run above only executes the test for the debug version of the library and skips the other variants. Running the TEST* scripts directly is also common, especially when debugging an issue. Just running the script, like this: $ cd blk_nblock $ ./TEST0 will use default values for the environment, namely: TEST=check FS=any BUILD=debug these defaults can be overridden on the command line: $ cd blk_nblock $ TEST=check FS=any BUILD=nondebug ./TEST0 The above example runs TEST0 with the nondebug library, just as using RUNTESTS.sh with "-b nondebug" would from the parent directory. In addition to overriding TEST, FS, and BUILD environment variables, the unit test framework also looks for several other variables: For tests that run a local program, insert the word "echo" in front of the program execution so the full command being run is displayed. This is useful to modify the command for debugging. $ ECHO=echo ./TEST0 Insert the word "strace" in front of the local command execution: $ TRACE=strace ./TEST0 Run test under Valgrind/memcheck: $ MEMCHECK=force-enable ./TEST0 Display test run times: $ TM=1 ./TEST0 DETAILS ON HOW TO WRITE UNIT TESTS A minimal unit test consists of a sub-directory here with an executable called TEST0 in it that exits normally when the test passes. Most tests, however, source the file unittest/unittest.sh to use the utility functions for setting up and checking tests. Additionally, most unit tests build a local test program and call it from the TEST* scripts. In additional to TEST0, there can be as many TEST<num> scripts as desired, and RUNTESTS.sh will execute them in numeric order for each of the test runs it executes. There are two ways of setting test requirements: - using config.sh file located in a test sub-directory. It is the new and recommended method but it is still under development and does not cover all possible requirements. It is applied prior to the second method. If config.sh includes test requirements which are not met, the test will not be run at all. For details see config.sh.example. - using require_* utility functions. It is the old but still supported method. It can be used simultaneously with config.sh. Available require_* utility functions are described below. If a test does not need any storage, the script uses this line: require_fs_type none Similarly, if the test only makes sense for pmem or non-pmem: require_fs_type pmem or require_fs_type non-pmem The above two are often combined to indicate the test should run once for pmem and once for non-pmem: require_fs_type pmem non-pmem If the test requires some storage, but does not care whether it's pmem or not: require_fs_type any If both pmem and non-pmem are available, "any" means "pmem". Similar to the above, tests can require a specific build types: require_build_type debug Most tests are short "make check" tests, designed to run quickly when smoke-checking a build. Three test types are available: short, medium and long. Each test script must use require_test_type to indicate to which group of tests it belongs to. For example, if it should only run during a long test run, it can use this line: require_test_type long Using the unittest library, the C programs run during unit testing get their output and tracing information logged to various files. These are named with the test number embedded in them and stored inside folders for each build type, so a script called TEST0 run with (check/none/debug) build type would commonly produce: logs/check/none/debug/err0.log log of stderr logs/check/none/debug/out0.log log of stdout logs/check/none/debug/trace0.log trace points from unittest library logs/check/none/debug/pmem0.log trace from libpmem (PMEM_LOG_FILE points here) Although the above log files are the common case, the TEST* scripts are free to create any files. It is recommended, however, that the script creates files that are listed in .gitignore so they don't accidentally get committed to the repo. The TEST* scripts typically use the shell function "check" to check their results. That function calls the perl script "match" for any .match files found. For example, to check out0.log contains the expected output, the test author creates a file called out0.log.match and commits that into the repo. The match script provides several pattern-matching macros that allow for normal variation in the test output: $(N) an integer (i.e. one or more decimal digits) $(NC) one or more decimal digits with optional comma separators $(FP) a floating point number $(S) ascii string $(X) hex number $(W) whitespace $(nW) non-whitespace $(*) any string $(DD) output of a "dd" run $(OPT) the entire line is optional $(OPX) ends a contiguous list of $(OPT)...$(OPX) lines, at least one of which must match The small C programs used for unit testing are designed to not worry about the return values for things not under test. This is done with the all-caps versions of many common libc calls, for example: fd = OPEN(fname, O_RDRW); The above call is just like calling open(2), expect the framework checks for unexpected errors and halts the unit test if those happen. The result is usually a very short, compact unit test where most of the code is the interesting code under test. A full list of unit test macros is in unittest/inittest.h. The best way to create a new unit test is to start with an existing one. The test: blk_rw makes an excellent starting point for new tests. It illustrates the common idioms used in the TEST* scripts, how the small C program is usually command-line driven to create multiple cases, and the use of unit test macros like START, OUT, FATAL, and DONE. Every case is different, but a common pattern for creating new unit tests is to follow steps like these: $ cp blk_rw new_test_name $ ...edit Makefile to add new_test_name to TEST list... $ cd new_test_name $ mv blk_rw.c to new_test_name.c $ ...edit .gitignore, README, Makefile, new_test_name.c... $ ...edit TEST0 to create first test case & get it working... $ ...add more TEST* scripts as appropriate... When a "check" type test is run (the default), each test should try to limit the real execution time to a couple minutes or less. "short" and "long" versions of the tests are encouraged, especially for stress testing. PORTABILITY CONSIDERATIONS unittest.sh defines a number of macros to support portability across POSIX operating systems. See the Portability section of unittest.sh for details. When a matching line count of an output file is required, use "$GREP -c" rather than "$GREP | wc -l". Use canonical ordering of program options and arguments, i.e., put all options before any arguments. Not all operating systems support option reordering.