4ee78450ff
ea4c9fd4abtest: Cover eviction by timeout in addrman_evictionworks (Martin Zumsande)4f1bb467b5test: Add test for multiplicity in addrman new tables (Martin Zumsande)e880bb7836test: Add test for updating addrman entries (Martin Zumsande)f02eee8c87test: introduce utility function to retrieve an addrman (Martin Zumsande)f0e5efb824test: Remove unused AddrManTest class (Martin Zumsande)b696d7870btest: Remove tests for internal helper functions (Martin Zumsande)0538520091test: use AddrMan instead of AddrManTest where possible (Martin Zumsande)1c65d427bbtest: Inline SimConnFail function (Martin Zumsande)5b7aac34f2test: delete unused GetBucketAndEntry function (Amiti Uttarwar)2ba1e74e59test: Update addrman_serialization unit test to use AddrMan's interface (Amiti Uttarwar)dad5f76021addrman: Introduce a test-only function to lookup addresses (Amiti Uttarwar) Pull request description: This PR (joint work with Amiti Uttarwar) changes the addrman unit tests such that they only use the public `AddrMan` interface: This has the advantage that the tests are less implementation-dependent, i.e. it would be possible to rewrite the internal addrman implementation (as drafted [here](https://github.com/sipa/bitcoin/tree/202106_multiindex_addrman) for using a multiindex) without having to adjust the tests. This includes the following steps: * Adding a test-only function `FindAddressEntry()` to the public addrman interface which returns info about an address in addrman (e.g. bucket, position, whethe the address is in new or tried). Obviously we want to do this sparingly, but I think a single test-only function is ok (which could also be useful elsewhere, e.g. in fuzz tests). * Removal of the `AddrManTest` subclass which would reach into AddrMan's internals, using `AddrMan` instead * Removal of tests for internal helper functions that are not publicly exposed (these are still tested indirectly via the public functions calling them). * Additional tests for previously untested features such as multiplicity in the new tables, that can be tested with the help of `FindAddressEntry()`. All in all, this PR increases the unit test coverage of AddrMan by a bit. ACKs for top commit: jnewbery: ACKea4c9fd4abjosibake: reACKea4c9fd4abTree-SHA512: c2d4ec8bdc62ffd6055ddcd37dea85ec08c76889e9e417e8d7c62a96cf68a8bcbe8c67bec3344d91fa7d3c499f6d9f810962da1dddd38e70966186b10b8ab447
Unit tests
The sources in this directory are unit test cases. Boost includes a unit testing framework, and since Bitcoin Core already uses Boost, it makes sense to simply use this framework rather than require developers to configure some other framework (we want as few impediments to creating unit tests as possible).
The build system is set up to compile an executable called test_bitcoin
that runs all of the unit tests. The main source file for the test library is found in
util/setup_common.cpp.
Compiling/running unit tests
Unit tests will be automatically compiled if dependencies were met in ./configure
and tests weren't explicitly disabled.
After configuring, they can be run with make check.
To run the unit tests manually, launch src/test/test_bitcoin. To recompile
after a test file was modified, run make and then run the test again. If you
modify a non-test file, use make -C src/test to recompile only what's needed
to run the unit tests.
To add more unit tests, add BOOST_AUTO_TEST_CASE functions to the existing
.cpp files in the test/ directory or add new .cpp files that
implement new BOOST_AUTO_TEST_SUITE sections.
To run the GUI unit tests manually, launch src/qt/test/test_bitcoin-qt
To add more GUI unit tests, add them to the src/qt/test/ directory and
the src/qt/test/test_main.cpp file.
Running individual tests
test_bitcoin has some built-in command-line arguments; for
example, to run just the getarg_tests verbosely:
test_bitcoin --log_level=all --run_test=getarg_tests -- DEBUG_LOG_OUT
log_level controls the verbosity of the test framework, which logs when a
test case is entered, for example. The DEBUG_LOG_OUT after the two dashes
redirects the debug log, which would normally go to a file in the test datadir
(BasicTestingSetup::m_path_root), to the standard terminal output.
... or to run just the doubledash test:
test_bitcoin --run_test=getarg_tests/doubledash
Run test_bitcoin --help for the full list.
Adding test cases
To add a new unit test file to our test suite you need
to add the file to src/Makefile.test.include. The pattern is to create
one test file for each class or source file for which you want to create
unit tests. The file naming convention is <source_filename>_tests.cpp
and such files should wrap their tests in a test suite
called <source_filename>_tests. For an example of this pattern,
see uint256_tests.cpp.
Logging and debugging in unit tests
make check will write to a log file foo_tests.cpp.log and display this file
on failure. For running individual tests verbosely, refer to the section
above.
To write to logs from unit tests you need to use specific message methods
provided by Boost. The simplest is BOOST_TEST_MESSAGE.
For debugging you can launch the test_bitcoin executable with gdbor lldb and
start debugging, just like you would with any other program:
gdb src/test/test_bitcoin
Segmentation faults
If you hit a segmentation fault during a test run, you can diagnose where the fault
is happening by running gdb ./src/test/test_bitcoin and then using the bt command
within gdb.
Another tool that can be used to resolve segmentation faults is valgrind.
If for whatever reason you want to produce a core dump file for this fault, you can do
that as well. By default, the boost test runner will intercept system errors and not
produce a core file. To bypass this, add --catch_system_errors=no to the
test_bitcoin arguments and ensure that your ulimits are set properly (e.g. ulimit -c unlimited).
Running the tests and hitting a segmentation fault should now produce a file called core
(on Linux platforms, the file name will likely depend on the contents of
/proc/sys/kernel/core_pattern).
You can then explore the core dump using
gdb src/test/test_bitcoin core
(gbd) bt # produce a backtrace for where a segfault occurred