SHTK_UNITTEST(3) | Library Functions Manual | SHTK_UNITTEST(3) |
unittest
—
Utilities to implement test programs
shtk_import unittest
The unittest
module provides a framework
with which to implement test programs.
A test program implemented with the
unittest
library is made up of a combination of
standalone test cases and/or test cases within test fixtures. The test
program will exit with 0 (success) if and only if all tests pass, and 1
(failure) if any single test fails. Skips and expected failures are
considered passes.
Test programs implemented using unittest
must use the
shtk_unittest_main(3)
function as their entry point. There are two mechanisms to achieve this.
The first is to end the test program with the following definition
of main
:
main() { shtk_unittest_main "${@}"; }
The second is to tell shtk(1) at build time to use shtk_unittest_main(3) as the program's entry point:
$ shtk build -m shtk_unittest_main module_test.sh
In general, prefer the latter mechanism.
The unittest
library provides a variety of
helper check functions. One such example is the ‘equal’ check,
which allows the caller to compare two values for equality and fail the test
case with the appropriate error message if the values differ.
Each check is offered in two flavors: an
assert and an
expect,
which in the previous example means we have access to the two corresponding
functions assert_equal
and
expect_equal
. Assert-style checks are fatal: when
the condition they test for is not met, the test case is immediately
aborted; instead, expect-style checks are not fatal: they record the
currently-running test case as failed but they let the test case continue
execution. Assert-style checks should be used to validate conditions that
must hold true in order to run the test (e.g. ensuring that the setup of the
test case succeeds); expect-style checks should be used for all other
cases.
All functions provided by the unittest
library are prefixed by ‘shtk_unittest_’ as you would expect
from the coding practices of shtk
. However, such
long prefix is inconvenient when writing test programs, as test programs are
a very special case of scripts in which a domain-specific language makes
sense.
Therefore, for simplicity reasons, test cases have access to
shortened names of the unittest
functions without
the ‘shtk_unittest_’ prefix. In order words, a test case can
simply call fail
instead of having to call
shtk_unittest_fail
.
Standalone test cases are defined by top-level functions whose name ends with the ‘_test’ suffix and are registered as test cases with the shtk_unittest_add_test(3) function. Such test cases are run independently of each other, with no common setup nor teardown code among them.
Test fixtures are collections of related test cases that may share optional setup and teardown methods. Test fixtures are defined by top-level functions whose name ends with the ‘_fixture’ suffix and are registered as fixtures with the shtk_unittest_add_fixture(3) function.
Within fixture fuctions, there may be a
setup
and a teardown
method,
and there should be one or more test cases registered with
shtk_unittest_add_test(3).
Each test within the fixture is executed independently of each other, but
the setup and teardown methods (if any) are also executed with the test.
The runtime engine (usually kyua(1)) is responsible for executing the test program under a controlled directory and with a sanitized environment.
However, due to the nature of shell-based test programs,
unittest
creates one extra directory for each test
case, and such directory becomes the work directory of the test case. These
directories are all created within the directory in which the test program
was executed. To ensure that any files created by the test case remain
within its own subdirectory as much as possible, the
HOME and TMPDIR variables are
set to point to the individual test's work directory.
Test programs may optionally define top-level
one_time_setup
and
one_time_teardown
.
The code supplied in the one_time_setup
function is executed exactly once at the beginning of the test program and
all state set up by the function is shared across all tests.
The code supplied in the one_time_teardown
function is executed exactly once at the end of the test program and should
be used to clean up any state prepared by
one_time_setup
.
It is important to mention that these one-time setup and teardown routines run in the parent directory of the executed test cases. In other words: if the setup routine creates any file to be shared across all tests, the tests will have access to such files by looking them up in their parent directory.
Any test case can complete with one of the following results:
The most basic test program that can be written is the following,
which provides a simple test case for
cp(1)'s -f
flag:
shtk_import unittest shtk_unittest_add_test cp_f_forces_override cp_f_forces_override_test() { echo "first" >first echo "second" >second chmod 555 second # First make sure that cp without -f fails. assert_command -s exit:1 -e ignore cp first second # Now run a second attempt with -f and verify that the command # exits successfully and it is silent. assert_command cp -f first second cmp -s first second || fail "source and destination do not match" } main() { shtk_unittest_main "${@}"; }
A more complex test program can use fixtures to group related test cases and to provide common setup and teardown code for each of them:
shtk_import unittest shtk_unittest_add_fixture cp setup() { # Create common files used by all test cases. Note that this runs # once per test case, so state is not shared among them. echo "first" >first echo "second" >second } teardown() { # Common cleanup to be executed at the end of the test case, no # matter if it passes or fails. rm -f first second } shtk_unittest_add_test override_existing_file override_existing_file_test() { assert_command cp first second cmp -s first second || fail "source and destination do not match" } shtk_unittest_add_test f_forces_override f_forces_override_test() { chmod 555 second assert_command -s exit:1 -e ignore cp first second assert_command cp -f first second cmp -s first second || fail "source and destination do not match" } } main() { shtk_unittest_main "${@}"; }
Lastly, the most complex test program is depicted here, which includes a combination of fixtures and test cases with one-time setup and teardown routines:
shtk_import unittest one_time_setup() { ... initialization code shared by all tests in the program ... } one_time_teardown() { ... clean up code shared by all tests in the program ... } shtk_unittest_add_fixture clients clients_fixture() { setup() { ... initialization code shared by all tests in the fixture ... } teardown() { ... cleanup code shared by all tests in the fixture ... } shtk_unittest_add_test add add_test() { ... first test in the fixture ... } shtk_unittest_add_test modify modify_test() { ... second test in the fixture ... fail "And it fails" } } shtk_unittest_add_test initialization initialization_test() { ... standalone test not part of any fixture ... skip "But cannot run due to some unsatisfied condition" } # Either do this or, preferably, pass -mshtk_unittest_main to # "shtk build" when compiling the test program and don't define main. main() { shtk_unittest_main "${@}"; }
shtk(3), shtk_unittest(1), shtk_unittest_add_fixture(3), shtk_unittest_add_test(3), shtk_unittest_delayed_fail(3), shtk_unittest_fail(3), shtk_unittest_main(3), shtk_unittest_set_expected_failure(3), shtk_unittest_skip(3)
shtk_unittest_assert_command(3), shtk_unittest_assert_equal(3), shtk_unittest_assert_file(3), shtk_unittest_assert_not_equal(3), shtk_unittest_expect_command(3), shtk_unittest_expect_equal(3), shtk_unittest_expect_file(3), shtk_unittest_expect_not_equal(3)
unittest
first appeared in
shtk
1.6.
November 16, 2014 | Debian |