Tool for testing tarantool applications.
Highlights:
- executable to run tests in directory or specific files,
- before/after suite hooks,
- before/after test group hooks,
- output capturing,
- helpers for testing tarantool applications,
- luacov integration.
- Tarantool (it requires tarantool-specific
fio
module andffi
from LuaJIT).
tt rocks install luatest
.rocks/bin/luatest --help # list available options
Define tests.
-- test/feature_test.lua
local t = require('luatest')
local g = t.group('feature')
-- Default name is inferred from caller filename when possible.
-- For `test/a/b/c_d_test.lua` it will be `a.b.c_d`.
-- So `local g = t.group()` works the same way.
-- Tests. All properties with name staring with `test` are treated as test cases.
g.test_example_1 = function() ... end
g.test_example_n = function() ... end
-- Define suite hooks
t.before_suite(function() ... end)
t.before_suite(function() ... end)
-- Hooks to run once for tests group
g.before_all(function() ... end)
g.after_all(function() ... end)
-- Hooks to run for each test in group
g.before_each(function() ... end)
g.after_each(function() ... end)
-- Hooks to run for a specified test in group
g.before_test('test_example_1', function() ... end)
g.after_test('test_example_2', function() ... end)
-- before_test runs after before_each
-- after_test runs before after_each
-- test/other_test.lua
local t = require('luatest')
local g = t.group('other')
-- ...
g.test_example_2 = function() ... end
g.test_example_m = function() ... end
-- Define parametrized groups
local pg = t.group('pgroup', {{engine = 'memtx'}, {engine = 'vinyl'}})
pg.test_example_3 = function(cg)
-- Use cg.params here
box.schema.space.create('test', {
engine = cg.params.engine,
})
end
-- Hooks can be specified for one parameter
pg.before_all({engine = 'memtx'}, function() ... end)
pg.before_each({engine = 'memtx'}, function() ... end)
pg.before_test('test_example_3', {engine = 'vinyl'}, function() ... end)
Run tests from a path.
luatest # run all tests from the ./test directory
luatest test/integration # run all tests from the specified directory
luatest test/feature_test.lua # run all tests from the specified file
Run tests from a group.
luatest feature # run all tests from the specified group
luatest other.test_example_2 # run one test from the specified group
luatest feature other.test_example_2 # run tests by group and test name
Note that luatest recognizes an input parameter as a path only if it contains /
, otherwise, it will be considered
as a group name.
luatest feature # considered as a group name
luatest ./feature # considered as a path
luatest feature/ # considered as a path
You can also use -p
option in combination with the examples above for running tests matching to some name pattern.
luatest feature -p test_example # run all tests from the specified group matching to the specified pattern
Luatest automatically requires test/helper.lua
file if it's present.
You can configure luatest or run any bootstrap code there.
See the getting-started example in cartridge-cli repo.
Use the --shuffle
option to tell luatest how to order the tests.
The available ordering schemes are group
, all
and none
.
group
shuffles tests within the groups.
all
randomizes execution order across all available tests.
Be careful: before_all/after_all
hooks run always when test group is changed,
so it may run multiple time.
none
is the default, which executes examples within the group in the order they
are defined (eventually they are ordered by functions line numbers).
With group
and all
you can also specify a seed
to reproduce specific order.
--shuffle none
--shuffle group
--shuffle all --seed 123
--shuffle all:123 # same as above
To change default order use:
-- test/helper.lua
local t = require('luatest')
t.configure({shuffle = 'group'})
Preloaded hooks extend base hooks. They behave like the pytest fixture with the autouse
parameter.
If you run the following test:
Then the hooks are executed in the following sequence:
Assertions | |
assert (value[, message]) |
Check that value is truthy. |
assert_almost_equals (actual, expected, margin[, message]) |
Check that two floats are close by margin. |
assert_covers (actual, expected[, message]) |
Checks that actual map includes expected one. |
assert_lt (left, right[, message]) |
Compare numbers. |
assert_le (left, right[, message]) |
|
assert_gt (left, right[, message]) |
|
assert_ge (left, right[, message]) |
|
assert_equals (actual, expected[, message[, deep_analysis]]) |
Check that two values are equal. |
assert_error (fn, ...) |
Check that calling fn raises an error. |
assert_error_msg_contains (expected_partial, fn, ...) |
|
assert_error_msg_content_equals (expected, fn, ...) |
Strips location info from message text. |
assert_error_msg_equals (expected, fn, ...) |
Checks full error: location and text. |
assert_error_msg_matches (pattern, fn, ...) |
|
assert_error_covers (expected, fn, ...) |
Checks that actual error map includes expected one. |
assert_eval_to_false (value[, message]) |
Alias for assert_not. |
assert_eval_to_true (value[, message]) |
Alias for assert. |
assert_items_exclude (actual, expected[, message]) |
Checks that one table does not include any items of another, irrespective of their keys. |
assert_items_include (actual, expected[, message]) |
Checks that one table includes all items of another, irrespective of their keys. |
assert_is (actual, expected[, message]) |
Check that values are the same. |
assert_is_not (actual, expected[, message]) |
Check that values are not the same. |
assert_items_equals (actual, expected[, message]) |
Checks that two tables contain the same items, irrespective of their keys. |
assert_nan (value[, message]) |
|
assert_not (value[, message]) |
Check that value is falsy. |
assert_not_almost_equals (actual, expected, margin[, message]) |
Check that two floats are not close by margin |
assert_not_covers (actual, expected[, message]) |
Checks that map does not contain the other one. |
assert_not_equals (actual, expected[, message]) |
Check that two values are not equal. |
assert_not_nan (value[, message]) |
|
assert_not_str_contains (actual, expected[, is_pattern[,
message]]) |
Case-sensitive strings comparison. |
assert_not_str_icontains (value, expected[, message]) |
Case-insensitive strings comparison. |
assert_str_contains (value, expected[, is_pattern[, message]]) |
Case-sensitive strings comparison. |
assert_str_icontains (value, expected[, message]) |
Case-insensitive strings comparison. |
assert_str_matches (value, pattern[, start=1[, final=value:len()
[, message]]]) |
Verify a full match for the string. |
assert_type (value, expected_type[, message]) |
Check value's type. |
Flow control | |
fail (message) |
Stops a test due to a failure. |
fail_if (condition, message) |
Stops a test due to a failure if condition is met. |
xfail (message) |
Mark test as xfail. |
xfail_if (condition, message) |
Mark test as xfail if condition is met. |
skip (message) |
Skip a running test. |
skip_if (condition, message) |
Skip a running test if condition is met. |
success () |
Stops a test with a success. |
success_if (condition) |
Stops a test with a success if condition is met. |
Suite and groups | |
after_suite (fn) |
Add after suite hook. |
before_suite (fn) |
Add before suite hook. |
group (name) |
Create group of tests. |
The xfail
mark makes test results to be interpreted vice versa: it's
threated as passed when an assertion fails, and it fails if no errors are
raised. It allows one to mark a test as temporarily broken due to a bug in some
other component which can't be fixed immediately. It's also a good practice to
keep xfail tests in sync with an issue tracker.
local g = t.group()
g.test_fail = function()
t.xfail('Must fail no matter what')
t.assert_equals(3, 4)
end
XFail only applies to the errors raised by the luatest assertions. Regular Lua errors still cause the test failure.
By default runner captures all stdout/stderr output and shows it only for failed tests.
Capturing can be disabled with -c
flag.
Runners can repeat tests with flags -r
/ --repeat
(to repeat all the tests) or
-R
/ --repeat-group
(to repeat all the tests within the group).
Test group can be parametrized.
local g = t.group('pgroup', {{a = 1, b = 4}, {a = 2, b = 3}})
g.test_params = function(cg)
...
log.info('a = %s', cg.params.a)
log.info('b = %s', cg.params.b)
...
end
Group can be parametrized with a matrix of parameters using luatest.helpers:
local g = t.group('pgroup', t.helpers.matrix({a = {1, 2}, b = {3, 4}}))
-- Will run:
-- * a = 1, b = 3
-- * a = 1, b = 4
-- * a = 2, b = 3
-- * a = 2, b = 4
Each test will be performed for every params combination. Hooks will work as usual unless there are specified params. The order of execution in the hook group is determined by the order of declaration.
-- called before every test
g.before_each(function(cg) ... end)
-- called before tests when a == 1
g.before_each({a = 1}, function(cg) ... end)
-- called only before the test when a == 1 and b == 3
g.before_each({a = 1, b = 3}, function(cg) ... end)
-- called before test named 'test_something' when a == 1
g.before_test('test_something', {a = 1}, function(cg) ... end)
--etc
Test from a parameterized group can be called from the command line in such a way:
luatest pgroup.a:1.b:4.test_params
luatest pgroup.a:2.b:3.test_params
Note that values for a
and b
have to match to defined group params. The command below will give you an error
because such params are not defined for the group.
luatest pgroup.a:2.b:2.test_params # will raise an error
There are helpers to run tarantool applications and perform basic interaction with it.
If application follows configuration conventions it is possible to use
options to configure server instance and helpers at the same time. For example
http_port
is used to perform http request in tests and passed in TARANTOOL_HTTP_PORT
to server process.
local server = luatest.Server:new({
command = '/path/to/executable.lua',
-- arguments for process
args = {'--no-bugs', '--fast'},
-- additional envars to pass to process
env = {SOME_FIELD = 'value'},
-- passed as TARANTOOL_WORKDIR
workdir = '/path/to/test/workdir',
-- passed as TARANTOOL_HTTP_PORT, used in http_request
http_port = 8080,
-- passed as TARANTOOL_LISTEN, used in connect_net_box
net_box_port = 3030,
-- passed to net_box.connect in connect_net_box
net_box_credentials = {user = 'username', password = 'secret'},
})
server:start()
-- Wait until server is ready to accept connections.
-- This may vary from app to app: for one server:connect_net_box() is enough,
-- for another more complex checks are required.
luatest.helpers.retrying({}, function() server:http_request('get', '/ping') end)
-- http requests
server:http_request('get', '/path')
server:http_request('post', '/path', {body = 'text'})
server:http_request('post', '/path', {json = {field = value}, http = {
-- http client options
headers = {Authorization = 'Basic ' .. credentials},
timeout = 1,
}})
-- This method throws error when response status is outside of then range 200..299.
-- To change this behaviour, path `raise = false`:
t.assert_equals(server:http_request('get', '/not_found', {raise = false}).status, 404)
t.assert_error(function() server:http_request('get', '/not_found') end)
-- using net_box
server:connect_net_box()
server:eval('return do_something(...)', {arg1, arg2})
server:call('function_name', {arg1, arg2})
server:exec(function() return box.info() end)
server:stop()
luatest.Process:start(path, args, env)
provides low-level interface to run any other application.
There are several small helpers for common actions:
luatest.helpers.uuid('ab', 2, 1) == 'abababab-0002-0000-0000-000000000001'
luatest.helpers.retrying({timeout = 1, delay = 0.1}, failing_function, arg1, arg2)
-- wait until server is up
luatest.helpers.retrying({}, function() server:http_request('get', '/status') end)
- Install luacov with
tt rocks install luacov
- Configure it with
.luacov
file - Clean old reports
rm -f luacov.*.out*
- Run luatest with
--coverage
option - Generate report with
.rocks/bin/luacov .
- Show summary with
grep -A999 '^Summary' luacov.report.out
When running integration tests with coverage collector enabled, luatest automatically starts new tarantool instances with luacov enabled. So coverage is collected from all the instances. However this has some limitations:
- It works only for instances started with
Server
helper. - Process command should be executable lua file or tarantool with script argument.
- Instance must be stopped with
server:stop()
, because this is the point where stats are saved. - Don't save stats concurrently to prevent corruption.
- Check out the repo.
- Prepare makefile with
cmake .
. - Install dependencies with
make bootstrap
. - Run it with
make lint
before committing changes. - Run tests with
bin/luatest
.
Bug reports and pull requests are welcome on at https://github.com/tarantool/luatest.
MIT