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--[[
Copyright (C) 2018 "IoT.bzh"
Author Romain Forlot <romain.forlot@iot.bzh>
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
NOTE: strict mode: every global variables should be prefixed by '_'
--]]
local lu = require('luaunit')
lu.LuaUnit:setOutputType('JUNIT')
lu.LuaUnit.fname = "var/jUnitResults.xml"
-- Use our own print function to redirect it to a file the standard output
_standard_print = print
print = function(...)
io.write(... .. '\n')
_standard_print(...)
end
_AFT = {
exit = {0, code},
context = _ctx,
tests_list = {},
event_history = false,
monitored_events = {},
beforeEach = nil,
afterEach = nil,
beforeAll = nil,
afterAll = nil,
}
function _AFT.enableEventHistory()
_AFT.event_history = true
end
function _AFT.setJunitFile(filePath)
lu.LuaUnit.fname = filePath
end
function _AFT.setOutputFile(filePath)
local file = assert(io.open(filePath, "w+"))
io.output(file)
end
function _AFT.exitAtEnd(code)
_AFT.exit = {1, code}
end
--[[
Events listener and assertion functions to test correctness of received
event data.
Check are in 2 times. First you need to register the event that you want to
monitor then you test that it has been correctly received.
Notice that there is a difference between log and event. Logs are daemon
messages normally handled by the host log system (journald, syslog...) and
events are generated by the apis to communicate and send informations to the
subscribed listeners.
]]
function _AFT.addEventToMonitor(eventName, callback)
_AFT.monitored_events[eventName] = { cb = callback, receivedCount = 0 }
end
function _AFT.incrementCount(dict)
if dict.receivedCount then
dict.receivedCount = dict.receivedCount + 1
else
dict.receivedCount = 1
end
end
function _AFT.registerData(dict, eventData)
if dict.data and type(dict.data) == 'table' then
if _AFT.event_history == true then
table.insert(dict.data, eventData, 1)
else
dict.data[1] = eventData
end
else
dict.data = {}
table.insert(dict.data, eventData)
end
end
function _AFT.requestDaemonEventHandler(eventObj)
local eventName = eventObj.data.message
local log = _AFT.monitored_events[eventName]
local api = nil
if eventObj.daemon then
api = eventObj.daemon.api
elseif eventObj.request then
api = eventObj.request.api
end
if log and log.api == api and log.type == eventObj.data.type then
_AFT.incrementCount(_AFT.monitored_events[eventName])
_AFT.registerData(_AFT.monitored_events[eventName], eventObj.data)
end
end
function _AFT.bindingEventHandler(eventObj)
local eventName = eventObj.event.name
local eventListeners = eventObj.data.result
-- Remove from event to hold the bare event data and be able to assert it
eventObj.data.result = nil
if type(_AFT.monitored_events[eventName]) == 'table' then
_AFT.monitored_events[eventName].eventListeners = eventListeners
_AFT.incrementCount(_AFT.monitored_events[eventName])
_AFT.registerData(_AFT.monitored_events[eventName], eventObj.data)
end
end
function _evt_catcher_ (source, action, eventObj)
if eventObj.type == "event" then
_AFT.bindingEventHandler(eventObj)
elseif eventObj.type == "daemon" or eventObj.type == "request" then
_AFT.requestDaemonEventHandler(eventObj)
end
end
--[[
Assert and test functions about the event part.
]]
function _AFT.lockwait(eventName, timeout)
local count = 0
if _AFT.monitored_events[eventName].receivedCount then
if timeout then
count = _AFT.monitored_events[eventName].receivedCount
end
end
while timeout > 0 do
timeout = AFB:lockwait(_AFT.context, timeout)
if _AFT.monitored_events[eventName].receivedCount == count + 1 then
return 1
end
end
return 0
end
function _AFT.assertEvtNotReceived(eventName, timeout)
local count = _AFT.lockwait(eventName, timeout)
_AFT.assertIsTrue(count == 0, "Event '".. eventName .."' received but it shouldn't")
if _AFT.monitored_events[eventName].cb then
local data_n = #_AFT.monitored_events[eventName].data
_AFT.monitored_events[eventName].cb(eventName, _AFT.monitored_events[eventName].data[data_n])
end
end
function _AFT.assertEvtReceived(eventName, timeout)
local count = _AFT.lockwait(eventName, timeout)
_AFT.assertIsTrue(count > 0, "No event '".. eventName .."' received")
if _AFT.monitored_events[eventName].cb then
local data_n = #_AFT.monitored_events[eventName].data
_AFT.monitored_events[eventName].cb(eventName, _AFT.monitored_events[eventName].data[data_n])
end
end
function _AFT.testEvtNotReceived(testName, eventName, timeout, setUp, tearDown)
table.insert(_AFT.tests_list, {testName, function()
if _AFT.beforeEach then _AFT.beforeEach() end
_AFT.assertEvtNotReceived(eventName, timeout)
if _AFT.afterEach then _AFT.afterEach() end
end})
end
function _AFT.testEvtReceived(testName, eventName, timeout, setUp, tearDown)
table.insert(_AFT.tests_list, {testName, function()
if _AFT.beforeEach then _AFT.beforeEach() end
_AFT.assertEvtReceived(eventName, timeout)
if _AFT.afterEach then _AFT.afterEach() end
end})
end
--[[
Assert function meant to tests API Verbs calls
]]
local function assertVerbCallParameters(src, api, verb, args)
_AFT.assertIsUserdata(src, "Source must be an opaque userdata pointer which will be passed to the binder")
_AFT.assertIsString(api, "API and Verb must be string")
_AFT.assertIsString(verb, "API and Verb must be string")
_AFT.assertIsTable(args, "Arguments must use LUA Table (event empty)")
end
function _AFT.assertVerb(api, verb, args, cb)
assertVerbCallParameters(_AFT.context, api, verb, args)
local err,responseJ = AFB:servsync(_AFT.context, api, verb, args)
_AFT.assertIsFalse(err)
_AFT.assertStrContains(responseJ.request.status, "success", nil, nil, "Call for API/Verb failed.")
local tcb = type(cb)
if cb then
if tcb == 'function' then
cb(responseJ)
elseif tcb == 'table' then
_AFT.assertEquals(responseJ.response, cb)
elseif tcb == 'string' or tcb == 'number' then
_AFT.assertEquals(responseJ.response, cb)
else
_AFT.assertIsTrue(false, "Wrong parameter passed to assertion. Last parameter should be function, table representing a JSON object or nil")
end
end
end
function _AFT.assertVerbError(api, verb, args, cb)
assertVerbCallParameters(_AFT.context, api, verb, args)
local err,responseJ = AFB:servsync(_AFT.context, api, verb, args)
_AFT.assertIsTrue(err)
_AFT.assertNotStrContains(responseJ.request.status, "success", nil, nil, "Call for API/Verb succeed but it shouldn't.")
local tcb = type(cb)
if cb then
if tcb == 'function' then
cb(responseJ)
elseif tcb == 'string' then
_AFT.assertNotEquals(responseJ.request.info, cb)
else
_AFT.assertIsFalse(false, "Wrong parameter passed to assertion. Last parameter should be a string representing the failure informations")
end
end
end
function _AFT.testVerb(testName, api, verb, args, cb, setUp, tearDown)
_AFT.describe(testName, function()
_AFT.assertVerb(api, verb, args, cb)
end, setUp, tearDown)
end
function _AFT.testVerbError(testName, api, verb, args, cb, setUp, tearDown)
_AFT.describe(testName, function()
_AFT.assertVerbError(api, verb, args, cb)
end, setUp, tearDown)
end
function _AFT.describe(testName, testFunction, setUp, tearDown)
if _AFT.beforeEach then local b = _AFT.beforeEach() end
if _AFT.afterEach then local a = _AFT.afterEach() end
local aTest = {}
if type(testFunction) == 'function' then
function aTest:testFunction() testFunction() end
else
print('ERROR: #2 argument isn\'t of type function. Aborting...')
os.exit(1)
end
function aTest:setUp()
if type(setUp) == 'function' then setUp() end
if b then b() end
end
function aTest:tearDown()
if a then a() end
if type(tearDown) == 'function' then tearDown() end
end
table.insert(_AFT.tests_list, {testName, aTest})
end
function _AFT.setBefore(testName, beforeTestFunction)
if type(beforeTestFunction) == "function" then
for _,item in pairs(_AFT.test_list) do
if item[0] == testName then
item[1].setUp = function()
beforeTestFunction()
item[1].setUp()
end
end
end
else
print("Wrong 'before' function defined. It isn't detected as a function type")
end
end
function _AFT.setAfter(testName, afterTestFunction)
if type(afterTestFunction) == "function" then
for _,item in pairs(_AFT.test_list) do
if item[0] == testName then
item[1].setUp = function()
item[1].tearDown()
afterTestFunction()
end
end
end
else
print("Wrong 'after' function defined. It isn't detected as a function type")
end
end
function _AFT.setBeforeEach(beforeEachTestFunction)
if type(beforeEachTestFunction) == "function" then
_AFT.beforeEach = beforeEachTestFunction
else
print("Wrong beforeEach function defined. It isn't detected as a function type")
end
end
function _AFT.setAfterEach(afterEachTestFunction)
if type(afterEachTestFunction) == "function" then
_AFT.afterEach = afterEachTestFunction
else
print("Wrong afterEach function defined. It isn't detected as a function type")
end
end
function _AFT.setBeforeAll(beforeAllTestsFunctions)
if type(beforeAllTestsFunctions) == "function" then
_AFT.beforeAll = beforeAllTestsFunctions
else
print("Wrong beforeAll function defined. It isn't detected as a function type")
end
end
function _AFT.setAfterAll(afterAllTestsFunctions)
if type(afterAllTestsFunctions) == "function" then
_AFT.afterAll = afterAllTestsFunctions
else
print("Wrong afterAll function defined. It isn't detected as a function type")
end
end
--[[
Make all assertions accessible using _AFT and declare some convenients
aliases.
]]
local luaunit_list_of_assert = {
-- official function name from luaunit test framework
-- general assertions
'assertEquals',
'assertItemsEquals',
'assertNotEquals',
'assertAlmostEquals',
'assertNotAlmostEquals',
'assertEvalToTrue',
'assertEvalToFalse',
'assertStrContains',
'assertStrIContains',
'assertNotStrContains',
'assertNotStrIContains',
'assertStrMatches',
'assertError',
'assertErrorMsgEquals',
'assertErrorMsgContains',
'assertErrorMsgMatches',
'assertIs',
'assertNotIs',
-- type assertions: assertIsXXX -> assert_is_xxx
'assertIsNumber',
'assertIsString',
'assertIsTable',
'assertIsBoolean',
'assertIsNil',
'assertIsTrue',
'assertIsFalse',
'assertIsNaN',
'assertIsInf',
'assertIsPlusInf',
'assertIsMinusInf',
'assertIsPlusZero',
'assertIsMinusZero',
'assertIsFunction',
'assertIsThread',
'assertIsUserdata',
-- type assertions: assertNotIsXXX -> assert_not_is_xxx
'assertNotIsNumber',
'assertNotIsString',
'assertNotIsTable',
'assertNotIsBoolean',
'assertNotIsNil',
'assertNotIsTrue',
'assertNotIsFalse',
'assertNotIsNaN',
'assertNotIsInf',
'assertNotIsPlusInf',
'assertNotIsMinusInf',
'assertNotIsPlusZero',
'assertNotIsMinusZero',
'assertNotIsFunction',
'assertNotIsThread',
'assertNotIsUserdata',
}
local luaunit_list_of_functions = {
"setOutputType",
}
local _AFT_list_of_funcs = {
-- AF Binder generic assertions
{ 'addEventToMonitor', 'resetEventReceivedCount' },
{ 'assertVerb', 'assertVerbStatusSuccess' },
{ 'assertVerb', 'assertVerbResponseEquals' },
{ 'assertVerb', 'assertVerbCb' },
{ 'assertVerbError', 'assertVerbStatusError' },
{ 'assertVerbError', 'assertVerbResponseEqualsError' },
{ 'assertVerbError', 'assertVerbCbError' },
{ 'testVerb', 'testVerbStatusSuccess' },
{ 'testVerb', 'testVerbResponseEquals' },
{ 'testVerb', 'testVerbCb' },
{ 'testVerbError', 'testVerbStatusError' },
{ 'testVerbError', 'testVerbResponseEqualsError' },
{ 'testVerbError', 'testVerbCbError' },
}
-- Import all luaunit assertion function to _AFT object
for _, v in pairs( luaunit_list_of_assert ) do
local funcname = v
_AFT[funcname] = lu[funcname]
end
-- Import specific luaunit configuration functions to _AFT object
for _, v in pairs( luaunit_list_of_functions ) do
local funcname = v
_AFT[funcname] = lu.LuaUnit[funcname]
end
-- Create all aliases in _AFT
for _, v in pairs( _AFT_list_of_funcs ) do
local funcname, alias = v[1], v[2]
_AFT[alias] = _AFT[funcname]
end
local function call_tests()
AFB:success(_AFT.context, { info = "Launching tests"})
lu.LuaUnit:runSuiteByInstances(_AFT.tests_list)
local success ="Success : "..tostring(lu.LuaUnit.result.passedCount)
local failures="Failures : "..tostring(lu.LuaUnit.result.testCount-lu.LuaUnit.result.passedCount)
local evtHandle = AFB:evtmake(_AFT.context, 'results')
AFB:subscribe(_AFT.context,evtHandle)
AFB:evtpush(_AFT.context,evtHandle,{info = success.." "..failures})
end
function _launch_test(context, args)
_AFT.context = context
-- Prepare the tests execution configuring the monitoring and loading
-- lua test files to execute in the Framework.
_AFT.setOutputFile("var/test_results.log")
AFB:servsync(_AFT.context, "monitor", "set", { verbosity = "debug" })
AFB:servsync(_AFT.context, "monitor", "trace", { add = { api = args.trace, request = "vverbose", event = "push_after" }})
if args.files and type(args.files) == 'table' then
for _,f in pairs(args.files) do
dofile('var/'..f)
end
elseif type(args.files) == 'string' then
dofile('var/'..args.files)
end
-- Execute the test within a context if given. We assume that the before
-- function success returning '0' else we abort the whole test procedure
if _AFT.beforeAll then
if _AFT.beforeAll() == 0 then
call_tests()
else
AFB:fail(_AFT.context, { info = "Can't set the context to execute the tests correctly. Look at the log and retry."})
end
else
call_tests()
end
-- Keep the context unset function to be executed after all no matter if
-- tests have been executed or not.
if _AFT.afterAll then
if _AFT.afterAll() ~= 0 then
print('Unsetting the tests context failed.')
end
end
if _AFT.exit[1] == 1 then os.exit(_AFT.exit[2]) end
end
|