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--[[
Copyright (C) 2019 "IoT.bzh"
Author Frédéric Marec <frederic.marec@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 testPrefix ="persistence_APITest_"
local key_values0 = {"TESTinsert", "insert", "wrong_value", 3.1415926546, nil}
local key_values1 = key_values0
local key_values2 = key_values0
local function formatize (arg)
return tostring(arg):gsub("[^a-zA-Z0-9_]", "_")
end
for _, key_value0 in pairs(key_values0) do
for _, key_value1 in pairs(key_values1) do
local arg1 = "key_"..formatize(key_value0).."_"
local arg2 = "value_"..formatize(key_value1)
-- This tests the 'insert' verb of the persistence API
local test_name_insert = testPrefix.."insert_with_verification_"..arg1..arg2
_AFT.describe(test_name_insert,function()
_AFT.assertVerbStatusSuccess("persistence", "insert", {key= key_value0, value= key_value1})
_AFT.assertVerbResponseEquals("persistence","read", {key= key_value0},{key= key_value0, value= key_value1})
_AFT.assertVerbStatusSuccess("persistence", "delete", {key= key_value0})
end)
-- This tests the 'delete' verb of the persistence API
local test_name_deldete = testPrefix.."delete_with_verification_"..arg1..arg2
_AFT.describe(test_name_deldete,function()
_AFT.assertVerbStatusSuccess("persistence", "insert", {key= key_value0, value= key_value1})
_AFT.assertVerbResponseEquals("persistence","read", {key= key_value0},{key= key_value0, value= key_value1})
_AFT.assertVerbStatusSuccess("persistence", "delete", {key= key_value0})
end)
for _, key_value2 in pairs(key_values2) do
local arg3 = "_updated_value_"..formatize(key_value2)
-- This tests the 'update' verb of the persistence API
local test_name_update = testPrefix.."update_with_verification_"..arg1..arg2..arg3
_AFT.describe(test_name_update,function()
_AFT.assertVerbStatusSuccess("persistence", "insert", {key= key_value0, value= key_value1})
_AFT.assertVerbResponseEquals("persistence","read", {key= key_value0},{key= key_value0, value= key_value1})
_AFT.assertVerbStatusSuccess("persistence", "update", {key= key_value0, value= key_value2})
_AFT.assertVerbResponseEquals("persistence","read", {key= key_value0},{key= key_value0, value= key_value2})
_AFT.assertVerbStatusSuccess("persistence", "delete", {key= key_value0})
_AFT.assertVerbResponseEqualsError("persistence","read", {key= key_value0},{key= key_value0, value= key_value2})
_AFT.assertVerbResponseEqualsError("persistence","read", {key= key_value0},{key= key_value0, value= key_value1})
end)
-- This tests 'multiple insert' of the persistence API
local test_name_multiple_insert = testPrefix.."multiple_insert_with_verification_"..arg1..arg2..arg3
_AFT.describe(test_name_multiple_insert,function()
if ((key_value0 == key_value2) or (key_value1 == key_value2) or (key_value0 == key_value1)
or ((key_value0 == key_value2) and (key_value1 == key_value2) and (key_value0 == key_value1)))
then
_AFT.assertVerbStatusSuccess("persistence", "update", {key= key_value2, value= key_value2})
if (key_value0 == key_value2)
then
_AFT.assertVerbStatusError("persistence", "insert", {key= key_value0, value= key_value0})
else
_AFT.assertVerbStatusSuccess("persistence", "insert", {key= key_value0, value= key_value0})
end
if (key_value1 == key_value2) or (key_value0 == key_value1)
then
_AFT.assertVerbStatusError("persistence", "insert", {key= key_value1, value= key_value1})
else
_AFT.assertVerbStatusSuccess("persistence", "insert", {key= key_value1, value= key_value1})
end
_AFT.assertVerbStatusError("persistence", "insert", {key= key_value1, value= key_value2})
_AFT.assertVerbStatusError("persistence", "insert", {key= key_value2, value= key_value0})
_AFT.assertVerbResponseEquals("persistence","read", {key= key_value0},{key= key_value0, value= key_value0})
_AFT.assertVerbResponseEquals("persistence","read", {key= key_value1},{key= key_value1, value= key_value1})
_AFT.assertVerbResponseEquals("persistence","read", {key= key_value2},{key= key_value2, value= key_value2})
if (key_value0 == key_value2)
then
_AFT.assertVerbStatusSuccess("persistence", "delete", {key= key_value0})
_AFT.assertVerbStatusError("persistence", "delete", {key= key_value2})
else
_AFT.assertVerbStatusSuccess("persistence", "delete", {key= key_value0})
_AFT.assertVerbStatusSuccess("persistence", "delete", {key= key_value2})
end
if (key_value1 == key_value2) or (key_value0 == key_value1)
then
_AFT.assertVerbStatusError("persistence", "delete", {key= key_value1})
else
_AFT.assertVerbStatusSuccess("persistence", "delete", {key= key_value1})
end
else -- key_values0, key_value1 & key_value2 not equal
_AFT.assertVerbStatusSuccess("persistence", "update", {key= key_value2, value= key_value2})
_AFT.assertVerbStatusSuccess("persistence", "insert", {key= key_value0, value= key_value0})
_AFT.assertVerbStatusSuccess("persistence", "insert", {key= key_value1, value= key_value1})
_AFT.assertVerbStatusError("persistence", "insert", {key= key_value1, value= key_value2})
_AFT.assertVerbStatusError("persistence", "insert", {key= key_value2, value= key_value0})
_AFT.assertVerbResponseEquals("persistence","read", {key= key_value0},{key= key_value0, value= key_value0})
_AFT.assertVerbResponseEquals("persistence","read", {key= key_value1},{key= key_value1, value= key_value1})
_AFT.assertVerbResponseEquals("persistence","read", {key= key_value2},{key= key_value2, value= key_value2})
_AFT.assertVerbStatusSuccess("persistence", "delete", {key= key_value0})
_AFT.assertVerbStatusSuccess("persistence", "delete", {key= key_value1})
_AFT.assertVerbStatusSuccess("persistence", "delete", {key= key_value2})
end
end)
end
end
end
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