def test_result_path_only_state_input(dummy_resource): task_state = TaskState("Task", resource=dummy_resource, result_path=None) state_machine = StateMachine(start_state=task_state) # Check the output from compiling assert state_machine.compile() == { "StartAt": task_state.name, "States": { task_state.name: { "Resource": dummy_resource, "ResultPath": None, "Type": "Task", "End": True, }, }, } # Simulate the state machine state_input = { "comment": "This is a test of the input and output of a Task state.", "details": "Default example", "who": "AWS Step Functions", } def mock_fn(event, context): return "Hello, AWS Step Functions!" state_output = state_machine.simulate( state_input, resource_to_mock_fn={dummy_resource: mock_fn}, ) # Keeps the only the state output assert state_output == state_input
def test_pass_state_result(capture_stdout): result = {"Hello": "world!"} pass_state = PassState("Passing", result=result) state_machine = StateMachine(start_state=pass_state) assert state_machine.compile() == { "StartAt": "Passing", "States": { "Passing": { "Type": "Pass", "End": True, "Result": { "Hello": "world!" } } }, } stdout = capture_stdout(lambda: state_machine.simulate()) assert (stdout == """Starting simulation of state machine Executing PassState('Passing') State input: {} State input after applying input path of $: {} Output from applying result path of $: {'Hello': 'world!'} State output after applying output path of $: {'Hello': 'world!'} State output: {'Hello': 'world!'} Terminating simulation of state machine """)
def test_task_state(dummy_resource, capture_stdout): pass_state = PassState("Pass", comment="The starting state") timeout_seconds = 10 task_state = TaskState( "Task", resource=dummy_resource, timeout_seconds=timeout_seconds ) # Define the state machine pass_state >> task_state state_machine = StateMachine(start_state=pass_state) # Check the output from compiling assert state_machine.compile() == { "StartAt": pass_state.name, "States": { pass_state.name: { "Comment": pass_state.comment, "Type": "Pass", "Next": task_state.name, }, task_state.name: { "Type": "Task", "Resource": dummy_resource, "TimeoutSeconds": timeout_seconds, "End": True, }, }, } # Simulate the state machine def mock_fn(event, context): event["foo"] *= 2 return event stdout = capture_stdout( lambda: state_machine.simulate( {"foo": 5, "bar": 1}, resource_to_mock_fn={dummy_resource: mock_fn}, ) ) assert ( stdout == """Starting simulation of state machine Executing PassState('Pass') State input: {'foo': 5, 'bar': 1} State input after applying input path of $: {'foo': 5, 'bar': 1} Output from applying result path of $: {'foo': 5, 'bar': 1} State output after applying output path of $: {'foo': 5, 'bar': 1} State output: {'foo': 5, 'bar': 1} Executing TaskState('Task') State input: {'foo': 5, 'bar': 1} State input after applying input path of $: {'foo': 5, 'bar': 1} Output from applying result path of $: {'foo': 10, 'bar': 1} State output after applying output path of $: {'foo': 10, 'bar': 1} State output: {'foo': 10, 'bar': 1} Terminating simulation of state machine """ )
def test_fail_state(capture_stdout): fail_state = FailState("Failure", error="IFailed", cause="I failed!") state_machine = StateMachine(start_state=fail_state) state_machine.compile() == { "Type": "Fail", "Error": "IFailed", "Cause": "I failed!", } stdout = capture_stdout(lambda: state_machine.simulate()) assert (stdout == """Starting simulation of state machine Executing FailState('Failure', error='IFailed', cause='I failed!') State input: {} FailStateError encountered in state Checking for catchers State output: {} Terminating simulation of state machine """)
def test_pass_state(capture_stdout): pass_state1 = PassState("Pass 1", comment="The starting state") pass_state2 = PassState("Pass 2") pass_state3 = PassState("Pass 3") pass_state1 >> pass_state2 >> pass_state3 state_machine = StateMachine(start_state=pass_state1) assert [state.name for state in state_machine.start_state] == [ "Pass 1", "Pass 2", "Pass 3", ] assert state_machine.compile() == { "StartAt": "Pass 1", "States": { "Pass 2": { "Type": "Pass", "Next": "Pass 3" }, "Pass 1": { "Type": "Pass", "Comment": "The starting state", "Next": "Pass 2", }, "Pass 3": { "Type": "Pass", "End": True }, }, } stdout = capture_stdout(lambda: state_machine.simulate()) assert (stdout == """Starting simulation of state machine Executing PassState('Pass 1') State input: {} State input after applying input path of $: {} Output from applying result path of $: {} State output after applying output path of $: {} State output: {} Executing PassState('Pass 2') State input: {} State input after applying input path of $: {} Output from applying result path of $: {} State output after applying output path of $: {} State output: {} Executing PassState('Pass 3') State input: {} State input after applying input path of $: {} Output from applying result path of $: {} State output after applying output path of $: {} State output: {} Terminating simulation of state machine """)
def test_result_selector(dummy_resource): result_selector = { "ClusterId.$": "$.output.ClusterId", "ResourceType.$": "$.resourceType", "SomethingElse.$": "$.keyDoesntExist", } task_state = TaskState( "Task", resource=dummy_resource, result_selector=result_selector ) state_machine = StateMachine(start_state=task_state) # Check the output from compiling assert state_machine.compile() == { "StartAt": task_state.name, "States": { task_state.name: { "Resource": dummy_resource, "ResultSelector": result_selector, "Type": "Task", "End": True, }, }, } # Simulate the state machine def mock_fn(event, context): return { "resourceType": "elasticmapreduce", "resource": "createCluster.sync", "output": { "SdkHttpMetadata": { "HttpHeaders": { "Content-Length": "1112", "Content-Type": "application/x-amz-JSON-1.1", "Date": "Mon, 25 Nov 2019 19:41:29 GMT", "x-amzn-RequestId": "1234-5678-9012", }, "HttpStatusCode": 200, }, "SdkResponseMetadata": {"RequestId": "1234-5678-9012"}, "ClusterId": "AKIAIOSFODNN7EXAMPLE", }, } state_output = state_machine.simulate( resource_to_mock_fn={dummy_resource: mock_fn}, ) assert state_output == { "ResourceType": "elasticmapreduce", "ClusterId": "AKIAIOSFODNN7EXAMPLE", }
def test_multiple_catchers(capture_stdout): resource = "123" task_state = TaskState("Task", resource=resource) timeout_state = PassState("Timeout") task_failed_state = PassState("Task Failed") task_state.add_catcher(["States.Timeout"], next_state=timeout_state).add_catcher( ["States.TaskFailed"], next_state=task_failed_state ) state_machine = StateMachine(start_state=task_state) assert state_machine.compile() == { "StartAt": "Task", "States": { "Task Failed": {"Type": "Pass", "End": True}, "Timeout": {"Type": "Pass", "End": True}, "Task": { "Type": "Task", "End": True, "Catch": [ {"ErrorEquals": ["States.Timeout"], "Next": "Timeout"}, {"ErrorEquals": ["States.TaskFailed"], "Next": "Task Failed"}, ], "Resource": "123", }, }, } def failure_mock_fn(event, context): # Will cause a TaskFailedError assert False # noqa: PT015 stdout = capture_stdout( lambda: state_machine.simulate(resource_to_mock_fn={resource: failure_mock_fn}) ) assert ( stdout == """Starting simulation of state machine Executing TaskState('Task') State input: {} State input after applying input path of $: {} TaskFailedError encountered in state Checking for catchers Found catcher, transitioning to PassState('Task Failed') State output: {} Executing PassState('Task Failed') State input: {} State input after applying input path of $: {} Output from applying result path of $: {} State output after applying output path of $: {} State output: {} Terminating simulation of state machine """ )
def test_result_path(): pass_state = PassState( "Passing", result={"Hello": "world!"}, result_path="$.result" ) state_machine = StateMachine(start_state=pass_state) assert state_machine.compile() == { "StartAt": "Passing", "States": { "Passing": { "Type": "Pass", "End": True, "ResultPath": "$.result", "Result": {"Hello": "world!"}, } }, } state_output = state_machine.simulate({"sum": 42}) assert state_output == {"sum": 42, "result": {"Hello": "world!"}}
def test_input_output_paths(capture_stdout): input_path = "$.dataset2" output_path = "$.val1" pass_state = PassState("Pass 1", input_path=input_path, output_path=output_path) state_machine = StateMachine(start_state=pass_state) assert state_machine.compile() == { "StartAt": "Pass 1", "States": { "Pass 1": { "Type": "Pass", "InputPath": "$.dataset2", "OutputPath": "$.val1", "End": True, } }, } stdout = capture_stdout( lambda: state_machine.simulate( { "comment": "Example for InputPath.", "dataset1": {"val1": 1, "val2": 2, "val3": 3}, "dataset2": {"val1": "a", "val2": "b", "val3": "c"}, } ) ) assert ( stdout == """Starting simulation of state machine Executing PassState('Pass 1') State input: {'comment': 'Example for InputPath.', 'dataset1': {'val1': 1, 'val2': 2, 'val3': 3}, 'dataset2': {'val1': 'a', 'val2': 'b', 'val3': 'c'}} State input after applying input path of $.dataset2: {'val1': 'a', 'val2': 'b', 'val3': 'c'} Output from applying result path of $: {'val1': 'a', 'val2': 'b', 'val3': 'c'} State output after applying output path of $.val1: a State output: a Terminating simulation of state machine """ )
def test_map_state_foo(resource, iterator, state_input, capture_stdout, mock_fn): map_state = MapState( "Validate-All", input_path="$.detail", items_path="$.shipped", max_concurrency=0, iterator=iterator, ) state_machine = StateMachine(start_state=map_state) stdout = capture_stdout(lambda: state_machine.simulate( state_input, resource_to_mock_fn={resource: mock_fn}, )) assert (stdout == """Starting simulation of state machine Executing MapState('Validate-All') State input: {'ship-date': '2016-03-14T01:59:00Z', 'detail': {'delivery-partner': 'UQS', 'shipped': [{'prod': 'R31', 'dest-code': 9511, 'quantity': 1344}, {'prod': 'S39', 'dest-code': 9511, 'quantity': 40}]}} State input after applying input path of $.detail: {'delivery-partner': 'UQS', 'shipped': [{'prod': 'R31', 'dest-code': 9511, 'quantity': 1344}, {'prod': 'S39', 'dest-code': 9511, 'quantity': 40}]} Items after applying items_path of $.shipped: [{'prod': 'R31', 'dest-code': 9511, 'quantity': 1344}, {'prod': 'S39', 'dest-code': 9511, 'quantity': 40}] Starting simulation of state machine Executing TaskState('Validate') State input: {'prod': 'R31', 'dest-code': 9511, 'quantity': 1344} State input after applying input path of $: {'prod': 'R31', 'dest-code': 9511, 'quantity': 1344} Output from applying result path of $: {'prod': 'R31', 'dest-code': 9511, 'quantity': 2688} State output after applying output path of $: {'prod': 'R31', 'dest-code': 9511, 'quantity': 2688} State output: {'prod': 'R31', 'dest-code': 9511, 'quantity': 2688} Terminating simulation of state machine Starting simulation of state machine Executing TaskState('Validate') State input: {'prod': 'S39', 'dest-code': 9511, 'quantity': 40} State input after applying input path of $: {'prod': 'S39', 'dest-code': 9511, 'quantity': 40} Output from applying result path of $: {'prod': 'S39', 'dest-code': 9511, 'quantity': 80} State output after applying output path of $: {'prod': 'S39', 'dest-code': 9511, 'quantity': 80} State output: {'prod': 'S39', 'dest-code': 9511, 'quantity': 80} Terminating simulation of state machine Output from applying result path of $: [{'prod': 'R31', 'dest-code': 9511, 'quantity': 2688}, {'prod': 'S39', 'dest-code': 9511, 'quantity': 80}] State output after applying output path of $: [{'prod': 'R31', 'dest-code': 9511, 'quantity': 2688}, {'prod': 'S39', 'dest-code': 9511, 'quantity': 80}] State output: [{'prod': 'R31', 'dest-code': 9511, 'quantity': 2688}, {'prod': 'S39', 'dest-code': 9511, 'quantity': 80}] Terminating simulation of state machine """) assert state_machine.compile() == { "StartAt": "Validate-All", "States": { "Validate-All": { "Type": "Map", "InputPath": "$.detail", "End": True, "ItemsPath": "$.shipped", "MaxConcurrency": 0, "Iterator": { "StartAt": "Validate", "States": { "Validate": { "Type": "Task", "End": True, "Resource": "<arn>" } }, }, } }, }