# Copyright 2016-2018, Pulumi Corporation. # # 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. import asyncio import unittest from enum import Enum from typing import Any, Dict, List, Mapping, Optional, Sequence, cast from google.protobuf import struct_pb2 from pulumi.resource import ComponentResource, CustomResource, ResourceOptions from pulumi.runtime import Mocks, MockCallArgs, MockResourceArgs, ResourceModule, rpc, rpc_manager, known_types, set_mocks, settings from pulumi import Input, Output, UNKNOWN, input_type from pulumi.asset import ( FileAsset, RemoteAsset, StringAsset, AssetArchive, FileArchive, RemoteArchive ) import pulumi class FakeCustomResource(CustomResource): def __init__(self, urn): self.__dict__["urn"] = Output.from_input(urn) self.__dict__["id"] = Output.from_input("id") class FakeComponentResource(ComponentResource): def __init__(self, urn): self.__dict__["urn"] = Output.from_input(urn) class MyCustomResource(CustomResource): def __init__(self, name: str, typ: Optional[str] = None, opts: Optional[ResourceOptions] = None): super(MyCustomResource, self).__init__(typ if typ is not None else "test:index:resource", name, None, opts) class MyComponentResource(ComponentResource): def __init__(self, name: str, typ: Optional[str] = None, opts: Optional[ResourceOptions] = None): super(MyComponentResource, self).__init__(typ if typ is not None else "test:index:component", name, None, opts) class MyResourceModule(ResourceModule): def version(self): return None def construct(self, name: str, typ: str, urn: str): if typ == "test:index:resource": return MyCustomResource(name, typ, ResourceOptions(urn=urn)) elif typ == "test:index:component": return MyComponentResource(name, typ, ResourceOptions(urn=urn)) else: raise Exception(f"unknown resource type {typ}") class MyMocks(Mocks): def call(self, args: MockCallArgs): raise Exception(f"unknown function {args.token}") def new_resource(self, args: MockResourceArgs): if args.typ == "test:index:resource": return [None if settings.is_dry_run() else "id", {}] elif args.typ == "test:index:component": return [None, {}] else: raise Exception(f"unknown resource type {args.typ}") @pulumi.output_type class MyOutputTypeDict(dict): def __init__(self, values: list, items: list, keys: list): pulumi.set(self, "values", values) pulumi.set(self, "items", items) pulumi.set(self, "keys", keys) # Property with empty body. @property @pulumi.getter def values(self) -> str: """Values docstring.""" ... # Property with empty body. @property @pulumi.getter def items(self) -> str: """Items docstring.""" ... # Property with empty body. @property @pulumi.getter def keys(self) -> str: """Keys docstring.""" ... def pulumi_test(coro): wrapped = pulumi.runtime.test(coro) def wrapper(*args, **kwargs): settings.configure(settings.Settings()) rpc._RESOURCE_PACKAGES.clear() rpc._RESOURCE_MODULES.clear() rpc_manager.RPC_MANAGER = rpc_manager.RPCManager() wrapped(*args, **kwargs) return wrapper class NextSerializationTests(unittest.TestCase): @pulumi_test async def test_list(self): test_list = [1, 2, 3] props = await rpc.serialize_property(test_list, []) self.assertEqual(test_list, props) @pulumi_test async def test_future(self): fut = asyncio.Future() fut.set_result(42) prop = await rpc.serialize_property(fut, []) self.assertEqual(42, prop) @pulumi_test async def test_coro(self): async def fun(): await asyncio.sleep(0.1) return 42 prop = await rpc.serialize_property(fun(), []) self.assertEqual(42, prop) @pulumi_test async def test_dict(self): fut = asyncio.Future() fut.set_result(99) test_dict = {"a": 42, "b": fut} prop = await rpc.serialize_property(test_dict, []) self.assertDictEqual({"a": 42, "b": 99}, prop) @pulumi_test async def test_custom_resource_preview(self): settings.SETTINGS.dry_run = True rpc.register_resource_module("test", "index", MyResourceModule()) set_mocks(MyMocks()) res = MyCustomResource("test") urn = await res.urn.future() id = await res.id.future() settings.SETTINGS.feature_support["resourceReferences"] = False deps = [] prop = await rpc.serialize_property(res, deps) self.assertListEqual([res], deps) self.assertEqual(id, prop) settings.SETTINGS.feature_support["resourceReferences"] = True deps = [] prop = await rpc.serialize_property(res, deps) self.assertListEqual([res, res], deps) self.assertEqual(rpc._special_resource_sig, prop[rpc._special_sig_key]) self.assertEqual(urn, prop["urn"]) self.assertEqual(id, prop["id"]) res = rpc.deserialize_properties(prop) self.assertTrue(isinstance(res, MyCustomResource)) rpc._RESOURCE_MODULES.clear() res = rpc.deserialize_properties(prop) self.assertEqual(id, res) @pulumi_test async def test_custom_resource(self): rpc.register_resource_module("test", "index", MyResourceModule()) set_mocks(MyMocks()) res = MyCustomResource("test") urn = await res.urn.future() id = await res.id.future() settings.SETTINGS.feature_support["resourceReferences"] = False deps = [] prop = await rpc.serialize_property(res, deps) self.assertListEqual([res], deps) self.assertEqual(id, prop) settings.SETTINGS.feature_support["resourceReferences"] = True deps = [] prop = await rpc.serialize_property(res, deps) self.assertListEqual([res, res], deps) self.assertEqual(rpc._special_resource_sig, prop[rpc._special_sig_key]) self.assertEqual(urn, prop["urn"]) self.assertEqual(id, prop["id"]) res = rpc.deserialize_properties(prop) self.assertTrue(isinstance(res, MyCustomResource)) rpc._RESOURCE_MODULES.clear() res = rpc.deserialize_properties(prop) self.assertEqual(id, res) @pulumi_test async def test_component_resource(self): rpc.register_resource_module("test", "index", MyResourceModule()) set_mocks(MyMocks()) res = MyComponentResource("test") urn = await res.urn.future() settings.SETTINGS.feature_support["resourceReferences"] = False deps = [] prop = await rpc.serialize_property(res, deps) self.assertListEqual([res], deps) self.assertEqual(urn, prop) settings.SETTINGS.feature_support["resourceReferences"] = True deps = [] prop = await rpc.serialize_property(res, deps) self.assertListEqual([res], deps) self.assertEqual(rpc._special_resource_sig, prop[rpc._special_sig_key]) self.assertEqual(urn, prop["urn"]) res = rpc.deserialize_properties(prop) self.assertTrue(isinstance(res, MyComponentResource)) rpc._RESOURCE_MODULES.clear() res = rpc.deserialize_properties(prop) self.assertEqual(urn, res) @pulumi_test async def test_string_asset(self): asset = StringAsset("Python 3 is cool") prop = await rpc.serialize_property(asset, []) self.assertEqual(rpc._special_asset_sig, prop[rpc._special_sig_key]) self.assertEqual("Python 3 is cool", prop["text"]) @pulumi_test async def test_file_asset(self): asset = FileAsset("hello.txt") prop = await rpc.serialize_property(asset, []) self.assertEqual(rpc._special_asset_sig, prop[rpc._special_sig_key]) self.assertEqual("hello.txt", prop["path"]) @pulumi_test async def test_remote_asset(self): asset = RemoteAsset("https://pulumi.com") prop = await rpc.serialize_property(asset, []) self.assertEqual(rpc._special_asset_sig, prop[rpc._special_sig_key]) self.assertEqual("https://pulumi.com", prop["uri"]) @pulumi_test async def test_output(self): existing = FakeCustomResource("existing-dependency") res = FakeCustomResource("some-dependency") fut = asyncio.Future() fut.set_result(42) known_fut = asyncio.Future() known_fut.set_result(True) out = Output({res}, fut, known_fut) deps = [existing] prop = await rpc.serialize_property(out, deps) self.assertListEqual(deps, [existing, res]) self.assertEqual(42, prop) known_fut = asyncio.Future() known_fut.set_result(False) out = Output(set(), fut, known_fut) # For compatibility, future() should still return 42 even if the value is unknown. prop = await out.future() self.assertEqual(42, prop) fut = asyncio.Future() fut.set_result(UNKNOWN) known_fut = asyncio.Future() known_fut.set_result(True) out = Output(set(), fut, known_fut) # For compatibility, is_known() should return False and future() should return None when the value contains # first-class unknowns. self.assertEqual(False, await out.is_known()) self.assertEqual(None, await out.future()) # If the caller of future() explicitly accepts first-class unknowns, they should be present in the result. self.assertEqual(UNKNOWN, await out.future(with_unknowns=True)) @pulumi_test async def test_output_all(self): res = FakeCustomResource("some-resource") fut = asyncio.Future() fut.set_result(42) known_fut = asyncio.Future() known_fut.set_result(True) out = Output({res}, fut, known_fut) other = Output.from_input(99) combined = Output.all(out, other) combined_dict = Output.all(out=out, other=other) deps = [] prop = await rpc.serialize_property(combined, deps) prop_dict = await rpc.serialize_property(combined_dict, deps) self.assertSetEqual(set(deps), {res}) self.assertEqual([42, 99], prop) self.assertEqual({"out": 42, "other": 99}, prop_dict) @pulumi_test async def test_output_all_no_inputs(self): empty_all = Output.all() deps = [] prop = await rpc.serialize_property(empty_all, deps) self.assertEqual([], prop) @pulumi_test async def test_output_all_failure_mixed_inputs(self): res = FakeCustomResource("some-resource") fut = asyncio.Future() fut.set_result(42) known_fut = asyncio.Future() known_fut.set_result(True) out = Output({res}, fut, known_fut) other = Output.from_input(99) self.assertRaises(ValueError, Output.all, out, other=other) self.assertRaisesRegex(ValueError, "Output.all() was supplied a mix of named and unnamed inputs") @pulumi_test async def test_output_all_composes_dependencies(self): res = FakeCustomResource("some-resource") fut = asyncio.Future() fut.set_result(42) known_fut = asyncio.Future() known_fut.set_result(True) out = Output({res}, fut, known_fut) other = FakeCustomResource("some-other-resource") other_fut = asyncio.Future() other_fut.set_result(99) other_known_fut = asyncio.Future() other_known_fut.set_result(True) other_out = Output({other}, other_fut, other_known_fut) combined = Output.all(out, other_out) combined_dict = Output.all(out=out, other_out=other_out) deps = [] prop = await rpc.serialize_property(combined, deps) prop_dict = await rpc.serialize_property(combined_dict, deps) self.assertSetEqual(set(deps), {res, other}) self.assertEqual([42, 99], prop) self.assertEqual({"out": 42, "other_out": 99}, prop_dict) @pulumi_test async def test_output_all_known_if_all_are_known(self): res = FakeCustomResource("some-resource") fut = asyncio.Future() fut.set_result(42) known_fut = asyncio.Future() known_fut.set_result(True) out = Output({res}, fut, known_fut) other = FakeCustomResource("some-other-resource") other_fut = asyncio.Future() other_fut.set_result(UNKNOWN) # <- not known other_known_fut = asyncio.Future() other_known_fut.set_result(False) other_out = Output({other}, other_fut, other_known_fut) combined = Output.all(out, other_out) combined_dict = Output.all(out=out, other_out=other_out) deps = [] prop = await rpc.serialize_property(combined, deps) prop_dict = await rpc.serialize_property(combined_dict, deps) self.assertSetEqual(set(deps), {res, other}) # The contents of the list are unknown if any of the Outputs used to # create it were unknown. self.assertEqual(rpc.UNKNOWN, prop) self.assertEqual(rpc.UNKNOWN, prop_dict) @pulumi_test async def test_unknown_output(self): res = FakeCustomResource("some-dependency") fut = asyncio.Future() fut.set_result(None) known_fut = asyncio.Future() known_fut.set_result(False) out = Output({res}, fut, known_fut) deps = [] prop = await rpc.serialize_property(out, deps) self.assertListEqual(deps, [res]) self.assertEqual(rpc.UNKNOWN, prop) @pulumi_test async def test_asset_archive(self): archive = AssetArchive({ "foo": StringAsset("bar") }) deps = [] prop = await rpc.serialize_property(archive, deps) self.assertDictEqual({ rpc._special_sig_key: rpc._special_archive_sig, "assets": { "foo": { rpc._special_sig_key: rpc._special_asset_sig, "text": "bar" } } }, prop) @pulumi_test async def test_remote_archive(self): asset = RemoteArchive("https://pulumi.com") prop = await rpc.serialize_property(asset, []) self.assertEqual(rpc._special_archive_sig, prop[rpc._special_sig_key]) self.assertEqual("https://pulumi.com", prop["uri"]) @pulumi_test async def test_file_archive(self): asset = FileArchive("foo.tar.gz") prop = await rpc.serialize_property(asset, []) self.assertEqual(rpc._special_archive_sig, prop[rpc._special_sig_key]) self.assertEqual("foo.tar.gz", prop["path"]) @pulumi_test async def test_bad_inputs(self): class MyClass: def __init__(self): self.prop = "oh no!" error = None try: prop = await rpc.serialize_property(MyClass(), []) except ValueError as err: error = err self.assertIsNotNone(error) self.assertEqual("unexpected input of type MyClass", str(error)) @pulumi_test async def test_string(self): # Ensure strings are serialized as strings (and not sequences). prop = await rpc.serialize_property("hello world", []) self.assertEqual("hello world", prop) @pulumi_test async def test_unsupported_sequences(self): cases = [ ("hi", 42), range(10), memoryview(bytes(10)), bytes(10), bytearray(10), ] for case in cases: with self.assertRaises(ValueError): await rpc.serialize_property(case, []) @pulumi_test async def test_distinguished_unknown_output(self): fut = asyncio.Future() fut.set_result(UNKNOWN) known_fut = asyncio.Future() known_fut.set_result(True) out = Output(set(), fut, known_fut) self.assertFalse(await out.is_known()) fut = asyncio.Future() fut.set_result(["foo", UNKNOWN]) out = Output(set(), fut, known_fut) self.assertFalse(await out.is_known()) fut = asyncio.Future() fut.set_result({"foo": "foo", "bar": UNKNOWN}) out = Output(set(), fut, known_fut) self.assertFalse(await out.is_known()) def create_output(self, val: Any, is_known: bool, is_secret: Optional[bool] = None): fut = asyncio.Future() fut.set_result(val) known_fut = asyncio.Future() known_fut.set_result(is_known) if is_secret is not None: is_secret_fut = asyncio.Future() is_secret_fut.set_result(True) return Output(set(), fut, known_fut, is_secret_fut) return Output(set(), fut, known_fut) @pulumi_test async def test_apply_can_run_on_known_value_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=True) r = out.apply(lambda v: v + 1) self.assertTrue(await r.is_known()) self.assertEqual(await r.future(), 1) @pulumi_test async def test_apply_can_run_on_known_awaitable_value_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=True) def apply(v): fut = asyncio.Future() fut.set_result("inner") return fut r = out.apply(apply) self.assertTrue(await r.is_known()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_can_run_on_known_known_output_value_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=True) r = out.apply(lambda v: self.create_output("inner", is_known=True)) self.assertTrue(await r.is_known()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_can_run_on_known_unknown_output_value_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=True) r = out.apply(lambda v: self.create_output("inner", is_known=False)) self.assertFalse(await r.is_known()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_produces_unknown_default_on_unknown_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=False) r = out.apply(lambda v: v + 1) self.assertFalse(await r.is_known()) self.assertEqual(await r.future(), None) @pulumi_test async def test_apply_produces_unknown_default_on_unknown_awaitable_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=False) def apply(v): fut = asyncio.Future() fut.set_result("inner") return fut r = out.apply(apply) self.assertFalse(await r.is_known()) self.assertEqual(await r.future(), None) @pulumi_test async def test_apply_produces_unknown_default_on_unknown_known_output_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=False) r = out.apply(lambda v: self.create_output("inner", is_known=True)) self.assertFalse(await r.is_known()) self.assertEqual(await r.future(), None) @pulumi_test async def test_apply_produces_unknown_default_on_unknown_unknown_output_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=False) r = out.apply(lambda v: self.create_output("inner", is_known=False)) self.assertFalse(await r.is_known()) self.assertEqual(await r.future(), None) @pulumi_test async def test_apply_preserves_secret_on_known_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=True, is_secret=True) r = out.apply(lambda v: v + 1) self.assertTrue(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), 1) @pulumi_test async def test_apply_preserves_secret_on_known_awaitable_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=True, is_secret=True) def apply(v): fut = asyncio.Future() fut.set_result("inner") return fut r = out.apply(apply) self.assertTrue(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_preserves_secret_on_known_known_output_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=True, is_secret=True) r = out.apply(lambda v: self.create_output("inner", is_known=True)) self.assertTrue(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_preserves_secret_on_known_unknown_output_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=True, is_secret=True) r = out.apply(lambda v: self.create_output("inner", is_known=False)) self.assertFalse(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_preserves_secret_on_unknown_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=False, is_secret=True) r = out.apply(lambda v: v + 1) self.assertFalse(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), None) @pulumi_test async def test_apply_preserves_secret_on_unknown_awaitable_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=False, is_secret=True) def apply(v): fut = asyncio.Future() fut.set_result("inner") return fut r = out.apply(apply) self.assertFalse(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), None) @pulumi_test async def test_apply_preserves_secret_on_unknown_known_output_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=False, is_secret=True) r = out.apply(lambda v: self.create_output("inner", is_known=True)) self.assertFalse(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), None) @pulumi_test async def test_apply_preserves_secret_on_unknown_unknown_output_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=False, is_secret=True) r = out.apply(lambda v: self.create_output("inner", is_known=False)) self.assertFalse(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), None) @pulumi_test async def test_apply_propagates_secret_on_known_known_output_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=True) r = out.apply(lambda v: self.create_output("inner", is_known=True, is_secret=True)) self.assertTrue(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_propagates_secret_on_known_unknown_output_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=True) r = out.apply(lambda v: self.create_output("inner", is_known=False, is_secret=True)) self.assertFalse(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_does_not_propagate_secret_on_unknown_known_output_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=False) r = out.apply(lambda v: self.create_output("inner", is_known=True, is_secret=True)) self.assertFalse(await r.is_known()) self.assertFalse(await r.is_secret()) self.assertEqual(await r.future(), None) @pulumi_test async def test_apply_does_not_propagate_secret_on_unknown_unknown_output_during_preview(self): settings.SETTINGS.dry_run = True out = self.create_output(0, is_known=False) r = out.apply(lambda v: self.create_output("inner", is_known=False, is_secret=True)) self.assertFalse(await r.is_known()) self.assertFalse(await r.is_secret()) self.assertEqual(await r.future(), None) @pulumi_test async def test_apply_can_run_on_known_value(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=True) r = out.apply(lambda v: v + 1) self.assertTrue(await r.is_known()) self.assertEqual(await r.future(), 1) @pulumi_test async def test_apply_can_run_on_known_awaitable_value(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=True) def apply(v): fut = asyncio.Future() fut.set_result("inner") return fut r = out.apply(apply) self.assertTrue(await r.is_known()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_can_run_on_known_known_output_value(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=True) r = out.apply(lambda v: self.create_output("inner", is_known=True)) self.assertTrue(await r.is_known()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_can_run_on_known_unknown_output_value(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=True) r = out.apply(lambda v: self.create_output("inner", is_known=False)) self.assertFalse(await r.is_known()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_produces_known_on_unknown(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=False) r = out.apply(lambda v: v + 1) self.assertTrue(await r.is_known()) self.assertEqual(await r.future(), 1) @pulumi_test async def test_apply_produces_known_on_unknown_awaitable(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=False) def apply(v): fut = asyncio.Future() fut.set_result("inner") return fut r = out.apply(apply) self.assertTrue(await r.is_known()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_produces_known_on_unknown_known_output(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=False) r = out.apply(lambda v: self.create_output("inner", is_known=True)) self.assertTrue(await r.is_known()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_produces_unknown_on_unknown_unknown_output(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=False) r = out.apply(lambda v: self.create_output("inner", is_known=False)) self.assertFalse(await r.is_known()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_preserves_secret_on_known(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=True, is_secret=True) r = out.apply(lambda v: v + 1) self.assertTrue(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), 1) @pulumi_test async def test_apply_preserves_secret_on_known_awaitable(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=True, is_secret=True) def apply(v): fut = asyncio.Future() fut.set_result("inner") return fut r = out.apply(apply) self.assertTrue(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_preserves_secret_on_known_known_output(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=True, is_secret=True) r = out.apply(lambda v: self.create_output("inner", is_known=True)) self.assertTrue(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_preserves_secret_on_known_unknown_output(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=True, is_secret=True) r = out.apply(lambda v: self.create_output("inner", is_known=False)) self.assertFalse(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_preserves_secret_on_unknown(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=False, is_secret=True) r = out.apply(lambda v: v + 1) self.assertTrue(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), 1) @pulumi_test async def test_apply_preserves_secret_on_unknown_awaitable(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=False, is_secret=True) def apply(v): fut = asyncio.Future() fut.set_result("inner") return fut r = out.apply(apply) self.assertTrue(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_preserves_secret_on_unknown_known_output(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=False, is_secret=True) r = out.apply(lambda v: self.create_output("inner", is_known=True)) self.assertTrue(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_preserves_secret_on_unknown_unknown_output(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=False, is_secret=True) r = out.apply(lambda v: self.create_output("inner", is_known=False)) self.assertFalse(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_propagates_secret_on_known_known_output(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=True) r = out.apply(lambda v: self.create_output("inner", is_known=True, is_secret=True)) self.assertTrue(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_propagates_secret_on_known_unknown_output(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=True) r = out.apply(lambda v: self.create_output("inner", is_known=False, is_secret=True)) self.assertFalse(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_propagates_secret_on_unknown_known_output(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=False) r = out.apply(lambda v: self.create_output("inner", is_known=True, is_secret=True)) self.assertTrue(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_apply_propagates_secret_on_unknown_unknown_output(self): settings.SETTINGS.dry_run = False out = self.create_output(0, is_known=False) r = out.apply(lambda v: self.create_output("inner", is_known=False, is_secret=True)) self.assertFalse(await r.is_known()) self.assertTrue(await r.is_secret()) self.assertEqual(await r.future(), "inner") @pulumi_test async def test_dangerous_prop_output(self): out = self.create_output(MyOutputTypeDict(values=["foo", "bar"], items=["yellow", "purple"], keys=["yes", "no"]), is_known=True) prop = await rpc.serialize_property(out, []) self.assertTrue(await out.is_known()) self.assertEqual(prop["values"], ["foo", "bar"]) self.assertEqual(prop["items"], ["yellow", "purple"]) self.assertEqual(prop["keys"], ["yes", "no"]) @pulumi_test async def test_apply_unknown_output(self): out = self.create_output("foo", is_known=True) r1 = out.apply(lambda v: UNKNOWN) r2 = out.apply(lambda v: [v, UNKNOWN]) r3 = out.apply(lambda v: {"v": v, "unknown": UNKNOWN}) r4 = out.apply(lambda v: UNKNOWN).apply(lambda v: v, True) r5 = out.apply(lambda v: [v, UNKNOWN]).apply(lambda v: v, True) r6 = out.apply(lambda v: {"v": v, "unknown": UNKNOWN}).apply(lambda v: v, True) self.assertFalse(await r1.is_known()) self.assertFalse(await r2.is_known()) self.assertFalse(await r3.is_known()) self.assertFalse(await r4.is_known()) self.assertFalse(await r5.is_known()) self.assertFalse(await r6.is_known()) @pulumi_test async def test_lifted_unknown(self): settings.SETTINGS.dry_run = True fut = asyncio.Future() fut.set_result(UNKNOWN) out = Output.from_input({"foo": "foo", "bar": UNKNOWN, "baz": fut}) self.assertFalse(await out.is_known()) r1 = out["foo"] self.assertTrue(await r1.is_known()) self.assertEqual(await r1.future(with_unknowns=True), "foo") r2 = out["bar"] self.assertFalse(await r2.is_known()) self.assertEqual(await r2.future(with_unknowns=True), UNKNOWN) r3 = out["baz"] self.assertFalse(await r3.is_known()) self.assertEqual(await r3.future(with_unknowns=True), UNKNOWN) r4 = out["baz"]["qux"] self.assertFalse(await r4.is_known()) self.assertEqual(await r4.future(with_unknowns=True), UNKNOWN) out = Output.from_input(["foo", UNKNOWN]) r5 = out[0] self.assertTrue(await r5.is_known()) self.assertEqual(await r5.future(with_unknowns=True), "foo") r6 = out[1] self.assertFalse(await r6.is_known()) self.assertEqual(await r6.future(with_unknowns=True), UNKNOWN) out = Output.all(Output.from_input("foo"), Output.from_input(UNKNOWN), Output.from_input([Output.from_input(UNKNOWN), Output.from_input("bar")])) self.assertFalse(await out.is_known()) r7 = out[0] self.assertTrue(await r7.is_known()) self.assertEqual(await r7.future(with_unknowns=True), "foo") r8 = out[1] self.assertFalse(await r8.is_known()) self.assertEqual(await r8.future(with_unknowns=True), UNKNOWN) r9 = out[2] self.assertFalse(await r9.is_known()) r10 = r9[0] self.assertFalse(await r10.is_known()) self.assertEqual(await r10.future(with_unknowns=True), UNKNOWN) r11 = r9[1] self.assertTrue(await r11.is_known()) self.assertEqual(await r11.future(with_unknowns=True), "bar") out_dict = Output.all(foo=Output.from_input("foo"), unknown=Output.from_input(UNKNOWN), arr=Output.from_input([Output.from_input(UNKNOWN), Output.from_input("bar")])) self.assertFalse(await out_dict.is_known()) r12 = out_dict["foo"] self.assertTrue(await r12.is_known()) self.assertEqual(await r12.future(with_unknowns=True), "foo") r13 = out_dict["unknown"] self.assertFalse(await r13.is_known()) self.assertEqual(await r13.future(with_unknowns=True), UNKNOWN) r14 = out_dict["arr"] self.assertFalse(await r14.is_known()) r15 = r14[0] self.assertFalse(await r15.is_known()) self.assertEqual(await r15.future(with_unknowns=True), UNKNOWN) r16 = r14[1] self.assertTrue(await r16.is_known()) self.assertEqual(await r16.future(with_unknowns=True), "bar") @pulumi_test async def test_output_coros(self): # Ensure that Outputs function properly when the input value and is_known are coroutines. If the implementation # is not careful to wrap these coroutines in Futures, they will be awaited more than once and the runtime will # throw. async def value(): await asyncio.sleep(0) return 42 async def is_known(): await asyncio.sleep(0) return True out = Output(set(), value(), is_known()) self.assertTrue(await out.is_known()) self.assertEqual(42, await out.future()) self.assertEqual(42, await out.apply(lambda v: v).future()) class DeserializationTests(unittest.TestCase): def test_unsupported_sig(self): struct = struct_pb2.Struct() struct[rpc._special_sig_key] = "foobar" error = None try: rpc.deserialize_property(struct) except AssertionError as err: error = err self.assertIsNotNone(error) def test_secret_push_up(self): secret_value = {rpc._special_sig_key: rpc._special_secret_sig, "value": "a secret value"} all_props = struct_pb2.Struct() all_props["regular"] = "a normal value" all_props["list"] = ["a normal value", "another value", secret_value] all_props["map"] = {"regular": "a normal value", "secret": secret_value} all_props["mapWithList"] = {"regular": "a normal value", "list": ["a normal value", secret_value]} all_props["listWithMap"] = [{"regular": "a normal value", "secret": secret_value}] val = rpc.deserialize_properties(all_props) self.assertEqual(all_props["regular"], val["regular"]) self.assertIsInstance(val["list"], dict) self.assertEqual(val["list"][rpc._special_sig_key], rpc._special_secret_sig) self.assertEqual(val["list"]["value"][0], "a normal value") self.assertEqual(val["list"]["value"][1], "another value") self.assertEqual(val["list"]["value"][2], "a secret value") self.assertIsInstance(val["map"], dict) self.assertEqual(val["map"][rpc._special_sig_key], rpc._special_secret_sig) self.assertEqual(val["map"]["value"]["regular"], "a normal value") self.assertEqual(val["map"]["value"]["secret"], "a secret value") self.assertIsInstance(val["mapWithList"], dict) self.assertEqual(val["mapWithList"][rpc._special_sig_key], rpc._special_secret_sig) self.assertEqual(val["mapWithList"]["value"]["regular"], "a normal value") self.assertEqual(val["mapWithList"]["value"]["list"][0], "a normal value") self.assertEqual(val["mapWithList"]["value"]["list"][1], "a secret value") self.assertIsInstance(val["listWithMap"], dict) self.assertEqual(val["listWithMap"][rpc._special_sig_key], rpc._special_secret_sig) self.assertEqual(val["listWithMap"]["value"][0]["regular"], "a normal value") self.assertEqual(val["listWithMap"]["value"][0]["secret"], "a secret value") def test_internal_property(self): all_props = struct_pb2.Struct() all_props["a"] = "b" all_props["__defaults"] = [] all_props["c"] = {"foo": "bar", "__defaults": []} all_props["__provider"] = "serialized_dynamic_provider" all_props["__other"] = "baz" val = rpc.deserialize_properties(all_props) self.assertEqual({ "a": "b", "c": {"foo": "bar"}, "__provider": "serialized_dynamic_provider", }, val) @input_type class FooArgs: first_arg: Input[str] = pulumi.property("firstArg") second_arg: Optional[Input[float]] = pulumi.property("secondArg") def __init__(self, first_arg: Input[str], second_arg: Optional[Input[float]] = None): pulumi.set(self, "first_arg", first_arg) pulumi.set(self, "second_arg", second_arg) @input_type class ListDictInputArgs: a: List[Input[str]] b: Sequence[Input[str]] c: Dict[str, Input[str]] d: Mapping[str, Input[str]] def __init__(self, a: List[Input[str]], b: Sequence[Input[str]], c: Dict[str, Input[str]], d: Mapping[str, Input[str]]): pulumi.set(self, "a", a) pulumi.set(self, "b", b) pulumi.set(self, "c", c) pulumi.set(self, "d", d) @input_type class BarArgs: tag_args: Input[dict] = pulumi.property("tagArgs") def __init__(self, tag_args: Input[dict]): pulumi.set(self, "tag_args", tag_args) class InputTypeSerializationTests(unittest.TestCase): @pulumi_test async def test_simple_input_type(self): it = FooArgs(first_arg="hello", second_arg=42) prop = await rpc.serialize_property(it, []) self.assertEqual({"firstArg": "hello", "secondArg": 42}, prop) @pulumi_test async def test_list_dict_input_type(self): it = ListDictInputArgs(a=["hi"], b=["there"], c={"hello": "world"}, d={"foo": "bar"}) prop = await rpc.serialize_property(it, []) self.assertEqual({ "a": ["hi"], "b": ["there"], "c": {"hello": "world"}, "d": {"foo": "bar"} }, prop) @pulumi_test async def test_input_type_with_dict_property(self): def transformer(prop: str) -> str: return { "tag_args": "a", "tagArgs": "b", "foo_bar": "c", }.get(prop) or prop it = BarArgs({"foo_bar": "hello", "foo_baz": "world"}) prop = await rpc.serialize_property(it, [], transformer) # Input type keys are not transformed, but keys of nested # dicts are still transformed. self.assertEqual({ "tagArgs": { "c": "hello", "foo_baz": "world", }, }, prop) class StrEnum(str, Enum): ONE = "one" ZERO = "zero" class IntEnum(int, Enum): ONE = 1 ZERO = 0 class FloatEnum(float, Enum): ONE = 1.0 ZERO_POINT_ONE = 0.1 class EnumSerializationTests(unittest.TestCase): @pulumi_test async def test_string_enum(self): one = StrEnum.ONE prop = await rpc.serialize_property(one, []) self.assertEqual(StrEnum.ONE, prop) @pulumi_test async def test_int_enum(self): one = IntEnum.ONE prop = await rpc.serialize_property(one, []) self.assertEqual(IntEnum.ONE, prop) @pulumi_test async def test_float_enum(self): one = FloatEnum.ZERO_POINT_ONE prop = await rpc.serialize_property(one, []) self.assertEqual(FloatEnum.ZERO_POINT_ONE, prop) @pulumi.input_type class SomeFooArgs: def __init__(self, the_first: str, the_second: Mapping[str, str]): pulumi.set(self, "the_first", the_first) pulumi.set(self, "the_second", the_second) @property @pulumi.getter(name="theFirst") def the_first(self) -> str: ... @property @pulumi.getter(name="theSecond") def the_second(self) -> Mapping[str, str]: ... @pulumi.input_type class SerializationArgs: def __init__(self, some_value: pulumi.Input[str], some_foo: pulumi.Input[pulumi.InputType[SomeFooArgs]], some_bar: pulumi.Input[Mapping[str, pulumi.Input[pulumi.InputType[SomeFooArgs]]]]): pulumi.set(self, "some_value", some_value) pulumi.set(self, "some_foo", some_foo) pulumi.set(self, "some_bar", some_bar) @property @pulumi.getter(name="someValue") def some_value(self) -> pulumi.Input[str]: ... @property @pulumi.getter(name="someFoo") def some_foo(self) -> pulumi.Input[pulumi.InputType[SomeFooArgs]]: ... @property @pulumi.getter(name="someBar") def some_bar(self) -> pulumi.Input[Mapping[str, pulumi.Input[pulumi.InputType[SomeFooArgs]]]]: ... @pulumi.output_type class SomeFooOutput(dict): def __init__(self, the_first: str, the_second: Mapping[str, str]): pulumi.set(self, "the_first", the_first) pulumi.set(self, "the_second", the_second) @property @pulumi.getter(name="theFirst") def the_first(self) -> str: ... @property @pulumi.getter(name="theSecond") def the_second(self) -> Mapping[str, str]: ... @pulumi.output_type class DeserializationOutput(dict): def __init__(self, some_value: str, some_foo: SomeFooOutput, some_bar: Mapping[str, SomeFooOutput]): pulumi.set(self, "some_value", some_value) pulumi.set(self, "some_foo", some_foo) pulumi.set(self, "some_bar", some_bar) @property @pulumi.getter(name="someValue") def some_value(self) -> str: ... @property @pulumi.getter(name="someFoo") def some_foo(self) -> SomeFooOutput: ... @property @pulumi.getter(name="someBar") def some_bar(self) -> Mapping[str, SomeFooOutput]: ... class TypeMetaDataSerializationTests(unittest.TestCase): @pulumi_test async def test_serialize(self): # The transformer should never be called. def transformer(key: str) -> str: raise Exception(f"Should not be raised for key '{key}'") tests = [ { "some_value": "hello", "some_foo": SomeFooArgs("first", {"the_first": "there"}), "some_bar": {"a": SomeFooArgs("second", {"the_second": "later"})}, }, { "some_value": "hello", "some_foo": {"the_first": "first", "the_second": {"the_first": "there"}}, "some_bar": {"a": {"the_first": "second", "the_second": {"the_second": "later"}}}, }, { "some_value": "hello", "some_foo": {"theFirst": "first", "theSecond": {"the_first": "there"}}, "some_bar": {"a": {"theFirst": "second", "theSecond": {"the_second": "later"}}}, }, ] for props in tests: result = await rpc.serialize_properties(props, {}, transformer, SerializationArgs) self.assertEqual("hello", result["someValue"]) self.assertIsInstance(result["someFoo"], struct_pb2.Struct) self.assertEqual("first", result["someFoo"]["theFirst"]) self.assertIsInstance(result["someFoo"]["theSecond"], struct_pb2.Struct) self.assertEqual("there", result["someFoo"]["theSecond"]["the_first"]) self.assertIsInstance(result["someBar"], struct_pb2.Struct) self.assertIsInstance(result["someBar"]["a"], struct_pb2.Struct) self.assertEqual("second", result["someBar"]["a"]["theFirst"]) self.assertIsInstance(result["someBar"]["a"]["theSecond"], struct_pb2.Struct) self.assertEqual("later", result["someBar"]["a"]["theSecond"]["the_second"]) @pulumi_test async def test_output_translation(self): # The transformer should never be called. def transformer(key: str) -> str: raise Exception(f"Should not be raised for key '{key}'") output = { "someValue": "hello", "someFoo": {"theFirst": "first", "theSecond": {"the_first": "there"}}, "someBar": {"a": {"theFirst": "second", "theSecond": {"the_second": "later"}}}, } translated = rpc.translate_output_properties(output, transformer, DeserializationOutput, True) self.assertIsInstance(translated, DeserializationOutput) result = cast(DeserializationOutput, translated) self.assertEqual("hello", result.some_value) self.assertIsInstance(result.some_foo, SomeFooOutput) self.assertIsInstance(result.some_foo, dict) self.assertEqual("first", result.some_foo.the_first) self.assertEqual("first", result.some_foo["the_first"]) self.assertEqual({"the_first": "there"}, result.some_foo.the_second) self.assertEqual({"the_first": "there"}, result.some_foo["the_second"]) self.assertIsInstance(result.some_bar, dict) self.assertEqual(1, len(result.some_bar)) self.assertIsInstance(result.some_bar["a"], SomeFooOutput) self.assertIsInstance(result.some_bar["a"], dict) self.assertEqual("second", result.some_bar["a"].the_first) self.assertEqual("second", result.some_bar["a"]["the_first"]) self.assertEqual({"the_second": "later"}, result.some_bar["a"].the_second) self.assertEqual({"the_second": "later"}, result.some_bar["a"]["the_second"])