def __call__(self, args): super().__call__(args) with open(args.source, 'r') as fd: source = fd.read() try: # Select, instanciate and run dispatcher m42pl.dispatcher(args.dispatcher)()( source=source, kvstore=m42pl.kvstore(args.kvstore)(), event=Event.from_dict(json.loads(args.event))) except Exception as error: print(CLIErrorRender(error, source).render()) if args.raise_errors: raise
def testcase(self): """Tests command execution and results. This generic test case method performs the following operations and tests: * Generate the test case source script * Initialize M42PL * Run the previously generated source script * Assert the number of results match the expected * Assert the content of results """ # --- # Generate the test case source script by merging the # test case class's script's snippets and the test # script code. source = dedent(f'''\ {cls.script_begin} {test_script.source} {cls.script_end} ''') # --- # Local copy the test script parameters expected = test_script.expected fields_in = test_script.fields_in fields_out = test_script.fields_out first_event = test_script.first_event # --- # Initialize M42PL kvstore = m42pl.kvstore('local')() dispatcher = m42pl.dispatcher('local_test')() # --- # Run the the test script results = dispatcher(source, kvstore, first_event) # --- # Test results length self.assertEqual(len(results), len(expected)) # --- # Test results content # Events are compared on-by-one with each other from # the results set and the expected set. for res, exp in zip(results, expected): # Clean up all fields but the selected one for dataset in (res, exp): # Keep only fields named in fields_in if len(fields_in): for field in [ k for k, v in dataset['data'].items() if k not in fields_in ]: dataset['data'].pop(field) # Remove fields named in fields_out if len(fields_out): for field in fields_out: dataset['data'].pop(field) # Assert equality between result and expected self.assertDictEqual(res['data'], exp['data'])
def __call__(self, args): super().__call__(args) dispatcher = m42pl.dispatcher( args.dispatcher)(**args.dispatcher_kwargs) kvstore = m42pl.kvstore(args.kvstore)(**args.kvstore_kwargs) status = asyncio.run(dispatcher.status(kvstore, args.identifier)) # --- if args.output == 'json': self.ouptut_json(status) elif args.output == 'list': self.output_list(status)
def __call__(self, args): super().__call__(args) # Build aliases list for completer self.aliases = [alias for alias, _ in m42pl.commands.ALIASES.items()] # Select and instanciate dispatcher # dispatcher = m42pl.dispatcher(args.dispatcher)(**args.dispatcher_kwargs) # Select and connect KVStore kvstore = m42pl.kvstore(args.kvstore)(**args.kvstore_kwargs) # Read history file if args.history: self.history_file = Path(args.history) if self.history_file.is_file(): readline.read_history_file(self.history_file) # Print status print(f'{len(self.aliases)} commands loaded') # REPL loop while True: try: # Register SINGINT (note the underlying pipelines will also # register it; thats why we need regsiter it after each loop) signal.signal(signal.SIGINT, signal.SIG_IGN) # Read and cleanup script source = input(self.prompt).lstrip(' ').rstrip(' ') if len(source): # Try to interpret source as builtin rx = self.regex_builtins.match(source) if rx: getattr(self, f'builtin_{rx.groupdict()["name"]}')() # Otherwise, interpret source as a M42PL pipeline else: if not self.dispatcher: self.dispatcher = m42pl.dispatcher( args.dispatcher)(**args.dispatcher_kwargs) readline.write_history_file(self.history_file) self.dispatcher( source=source, kvstore=kvstore, # event=len(args.event) > 0 and Event(data=args.event) or None event=Event(args.event)) except EOFError: self.stop() except Exception as error: print(CLIErrorRender(error, source).render()) if args.raise_errors: raise
def __call__(self, args): super().__call__(args) # Setup PromptToolkit self.prompt = PromptSession( PromptPrefix(args.prefix or '<bold>m42pl@{w}</bold>'), multiline=True, bottom_toolbar=self.prompt_bottom_toolbar, prompt_continuation=self.prompt_continuation, history=FileHistory(args.history or self.history_file), completer=REPLCompleter(builtins=self.builtins.list_builtins()), key_bindings=self.prompt_keys_bindings) # Select and connect KVStore kvstore = m42pl.kvstore(args.kvstore)(**args.kvstore_kwargs) # REPL loop while True: try: # Register SINGINT (note the underlying pipelines will also # register it; thats why we need regsiter it after each loop) signal.signal(signal.SIGINT, signal.SIG_IGN) # Read and cleanup script source = self.prompt.prompt().strip() # Process if len(source) > 0: # Run builtins source = self.builtins(source) if source and len(source) > 0: # Otherwise, interpret source as a M42PL pipeline # else: if not self.dispatcher: self.dispatcher = m42pl.dispatcher( args.dispatcher)(**args.dispatcher_kwargs) self.dispatcher(source=source, kvstore=kvstore, event=Event(args.event)) except EOFError: self.stop() except Exception as error: print(CLIErrorRender(error, source).render()) if args.raise_errors: raise
from pydantic import BaseModel import m42pl from m42pl.event import Event class PipelineRequest(BaseModel): script: str event: dict = {} app = FastAPI() m42pl.load_modules() dispatcher = m42pl.dispatcher('local_detached')() kvstore = m42pl.kvstore('redis')() @app.get("/ping") def ping(): return {"ping": "pong"} @app.post('/run') def run(pipeline: PipelineRequest): """Starts as new pipeline. """ try: # ---
def __call__(self, args): super().__call__(args) # Init dispatcher dispatcher = m42pl.dispatcher(args.dispatcher)(**args.dispatcher_kwargs) # Init KVStore kvstore = m42pl.kvstore(args.kvstore)(**args.kvstore_kwargs) # Init Flask app app = Flask('m42pl') @app.route('/') def index(): """Returns the list of available endpoints. """ return { 'endpoints': { 'GET /': { 'description': 'Returns the list of API calls' }, 'POST /run': { 'description': 'Runs a pipeline', 'properties': { 'script': { 'description': 'M42PL script code', 'type': 'string' }, 'event': { 'description': 'Initial (source) event', 'type': 'object' } } }, 'GET /status/<pid>': { 'description': 'Returns the given pipeline status' } } } @app.route('/run', methods=['POST',]) def run(): """Starts a new pipeline. """ try: jsdata = request.get_json() script = jsdata['script'] event = jsdata.get('event', {}) # --- pid = dispatcher( source=script, kvstore=kvstore, event=Event(event) ) # --- return {'pid': pid} except Exception as error: return {'error': str(error)} raise error @app.route('/status/<pid>') def status(pid: int): """Returns a pipeline status. """ return {'status': asyncio.run(dispatcher.status_str(pid))} # Start Flask app app.run()