import atexit from distutils.version import StrictVersion import numpy as np import os import subprocess from typing import Dict, List, Optional, Tuple, Mapping as MappingType import mlagents_envs from mlagents_envs.logging_util import get_logger from mlagents_envs.side_channel.side_channel import SideChannel from mlagents_envs.side_channel.side_channel_manager import SideChannelManager from mlagents_envs import env_utils from mlagents_envs.base_env import ( BaseEnv, DecisionSteps, TerminalSteps, BehaviorSpec, BehaviorName, AgentId, BehaviorMapping, ) from mlagents_envs.timers import timed, hierarchical_timer from mlagents_envs.exception import ( UnityEnvironmentException, UnityActionException, UnityTimeOutException, UnityCommunicatorStoppedException, ) from mlagents_envs.communicator_objects.command_pb2 import STEP, RESET from mlagents_envs.rpc_utils import behavior_spec_from_proto, steps_from_proto from mlagents_envs.communicator_objects.unity_rl_input_pb2 import UnityRLInputProto from mlagents_envs.communicator_objects.unity_rl_output_pb2 import UnityRLOutputProto from mlagents_envs.communicator_objects.agent_action_pb2 import AgentActionProto from mlagents_envs.communicator_objects.unity_output_pb2 import UnityOutputProto from mlagents_envs.communicator_objects.capabilities_pb2 import UnityRLCapabilitiesProto from mlagents_envs.communicator_objects.unity_rl_initialization_input_pb2 import ( UnityRLInitializationInputProto, ) from mlagents_envs.communicator_objects.unity_input_pb2 import UnityInputProto from .rpc_communicator import RpcCommunicator import signal logger = get_logger(__name__) class UnityEnvironment(BaseEnv): # Communication protocol version. # When connecting to C#, this must be compatible with Academy.k_ApiVersion. # We follow semantic versioning on the communication version, so existing # functionality will work as long the major versions match. # This should be changed whenever a change is made to the communication protocol. API_VERSION = "1.0.0" # Default port that the editor listens on. If an environment executable # isn't specified, this port will be used. DEFAULT_EDITOR_PORT = 5004 # Default base port for environments. Each environment will be offset from this # by it's worker_id. BASE_ENVIRONMENT_PORT = 5005 # Command line argument used to pass the port to the executable environment. _PORT_COMMAND_LINE_ARG = "--mlagents-port" @staticmethod def _raise_version_exception(unity_com_ver: str) -> None: raise UnityEnvironmentException( f"The communication API version is not compatible between Unity and python. " f"Python API: {UnityEnvironment.API_VERSION}, Unity API: {unity_com_ver}.\n " f"Please find the versions that work best together from our release page.\n" "https://github.com/Unity-Technologies/ml-agents/releases" ) @staticmethod def _check_communication_compatibility( unity_com_ver: str, python_api_version: str, unity_package_version: str ) -> bool: unity_communicator_version = StrictVersion(unity_com_ver) api_version = StrictVersion(python_api_version) if unity_communicator_version.version[0] == 0: if ( unity_communicator_version.version[0] != api_version.version[0] or unity_communicator_version.version[1] != api_version.version[1] ): # Minor beta versions differ. return False elif unity_communicator_version.version[0] != api_version.version[0]: # Major versions mismatch. return False elif unity_communicator_version.version[1] != api_version.version[1]: # Non-beta minor versions mismatch. Log a warning but allow execution to continue. logger.warning( f"WARNING: The communication API versions between Unity and python differ at the minor version level. " f"Python API: {python_api_version}, Unity API: {unity_communicator_version}.\n" f"This means that some features may not work unless you upgrade the package with the lower version." f"Please find the versions that work best together from our release page.\n" "https://github.com/Unity-Technologies/ml-agents/releases" ) else: logger.info( f"Connected to Unity environment with package version {unity_package_version} " f"and communication version {unity_com_ver}" ) return True @staticmethod def _get_capabilities_proto() -> UnityRLCapabilitiesProto: capabilities = UnityRLCapabilitiesProto() capabilities.baseRLCapabilities = True return capabilities @staticmethod def _warn_csharp_base_capabilities( caps: UnityRLCapabilitiesProto, unity_package_ver: str, python_package_ver: str ) -> None: if not caps.baseRLCapabilities: logger.warning( "WARNING: The Unity process is not running with the expected base Reinforcement Learning" " capabilities. Please be sure upgrade the Unity Package to a version that is compatible with this " "python package.\n" f"Python package version: {python_package_ver}, C# package version: {unity_package_ver}" f"Please find the versions that work best together from our release page.\n" "https://github.com/Unity-Technologies/ml-agents/releases" ) def __init__( self, file_name: Optional[str] = None, worker_id: int = 0, base_port: Optional[int] = None, seed: int = 0, no_graphics: bool = False, timeout_wait: int = 60, additional_args: Optional[List[str]] = None, side_channels: Optional[List[SideChannel]] = None, log_folder: Optional[str] = None, ): """ Starts a new unity environment and establishes a connection with the environment. Notice: Currently communication between Unity and Python takes place over an open socket without authentication. Ensure that the network where training takes place is secure. :string file_name: Name of Unity environment binary. :int base_port: Baseline port number to connect to Unity environment over. worker_id increments over this. If no environment is specified (i.e. file_name is None), the DEFAULT_EDITOR_PORT will be used. :int worker_id: Offset from base_port. Used for training multiple environments simultaneously. :bool no_graphics: Whether to run the Unity simulator in no-graphics mode :int timeout_wait: Time (in seconds) to wait for connection from environment. :list args: Addition Unity command line arguments :list side_channels: Additional side channel for no-rl communication with Unity :str log_folder: Optional folder to write the Unity Player log file into. Requires absolute path. """ atexit.register(self._close) self._additional_args = additional_args or [] self._no_graphics = no_graphics # If base port is not specified, use BASE_ENVIRONMENT_PORT if we have # an environment, otherwise DEFAULT_EDITOR_PORT if base_port is None: base_port = ( self.BASE_ENVIRONMENT_PORT if file_name else self.DEFAULT_EDITOR_PORT ) self._port = base_port + worker_id self._buffer_size = 12000 # If true, this means the environment was successfully loaded self._loaded = False # The process that is started. If None, no process was started self._proc1 = None self._timeout_wait: int = timeout_wait self._communicator = self._get_communicator(worker_id, base_port, timeout_wait) self._worker_id = worker_id self._side_channel_manager = SideChannelManager(side_channels) self._log_folder = log_folder # If the environment name is None, a new environment will not be launched # and the communicator will directly try to connect to an existing unity environment. # If the worker-id is not 0 and the environment name is None, an error is thrown if file_name is None and worker_id != 0: raise UnityEnvironmentException( "If the environment name is None, " "the worker-id must be 0 in order to connect with the Editor." ) if file_name is not None: try: self._proc1 = env_utils.launch_executable( file_name, self._executable_args() ) except UnityEnvironmentException: self._close(0) raise else: logger.info( f"Listening on port {self._port}. " f"Start training by pressing the Play button in the Unity Editor." ) self._loaded = True rl_init_parameters_in = UnityRLInitializationInputProto( seed=seed, communication_version=self.API_VERSION, package_version=mlagents_envs.__version__, capabilities=UnityEnvironment._get_capabilities_proto(), ) try: aca_output = self._send_academy_parameters(rl_init_parameters_in) aca_params = aca_output.rl_initialization_output except UnityTimeOutException: self._close(0) raise if not UnityEnvironment._check_communication_compatibility( aca_params.communication_version, UnityEnvironment.API_VERSION, aca_params.package_version, ): self._close(0) UnityEnvironment._raise_version_exception(aca_params.communication_version) UnityEnvironment._warn_csharp_base_capabilities( aca_params.capabilities, aca_params.package_version, UnityEnvironment.API_VERSION, ) self._env_state: Dict[str, Tuple[DecisionSteps, TerminalSteps]] = {} self._env_specs: Dict[str, BehaviorSpec] = {} self._env_actions: Dict[str, np.ndarray] = {} self._is_first_message = True self._update_behavior_specs(aca_output) @staticmethod def _get_communicator(worker_id, base_port, timeout_wait): return RpcCommunicator(worker_id, base_port, timeout_wait) def _executable_args(self) -> List[str]: args: List[str] = [] if self._no_graphics: args += ["-nographics", "-batchmode"] args += [UnityEnvironment._PORT_COMMAND_LINE_ARG, str(self._port)] if self._log_folder: log_file_path = os.path.join( self._log_folder, f"Player-{self._worker_id}.log" ) args += ["-logFile", log_file_path] # Add in arguments passed explicitly by the user. args += self._additional_args return args def _update_behavior_specs(self, output: UnityOutputProto) -> None: init_output = output.rl_initialization_output for brain_param in init_output.brain_parameters: # Each BrainParameter in the rl_initialization_output should have at least one AgentInfo # Get that agent, because we need some of its observations. agent_infos = output.rl_output.agentInfos[brain_param.brain_name] if agent_infos.value: agent = agent_infos.value[0] new_spec = behavior_spec_from_proto(brain_param, agent) self._env_specs[brain_param.brain_name] = new_spec logger.info(f"Connected new brain:\n{brain_param.brain_name}") def _update_state(self, output: UnityRLOutputProto) -> None: """ Collects experience information from all external brains in environment at current step. """ for brain_name in self._env_specs.keys(): if brain_name in output.agentInfos: agent_info_list = output.agentInfos[brain_name].value self._env_state[brain_name] = steps_from_proto( agent_info_list, self._env_specs[brain_name] ) else: self._env_state[brain_name] = ( DecisionSteps.empty(self._env_specs[brain_name]), TerminalSteps.empty(self._env_specs[brain_name]), ) self._side_channel_manager.process_side_channel_message(output.side_channel) def reset(self) -> None: if self._loaded: outputs = self._communicator.exchange(self._generate_reset_input()) if outputs is None: raise UnityCommunicatorStoppedException("Communicator has exited.") self._update_behavior_specs(outputs) rl_output = outputs.rl_output self._update_state(rl_output) self._is_first_message = False self._env_actions.clear() else: raise UnityEnvironmentException("No Unity environment is loaded.") @timed def step(self) -> None: if self._is_first_message: return self.reset() if not self._loaded: raise UnityEnvironmentException("No Unity environment is loaded.") # fill the blanks for missing actions for group_name in self._env_specs: if group_name not in self._env_actions: n_agents = 0 if group_name in self._env_state: n_agents = len(self._env_state[group_name][0]) self._env_actions[group_name] = self._env_specs[ group_name ].create_empty_action(n_agents) step_input = self._generate_step_input(self._env_actions) with hierarchical_timer("communicator.exchange"): outputs = self._communicator.exchange(step_input) if outputs is None: raise UnityCommunicatorStoppedException("Communicator has exited.") self._update_behavior_specs(outputs) rl_output = outputs.rl_output self._update_state(rl_output) self._env_actions.clear() @property def behavior_specs(self) -> MappingType[str, BehaviorSpec]: return BehaviorMapping(self._env_specs) def _assert_behavior_exists(self, behavior_name: str) -> None: if behavior_name not in self._env_specs: raise UnityActionException( f"The group {behavior_name} does not correspond to an existing " f"agent group in the environment" ) def set_actions(self, behavior_name: BehaviorName, action: np.ndarray) -> None: self._assert_behavior_exists(behavior_name) if behavior_name not in self._env_state: return spec = self._env_specs[behavior_name] expected_type = np.float32 if spec.is_action_continuous() else np.int32 expected_shape = (len(self._env_state[behavior_name][0]), spec.action_size) if action.shape != expected_shape: raise UnityActionException( f"The behavior {behavior_name} needs an input of dimension " f"{expected_shape} for (, ) but " f"received input of dimension {action.shape}" ) if action.dtype != expected_type: action = action.astype(expected_type) self._env_actions[behavior_name] = action def set_action_for_agent( self, behavior_name: BehaviorName, agent_id: AgentId, action: np.ndarray ) -> None: self._assert_behavior_exists(behavior_name) if behavior_name not in self._env_state: return spec = self._env_specs[behavior_name] expected_shape = (spec.action_size,) if action.shape != expected_shape: raise UnityActionException( f"The Agent {agent_id} with BehaviorName {behavior_name} needs " f"an input of dimension {expected_shape} but received input of " f"dimension {action.shape}" ) expected_type = np.float32 if spec.is_action_continuous() else np.int32 if action.dtype != expected_type: action = action.astype(expected_type) if behavior_name not in self._env_actions: self._env_actions[behavior_name] = spec.create_empty_action( len(self._env_state[behavior_name][0]) ) try: index = np.where(self._env_state[behavior_name][0].agent_id == agent_id)[0][ 0 ] except IndexError as ie: raise IndexError( "agent_id {} is did not request a decision at the previous step".format( agent_id ) ) from ie self._env_actions[behavior_name][index] = action def get_steps( self, behavior_name: BehaviorName ) -> Tuple[DecisionSteps, TerminalSteps]: self._assert_behavior_exists(behavior_name) return self._env_state[behavior_name] def close(self): """ Sends a shutdown signal to the unity environment, and closes the socket connection. """ if self._loaded: self._close() else: raise UnityEnvironmentException("No Unity environment is loaded.") def _close(self, timeout: Optional[int] = None) -> None: """ Close the communicator and environment subprocess (if necessary). :int timeout: [Optional] Number of seconds to wait for the environment to shut down before force-killing it. Defaults to `self.timeout_wait`. """ if timeout is None: timeout = self._timeout_wait self._loaded = False self._communicator.close() if self._proc1 is not None: # Wait a bit for the process to shutdown, but kill it if it takes too long try: self._proc1.wait(timeout=timeout) signal_name = self._returncode_to_signal_name(self._proc1.returncode) signal_name = f" ({signal_name})" if signal_name else "" return_info = f"Environment shut down with return code {self._proc1.returncode}{signal_name}." logger.info(return_info) except subprocess.TimeoutExpired: logger.info("Environment timed out shutting down. Killing...") self._proc1.kill() # Set to None so we don't try to close multiple times. self._proc1 = None @timed def _generate_step_input( self, vector_action: Dict[str, np.ndarray] ) -> UnityInputProto: rl_in = UnityRLInputProto() for b in vector_action: n_agents = len(self._env_state[b][0]) if n_agents == 0: continue for i in range(n_agents): action = AgentActionProto(vector_actions=vector_action[b][i]) rl_in.agent_actions[b].value.extend([action]) rl_in.command = STEP rl_in.side_channel = bytes( self._side_channel_manager.generate_side_channel_messages() ) return self._wrap_unity_input(rl_in) def _generate_reset_input(self) -> UnityInputProto: rl_in = UnityRLInputProto() rl_in.command = RESET rl_in.side_channel = bytes( self._side_channel_manager.generate_side_channel_messages() ) return self._wrap_unity_input(rl_in) def _send_academy_parameters( self, init_parameters: UnityRLInitializationInputProto ) -> UnityOutputProto: inputs = UnityInputProto() inputs.rl_initialization_input.CopyFrom(init_parameters) return self._communicator.initialize(inputs) @staticmethod def _wrap_unity_input(rl_input: UnityRLInputProto) -> UnityInputProto: result = UnityInputProto() result.rl_input.CopyFrom(rl_input) return result @staticmethod def _returncode_to_signal_name(returncode: int) -> Optional[str]: """ Try to convert return codes into their corresponding signal name. E.g. returncode_to_signal_name(-2) -> "SIGINT" """ try: # A negative value -N indicates that the child was terminated by signal N (POSIX only). s = signal.Signals(-returncode) # pylint: disable=no-member return s.name except Exception: # Should generally be a ValueError, but catch everything just in case. return None