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# SPDX-License-Identifier: Apache-2.0
#
# Copyright (c) 2023 Malik Talha
#
# 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 json
import time
import threading
from agl_service_voiceagent.generated import voice_agent_pb2
from agl_service_voiceagent.generated import voice_agent_pb2_grpc
from agl_service_voiceagent.utils.audio_recorder import AudioRecorder
from agl_service_voiceagent.utils.wake_word import WakeWordDetector
from agl_service_voiceagent.utils.stt_model import STTModel
from agl_service_voiceagent.utils.kuksa_interface import KuksaInterface
from agl_service_voiceagent.utils.mapper import Intent2VSSMapper
from agl_service_voiceagent.utils.config import get_config_value, get_logger
from agl_service_voiceagent.utils.common import generate_unique_uuid, delete_file
from agl_service_voiceagent.nlu.snips_interface import SnipsInterface
from agl_service_voiceagent.nlu.rasa_interface import RASAInterface


class VoiceAgentServicer(voice_agent_pb2_grpc.VoiceAgentServiceServicer):
    """
    Voice Agent Servicer class that implements the gRPC service defined in voice_agent.proto.
    """

    def __init__(self):
        """
        Constructor for VoiceAgentServicer class.
        """
        # Get the config values
        self.service_version = "v0.4.0"
        self.wake_word = get_config_value('WAKE_WORD')
        self.base_audio_dir = get_config_value('BASE_AUDIO_DIR')
        self.channels = int(get_config_value('CHANNELS'))
        self.sample_rate = int(get_config_value('SAMPLE_RATE'))
        self.bits_per_sample = int(get_config_value('BITS_PER_SAMPLE'))
        self.stt_model_path = get_config_value('STT_MODEL_PATH')
        self.wake_word_model_path = get_config_value('WAKE_WORD_MODEL_PATH')
        self.snips_model_path = get_config_value('SNIPS_MODEL_PATH')
        self.rasa_model_path = get_config_value('RASA_MODEL_PATH')
        self.rasa_server_port = int(get_config_value('RASA_SERVER_PORT'))
        self.rasa_detached_mode = bool(int(get_config_value('RASA_DETACHED_MODE')))
        self.base_log_dir = get_config_value('BASE_LOG_DIR')
        self.store_voice_command = bool(int(get_config_value('STORE_VOICE_COMMANDS')))
        self.logger = get_logger()

        # Initialize class methods
        self.logger.info("Loading Speech to Text and Wake Word Model...")
        self.stt_model = STTModel(self.stt_model_path, self.sample_rate)
        self.stt_wake_word_model = STTModel(self.wake_word_model_path, self.sample_rate)
        self.logger.info("Speech to Text and Wake Word Model loaded successfully.")

        self.logger.info("Starting SNIPS intent engine...")
        self.snips_interface = SnipsInterface(self.snips_model_path)
        self.logger.info("SNIPS intent engine started successfully!")

        self.rasa_interface = RASAInterface(self.rasa_server_port, self.rasa_model_path, self.base_log_dir)

        # Only start RASA server if its not in detached mode, else we assume server is already running
        if not self.rasa_detached_mode:
            self.logger.info(f"Starting RASA intent engine server as a subprocess...")
            self.rasa_interface.start_server()
            self.logger.info(f"RASA intent engine server started successfully! RASA server running at URL: 127.0.0.1:{self.rasa_server_port}")
        
        else:
            self.logger.info(f"RASA intent engine detached mode detected! Assuming RASA server is running at URL: 127.0.0.1:{self.rasa_server_port}")

        self.rvc_stream_uuids = {}
        self.kuksa_client = KuksaInterface()
        self.kuksa_client.connect_kuksa_client()
        self.kuksa_client.authorize_kuksa_client()

        self.logger.info(f"Loading and parsing mapping files...")
        self.mapper = Intent2VSSMapper()
        self.logger.info(f"Successfully loaded and parsed mapping files.")


    def CheckServiceStatus(self, request, context):
        """
        Check the status of the Voice Agent service including the version.
        """
        # Log the unique request ID, client's IP address, and the endpoint
        request_id = generate_unique_uuid(8)
        client_ip = context.peer()
        self.logger.info(f"[ReqID#{request_id}] Client {client_ip} made a request to CheckServiceStatus end-point.")

        response = voice_agent_pb2.ServiceStatus(
            version=self.service_version,
            status=True,
            wake_word=self.wake_word,
        )

        # Convert the response object to a JSON string and log it
        response_data = {
            "version": self.service_version,
            "status": True,
            "wake_word": self.wake_word,
        }
        response_json = json.dumps(response_data)
        self.logger.info(f"[ReqID#{request_id}] Returning response to client {client_ip} from CheckServiceStatus end-point. Response: {response_json}")

        return response


    def DetectWakeWord(self, request, context):
        """
        Detect the wake word using the wake word detection model. This method records voice on server side. If your client 
        and server are not on the same machine, then you should use the `S_DetectWakeWord` method instead.
        """
        # Log the unique request ID, client's IP address, and the endpoint
        request_id = generate_unique_uuid(8)
        client_ip = context.peer()
        self.logger.info(f"[ReqID#{request_id}] Client {client_ip} made a request to DetectWakeWord end-point.")

        wake_word_detector = WakeWordDetector(self.wake_word, self.stt_model, self.channels, self.sample_rate, self.bits_per_sample)
        wake_word_detector.create_pipeline()
        detection_thread = threading.Thread(target=wake_word_detector.start_listening)
        detection_thread.start()
        while True:
            status = wake_word_detector.get_wake_word_status()
            time.sleep(0.5)
            if not context.is_active():
                wake_word_detector.send_eos()
                break
            yield voice_agent_pb2.WakeWordStatus(status=status)
            if status:
                break

        detection_thread.join()
    
    
    def RecognizeVoiceCommand(self, requests, context):
        """
        Recognize the voice command using the STT model and extract the intent using the NLU model. This method records voice 
        on server side, meaning the client only sends a START and STOP request to the server. If your client and server are 
        not on the same machine, then you should use the `S_RecognizeVoiceCommand` method instead.
        """
        stt = ""
        intent = ""
        intent_slots = []
        log_intent_slots = []

        for request in requests:
            if request.record_mode == voice_agent_pb2.MANUAL:

                if request.action == voice_agent_pb2.START:
                    status = voice_agent_pb2.REC_PROCESSING
                    stream_uuid = generate_unique_uuid(8)

                    # Log the unique request ID, client's IP address, and the endpoint
                    client_ip = context.peer()
                    self.logger.info(f"[ReqID#{stream_uuid}] Client {client_ip} made a manual START request to RecognizeVoiceCommand end-point.")

                    recorder = AudioRecorder(self.stt_model, self.base_audio_dir, self.channels, self.sample_rate, self.bits_per_sample)
                    recorder.set_pipeline_mode("manual")
                    audio_file = recorder.create_pipeline()

                    self.rvc_stream_uuids[stream_uuid] = {
                        "recorder": recorder,
                        "audio_file": audio_file
                    }
                    
                    recorder.start_recording()

                elif request.action == voice_agent_pb2.STOP:
                    stream_uuid = request.stream_id
                    status = voice_agent_pb2.REC_SUCCESS

                    # Log the unique request ID, client's IP address, and the endpoint
                    client_ip = context.peer()
                    self.logger.info(f"[ReqID#{stream_uuid}] Client {client_ip} made a manual STOP request to RecognizeVoiceCommand end-point.")

                    recorder = self.rvc_stream_uuids[stream_uuid]["recorder"]
                    audio_file = self.rvc_stream_uuids[stream_uuid]["audio_file"]
                    del self.rvc_stream_uuids[stream_uuid]

                    recorder.stop_recording()
                    recognizer_uuid = self.stt_model.setup_recognizer()
                    stt = self.stt_model.recognize_from_file(recognizer_uuid, audio_file)

                    if stt not in ["FILE_NOT_FOUND", "FILE_FORMAT_INVALID", "VOICE_NOT_RECOGNIZED", ""]:
                        if request.nlu_model == voice_agent_pb2.SNIPS:
                            extracted_intent = self.snips_interface.extract_intent(stt)
                            intent, intent_actions = self.snips_interface.process_intent(extracted_intent)

                            if not intent or intent == "":
                                status = voice_agent_pb2.INTENT_NOT_RECOGNIZED
                            
                            else:
                                for action, value in intent_actions.items():
                                    intent_slots.append(voice_agent_pb2.IntentSlot(name=action, value=value))
                                    log_intent_slots.append({"name": action, "value": value})
                        
                        elif request.nlu_model == voice_agent_pb2.RASA:
                            extracted_intent = self.rasa_interface.extract_intent(stt)
                            intent, intent_actions = self.rasa_interface.process_intent(extracted_intent)

                            if not intent or intent == "":
                                status = voice_agent_pb2.INTENT_NOT_RECOGNIZED

                            else:
                                for action, value in intent_actions.items():
                                    intent_slots.append(voice_agent_pb2.IntentSlot(name=action, value=value))
                                    log_intent_slots.append({"name": action, "value": value})

                        else:
                            status = voice_agent_pb2.NLU_MODEL_NOT_SUPPORTED

                    else:
                        stt = ""
                        status = voice_agent_pb2.VOICE_NOT_RECOGNIZED
                    
                    # cleanup the kaldi recognizer
                    self.stt_model.cleanup_recognizer(recognizer_uuid)

                    # delete the audio file
                    if not self.store_voice_command:   
                        delete_file(audio_file)


        # Process the request and generate a RecognizeResult
        response = voice_agent_pb2.RecognizeResult(
            command=stt,
            intent=intent,
            intent_slots=intent_slots,
            stream_id=stream_uuid,
            status=status
        )

        # Convert the response object to a JSON string and log it
        response_data = {
            "command": stt,
            "intent": intent,
            "intent_slots": log_intent_slots,
            "stream_id": stream_uuid,
            "status": status
        }
        response_json = json.dumps(response_data)
        self.logger.info(f"[ReqID#{stream_uuid}] Returning {request.action} request response to client {client_ip} from RecognizeVoiceCommand end-point. Response: {response_json}")

        return response
    

    def RecognizeTextCommand(self, request, context):
        """
        Recognize the text command using the STT model and extract the intent using the NLU model.
        """
        intent = ""
        intent_slots = []
        log_intent_slots = []

        stream_uuid = generate_unique_uuid(8)
        text_command = request.text_command
        status = voice_agent_pb2.REC_SUCCESS

        # Log the unique request ID, client's IP address, and the endpoint
        client_ip = context.peer()
        self.logger.info(f"[ReqID#{stream_uuid}] Client {client_ip} made a request to RecognizeTextCommand end-point.")

        if request.nlu_model == voice_agent_pb2.SNIPS:
            extracted_intent = self.snips_interface.extract_intent(text_command)
            intent, intent_actions = self.snips_interface.process_intent(extracted_intent)

            if not intent or intent == "":
                status = voice_agent_pb2.INTENT_NOT_RECOGNIZED
            
            else:
                for action, value in intent_actions.items():
                    intent_slots.append(voice_agent_pb2.IntentSlot(name=action, value=value))
                    log_intent_slots.append({"name": action, "value": value})
        
        elif request.nlu_model == voice_agent_pb2.RASA:
            extracted_intent = self.rasa_interface.extract_intent(text_command)
            intent, intent_actions = self.rasa_interface.process_intent(extracted_intent)

            if not intent or intent == "":
                status = voice_agent_pb2.INTENT_NOT_RECOGNIZED

            else:
                for action, value in intent_actions.items():
                    intent_slots.append(voice_agent_pb2.IntentSlot(name=action, value=value))
                    log_intent_slots.append({"name": action, "value": value})
        
        else:
            status = voice_agent_pb2.NLU_MODEL_NOT_SUPPORTED

        # Process the request and generate a RecognizeResult
        response = voice_agent_pb2.RecognizeResult(
            command=text_command,
            intent=intent,
            intent_slots=intent_slots,
            stream_id=stream_uuid,
            status=status
        )

        # Convert the response object to a JSON string and log it
        response_data = {
            "command": text_command,
            "intent": intent,
            "intent_slots": log_intent_slots,
            "stream_id": stream_uuid,
            "status": status
        }
        response_json = json.dumps(response_data)
        self.logger.info(f"[ReqID#{stream_uuid}] Returning response to client {client_ip} from RecognizeTextCommand end-point. Response: {response_json}")

        return response


    def ExecuteCommand(self, request, context):
        """
        Execute the voice command by sending the intent to Kuksa.
        """
        # Log the unique request ID, client's IP address, and the endpoint
        request_id = generate_unique_uuid(8)
        client_ip = context.peer()
        self.logger.info(f"[ReqID#{request_id}] Client {client_ip} made a request to ExecuteCommand end-point.")

        intent = request.intent
        intent_slots = request.intent_slots
        processed_slots = []
        for slot in intent_slots:
            slot_name = slot.name
            slot_value = slot.value
            processed_slots.append({"name": slot_name, "value": slot_value})

        print(intent)
        print(processed_slots)
        execution_list = self.mapper.parse_intent(intent, processed_slots, req_id=request_id)
        exec_response = f"Sorry, I failed to execute command against intent '{intent}'. Maybe try again with more specific instructions."
        exec_status = voice_agent_pb2.EXEC_ERROR

        # Check for kuksa status, and try re-connecting again if status is False 
        if not self.kuksa_client.get_kuksa_status():
            self.logger.error(f"[ReqID#{request_id}] Kuksa client found disconnected. Trying to close old instance and re-connecting...")
            self.kuksa_client.close_kuksa_client()
            self.kuksa_client.connect_kuksa_client()
            self.kuksa_client.authorize_kuksa_client()

        for execution_item in execution_list:
            print(execution_item)
            action = execution_item["action"]
            signal = execution_item["signal"]

            if self.kuksa_client.get_kuksa_status():
                if action == "set" and "value" in execution_item:
                    value = execution_item["value"]
                    if self.kuksa_client.send_values(signal, value):
                        exec_response = f"Yay, I successfully updated the intent '{intent}' to value '{value}'."
                        exec_status = voice_agent_pb2.EXEC_SUCCESS
                
                elif action in ["increase", "decrease"]:
                    if "value" in execution_item:
                        value = execution_item["value"]
                        if self.kuksa_client.send_values(signal, value):
                            exec_response = f"Yay, I successfully updated the intent '{intent}' to value '{value}'."
                            exec_status = voice_agent_pb2.EXEC_SUCCESS
                    
                    elif "factor" in execution_item:
                        factor = execution_item["factor"]
                        current_value = self.kuksa_client.get_value(signal)
                        if current_value:
                            current_value = int(current_value)
                            if action == "increase":
                                value = current_value + factor
                                value = str(value)
                            elif action == "decrease":
                                value = current_value - factor
                                value = str(value)
                            if self.kuksa_client.send_values(signal, value):
                                exec_response = f"Yay, I successfully updated the intent '{intent}' to value '{value}'."
                                exec_status = voice_agent_pb2.EXEC_SUCCESS
                        
                        else:
                            exec_response = f"Uh oh, there is no value set for intent '{intent}'. Why not try setting a value first?"
                            exec_status = voice_agent_pb2.KUKSA_CONN_ERROR

            else:
                exec_response = "Uh oh, I failed to connect to Kuksa."
                exec_status = voice_agent_pb2.KUKSA_CONN_ERROR

        response = voice_agent_pb2.ExecuteResult(
            response=exec_response,
            status=exec_status
        )

        # Convert the response object to a JSON string and log it
        response_data = {
            "response": exec_response,
            "status": exec_status
        }
        response_json = json.dumps(response_data)
        self.logger.info(f"[ReqID#{request_id}] Returning response to client {client_ip} from ExecuteCommand end-point. Response: {response_json}")

        return response