import asyncio import json import warnings from abc import ABC from typing import ( Any, AsyncGenerator, AsyncIterator, Dict, Iterator, List, Mapping, Optional, Tuple, ) from langchain_core._api.deprecation import deprecated from langchain_core.callbacks import ( AsyncCallbackManagerForLLMRun, CallbackManagerForLLMRun, ) from langchain_core.language_models.llms import LLM from langchain_core.outputs import GenerationChunk from langchain_core.pydantic_v1 import BaseModel, Extra, Field, root_validator from langchain_core.utils import get_from_dict_or_env from langchain_community.llms.utils import enforce_stop_tokens from langchain_community.utilities.anthropic import ( get_num_tokens_anthropic, get_token_ids_anthropic, ) AMAZON_BEDROCK_TRACE_KEY = "amazon-bedrock-trace" GUARDRAILS_BODY_KEY = "amazon-bedrock-guardrailAssessment" HUMAN_PROMPT = "\n\nHuman:" ASSISTANT_PROMPT = "\n\nAssistant:" ALTERNATION_ERROR = ( "Error: Prompt must alternate between '\n\nHuman:' and '\n\nAssistant:'." ) def _add_newlines_before_ha(input_text: str) -> str: new_text = input_text for word in ["Human:", "Assistant:"]: new_text = new_text.replace(word, "\n\n" + word) for i in range(2): new_text = new_text.replace("\n\n\n" + word, "\n\n" + word) return new_text def _human_assistant_format(input_text: str) -> str: if input_text.count("Human:") == 0 or ( input_text.find("Human:") > input_text.find("Assistant:") and "Assistant:" in input_text ): input_text = HUMAN_PROMPT + " " + input_text # SILENT CORRECTION if input_text.count("Assistant:") == 0: input_text = input_text + ASSISTANT_PROMPT # SILENT CORRECTION if input_text[: len("Human:")] == "Human:": input_text = "\n\n" + input_text input_text = _add_newlines_before_ha(input_text) count = 0 # track alternation for i in range(len(input_text)): if input_text[i : i + len(HUMAN_PROMPT)] == HUMAN_PROMPT: if count % 2 == 0: count += 1 else: warnings.warn(ALTERNATION_ERROR + f" Received {input_text}") if input_text[i : i + len(ASSISTANT_PROMPT)] == ASSISTANT_PROMPT: if count % 2 == 1: count += 1 else: warnings.warn(ALTERNATION_ERROR + f" Received {input_text}") if count % 2 == 1: # Only saw Human, no Assistant input_text = input_text + ASSISTANT_PROMPT # SILENT CORRECTION return input_text def _stream_response_to_generation_chunk( stream_response: Dict[str, Any], ) -> GenerationChunk: """Convert a stream response to a generation chunk.""" if not stream_response["delta"]: return GenerationChunk(text="") return GenerationChunk( text=stream_response["delta"]["text"], generation_info=dict( finish_reason=stream_response.get("stop_reason", None), ), ) class LLMInputOutputAdapter: """Adapter class to prepare the inputs from Langchain to a format that LLM model expects. It also provides helper function to extract the generated text from the model response.""" provider_to_output_key_map = { "anthropic": "completion", "amazon": "outputText", "cohere": "text", "meta": "generation", "mistral": "outputs", } @classmethod def prepare_input( cls, provider: str, model_kwargs: Dict[str, Any], prompt: Optional[str] = None, system: Optional[str] = None, messages: Optional[List[Dict]] = None, ) -> Dict[str, Any]: input_body = {**model_kwargs} if provider == "anthropic": if messages: input_body["anthropic_version"] = "bedrock-2023-05-31" input_body["messages"] = messages if system: input_body["system"] = system if "max_tokens" not in input_body: input_body["max_tokens"] = 1024 if prompt: input_body["prompt"] = _human_assistant_format(prompt) if "max_tokens_to_sample" not in input_body: input_body["max_tokens_to_sample"] = 1024 elif provider in ("ai21", "cohere", "meta", "mistral"): input_body["prompt"] = prompt elif provider == "amazon": input_body = dict() input_body["inputText"] = prompt input_body["textGenerationConfig"] = {**model_kwargs} else: input_body["inputText"] = prompt return input_body @classmethod def prepare_output(cls, provider: str, response: Any) -> dict: text = "" if provider == "anthropic": response_body = json.loads(response.get("body").read().decode()) if "completion" in response_body: text = response_body.get("completion") elif "content" in response_body: content = response_body.get("content") text = content[0].get("text") else: response_body = json.loads(response.get("body").read()) if provider == "ai21": text = response_body.get("completions")[0].get("data").get("text") elif provider == "cohere": text = response_body.get("generations")[0].get("text") elif provider == "meta": text = response_body.get("generation") elif provider == "mistral": text = response_body.get("outputs")[0].get("text") else: text = response_body.get("results")[0].get("outputText") headers = response.get("ResponseMetadata", {}).get("HTTPHeaders", {}) prompt_tokens = int(headers.get("x-amzn-bedrock-input-token-count", 0)) completion_tokens = int(headers.get("x-amzn-bedrock-output-token-count", 0)) return { "text": text, "body": response_body, "usage": { "prompt_tokens": prompt_tokens, "completion_tokens": completion_tokens, "total_tokens": prompt_tokens + completion_tokens, }, } @classmethod def prepare_output_stream( cls, provider: str, response: Any, stop: Optional[List[str]] = None, messages_api: bool = False, ) -> Iterator[GenerationChunk]: stream = response.get("body") if not stream: return if messages_api: output_key = "message" else: output_key = cls.provider_to_output_key_map.get(provider, "") if not output_key: raise ValueError( f"Unknown streaming response output key for provider: {provider}" ) for event in stream: chunk = event.get("chunk") if not chunk: continue chunk_obj = json.loads(chunk.get("bytes").decode()) if provider == "cohere" and ( chunk_obj["is_finished"] or chunk_obj[output_key] == "" ): return elif ( provider == "mistral" and chunk_obj.get(output_key, [{}])[0].get("stop_reason", "") == "stop" ): return elif messages_api and (chunk_obj.get("type") == "content_block_stop"): return if messages_api and chunk_obj.get("type") in ( "message_start", "content_block_start", "content_block_delta", ): if chunk_obj.get("type") == "content_block_delta": chk = _stream_response_to_generation_chunk(chunk_obj) yield chk else: continue else: # chunk obj format varies with provider yield GenerationChunk( text=( chunk_obj[output_key] if provider != "mistral" else chunk_obj[output_key][0]["text"] ), generation_info={ GUARDRAILS_BODY_KEY: ( chunk_obj.get(GUARDRAILS_BODY_KEY) if GUARDRAILS_BODY_KEY in chunk_obj else None ), }, ) @classmethod async def aprepare_output_stream( cls, provider: str, response: Any, stop: Optional[List[str]] = None ) -> AsyncIterator[GenerationChunk]: stream = response.get("body") if not stream: return output_key = cls.provider_to_output_key_map.get(provider, None) if not output_key: raise ValueError( f"Unknown streaming response output key for provider: {provider}" ) for event in stream: chunk = event.get("chunk") if not chunk: continue chunk_obj = json.loads(chunk.get("bytes").decode()) if provider == "cohere" and ( chunk_obj["is_finished"] or chunk_obj[output_key] == "" ): return if ( provider == "mistral" and chunk_obj.get(output_key, [{}])[0].get("stop_reason", "") == "stop" ): return yield GenerationChunk( text=( chunk_obj[output_key] if provider != "mistral" else chunk_obj[output_key][0]["text"] ) ) class BedrockBase(BaseModel, ABC): """Base class for Bedrock models.""" client: Any = Field(exclude=True) #: :meta private: region_name: Optional[str] = None """The aws region e.g., `us-west-2`. Fallsback to AWS_DEFAULT_REGION env variable or region specified in ~/.aws/config in case it is not provided here. """ credentials_profile_name: Optional[str] = Field(default=None, exclude=True) """The name of the profile in the ~/.aws/credentials or ~/.aws/config files, which has either access keys or role information specified. If not specified, the default credential profile or, if on an EC2 instance, credentials from IMDS will be used. See: https://boto3.amazonaws.com/v1/documentation/api/latest/guide/credentials.html """ config: Any = None """An optional botocore.config.Config instance to pass to the client.""" provider: Optional[str] = None """The model provider, e.g., amazon, cohere, ai21, etc. When not supplied, provider is extracted from the first part of the model_id e.g. 'amazon' in 'amazon.titan-text-express-v1'. This value should be provided for model ids that do not have the provider in them, e.g., custom and provisioned models that have an ARN associated with them.""" model_id: str """Id of the model to call, e.g., amazon.titan-text-express-v1, this is equivalent to the modelId property in the list-foundation-models api. For custom and provisioned models, an ARN value is expected.""" model_kwargs: Optional[Dict] = None """Keyword arguments to pass to the model.""" endpoint_url: Optional[str] = None """Needed if you don't want to default to us-east-1 endpoint""" streaming: bool = False """Whether to stream the results.""" provider_stop_sequence_key_name_map: Mapping[str, str] = { "anthropic": "stop_sequences", "amazon": "stopSequences", "ai21": "stop_sequences", "cohere": "stop_sequences", "mistral": "stop", } guardrails: Optional[Mapping[str, Any]] = { "id": None, "version": None, "trace": False, } """ An optional dictionary to configure guardrails for Bedrock. This field 'guardrails' consists of two keys: 'id' and 'version', which should be strings, but are initialized to None. It's used to determine if specific guardrails are enabled and properly set. Type: Optional[Mapping[str, str]]: A mapping with 'id' and 'version' keys. Example: llm = Bedrock(model_id="", client=, model_kwargs={}, guardrails={ "id": "", "version": ""}) To enable tracing for guardrails, set the 'trace' key to True and pass a callback handler to the 'run_manager' parameter of the 'generate', '_call' methods. Example: llm = Bedrock(model_id="", client=, model_kwargs={}, guardrails={ "id": "", "version": "", "trace": True}, callbacks=[BedrockAsyncCallbackHandler()]) [https://python.langchain.com/docs/modules/callbacks/] for more information on callback handlers. class BedrockAsyncCallbackHandler(AsyncCallbackHandler): async def on_llm_error( self, error: BaseException, **kwargs: Any, ) -> Any: reason = kwargs.get("reason") if reason == "GUARDRAIL_INTERVENED": ...Logic to handle guardrail intervention... """ # noqa: E501 @root_validator() def validate_environment(cls, values: Dict) -> Dict: """Validate that AWS credentials to and python package exists in environment.""" # Skip creating new client if passed in constructor if values["client"] is not None: return values try: import boto3 if values["credentials_profile_name"] is not None: session = boto3.Session(profile_name=values["credentials_profile_name"]) else: # use default credentials session = boto3.Session() values["region_name"] = get_from_dict_or_env( values, "region_name", "AWS_DEFAULT_REGION", default=session.region_name, ) client_params = {} if values["region_name"]: client_params["region_name"] = values["region_name"] if values["endpoint_url"]: client_params["endpoint_url"] = values["endpoint_url"] if values["config"]: client_params["config"] = values["config"] values["client"] = session.client("bedrock-runtime", **client_params) except ImportError: raise ImportError( "Could not import boto3 python package. " "Please install it with `pip install boto3`." ) except ValueError as e: raise ValueError(f"Error raised by bedrock service: {e}") except Exception as e: raise ValueError( "Could not load credentials to authenticate with AWS client. " "Please check that credentials in the specified " f"profile name are valid. Bedrock error: {e}" ) from e return values @property def _identifying_params(self) -> Mapping[str, Any]: """Get the identifying parameters.""" _model_kwargs = self.model_kwargs or {} return { **{"model_kwargs": _model_kwargs}, } def _get_provider(self) -> str: if self.provider: return self.provider if self.model_id.startswith("arn"): raise ValueError( "Model provider should be supplied when passing a model ARN as " "model_id" ) return self.model_id.split(".")[0] @property def _model_is_anthropic(self) -> bool: return self._get_provider() == "anthropic" @property def _guardrails_enabled(self) -> bool: """ Determines if guardrails are enabled and correctly configured. Checks if 'guardrails' is a dictionary with non-empty 'id' and 'version' keys. Checks if 'guardrails.trace' is true. Returns: bool: True if guardrails are correctly configured, False otherwise. Raises: TypeError: If 'guardrails' lacks 'id' or 'version' keys. """ try: return ( isinstance(self.guardrails, dict) and bool(self.guardrails["id"]) and bool(self.guardrails["version"]) ) except KeyError as e: raise TypeError( "Guardrails must be a dictionary with 'id' and 'version' keys." ) from e def _get_guardrails_canonical(self) -> Dict[str, Any]: """ The canonical way to pass in guardrails to the bedrock service adheres to the following format: "amazon-bedrock-guardrailDetails": { "guardrailId": "string", "guardrailVersion": "string" } """ return { "amazon-bedrock-guardrailDetails": { "guardrailId": self.guardrails.get("id"), # type: ignore[union-attr] "guardrailVersion": self.guardrails.get("version"), # type: ignore[union-attr] } } def _prepare_input_and_invoke( self, prompt: Optional[str] = None, system: Optional[str] = None, messages: Optional[List[Dict]] = None, stop: Optional[List[str]] = None, run_manager: Optional[CallbackManagerForLLMRun] = None, **kwargs: Any, ) -> Tuple[str, Dict[str, Any]]: _model_kwargs = self.model_kwargs or {} provider = self._get_provider() params = {**_model_kwargs, **kwargs} if self._guardrails_enabled: params.update(self._get_guardrails_canonical()) input_body = LLMInputOutputAdapter.prepare_input( provider=provider, model_kwargs=params, prompt=prompt, system=system, messages=messages, ) body = json.dumps(input_body) accept = "application/json" contentType = "application/json" request_options = { "body": body, "modelId": self.model_id, "accept": accept, "contentType": contentType, } if self._guardrails_enabled: request_options["guardrail"] = "ENABLED" if self.guardrails.get("trace"): # type: ignore[union-attr] request_options["trace"] = "ENABLED" try: response = self.client.invoke_model(**request_options) text, body, usage_info = LLMInputOutputAdapter.prepare_output( provider, response ).values() except Exception as e: raise ValueError(f"Error raised by bedrock service: {e}") if stop is not None: text = enforce_stop_tokens(text, stop) # Verify and raise a callback error if any intervention occurs or a signal is # sent from a Bedrock service, # such as when guardrails are triggered. services_trace = self._get_bedrock_services_signal(body) # type: ignore[arg-type] if services_trace.get("signal") and run_manager is not None: run_manager.on_llm_error( Exception( f"Error raised by bedrock service: {services_trace.get('reason')}" ), **services_trace, ) return text, usage_info def _get_bedrock_services_signal(self, body: dict) -> dict: """ This function checks the response body for an interrupt flag or message that indicates whether any of the Bedrock services have intervened in the processing flow. It is primarily used to identify modifications or interruptions imposed by these services during the request-response cycle with a Large Language Model (LLM). """ # noqa: E501 if ( self._guardrails_enabled and self.guardrails.get("trace") # type: ignore[union-attr] and self._is_guardrails_intervention(body) ): return { "signal": True, "reason": "GUARDRAIL_INTERVENED", "trace": body.get(AMAZON_BEDROCK_TRACE_KEY), } return { "signal": False, "reason": None, "trace": None, } def _is_guardrails_intervention(self, body: dict) -> bool: return body.get(GUARDRAILS_BODY_KEY) == "GUARDRAIL_INTERVENED" def _prepare_input_and_invoke_stream( self, prompt: Optional[str] = None, system: Optional[str] = None, messages: Optional[List[Dict]] = None, stop: Optional[List[str]] = None, run_manager: Optional[CallbackManagerForLLMRun] = None, **kwargs: Any, ) -> Iterator[GenerationChunk]: _model_kwargs = self.model_kwargs or {} provider = self._get_provider() if stop: if provider not in self.provider_stop_sequence_key_name_map: raise ValueError( f"Stop sequence key name for {provider} is not supported." ) # stop sequence from _generate() overrides # stop sequences in the class attribute _model_kwargs[self.provider_stop_sequence_key_name_map.get(provider)] = stop if provider == "cohere": _model_kwargs["stream"] = True params = {**_model_kwargs, **kwargs} if self._guardrails_enabled: params.update(self._get_guardrails_canonical()) input_body = LLMInputOutputAdapter.prepare_input( provider=provider, prompt=prompt, system=system, messages=messages, model_kwargs=params, ) body = json.dumps(input_body) request_options = { "body": body, "modelId": self.model_id, "accept": "application/json", "contentType": "application/json", } if self._guardrails_enabled: request_options["guardrail"] = "ENABLED" if self.guardrails.get("trace"): # type: ignore[union-attr] request_options["trace"] = "ENABLED" try: response = self.client.invoke_model_with_response_stream(**request_options) except Exception as e: raise ValueError(f"Error raised by bedrock service: {e}") for chunk in LLMInputOutputAdapter.prepare_output_stream( provider, response, stop, True if messages else False ): yield chunk # verify and raise callback error if any middleware intervened self._get_bedrock_services_signal(chunk.generation_info) # type: ignore[arg-type] if run_manager is not None: run_manager.on_llm_new_token(chunk.text, chunk=chunk) async def _aprepare_input_and_invoke_stream( self, prompt: str, stop: Optional[List[str]] = None, run_manager: Optional[AsyncCallbackManagerForLLMRun] = None, **kwargs: Any, ) -> AsyncIterator[GenerationChunk]: _model_kwargs = self.model_kwargs or {} provider = self._get_provider() if stop: if provider not in self.provider_stop_sequence_key_name_map: raise ValueError( f"Stop sequence key name for {provider} is not supported." ) _model_kwargs[self.provider_stop_sequence_key_name_map.get(provider)] = stop if provider == "cohere": _model_kwargs["stream"] = True params = {**_model_kwargs, **kwargs} input_body = LLMInputOutputAdapter.prepare_input( provider=provider, prompt=prompt, model_kwargs=params ) body = json.dumps(input_body) response = await asyncio.get_running_loop().run_in_executor( None, lambda: self.client.invoke_model_with_response_stream( body=body, modelId=self.model_id, accept="application/json", contentType="application/json", ), ) async for chunk in LLMInputOutputAdapter.aprepare_output_stream( provider, response, stop ): yield chunk if run_manager is not None and asyncio.iscoroutinefunction( run_manager.on_llm_new_token ): await run_manager.on_llm_new_token(chunk.text, chunk=chunk) elif run_manager is not None: run_manager.on_llm_new_token(chunk.text, chunk=chunk) # type: ignore[unused-coroutine] @deprecated( since="0.0.34", removal="0.3", alternative_import="langchain_aws.BedrockLLM" ) class Bedrock(LLM, BedrockBase): """Bedrock models. To authenticate, the AWS client uses the following methods to automatically load credentials: https://boto3.amazonaws.com/v1/documentation/api/latest/guide/credentials.html If a specific credential profile should be used, you must pass the name of the profile from the ~/.aws/credentials file that is to be used. Make sure the credentials / roles used have the required policies to access the Bedrock service. """ """ Example: .. code-block:: python from bedrock_langchain.bedrock_llm import BedrockLLM llm = BedrockLLM( credentials_profile_name="default", model_id="amazon.titan-text-express-v1", streaming=True ) """ @root_validator() def validate_environment(cls, values: Dict) -> Dict: model_id = values["model_id"] if model_id.startswith("anthropic.claude-3"): raise ValueError( "Claude v3 models are not supported by this LLM." "Please use `from langchain_community.chat_models import BedrockChat` " "instead." ) return super().validate_environment(values) @property def _llm_type(self) -> str: """Return type of llm.""" return "amazon_bedrock" @classmethod def is_lc_serializable(cls) -> bool: """Return whether this model can be serialized by Langchain.""" return True @classmethod def get_lc_namespace(cls) -> List[str]: """Get the namespace of the langchain object.""" return ["langchain", "llms", "bedrock"] @property def lc_attributes(self) -> Dict[str, Any]: attributes: Dict[str, Any] = {} if self.region_name: attributes["region_name"] = self.region_name return attributes class Config: """Configuration for this pydantic object.""" extra = Extra.forbid def _stream( self, prompt: str, stop: Optional[List[str]] = None, run_manager: Optional[CallbackManagerForLLMRun] = None, **kwargs: Any, ) -> Iterator[GenerationChunk]: """Call out to Bedrock service with streaming. Args: prompt (str): The prompt to pass into the model stop (Optional[List[str]], optional): Stop sequences. These will override any stop sequences in the `model_kwargs` attribute. Defaults to None. run_manager (Optional[CallbackManagerForLLMRun], optional): Callback run managers used to process the output. Defaults to None. Returns: Iterator[GenerationChunk]: Generator that yields the streamed responses. Yields: Iterator[GenerationChunk]: Responses from the model. """ return self._prepare_input_and_invoke_stream( prompt=prompt, stop=stop, run_manager=run_manager, **kwargs ) def _call( self, prompt: str, stop: Optional[List[str]] = None, run_manager: Optional[CallbackManagerForLLMRun] = None, **kwargs: Any, ) -> str: """Call out to Bedrock service model. Args: prompt: The prompt to pass into the model. stop: Optional list of stop words to use when generating. Returns: The string generated by the model. Example: .. code-block:: python response = llm.invoke("Tell me a joke.") """ if self.streaming: completion = "" for chunk in self._stream( prompt=prompt, stop=stop, run_manager=run_manager, **kwargs ): completion += chunk.text return completion text, _ = self._prepare_input_and_invoke( prompt=prompt, stop=stop, run_manager=run_manager, **kwargs ) return text async def _astream( self, prompt: str, stop: Optional[List[str]] = None, run_manager: Optional[AsyncCallbackManagerForLLMRun] = None, **kwargs: Any, ) -> AsyncGenerator[GenerationChunk, None]: """Call out to Bedrock service with streaming. Args: prompt (str): The prompt to pass into the model stop (Optional[List[str]], optional): Stop sequences. These will override any stop sequences in the `model_kwargs` attribute. Defaults to None. run_manager (Optional[CallbackManagerForLLMRun], optional): Callback run managers used to process the output. Defaults to None. Yields: AsyncGenerator[GenerationChunk, None]: Generator that asynchronously yields the streamed responses. """ async for chunk in self._aprepare_input_and_invoke_stream( prompt=prompt, stop=stop, run_manager=run_manager, **kwargs ): yield chunk async def _acall( self, prompt: str, stop: Optional[List[str]] = None, run_manager: Optional[AsyncCallbackManagerForLLMRun] = None, **kwargs: Any, ) -> str: """Call out to Bedrock service model. Args: prompt: The prompt to pass into the model. stop: Optional list of stop words to use when generating. Returns: The string generated by the model. Example: .. code-block:: python response = await llm._acall("Tell me a joke.") """ if not self.streaming: raise ValueError("Streaming must be set to True for async operations. ") chunks = [ chunk.text async for chunk in self._astream( prompt=prompt, stop=stop, run_manager=run_manager, **kwargs ) ] return "".join(chunks) def get_num_tokens(self, text: str) -> int: if self._model_is_anthropic: return get_num_tokens_anthropic(text) else: return super().get_num_tokens(text) def get_token_ids(self, text: str) -> List[int]: if self._model_is_anthropic: return get_token_ids_anthropic(text) else: return super().get_token_ids(text)