# Copyright (c) Meta Platforms, Inc. and affiliates. # All rights reserved. # # This source code is licensed under the terms described in the LICENSE file in # the root directory of this source tree. import copy import json import re import secrets import string import uuid from datetime import datetime, timezone from typing import AsyncGenerator, List, Optional, Union import httpx from llama_stack.apis.agents import ( AgentConfig, AgentToolGroup, AgentToolGroupWithArgs, AgentTurnCreateRequest, AgentTurnResponseEvent, AgentTurnResponseEventType, AgentTurnResponseStepCompletePayload, AgentTurnResponseStepProgressPayload, AgentTurnResponseStepStartPayload, AgentTurnResponseStreamChunk, AgentTurnResponseTurnAwaitingInputPayload, AgentTurnResponseTurnCompletePayload, AgentTurnResumeRequest, Attachment, Document, InferenceStep, ShieldCallStep, StepType, ToolExecutionStep, Turn, ) from llama_stack.apis.common.content_types import ( URL, TextContentItem, ToolCallDelta, ToolCallParseStatus, ) from llama_stack.apis.inference import ( ChatCompletionResponseEventType, CompletionMessage, Inference, Message, SamplingParams, StopReason, SystemMessage, ToolDefinition, ToolParamDefinition, ToolResponse, ToolResponseMessage, UserMessage, ) from llama_stack.apis.safety import Safety from llama_stack.apis.tools import ToolGroups, ToolInvocationResult, ToolRuntime from llama_stack.apis.vector_io import VectorIO from llama_stack.log import get_logger from llama_stack.models.llama.datatypes import ( BuiltinTool, ToolCall, ) from llama_stack.providers.utils.kvstore import KVStore from llama_stack.providers.utils.telemetry import tracing from .persistence import AgentPersistence from .safety import SafetyException, ShieldRunnerMixin def make_random_string(length: int = 8): return "".join(secrets.choice(string.ascii_letters + string.digits) for _ in range(length)) TOOLS_ATTACHMENT_KEY_REGEX = re.compile(r"__tools_attachment__=(\{.*?\})") MEMORY_QUERY_TOOL = "knowledge_search" WEB_SEARCH_TOOL = "web_search" RAG_TOOL_GROUP = "builtin::rag" logger = get_logger(name=__name__, category="agents") class ChatAgent(ShieldRunnerMixin): def __init__( self, agent_id: str, agent_config: AgentConfig, inference_api: Inference, safety_api: Safety, tool_runtime_api: ToolRuntime, tool_groups_api: ToolGroups, vector_io_api: VectorIO, persistence_store: KVStore, ): self.agent_id = agent_id self.agent_config = agent_config self.inference_api = inference_api self.safety_api = safety_api self.vector_io_api = vector_io_api self.storage = AgentPersistence(agent_id, persistence_store) self.tool_runtime_api = tool_runtime_api self.tool_groups_api = tool_groups_api ShieldRunnerMixin.__init__( self, safety_api, input_shields=agent_config.input_shields, output_shields=agent_config.output_shields, ) def turn_to_messages(self, turn: Turn) -> List[Message]: messages = [] # NOTE: if a toolcall response is in a step, we do not add it when processing the input messages tool_call_ids = set() for step in turn.steps: if step.step_type == StepType.tool_execution.value: for response in step.tool_responses: tool_call_ids.add(response.call_id) for m in turn.input_messages: msg = m.model_copy() # We do not want to keep adding RAG context to the input messages # May be this should be a parameter of the agentic instance # that can define its behavior in a custom way if isinstance(msg, UserMessage): msg.context = None if isinstance(msg, ToolResponseMessage): if msg.call_id in tool_call_ids: # NOTE: do not add ToolResponseMessage here, we'll add them in tool_execution steps continue messages.append(msg) for step in turn.steps: if step.step_type == StepType.inference.value: messages.append(step.model_response) elif step.step_type == StepType.tool_execution.value: for response in step.tool_responses: messages.append( ToolResponseMessage( call_id=response.call_id, content=response.content, ) ) elif step.step_type == StepType.shield_call.value: if step.violation: # CompletionMessage itself in the ShieldResponse messages.append( CompletionMessage( content=step.violation.user_message, stop_reason=StopReason.end_of_turn, ) ) return messages async def create_session(self, name: str) -> str: return await self.storage.create_session(name) async def get_messages_from_turns(self, turns: List[Turn]) -> List[Message]: messages = [] if self.agent_config.instructions != "": messages.append(SystemMessage(content=self.agent_config.instructions)) for turn in turns: messages.extend(self.turn_to_messages(turn)) return messages async def create_and_execute_turn(self, request: AgentTurnCreateRequest) -> AsyncGenerator: span = tracing.get_current_span() if span: span.set_attribute("session_id", request.session_id) span.set_attribute("agent_id", self.agent_id) span.set_attribute("request", request.model_dump_json()) turn_id = str(uuid.uuid4()) span.set_attribute("turn_id", turn_id) await self._initialize_tools(request.toolgroups) async for chunk in self._run_turn(request, turn_id): yield chunk async def resume_turn(self, request: AgentTurnResumeRequest) -> AsyncGenerator: span = tracing.get_current_span() if span: span.set_attribute("agent_id", self.agent_id) span.set_attribute("session_id", request.session_id) span.set_attribute("request", request.model_dump_json()) span.set_attribute("turn_id", request.turn_id) await self._initialize_tools() async for chunk in self._run_turn(request): yield chunk async def _run_turn( self, request: Union[AgentTurnCreateRequest, AgentTurnResumeRequest], turn_id: Optional[str] = None, ) -> AsyncGenerator: assert request.stream is True, "Non-streaming not supported" is_resume = isinstance(request, AgentTurnResumeRequest) session_info = await self.storage.get_session_info(request.session_id) if session_info is None: raise ValueError(f"Session {request.session_id} not found") turns = await self.storage.get_session_turns(request.session_id) if is_resume and len(turns) == 0: raise ValueError("No turns found for session") steps = [] messages = await self.get_messages_from_turns(turns) if is_resume: tool_response_messages = [ ToolResponseMessage(call_id=x.call_id, content=x.content) for x in request.tool_responses ] messages.extend(tool_response_messages) last_turn = turns[-1] last_turn_messages = self.turn_to_messages(last_turn) last_turn_messages = [ x for x in last_turn_messages if isinstance(x, UserMessage) or isinstance(x, ToolResponseMessage) ] last_turn_messages.extend(tool_response_messages) # get steps from the turn steps = last_turn.steps # mark tool execution step as complete # if there's no tool execution in progress step (due to storage, or tool call parsing on client), # we'll create a new tool execution step with current time in_progress_tool_call_step = await self.storage.get_in_progress_tool_call_step( request.session_id, request.turn_id ) now = datetime.now(timezone.utc).isoformat() tool_execution_step = ToolExecutionStep( step_id=(in_progress_tool_call_step.step_id if in_progress_tool_call_step else str(uuid.uuid4())), turn_id=request.turn_id, tool_calls=(in_progress_tool_call_step.tool_calls if in_progress_tool_call_step else []), tool_responses=request.tool_responses, completed_at=now, started_at=(in_progress_tool_call_step.started_at if in_progress_tool_call_step else now), ) steps.append(tool_execution_step) yield AgentTurnResponseStreamChunk( event=AgentTurnResponseEvent( payload=AgentTurnResponseStepCompletePayload( step_type=StepType.tool_execution.value, step_id=tool_execution_step.step_id, step_details=tool_execution_step, ) ) ) input_messages = last_turn.input_messages turn_id = request.turn_id start_time = last_turn.started_at else: messages.extend(request.messages) start_time = datetime.now(timezone.utc).isoformat() input_messages = request.messages output_message = None async for chunk in self.run( session_id=request.session_id, turn_id=turn_id, input_messages=messages, sampling_params=self.agent_config.sampling_params, stream=request.stream, documents=request.documents if not is_resume else None, ): if isinstance(chunk, CompletionMessage): output_message = chunk continue assert isinstance(chunk, AgentTurnResponseStreamChunk), f"Unexpected type {type(chunk)}" event = chunk.event if event.payload.event_type == AgentTurnResponseEventType.step_complete.value: steps.append(event.payload.step_details) yield chunk assert output_message is not None turn = Turn( turn_id=turn_id, session_id=request.session_id, input_messages=input_messages, output_message=output_message, started_at=start_time, completed_at=datetime.now(timezone.utc).isoformat(), steps=steps, ) await self.storage.add_turn_to_session(request.session_id, turn) if output_message.tool_calls: chunk = AgentTurnResponseStreamChunk( event=AgentTurnResponseEvent( payload=AgentTurnResponseTurnAwaitingInputPayload( turn=turn, ) ) ) else: chunk = AgentTurnResponseStreamChunk( event=AgentTurnResponseEvent( payload=AgentTurnResponseTurnCompletePayload( turn=turn, ) ) ) yield chunk async def run( self, session_id: str, turn_id: str, input_messages: List[Message], sampling_params: SamplingParams, stream: bool = False, documents: Optional[List[Document]] = None, ) -> AsyncGenerator: # Doing async generators makes downstream code much simpler and everything amenable to # streaming. However, it also makes things complicated here because AsyncGenerators cannot # return a "final value" for the `yield from` statement. we simulate that by yielding a # final boolean (to see whether an exception happened) and then explicitly testing for it. if len(self.input_shields) > 0: async for res in self.run_multiple_shields_wrapper( turn_id, input_messages, self.input_shields, "user-input" ): if isinstance(res, bool): return else: yield res async for res in self._run( session_id, turn_id, input_messages, sampling_params, stream, documents, ): if isinstance(res, bool): return elif isinstance(res, CompletionMessage): final_response = res break else: yield res assert final_response is not None # for output shields run on the full input and output combination messages = input_messages + [final_response] if len(self.output_shields) > 0: async for res in self.run_multiple_shields_wrapper( turn_id, messages, self.output_shields, "assistant-output" ): if isinstance(res, bool): return else: yield res yield final_response async def run_multiple_shields_wrapper( self, turn_id: str, messages: List[Message], shields: List[str], touchpoint: str, ) -> AsyncGenerator: async with tracing.span("run_shields") as span: span.set_attribute("input", [m.model_dump_json() for m in messages]) if len(shields) == 0: span.set_attribute("output", "no shields") return step_id = str(uuid.uuid4()) shield_call_start_time = datetime.now(timezone.utc).isoformat() try: yield AgentTurnResponseStreamChunk( event=AgentTurnResponseEvent( payload=AgentTurnResponseStepStartPayload( step_type=StepType.shield_call.value, step_id=step_id, metadata=dict(touchpoint=touchpoint), ) ) ) await self.run_multiple_shields(messages, shields) except SafetyException as e: yield AgentTurnResponseStreamChunk( event=AgentTurnResponseEvent( payload=AgentTurnResponseStepCompletePayload( step_type=StepType.shield_call.value, step_id=step_id, step_details=ShieldCallStep( step_id=step_id, turn_id=turn_id, violation=e.violation, started_at=shield_call_start_time, completed_at=datetime.now(timezone.utc).isoformat(), ), ) ) ) span.set_attribute("output", e.violation.model_dump_json()) yield CompletionMessage( content=str(e), stop_reason=StopReason.end_of_turn, ) yield False yield AgentTurnResponseStreamChunk( event=AgentTurnResponseEvent( payload=AgentTurnResponseStepCompletePayload( step_type=StepType.shield_call.value, step_id=step_id, step_details=ShieldCallStep( step_id=step_id, turn_id=turn_id, violation=None, started_at=shield_call_start_time, completed_at=datetime.now(timezone.utc).isoformat(), ), ) ) ) span.set_attribute("output", "no violations") async def _run( self, session_id: str, turn_id: str, input_messages: List[Message], sampling_params: SamplingParams, stream: bool = False, documents: Optional[List[Document]] = None, ) -> AsyncGenerator: # if document is passed in a turn, we parse the raw text of the document # and sent it as a user message if documents: contexts = [] for document in documents: raw_document_text = await get_raw_document_text(document) contexts.append(raw_document_text) attached_context = "\n".join(contexts) if isinstance(input_messages[-1].content, str): input_messages[-1].content += attached_context elif isinstance(input_messages[-1].content, list): input_messages[-1].content.append(TextContentItem(text=attached_context)) else: input_messages[-1].content = [ input_messages[-1].content, TextContentItem(text=attached_context), ] session_info = await self.storage.get_session_info(session_id) # if the session has a memory bank id, let the memory tool use it if session_info and session_info.vector_db_id: for tool_name in self.tool_name_to_args.keys(): if tool_name == MEMORY_QUERY_TOOL: if "vector_db_ids" not in self.tool_name_to_args[tool_name]: self.tool_name_to_args[tool_name]["vector_db_ids"] = [session_info.vector_db_id] else: self.tool_name_to_args[tool_name]["vector_db_ids"].append(session_info.vector_db_id) output_attachments = [] n_iter = await self.storage.get_num_infer_iters_in_turn(session_id, turn_id) or 0 # Build a map of custom tools to their definitions for faster lookup client_tools = {} for tool in self.agent_config.client_tools: client_tools[tool.name] = tool while True: step_id = str(uuid.uuid4()) inference_start_time = datetime.now(timezone.utc).isoformat() yield AgentTurnResponseStreamChunk( event=AgentTurnResponseEvent( payload=AgentTurnResponseStepStartPayload( step_type=StepType.inference.value, step_id=step_id, ) ) ) tool_calls = [] content = "" stop_reason = None async with tracing.span("inference") as span: async for chunk in await self.inference_api.chat_completion( self.agent_config.model, input_messages, tools=self.tool_defs, tool_prompt_format=self.agent_config.tool_config.tool_prompt_format, response_format=self.agent_config.response_format, stream=True, sampling_params=sampling_params, tool_config=self.agent_config.tool_config, ): event = chunk.event if event.event_type == ChatCompletionResponseEventType.start: continue elif event.event_type == ChatCompletionResponseEventType.complete: stop_reason = StopReason.end_of_turn continue delta = event.delta if delta.type == "tool_call": if delta.parse_status == ToolCallParseStatus.succeeded: tool_calls.append(delta.tool_call) elif delta.parse_status == ToolCallParseStatus.failed: # If we cannot parse the tools, set the content to the unparsed raw text content = delta.tool_call if stream: yield AgentTurnResponseStreamChunk( event=AgentTurnResponseEvent( payload=AgentTurnResponseStepProgressPayload( step_type=StepType.inference.value, step_id=step_id, delta=delta, ) ) ) elif delta.type == "text": content += delta.text if stream and event.stop_reason is None: yield AgentTurnResponseStreamChunk( event=AgentTurnResponseEvent( payload=AgentTurnResponseStepProgressPayload( step_type=StepType.inference.value, step_id=step_id, delta=delta, ) ) ) else: raise ValueError(f"Unexpected delta type {type(delta)}") if event.stop_reason is not None: stop_reason = event.stop_reason span.set_attribute("stop_reason", stop_reason) span.set_attribute( "input", json.dumps([json.loads(m.model_dump_json()) for m in input_messages]), ) output_attr = json.dumps( { "content": content, "tool_calls": [json.loads(t.model_dump_json()) for t in tool_calls], } ) span.set_attribute("output", output_attr) n_iter += 1 await self.storage.set_num_infer_iters_in_turn(session_id, turn_id, n_iter) stop_reason = stop_reason or StopReason.out_of_tokens # If tool calls are parsed successfully, # if content is not made null the tool call str will also be in the content # and tokens will have tool call syntax included twice if tool_calls: content = "" message = CompletionMessage( content=content, stop_reason=stop_reason, tool_calls=tool_calls, ) yield AgentTurnResponseStreamChunk( event=AgentTurnResponseEvent( payload=AgentTurnResponseStepCompletePayload( step_type=StepType.inference.value, step_id=step_id, step_details=InferenceStep( # somewhere deep, we are re-assigning message or closing over some # variable which causes message to mutate later on. fix with a # `deepcopy` for now, but this is symptomatic of a deeper issue. step_id=step_id, turn_id=turn_id, model_response=copy.deepcopy(message), started_at=inference_start_time, completed_at=datetime.now(timezone.utc).isoformat(), ), ) ) ) if n_iter >= self.agent_config.max_infer_iters: logger.info(f"done with MAX iterations ({n_iter}), exiting.") # NOTE: mark end_of_turn to indicate to client that we are done with the turn # Do not continue the tool call loop after this point message.stop_reason = StopReason.end_of_turn yield message break if stop_reason == StopReason.out_of_tokens: logger.info("out of token budget, exiting.") yield message break if len(message.tool_calls) == 0: if stop_reason == StopReason.end_of_turn: # TODO: UPDATE RETURN TYPE TO SEND A TUPLE OF (MESSAGE, ATTACHMENTS) if len(output_attachments) > 0: if isinstance(message.content, list): message.content += output_attachments else: message.content = [message.content] + output_attachments yield message else: logger.debug(f"completion message with EOM (iter: {n_iter}): {str(message)}") input_messages = input_messages + [message] else: input_messages = input_messages + [message] # Process tool calls in the message client_tool_calls = [] non_client_tool_calls = [] # Separate client and non-client tool calls for tool_call in message.tool_calls: if tool_call.tool_name in client_tools: client_tool_calls.append(tool_call) else: non_client_tool_calls.append(tool_call) # Process non-client tool calls first for tool_call in non_client_tool_calls: step_id = str(uuid.uuid4()) yield AgentTurnResponseStreamChunk( event=AgentTurnResponseEvent( payload=AgentTurnResponseStepStartPayload( step_type=StepType.tool_execution.value, step_id=step_id, ) ) ) yield AgentTurnResponseStreamChunk( event=AgentTurnResponseEvent( payload=AgentTurnResponseStepProgressPayload( step_type=StepType.tool_execution.value, step_id=step_id, delta=ToolCallDelta( parse_status=ToolCallParseStatus.in_progress, tool_call=tool_call, ), ) ) ) # Execute the tool call async with tracing.span( "tool_execution", { "tool_name": tool_call.tool_name, "input": message.model_dump_json(), }, ) as span: tool_execution_start_time = datetime.now(timezone.utc).isoformat() tool_result = await self.execute_tool_call_maybe( session_id, tool_call, ) if tool_result.content is None: raise ValueError( f"Tool call result (id: {tool_call.call_id}, name: {tool_call.tool_name}) does not have any content" ) result_message = ToolResponseMessage( call_id=tool_call.call_id, content=tool_result.content, ) span.set_attribute("output", result_message.model_dump_json()) # Store tool execution step tool_execution_step = ToolExecutionStep( step_id=step_id, turn_id=turn_id, tool_calls=[tool_call], tool_responses=[ ToolResponse( call_id=tool_call.call_id, tool_name=tool_call.tool_name, content=tool_result.content, metadata=tool_result.metadata, ) ], started_at=tool_execution_start_time, completed_at=datetime.now(timezone.utc).isoformat(), ) # Yield the step completion event yield AgentTurnResponseStreamChunk( event=AgentTurnResponseEvent( payload=AgentTurnResponseStepCompletePayload( step_type=StepType.tool_execution.value, step_id=step_id, step_details=tool_execution_step, ) ) ) # Add the result message to input_messages for the next iteration input_messages.append(result_message) # TODO: add tool-input touchpoint and a "start" event for this step also # but that needs a lot more refactoring of Tool code potentially if (type(result_message.content) is str) and ( out_attachment := _interpret_content_as_attachment(result_message.content) ): # NOTE: when we push this message back to the model, the model may ignore the # attached file path etc. since the model is trained to only provide a user message # with the summary. We keep all generated attachments and then attach them to final message output_attachments.append(out_attachment) # If there are client tool calls, yield a message with only those tool calls if client_tool_calls: await self.storage.set_in_progress_tool_call_step( session_id, turn_id, ToolExecutionStep( step_id=step_id, turn_id=turn_id, tool_calls=client_tool_calls, tool_responses=[], started_at=datetime.now(timezone.utc).isoformat(), ), ) # Create a copy of the message with only client tool calls client_message = message.model_copy(deep=True) client_message.tool_calls = client_tool_calls # NOTE: mark end_of_message to indicate to client that it may # call the tool and continue the conversation with the tool's response. client_message.stop_reason = StopReason.end_of_message # Yield the message with client tool calls yield client_message return async def _initialize_tools( self, toolgroups_for_turn: Optional[List[AgentToolGroup]] = None, ) -> None: toolgroup_to_args = {} for toolgroup in (self.agent_config.toolgroups or []) + (toolgroups_for_turn or []): if isinstance(toolgroup, AgentToolGroupWithArgs): tool_group_name, _ = self._parse_toolgroup_name(toolgroup.name) toolgroup_to_args[tool_group_name] = toolgroup.args # Determine which tools to include tool_groups_to_include = toolgroups_for_turn or self.agent_config.toolgroups or [] agent_config_toolgroups = [] for toolgroup in tool_groups_to_include: name = toolgroup.name if isinstance(toolgroup, AgentToolGroupWithArgs) else toolgroup if name not in agent_config_toolgroups: agent_config_toolgroups.append(name) toolgroup_to_args = toolgroup_to_args or {} tool_name_to_def = {} tool_name_to_args = {} for tool_def in self.agent_config.client_tools: if tool_name_to_def.get(tool_def.name, None): raise ValueError(f"Tool {tool_def.name} already exists") tool_name_to_def[tool_def.name] = ToolDefinition( tool_name=tool_def.name, description=tool_def.description, parameters={ param.name: ToolParamDefinition( param_type=param.parameter_type, description=param.description, required=param.required, default=param.default, ) for param in tool_def.parameters }, ) for toolgroup_name_with_maybe_tool_name in agent_config_toolgroups: toolgroup_name, input_tool_name = self._parse_toolgroup_name(toolgroup_name_with_maybe_tool_name) tools = await self.tool_groups_api.list_tools(toolgroup_id=toolgroup_name) if not tools.data: available_tool_groups = ", ".join( [t.identifier for t in (await self.tool_groups_api.list_tool_groups()).data] ) raise ValueError(f"Toolgroup {toolgroup_name} not found, available toolgroups: {available_tool_groups}") if input_tool_name is not None and not any(tool.identifier == input_tool_name for tool in tools.data): raise ValueError( f"Tool {input_tool_name} not found in toolgroup {toolgroup_name}. Available tools: {', '.join([tool.identifier for tool in tools.data])}" ) for tool_def in tools.data: if toolgroup_name.startswith("builtin") and toolgroup_name != RAG_TOOL_GROUP: identifier: str | BuiltinTool | None = tool_def.identifier if identifier == "web_search": identifier = BuiltinTool.brave_search else: identifier = BuiltinTool(identifier) else: # add if tool_name is unspecified or the tool_def identifier is the same as the tool_name if input_tool_name in (None, tool_def.identifier): identifier = tool_def.identifier else: identifier = None if tool_name_to_def.get(identifier, None): raise ValueError(f"Tool {identifier} already exists") if identifier: tool_name_to_def[tool_def.identifier] = ToolDefinition( tool_name=identifier, description=tool_def.description, parameters={ param.name: ToolParamDefinition( param_type=param.parameter_type, description=param.description, required=param.required, default=param.default, ) for param in tool_def.parameters }, ) tool_name_to_args[tool_def.identifier] = toolgroup_to_args.get(toolgroup_name, {}) self.tool_defs, self.tool_name_to_args = ( list(tool_name_to_def.values()), tool_name_to_args, ) def _parse_toolgroup_name(self, toolgroup_name_with_maybe_tool_name: str) -> tuple[str, Optional[str]]: """Parse a toolgroup name into its components. Args: toolgroup_name: The toolgroup name to parse (e.g. "builtin::rag/knowledge_search") Returns: A tuple of (tool_type, tool_group, tool_name) """ split_names = toolgroup_name_with_maybe_tool_name.split("/") if len(split_names) == 2: # e.g. "builtin::rag" tool_group, tool_name = split_names else: tool_group, tool_name = split_names[0], None return tool_group, tool_name async def execute_tool_call_maybe( self, session_id: str, tool_call: ToolCall, ) -> ToolInvocationResult: tool_name = tool_call.tool_name registered_tool_names = [tool_def.tool_name for tool_def in self.tool_defs] if tool_name not in registered_tool_names: raise ValueError( f"Tool {tool_name} not found in provided tools, registered tools: {', '.join([str(x) for x in registered_tool_names])}" ) if isinstance(tool_name, BuiltinTool): if tool_name == BuiltinTool.brave_search: tool_name_str = WEB_SEARCH_TOOL else: tool_name_str = tool_name.value else: tool_name_str = tool_name logger.info(f"executing tool call: {tool_name_str} with args: {tool_call.arguments}") result = await self.tool_runtime_api.invoke_tool( tool_name=tool_name_str, kwargs={ "session_id": session_id, # get the arguments generated by the model and augment with toolgroup arg overrides for the agent **tool_call.arguments, **self.tool_name_to_args.get(tool_name_str, {}), }, ) logger.debug(f"tool call {tool_name_str} completed with result: {result}") return result async def load_data_from_url(url: str) -> str: if url.startswith("http"): async with httpx.AsyncClient() as client: r = await client.get(url) resp = r.text return resp raise ValueError(f"Unexpected URL: {type(url)}") async def get_raw_document_text(document: Document) -> str: if not document.mime_type.startswith("text/"): raise ValueError(f"Unexpected document mime type: {document.mime_type}") if isinstance(document.content, URL): return await load_data_from_url(document.content.uri) elif isinstance(document.content, str): return document.content elif isinstance(document.content, TextContentItem): return document.content.text else: raise ValueError(f"Unexpected document content type: {type(document.content)}") def _interpret_content_as_attachment( content: str, ) -> Optional[Attachment]: match = re.search(TOOLS_ATTACHMENT_KEY_REGEX, content) if match: snippet = match.group(1) data = json.loads(snippet) return Attachment( url=URL(uri="file://" + data["filepath"]), mime_type=data["mimetype"], ) return None