Merge branch 'main' into bugfix/flow-persist-nested-models

resuse existing code and address PRs
2025-12-18 13:28:31 +00:00 · 2025-03-21 17:03:57 -07:00 · 2025-03-21 15:10:08 -04:00 · 2025-03-21 11:59:11 -07:00 · 2025-03-10 12:05:13 -04:00 · 2025-03-07 12:55:05 -05:00
146 changed files with 13413 additions and 34443 deletions
--- a/.github/workflows/tests.yml
+++ b/.github/workflows/tests.yml
@@ -12,9 +12,6 @@ jobs:
  tests:
    runs-on: ubuntu-latest
    timeout-minutes: 15
-    strategy:
-      matrix:
-        python-version: ['3.10', '3.11', '3.12']
    steps:
      - name: Checkout code
        uses: actions/checkout@v4
@@ -24,8 +21,9 @@ jobs:
        with:
          enable-cache: true

-      - name: Set up Python ${{ matrix.python-version }}
-        run: uv python install ${{ matrix.python-version }}
+
+      - name: Set up Python
+        run: uv python install 3.12.8

      - name: Install the project
        run: uv sync --dev --all-extras
--- a/.gitignore
+++ b/.gitignore
@@ -25,5 +25,4 @@ agentops.log
 test_flow.html
 crewairules.mdc
 plan.md
-conceptual_plan.md
-build_image
+conceptual_plan.md
--- a/README.md
+++ b/README.md
@@ -401,16 +401,11 @@ You can test different real life examples of AI crews in the [CrewAI-examples re

 ### Using Crews and Flows Together

-CrewAI's power truly shines when combining Crews with Flows to create sophisticated automation pipelines.
-CrewAI flows support logical operators like `or_` and `and_` to combine multiple conditions. This can be used with `@start`, `@listen`, or `@router` decorators to create complex triggering conditions.
- `or_`: Triggers when any of the specified conditions are met. 
- `and_`Triggers when all of the specified conditions are met.
-
-Here's how you can orchestrate multiple Crews within a Flow:
+CrewAI's power truly shines when combining Crews with Flows to create sophisticated automation pipelines. Here's how you can orchestrate multiple Crews within a Flow:

 ```python
-from crewai.flow.flow import Flow, listen, start, router, or_
-from crewai import Crew, Agent, Task, Process
+from crewai.flow.flow import Flow, listen, start, router
+from crewai import Crew, Agent, Task
 from pydantic import BaseModel

 # Define structured state for precise control
@@ -484,7 +479,7 @@ class AdvancedAnalysisFlow(Flow[MarketState]):
        )
        return strategy_crew.kickoff()

-    @listen(or_("medium_confidence", "low_confidence"))
+    @listen("medium_confidence", "low_confidence")
    def request_additional_analysis(self):
        self.state.recommendations.append("Gather more data")
        return "Additional analysis required"
--- a/docs/changelog.mdx
+++ b/docs/changelog.mdx
@@ -4,7 +4,7 @@ description: View the latest updates and changes to CrewAI
 icon: timeline
 ---

-<Update label="2025-03-17" description="v0.108.0">
+<Update label="2024-03-17" description="v0.108.0">
  **Features**
  - Converted tabs to spaces in `crew.py` template
  - Enhanced LLM Streaming Response Handling and Event System
@@ -24,7 +24,7 @@ icon: timeline
  - Added documentation for `ApifyActorsTool`
 </Update>

-<Update label="2025-03-10" description="v0.105.0">
+<Update label="2024-03-10" description="v0.105.0">
  **Core Improvements & Fixes**
  - Fixed issues with missing template variables and user memory configuration
  - Improved async flow support and addressed agent response formatting
@@ -45,7 +45,7 @@ icon: timeline
  - Fixed typos in prompts and updated Amazon Bedrock model listings
 </Update>

-<Update label="2025-02-12" description="v0.102.0">
+<Update label="2024-02-12" description="v0.102.0">
  **Core Improvements & Fixes**
  - Enhanced LLM Support: Improved structured LLM output, parameter handling, and formatting for Anthropic models
  - Crew & Agent Stability: Fixed issues with cloning agents/crews using knowledge sources, multiple task outputs in conditional tasks, and ignored Crew task callbacks
@@ -65,7 +65,7 @@ icon: timeline
  - Fixed Various Typos & Formatting Issues
 </Update>

-<Update label="2025-01-28" description="v0.100.0">
+<Update label="2024-01-28" description="v0.100.0">
  **Features**
  - Add Composio docs
  - Add SageMaker as a LLM provider
@@ -80,7 +80,7 @@ icon: timeline
  - Improve formatting and clarity in CLI and Composio Tool docs
 </Update>

-<Update label="2025-01-20" description="v0.98.0">
+<Update label="2024-01-20" description="v0.98.0">
  **Features**
  - Conversation crew v1
  - Add unique ID to flow states
@@ -101,7 +101,7 @@ icon: timeline
  - Fixed typos, nested pydantic model issue, and docling issues
 </Update>

-<Update label="2025-01-04" description="v0.95.0">
+<Update label="2024-01-04" description="v0.95.0">
  **New Features**
  - Adding Multimodal Abilities to Crew
  - Programatic Guardrails
@@ -131,7 +131,7 @@ icon: timeline
  - Suppressed userWarnings from litellm pydantic issues
 </Update>

-<Update label="2024-12-05" description="v0.86.0">
+<Update label="2023-12-05" description="v0.86.0">
  **Changes**
  - Remove all references to pipeline and pipeline router
  - Add Nvidia NIM as provider in Custom LLM
@@ -141,7 +141,7 @@ icon: timeline
  - Simplify template crew
 </Update>

-<Update label="2024-12-04" description="v0.85.0">
+<Update label="2023-12-04" description="v0.85.0">
  **Features**
  - Added knowledge to agent level
  - Feat/remove langchain
@@ -161,7 +161,7 @@ icon: timeline
  - Improvements to LLM Configuration and Usage
 </Update>

-<Update label="2024-11-25" description="v0.83.0">
+<Update label="2023-11-25" description="v0.83.0">
  **New Features**
  - New before_kickoff and after_kickoff crew callbacks
  - Support to pre-seed agents with Knowledge
@@ -178,7 +178,7 @@ icon: timeline
  - Update Docs
 </Update>

-<Update label="2024-11-13" description="v0.80.0">
+<Update label="2023-11-13" description="v0.80.0">
  **Fixes**
  - Fixing Tokens callback replacement bug
  - Fixing Step callback issue
--- a/docs/concepts/agents.mdx
+++ b/docs/concepts/agents.mdx
@@ -18,18 +18,6 @@ In the CrewAI framework, an `Agent` is an autonomous unit that can:
 Think of an agent as a specialized team member with specific skills, expertise, and responsibilities. For example, a `Researcher` agent might excel at gathering and analyzing information, while a `Writer` agent might be better at creating content.
 </Tip>

-<Note type="info" title="Enterprise Enhancement: Visual Agent Builder">
-CrewAI Enterprise includes a Visual Agent Builder that simplifies agent creation and configuration without writing code. Design your agents visually and test them in real-time.
-
-![Visual Agent Builder Screenshot](../images/enterprise/crew-studio-quickstart)
-
-The Visual Agent Builder enables:
- Intuitive agent configuration with form-based interfaces
- Real-time testing and validation
- Template library with pre-configured agent types
- Easy customization of agent attributes and behaviors
-</Note>
-
 ## Agent Attributes

 | Attribute                               | Parameter                | Type                          | Description                                                                                                          |
@@ -245,7 +233,7 @@ custom_agent = Agent(

 #### Code Execution
 - `allow_code_execution`: Must be True to run code
- `code_execution_mode`:
+- `code_execution_mode`: 
  - `"safe"`: Uses Docker (recommended for production)
  - `"unsafe"`: Direct execution (use only in trusted environments)

--- a/docs/concepts/collaboration.mdx
+++ b/docs/concepts/collaboration.mdx
@@ -23,7 +23,8 @@ The `Crew` class has been enriched with several attributes to support advanced f
 | **Process Flow** (`process`)           | Defines execution logic (e.g., sequential, hierarchical) for task distribution.                                                                                                                                                |
 | **Verbose Logging** (`verbose`)        | Provides detailed logging for monitoring and debugging. Accepts integer and boolean values to control verbosity level.                                                                                                       |
 | **Rate Limiting** (`max_rpm`)          | Limits requests per minute to optimize resource usage. Setting guidelines depend on task complexity and load.                                                                                                                 |
-| **Internationalization / Customization** (`prompt_file`) | Supports prompt customization for global usability. [Example of file](https://github.com/joaomdmoura/crewAI/blob/main/src/crewai/translations/en.json)                                                                                      |
+| **Internationalization / Customization** (`language`, `prompt_file`) | Supports prompt customization for global usability. [Example of file](https://github.com/joaomdmoura/crewAI/blob/main/src/crewai/translations/en.json)                                                                                      |
+| **Execution and Output Handling** (`full_output`) | Controls output granularity, distinguishing between full and final outputs.                                                                                                                                                  |
 | **Callback and Telemetry** (`step_callback`, `task_callback`) | Enables step-wise and task-level execution monitoring and telemetry for performance analytics.                                                                                                                               |
 | **Crew Sharing** (`share_crew`)        | Allows sharing crew data with CrewAI for model improvement. Privacy implications and benefits should be considered.                                                                                                          |
 | **Usage Metrics** (`usage_metrics`)    | Logs all LLM usage metrics during task execution for performance insights.                                                                                                                           |
@@ -48,4 +49,4 @@ Consider a crew with a researcher agent tasked with data gathering and a writer

 ## Conclusion

-The integration of advanced attributes and functionalities into the CrewAI framework significantly enriches the agent collaboration ecosystem. These enhancements not only simplify interactions but also offer unprecedented flexibility and control, paving the way for sophisticated AI-driven solutions capable of tackling complex tasks through intelligent collaboration and delegation.
+The integration of advanced attributes and functionalities into the CrewAI framework significantly enriches the agent collaboration ecosystem. These enhancements not only simplify interactions but also offer unprecedented flexibility and control, paving the way for sophisticated AI-driven solutions capable of tackling complex tasks through intelligent collaboration and delegation.
--- a/docs/concepts/crews.mdx
+++ b/docs/concepts/crews.mdx
@@ -20,10 +20,13 @@ A crew in crewAI represents a collaborative group of agents working together to
 | **Function Calling LLM** _(optional)_ | `function_calling_llm` | If passed, the crew will use this LLM to do function calling for tools for all agents in the crew. Each agent can have its own LLM, which overrides the crew's LLM for function calling.                                                                  |
 | **Config** _(optional)_               | `config`               | Optional configuration settings for the crew, in `Json` or `Dict[str, Any]` format.                                                                                                                                                                       |
 | **Max RPM** _(optional)_              | `max_rpm`              | Maximum requests per minute the crew adheres to during execution. Defaults to `None`.                                                                                                                                                                     |
+| **Language** _(optional)_             | `language`             | Language used for the crew, defaults to English.                                                                                                                                                                                                          |
+| **Language File** _(optional)_        | `language_file`        | Path to the language file to be used for the crew.                                                                                                                                                                                                        |
 | **Memory** _(optional)_               | `memory`               | Utilized for storing execution memories (short-term, long-term, entity memory).                                                                                                                                                                           |
 | **Memory Config** _(optional)_        | `memory_config`        | Configuration for the memory provider to be used by the crew.                                                                                                                                                                                             |
 | **Cache** _(optional)_                | `cache`                | Specifies whether to use a cache for storing the results of tools' execution. Defaults to `True`.                                                                                                                                                         |
 | **Embedder** _(optional)_             | `embedder`             | Configuration for the embedder to be used by the crew. Mostly used by memory for now. Default is `{"provider": "openai"}`.                                                                                                                                |
+| **Full Output** _(optional)_          | `full_output`          | Whether the crew should return the full output with all tasks outputs or just the final output. Defaults to `False`.                                                                                                                                      |
 | **Step Callback** _(optional)_        | `step_callback`        | A function that is called after each step of every agent. This can be used to log the agent's actions or to perform other operations; it won't override the agent-specific `step_callback`.                                                               |
 | **Task Callback** _(optional)_        | `task_callback`        | A function that is called after the completion of each task. Useful for monitoring or additional operations post-task execution.                                                                                                                          |
 | **Share Crew** _(optional)_           | `share_crew`           | Whether you want to share the complete crew information and execution with the crewAI team to make the library better, and allow us to train models.                                                                                                      |
--- a/docs/concepts/event-listener.mdx
+++ b/docs/concepts/event-listener.mdx
@@ -1,7 +1,6 @@
 ---
 title: 'Event Listeners'
 description: 'Tap into CrewAI events to build custom integrations and monitoring'
-icon: spinner
 ---

 # Event Listeners
@@ -13,25 +12,11 @@ CrewAI provides a powerful event system that allows you to listen for and react
 CrewAI uses an event bus architecture to emit events throughout the execution lifecycle. The event system is built on the following components:

 1. **CrewAIEventsBus**: A singleton event bus that manages event registration and emission
-2. **BaseEvent**: Base class for all events in the system
+2. **CrewEvent**: Base class for all events in the system
 3. **BaseEventListener**: Abstract base class for creating custom event listeners

 When specific actions occur in CrewAI (like a Crew starting execution, an Agent completing a task, or a tool being used), the system emits corresponding events. You can register handlers for these events to execute custom code when they occur.

-<Note type="info" title="Enterprise Enhancement: Prompt Tracing">
-CrewAI Enterprise provides a built-in Prompt Tracing feature that leverages the event system to track, store, and visualize all prompts, completions, and associated metadata. This provides powerful debugging capabilities and transparency into your agent operations.
-
-![Prompt Tracing Dashboard](../images/enterprise/prompt-tracing.png)
-
-With Prompt Tracing you can:
- View the complete history of all prompts sent to your LLM
- Track token usage and costs
- Debug agent reasoning failures
- Share prompt sequences with your team
- Compare different prompt strategies
- Export traces for compliance and auditing
-</Note>
-
 ## Creating a Custom Event Listener

 To create a custom event listener, you need to:
@@ -54,17 +39,17 @@ from crewai.utilities.events.base_event_listener import BaseEventListener
 class MyCustomListener(BaseEventListener):
    def __init__(self):
        super().__init__()
-
+    
    def setup_listeners(self, crewai_event_bus):
        @crewai_event_bus.on(CrewKickoffStartedEvent)
        def on_crew_started(source, event):
            print(f"Crew '{event.crew_name}' has started execution!")
-
+        
        @crewai_event_bus.on(CrewKickoffCompletedEvent)
        def on_crew_completed(source, event):
            print(f"Crew '{event.crew_name}' has completed execution!")
            print(f"Output: {event.output}")
-
+        
        @crewai_event_bus.on(AgentExecutionCompletedEvent)
        def on_agent_execution_completed(source, event):
            print(f"Agent '{event.agent.role}' completed task")
@@ -97,7 +82,7 @@ my_listener = MyCustomListener()

 class MyCustomCrew:
    # Your crew implementation...
-
+    
    def crew(self):
        return Crew(
            agents=[...],
@@ -120,7 +105,7 @@ my_listener = MyCustomListener()

 class MyCustomFlow(Flow):
    # Your flow implementation...
-
+    
    @start()
    def first_step(self):
        # ...
@@ -248,7 +233,7 @@ Each event handler receives two parameters:
 1. **source**: The object that emitted the event
 2. **event**: The event instance, containing event-specific data

-The structure of the event object depends on the event type, but all events inherit from `BaseEvent` and include:
+The structure of the event object depends on the event type, but all events inherit from `CrewEvent` and include:

 - **timestamp**: The time when the event was emitted
 - **type**: A string identifier for the event type
@@ -338,9 +323,9 @@ with crewai_event_bus.scoped_handlers():
    @crewai_event_bus.on(CrewKickoffStartedEvent)
    def temp_handler(source, event):
        print("This handler only exists within this context")
-
+    
    # Do something that emits events
-
+    
 # Outside the context, the temporary handler is removed
 ```

--- a/docs/concepts/flows.mdx
+++ b/docs/concepts/flows.mdx
@@ -545,119 +545,6 @@ The `third_method` and `fourth_method` listen to the output of the `second_metho

 When you run this Flow, the output will change based on the random boolean value generated by the `start_method`.

-## Adding Agents to Flows
-
-Agents can be seamlessly integrated into your flows, providing a lightweight alternative to full Crews when you need simpler, focused task execution. Here's an example of how to use an Agent within a flow to perform market research:
-
-```python
-import asyncio
-from typing import Any, Dict, List
-
-from crewai_tools import SerperDevTool
-from pydantic import BaseModel, Field
-
-from crewai.agent import Agent
-from crewai.flow.flow import Flow, listen, start
-
-
-# Define a structured output format
-class MarketAnalysis(BaseModel):
-    key_trends: List[str] = Field(description="List of identified market trends")
-    market_size: str = Field(description="Estimated market size")
-    competitors: List[str] = Field(description="Major competitors in the space")
-
-
-# Define flow state
-class MarketResearchState(BaseModel):
-    product: str = ""
-    analysis: MarketAnalysis | None = None
-
-
-# Create a flow class
-class MarketResearchFlow(Flow[MarketResearchState]):
-    @start()
-    def initialize_research(self) -> Dict[str, Any]:
-        print(f"Starting market research for {self.state.product}")
-        return {"product": self.state.product}
-
-    @listen(initialize_research)
-    async def analyze_market(self) -> Dict[str, Any]:
-        # Create an Agent for market research
-        analyst = Agent(
-            role="Market Research Analyst",
-            goal=f"Analyze the market for {self.state.product}",
-            backstory="You are an experienced market analyst with expertise in "
-            "identifying market trends and opportunities.",
-            tools=[SerperDevTool()],
-            verbose=True,
-        )
-
-        # Define the research query
-        query = f"""
-        Research the market for {self.state.product}. Include:
-        1. Key market trends
-        2. Market size
-        3. Major competitors
-
-        Format your response according to the specified structure.
-        """
-
-        # Execute the analysis with structured output format
-        result = await analyst.kickoff_async(query, response_format=MarketAnalysis)
-        if result.pydantic:
-            print("result", result.pydantic)
-        else:
-            print("result", result)
-
-        # Return the analysis to update the state
-        return {"analysis": result.pydantic}
-
-    @listen(analyze_market)
-    def present_results(self, analysis) -> None:
-        print("\nMarket Analysis Results")
-        print("=====================")
-
-        if isinstance(analysis, dict):
-            # If we got a dict with 'analysis' key, extract the actual analysis object
-            market_analysis = analysis.get("analysis")
-        else:
-            market_analysis = analysis
-
-        if market_analysis and isinstance(market_analysis, MarketAnalysis):
-            print("\nKey Market Trends:")
-            for trend in market_analysis.key_trends:
-                print(f"- {trend}")
-
-            print(f"\nMarket Size: {market_analysis.market_size}")
-
-            print("\nMajor Competitors:")
-            for competitor in market_analysis.competitors:
-                print(f"- {competitor}")
-        else:
-            print("No structured analysis data available.")
-            print("Raw analysis:", analysis)
-
-
-# Usage example
-async def run_flow():
-    flow = MarketResearchFlow()
-    result = await flow.kickoff_async(inputs={"product": "AI-powered chatbots"})
-    return result
-
-
-# Run the flow
-if __name__ == "__main__":
-    asyncio.run(run_flow())
-```
-
-This example demonstrates several key features of using Agents in flows:
-
-1. **Structured Output**: Using Pydantic models to define the expected output format (`MarketAnalysis`) ensures type safety and structured data throughout the flow.
-
-2. **State Management**: The flow state (`MarketResearchState`) maintains context between steps and stores both inputs and outputs.
-
-3. **Tool Integration**: Agents can use tools (like `WebsiteSearchTool`) to enhance their capabilities.
-
 ## Adding Crews to Flows

 Creating a flow with multiple crews in CrewAI is straightforward.
--- a/docs/concepts/memory.mdx
+++ b/docs/concepts/memory.mdx
@@ -18,8 +18,7 @@ reason, and learn from past interactions.
 | **Long-Term Memory** | Preserves valuable insights and learnings from past executions, allowing agents to build and refine their knowledge over time. |
 | **Entity Memory**    | Captures and organizes information about entities (people, places, concepts) encountered during tasks, facilitating deeper understanding and relationship mapping. Uses `RAG` for storing entity information. |
 | **Contextual Memory**| Maintains the context of interactions by combining `ShortTermMemory`, `LongTermMemory`, and `EntityMemory`, aiding in the coherence and relevance of agent responses over a sequence of tasks or a conversation. |
-| **External Memory**  | Enables integration with external memory systems and providers (like Mem0), allowing for specialized memory storage and retrieval across different applications. Supports custom storage implementations for flexible memory management. |
-| **User Memory**      | ⚠️ **DEPRECATED**: This component is deprecated and will be removed in a future version. Please use [External Memory](#using-external-memory) instead. |
+| **User Memory**      | Stores user-specific information and preferences, enhancing personalization and user experience. |

 ## How Memory Systems Empower Agents

@@ -165,10 +164,7 @@ crew = Crew(

 [Mem0](https://mem0.ai/) is a self-improving memory layer for LLM applications, enabling personalized AI experiences. 

-
-### Using Mem0 API platform
-
-To include user-specific memory you can get your API key [here](https://app.mem0.ai/dashboard/api-keys) and refer the [docs](https://docs.mem0.ai/platform/quickstart#4-1-create-memories) for adding user preferences. In this case `user_memory` is set to `MemoryClient` from mem0.
+To include user-specific memory you can get your API key [here](https://app.mem0.ai/dashboard/api-keys) and refer the [docs](https://docs.mem0.ai/platform/quickstart#4-1-create-memories) for adding user preferences.


 ```python Code
@@ -179,7 +175,18 @@ from mem0 import MemoryClient
 # Set environment variables for Mem0
 os.environ["MEM0_API_KEY"] = "m0-xx"

-# Step 1: Create a Crew with User Memory
+# Step 1: Record preferences based on past conversation or user input
+client = MemoryClient()
+messages = [
+    {"role": "user", "content": "Hi there! I'm planning a vacation and could use some advice."},
+    {"role": "assistant", "content": "Hello! I'd be happy to help with your vacation planning. What kind of destination do you prefer?"},
+    {"role": "user", "content": "I am more of a beach person than a mountain person."},
+    {"role": "assistant", "content": "That's interesting. Do you like hotels or Airbnb?"},
+    {"role": "user", "content": "I like Airbnb more."},
+]
+client.add(messages, user_id="john")
+
+# Step 2: Create a Crew with User Memory

 crew = Crew(
    agents=[...],
@@ -190,12 +197,11 @@ crew = Crew(
    memory_config={
        "provider": "mem0",
        "config": {"user_id": "john"},
-        "user_memory" : {} #Set user_memory explicitly to a dictionary, we are working on this issue.
    },
 )
 ```

-#### Additional Memory Configuration Options
+## Memory Configuration Options
 If you want to access a specific organization and project, you can set the `org_id` and `project_id` parameters in the memory configuration.

 ```python Code
@@ -209,170 +215,10 @@ crew = Crew(
    memory_config={
        "provider": "mem0",
        "config": {"user_id": "john", "org_id": "my_org_id", "project_id": "my_project_id"},
-        "user_memory" : {} #Set user_memory explicitly to a dictionary, we are working on this issue.
    },
 )
 ```

-### Using Local Mem0 memory
-If you want to use local mem0 memory, with a custom configuration, you can set a parameter `local_mem0_config` in the config itself.
-If both os environment key is set and local_mem0_config is given, the API platform takes higher priority over the local configuration.
-Check [this](https://docs.mem0.ai/open-source/python-quickstart#run-mem0-locally) mem0 local configuration docs for more understanding.
-In this case `user_memory` is set to `Memory` from mem0.
-
-
-```python Code
-from crewai import Crew
-
-
-#local mem0 config
-config = {
-    "vector_store": {
-        "provider": "qdrant",
-        "config": {
-            "host": "localhost",
-            "port": 6333
-        }
-    },
-    "llm": {
-        "provider": "openai",
-        "config": {
-            "api_key": "your-api-key",
-            "model": "gpt-4"
-        }
-    },
-    "embedder": {
-        "provider": "openai",
-        "config": {
-            "api_key": "your-api-key",
-            "model": "text-embedding-3-small"
-        }
-    },
-    "graph_store": {
-        "provider": "neo4j",
-        "config": {
-            "url": "neo4j+s://your-instance",
-            "username": "neo4j",
-            "password": "password"
-        }
-    },
-    "history_db_path": "/path/to/history.db",
-    "version": "v1.1",
-    "custom_fact_extraction_prompt": "Optional custom prompt for fact extraction for memory",
-    "custom_update_memory_prompt": "Optional custom prompt for update memory"
-}
-
-crew = Crew(
-    agents=[...],
-    tasks=[...],
-    verbose=True,
-    memory=True,
-    memory_config={
-        "provider": "mem0",
-        "config": {"user_id": "john", 'local_mem0_config': config},
-        "user_memory" : {} #Set user_memory explicitly to a dictionary, we are working on this issue.
-    },
-)
-```
-
-### Using External Memory
-
-External Memory is a powerful feature that allows you to integrate external memory systems with your CrewAI applications. This is particularly useful when you want to use specialized memory providers or maintain memory across different applications.
-
-#### Basic Usage with Mem0
-
-The most common way to use External Memory is with Mem0 as the provider:
-
-```python
-from crewai import Agent, Crew, Process, Task
-from crewai.memory.external.external_memory import ExternalMemory
-
-agent = Agent(
-    role="You are a helpful assistant",
-    goal="Plan a vacation for the user",
-    backstory="You are a helpful assistant that can plan a vacation for the user",
-    verbose=True,
-)
-task = Task(
-    description="Give things related to the user's vacation",
-    expected_output="A plan for the vacation",
-    agent=agent,
-)
-
-crew = Crew(
-    agents=[agent],
-    tasks=[task],
-    verbose=True,
-    process=Process.sequential,
-    memory=True,
-    external_memory=ExternalMemory(
-        embedder_config={"provider": "mem0", "config": {"user_id": "U-123"}} # you can provide an entire Mem0 configuration
-    ),
-)
-
-crew.kickoff(
-    inputs={"question": "which destination is better for a beach vacation?"}
-)
-```
-
-#### Using External Memory with Custom Storage
-
-You can also create custom storage implementations for External Memory. Here's an example of how to create a custom storage:
-
-```python
-from crewai import Agent, Crew, Process, Task
-from crewai.memory.external.external_memory import ExternalMemory
-from crewai.memory.storage.interface import Storage
-
-
-class CustomStorage(Storage):
-    def __init__(self):
-        self.memories = []
-
-    def save(self, value, metadata=None, agent=None):
-        self.memories.append({"value": value, "metadata": metadata, "agent": agent})
-
-    def search(self, query, limit=10, score_threshold=0.5):
-        # Implement your search logic here
-        return []
-
-    def reset(self):
-        self.memories = []
-
-
-# Create external memory with custom storage
-external_memory = ExternalMemory(
-    storage=CustomStorage(),
-    embedder_config={"provider": "mem0", "config": {"user_id": "U-123"}},
-)
-
-agent = Agent(
-    role="You are a helpful assistant",
-    goal="Plan a vacation for the user",
-    backstory="You are a helpful assistant that can plan a vacation for the user",
-    verbose=True,
-)
-task = Task(
-    description="Give things related to the user's vacation",
-    expected_output="A plan for the vacation",
-    agent=agent,
-)
-
-crew = Crew(
-    agents=[agent],
-    tasks=[task],
-    verbose=True,
-    process=Process.sequential,
-    memory=True,
-    external_memory=external_memory,
-)
-
-crew.kickoff(
-    inputs={"question": "which destination is better for a beach vacation?"}
-)
-```
-
-
 ## Additional Embedding Providers

 ### Using OpenAI embeddings (already default)
--- a/docs/concepts/tasks.mdx
+++ b/docs/concepts/tasks.mdx
@@ -12,18 +12,6 @@ Tasks provide all necessary details for execution, such as a description, the ag

 Tasks within CrewAI can be collaborative, requiring multiple agents to work together. This is managed through the task properties and orchestrated by the Crew's process, enhancing teamwork and efficiency.

-<Note type="info" title="Enterprise Enhancement: Visual Task Builder">
-CrewAI Enterprise includes a Visual Task Builder in Crew Studio that simplifies complex task creation and chaining. Design your task flows visually and test them in real-time without writing code.
-
-![Task Builder Screenshot](../images/enterprise/crew-studio-quickstart.png)
-
-The Visual Task Builder enables:
- Drag-and-drop task creation
- Visual task dependencies and flow
- Real-time testing and validation
- Easy sharing and collaboration
-</Note>
-
 ### Task Execution Flow

 Tasks can be executed in two ways:
@@ -426,7 +414,7 @@ It's also important to note that the output of the final task of a crew becomes
 ### Using `output_pydantic`
 The `output_pydantic` property allows you to define a Pydantic model that the task output should conform to. This ensures that the output is not only structured but also validated according to the Pydantic model.

-Here's an example demonstrating how to use output_pydantic:
+Here’s an example demonstrating how to use output_pydantic:

 ```python Code
 import json
@@ -507,7 +495,7 @@ In this example:
 ### Using `output_json`
 The `output_json` property allows you to define the expected output in JSON format. This ensures that the task's output is a valid JSON structure that can be easily parsed and used in your application.

-Here's an example demonstrating how to use `output_json`:
+Here’s an example demonstrating how to use `output_json`:

 ```python Code
 import json
--- a/docs/concepts/tools.mdx
+++ b/docs/concepts/tools.mdx
@@ -15,18 +15,6 @@ A tool in CrewAI is a skill or function that agents can utilize to perform vario
 This includes tools from the [CrewAI Toolkit](https://github.com/joaomdmoura/crewai-tools) and [LangChain Tools](https://python.langchain.com/docs/integrations/tools),
 enabling everything from simple searches to complex interactions and effective teamwork among agents.

-<Note type="info" title="Enterprise Enhancement: Tools Repository">
-CrewAI Enterprise provides a comprehensive Tools Repository with pre-built integrations for common business systems and APIs. Deploy agents with enterprise tools in minutes instead of days.
-
-![Tools Repository Screenshot](../images/enterprise/tools-repository.png)
-
-The Enterprise Tools Repository includes:
- Pre-built connectors for popular enterprise systems
- Custom tool creation interface
- Version control and sharing capabilities
- Security and compliance features
-</Note>
-
 ## Key Characteristics of Tools

 - **Utility**: Crafted for tasks such as web searching, data analysis, content generation, and agent collaboration.
@@ -91,7 +79,7 @@ research = Task(
 )

 write = Task(
-    description='Write an engaging blog post about the AI industry, based on the research analyst's summary. Draw inspiration from the latest blog posts in the directory.',
+    description='Write an engaging blog post about the AI industry, based on the research analyst’s summary. Draw inspiration from the latest blog posts in the directory.',
    expected_output='A 4-paragraph blog post formatted in markdown with engaging, informative, and accessible content, avoiding complex jargon.',
    agent=writer,
    output_file='blog-posts/new_post.md'  # The final blog post will be saved here
@@ -153,7 +141,7 @@ Here is a list of the available tools and their descriptions:
 ## Creating your own Tools

 <Tip>
-  Developers can craft `custom tools` tailored for their agent's needs or
+  Developers can craft `custom tools` tailored for their agent’s needs or
  utilize pre-built options.
 </Tip>

--- a/docs/custom_llm.md
+++ b/docs/custom_llm.md
@@ -1,642 +0,0 @@
-# Custom LLM Implementations
-
-CrewAI now supports custom LLM implementations through the `BaseLLM` abstract base class. This allows you to create your own LLM implementations that don't rely on litellm's authentication mechanism.
-
-## Using Custom LLM Implementations
-
-To create a custom LLM implementation, you need to:
-
-1. Inherit from the `BaseLLM` abstract base class
-2. Implement the required methods:
-   - `call()`: The main method to call the LLM with messages
-   - `supports_function_calling()`: Whether the LLM supports function calling
-   - `supports_stop_words()`: Whether the LLM supports stop words
-   - `get_context_window_size()`: The context window size of the LLM
-
-## Example: Basic Custom LLM
-
-```python
-from crewai import BaseLLM
-from typing import Any, Dict, List, Optional, Union
-
-class CustomLLM(BaseLLM):
-    def __init__(self, api_key: str, endpoint: str):
-        super().__init__()  # Initialize the base class to set default attributes
-        if not api_key or not isinstance(api_key, str):
-            raise ValueError("Invalid API key: must be a non-empty string")
-        if not endpoint or not isinstance(endpoint, str):
-            raise ValueError("Invalid endpoint URL: must be a non-empty string")
-        self.api_key = api_key
-        self.endpoint = endpoint
-        self.stop = []  # You can customize stop words if needed
-        
-    def call(
-        self,
-        messages: Union[str, List[Dict[str, str]]],
-        tools: Optional[List[dict]] = None,
-        callbacks: Optional[List[Any]] = None,
-        available_functions: Optional[Dict[str, Any]] = None,
-    ) -> Union[str, Any]:
-        """Call the LLM with the given messages.
-        
-        Args:
-            messages: Input messages for the LLM.
-            tools: Optional list of tool schemas for function calling.
-            callbacks: Optional list of callback functions.
-            available_functions: Optional dict mapping function names to callables.
-            
-        Returns:
-            Either a text response from the LLM or the result of a tool function call.
-            
-        Raises:
-            TimeoutError: If the LLM request times out.
-            RuntimeError: If the LLM request fails for other reasons.
-            ValueError: If the response format is invalid.
-        """
-        # Implement your own logic to call the LLM
-        # For example, using requests:
-        import requests
-        
-        try:
-            headers = {
-                "Authorization": f"Bearer {self.api_key}",
-                "Content-Type": "application/json"
-            }
-            
-            # Convert string message to proper format if needed
-            if isinstance(messages, str):
-                messages = [{"role": "user", "content": messages}]
-            
-            data = {
-                "messages": messages,
-                "tools": tools
-            }
-            
-            response = requests.post(
-                self.endpoint, 
-                headers=headers, 
-                json=data,
-                timeout=30  # Set a reasonable timeout
-            )
-            response.raise_for_status()  # Raise an exception for HTTP errors
-            return response.json()["choices"][0]["message"]["content"]
-        except requests.Timeout:
-            raise TimeoutError("LLM request timed out")
-        except requests.RequestException as e:
-            raise RuntimeError(f"LLM request failed: {str(e)}")
-        except (KeyError, IndexError, ValueError) as e:
-            raise ValueError(f"Invalid response format: {str(e)}")
-        
-    def supports_function_calling(self) -> bool:
-        """Check if the LLM supports function calling.
-        
-        Returns:
-            True if the LLM supports function calling, False otherwise.
-        """
-        # Return True if your LLM supports function calling
-        return True
-        
-    def supports_stop_words(self) -> bool:
-        """Check if the LLM supports stop words.
-        
-        Returns:
-            True if the LLM supports stop words, False otherwise.
-        """
-        # Return True if your LLM supports stop words
-        return True
-        
-    def get_context_window_size(self) -> int:
-        """Get the context window size of the LLM.
-        
-        Returns:
-            The context window size as an integer.
-        """
-        # Return the context window size of your LLM
-        return 8192
-```
-
-## Error Handling Best Practices
-
-When implementing custom LLMs, it's important to handle errors properly to ensure robustness and reliability. Here are some best practices:
-
-### 1. Implement Try-Except Blocks for API Calls
-
-Always wrap API calls in try-except blocks to handle different types of errors:
-
-```python
-def call(
-    self,
-    messages: Union[str, List[Dict[str, str]]],
-    tools: Optional[List[dict]] = None,
-    callbacks: Optional[List[Any]] = None,
-    available_functions: Optional[Dict[str, Any]] = None,
-) -> Union[str, Any]:
-    try:
-        # API call implementation
-        response = requests.post(
-            self.endpoint,
-            headers=self.headers,
-            json=self.prepare_payload(messages),
-            timeout=30  # Set a reasonable timeout
-        )
-        response.raise_for_status()  # Raise an exception for HTTP errors
-        return response.json()["choices"][0]["message"]["content"]
-    except requests.Timeout:
-        raise TimeoutError("LLM request timed out")
-    except requests.RequestException as e:
-        raise RuntimeError(f"LLM request failed: {str(e)}")
-    except (KeyError, IndexError, ValueError) as e:
-        raise ValueError(f"Invalid response format: {str(e)}")
-```
-
-### 2. Implement Retry Logic for Transient Failures
-
-For transient failures like network issues or rate limiting, implement retry logic with exponential backoff:
-
-```python
-def call(
-    self,
-    messages: Union[str, List[Dict[str, str]]],
-    tools: Optional[List[dict]] = None,
-    callbacks: Optional[List[Any]] = None,
-    available_functions: Optional[Dict[str, Any]] = None,
-) -> Union[str, Any]:
-    import time
-    
-    max_retries = 3
-    retry_delay = 1  # seconds
-    
-    for attempt in range(max_retries):
-        try:
-            response = requests.post(
-                self.endpoint,
-                headers=self.headers,
-                json=self.prepare_payload(messages),
-                timeout=30
-            )
-            response.raise_for_status()
-            return response.json()["choices"][0]["message"]["content"]
-        except (requests.Timeout, requests.ConnectionError) as e:
-            if attempt < max_retries - 1:
-                time.sleep(retry_delay * (2 ** attempt))  # Exponential backoff
-                continue
-            raise TimeoutError(f"LLM request failed after {max_retries} attempts: {str(e)}")
-        except requests.RequestException as e:
-            raise RuntimeError(f"LLM request failed: {str(e)}")
-```
-
-### 3. Validate Input Parameters
-
-Always validate input parameters to prevent runtime errors:
-
-```python
-def __init__(self, api_key: str, endpoint: str):
-    super().__init__()
-    if not api_key or not isinstance(api_key, str):
-        raise ValueError("Invalid API key: must be a non-empty string")
-    if not endpoint or not isinstance(endpoint, str):
-        raise ValueError("Invalid endpoint URL: must be a non-empty string")
-    self.api_key = api_key
-    self.endpoint = endpoint
-```
-
-### 4. Handle Authentication Errors Gracefully
-
-Provide clear error messages for authentication failures:
-
-```python
-def call(
-    self,
-    messages: Union[str, List[Dict[str, str]]],
-    tools: Optional[List[dict]] = None,
-    callbacks: Optional[List[Any]] = None,
-    available_functions: Optional[Dict[str, Any]] = None,
-) -> Union[str, Any]:
-    try:
-        response = requests.post(self.endpoint, headers=self.headers, json=data)
-        if response.status_code == 401:
-            raise ValueError("Authentication failed: Invalid API key or token")
-        elif response.status_code == 403:
-            raise ValueError("Authorization failed: Insufficient permissions")
-        response.raise_for_status()
-        # Process response
-    except Exception as e:
-        # Handle error
-        raise
-```
-
-## Example: JWT-based Authentication
-
-For services that use JWT-based authentication instead of API keys, you can implement a custom LLM like this:
-
-```python
-from crewai import BaseLLM, Agent, Task
-from typing import Any, Dict, List, Optional, Union
-
-class JWTAuthLLM(BaseLLM):
-    def __init__(self, jwt_token: str, endpoint: str):
-        super().__init__()  # Initialize the base class to set default attributes
-        if not jwt_token or not isinstance(jwt_token, str):
-            raise ValueError("Invalid JWT token: must be a non-empty string")
-        if not endpoint or not isinstance(endpoint, str):
-            raise ValueError("Invalid endpoint URL: must be a non-empty string")
-        self.jwt_token = jwt_token
-        self.endpoint = endpoint
-        self.stop = []  # You can customize stop words if needed
-        
-    def call(
-        self,
-        messages: Union[str, List[Dict[str, str]]],
-        tools: Optional[List[dict]] = None,
-        callbacks: Optional[List[Any]] = None,
-        available_functions: Optional[Dict[str, Any]] = None,
-    ) -> Union[str, Any]:
-        """Call the LLM with JWT authentication.
-        
-        Args:
-            messages: Input messages for the LLM.
-            tools: Optional list of tool schemas for function calling.
-            callbacks: Optional list of callback functions.
-            available_functions: Optional dict mapping function names to callables.
-            
-        Returns:
-            Either a text response from the LLM or the result of a tool function call.
-            
-        Raises:
-            TimeoutError: If the LLM request times out.
-            RuntimeError: If the LLM request fails for other reasons.
-            ValueError: If the response format is invalid.
-        """
-        # Implement your own logic to call the LLM with JWT authentication
-        import requests
-        
-        try:
-            headers = {
-                "Authorization": f"Bearer {self.jwt_token}",
-                "Content-Type": "application/json"
-            }
-            
-            # Convert string message to proper format if needed
-            if isinstance(messages, str):
-                messages = [{"role": "user", "content": messages}]
-            
-            data = {
-                "messages": messages,
-                "tools": tools
-            }
-            
-            response = requests.post(
-                self.endpoint,
-                headers=headers,
-                json=data,
-                timeout=30  # Set a reasonable timeout
-            )
-            
-            if response.status_code == 401:
-                raise ValueError("Authentication failed: Invalid JWT token")
-            elif response.status_code == 403:
-                raise ValueError("Authorization failed: Insufficient permissions")
-                
-            response.raise_for_status()  # Raise an exception for HTTP errors
-            return response.json()["choices"][0]["message"]["content"]
-        except requests.Timeout:
-            raise TimeoutError("LLM request timed out")
-        except requests.RequestException as e:
-            raise RuntimeError(f"LLM request failed: {str(e)}")
-        except (KeyError, IndexError, ValueError) as e:
-            raise ValueError(f"Invalid response format: {str(e)}")
-        
-    def supports_function_calling(self) -> bool:
-        """Check if the LLM supports function calling.
-        
-        Returns:
-            True if the LLM supports function calling, False otherwise.
-        """
-        return True
-        
-    def supports_stop_words(self) -> bool:
-        """Check if the LLM supports stop words.
-        
-        Returns:
-            True if the LLM supports stop words, False otherwise.
-        """
-        return True
-        
-    def get_context_window_size(self) -> int:
-        """Get the context window size of the LLM.
-        
-        Returns:
-            The context window size as an integer.
-        """
-        return 8192
-```
-
-## Troubleshooting
-
-Here are some common issues you might encounter when implementing custom LLMs and how to resolve them:
-
-### 1. Authentication Failures
-
-**Symptoms**: 401 Unauthorized or 403 Forbidden errors
-
-**Solutions**:
- Verify that your API key or JWT token is valid and not expired
- Check that you're using the correct authentication header format
- Ensure that your token has the necessary permissions
-
-### 2. Timeout Issues
-
-**Symptoms**: Requests taking too long or timing out
-
-**Solutions**:
- Implement timeout handling as shown in the examples
- Use retry logic with exponential backoff
- Consider using a more reliable network connection
-
-### 3. Response Parsing Errors
-
-**Symptoms**: KeyError, IndexError, or ValueError when processing responses
-
-**Solutions**:
- Validate the response format before accessing nested fields
- Implement proper error handling for malformed responses
- Check the API documentation for the expected response format
-
-### 4. Rate Limiting
-
-**Symptoms**: 429 Too Many Requests errors
-
-**Solutions**:
- Implement rate limiting in your custom LLM
- Add exponential backoff for retries
- Consider using a token bucket algorithm for more precise rate control
-
-## Advanced Features
-
-### Logging
-
-Adding logging to your custom LLM can help with debugging and monitoring:
-
-```python
-import logging
-from typing import Any, Dict, List, Optional, Union
-
-class LoggingLLM(BaseLLM):
-    def __init__(self, api_key: str, endpoint: str):
-        super().__init__()
-        self.api_key = api_key
-        self.endpoint = endpoint
-        self.logger = logging.getLogger("crewai.llm.custom")
-        
-    def call(
-        self,
-        messages: Union[str, List[Dict[str, str]]],
-        tools: Optional[List[dict]] = None,
-        callbacks: Optional[List[Any]] = None,
-        available_functions: Optional[Dict[str, Any]] = None,
-    ) -> Union[str, Any]:
-        self.logger.info(f"Calling LLM with {len(messages) if isinstance(messages, list) else 1} messages")
-        try:
-            # API call implementation
-            response = self._make_api_call(messages, tools)
-            self.logger.debug(f"LLM response received: {response[:100]}...")
-            return response
-        except Exception as e:
-            self.logger.error(f"LLM call failed: {str(e)}")
-            raise
-```
-
-### Rate Limiting
-
-Implementing rate limiting can help avoid overwhelming the LLM API:
-
-```python
-import time
-from typing import Any, Dict, List, Optional, Union
-
-class RateLimitedLLM(BaseLLM):
-    def __init__(
-        self, 
-        api_key: str, 
-        endpoint: str, 
-        requests_per_minute: int = 60
-    ):
-        super().__init__()
-        self.api_key = api_key
-        self.endpoint = endpoint
-        self.requests_per_minute = requests_per_minute
-        self.request_times: List[float] = []
-        
-    def call(
-        self,
-        messages: Union[str, List[Dict[str, str]]],
-        tools: Optional[List[dict]] = None,
-        callbacks: Optional[List[Any]] = None,
-        available_functions: Optional[Dict[str, Any]] = None,
-    ) -> Union[str, Any]:
-        self._enforce_rate_limit()
-        # Record this request time
-        self.request_times.append(time.time())
-        # Make the actual API call
-        return self._make_api_call(messages, tools)
-        
-    def _enforce_rate_limit(self) -> None:
-        """Enforce the rate limit by waiting if necessary."""
-        now = time.time()
-        # Remove request times older than 1 minute
-        self.request_times = [t for t in self.request_times if now - t < 60]
-        
-        if len(self.request_times) >= self.requests_per_minute:
-            # Calculate how long to wait
-            oldest_request = min(self.request_times)
-            wait_time = 60 - (now - oldest_request)
-            if wait_time > 0:
-                time.sleep(wait_time)
-```
-
-### Metrics Collection
-
-Collecting metrics can help you monitor your LLM usage:
-
-```python
-import time
-from typing import Any, Dict, List, Optional, Union
-
-class MetricsCollectingLLM(BaseLLM):
-    def __init__(self, api_key: str, endpoint: str):
-        super().__init__()
-        self.api_key = api_key
-        self.endpoint = endpoint
-        self.metrics: Dict[str, Any] = {
-            "total_calls": 0,
-            "total_tokens": 0,
-            "errors": 0,
-            "latency": []
-        }
-        
-    def call(
-        self,
-        messages: Union[str, List[Dict[str, str]]],
-        tools: Optional[List[dict]] = None,
-        callbacks: Optional[List[Any]] = None,
-        available_functions: Optional[Dict[str, Any]] = None,
-    ) -> Union[str, Any]:
-        start_time = time.time()
-        self.metrics["total_calls"] += 1
-        
-        try:
-            response = self._make_api_call(messages, tools)
-            # Estimate tokens (simplified)
-            if isinstance(messages, str):
-                token_estimate = len(messages) // 4
-            else:
-                token_estimate = sum(len(m.get("content", "")) // 4 for m in messages)
-            self.metrics["total_tokens"] += token_estimate
-            return response
-        except Exception as e:
-            self.metrics["errors"] += 1
-            raise
-        finally:
-            latency = time.time() - start_time
-            self.metrics["latency"].append(latency)
-            
-    def get_metrics(self) -> Dict[str, Any]:
-        """Return the collected metrics."""
-        avg_latency = sum(self.metrics["latency"]) / len(self.metrics["latency"]) if self.metrics["latency"] else 0
-        return {
-            **self.metrics,
-            "avg_latency": avg_latency
-        }
-```
-
-## Advanced Usage: Function Calling
-
-If your LLM supports function calling, you can implement the function calling logic in your custom LLM:
-
-```python
-import json
-from typing import Any, Dict, List, Optional, Union
-
-def call(
-    self,
-    messages: Union[str, List[Dict[str, str]]],
-    tools: Optional[List[dict]] = None,
-    callbacks: Optional[List[Any]] = None,
-    available_functions: Optional[Dict[str, Any]] = None,
-) -> Union[str, Any]:
-    import requests
-    
-    try:
-        headers = {
-            "Authorization": f"Bearer {self.jwt_token}",
-            "Content-Type": "application/json"
-        }
-        
-        # Convert string message to proper format if needed
-        if isinstance(messages, str):
-            messages = [{"role": "user", "content": messages}]
-        
-        data = {
-            "messages": messages,
-            "tools": tools
-        }
-        
-        response = requests.post(
-            self.endpoint,
-            headers=headers,
-            json=data,
-            timeout=30
-        )
-        response.raise_for_status()
-        response_data = response.json()
-        
-        # Check if the LLM wants to call a function
-        if response_data["choices"][0]["message"].get("tool_calls"):
-            tool_calls = response_data["choices"][0]["message"]["tool_calls"]
-            
-            # Process each tool call
-            for tool_call in tool_calls:
-                function_name = tool_call["function"]["name"]
-                function_args = json.loads(tool_call["function"]["arguments"])
-                
-                if available_functions and function_name in available_functions:
-                    function_to_call = available_functions[function_name]
-                    function_response = function_to_call(**function_args)
-                    
-                    # Add the function response to the messages
-                    messages.append({
-                        "role": "tool",
-                        "tool_call_id": tool_call["id"],
-                        "name": function_name,
-                        "content": str(function_response)
-                    })
-            
-            # Call the LLM again with the updated messages
-            return self.call(messages, tools, callbacks, available_functions)
-        
-        # Return the text response if no function call
-        return response_data["choices"][0]["message"]["content"]
-    except requests.Timeout:
-        raise TimeoutError("LLM request timed out")
-    except requests.RequestException as e:
-        raise RuntimeError(f"LLM request failed: {str(e)}")
-    except (KeyError, IndexError, ValueError) as e:
-        raise ValueError(f"Invalid response format: {str(e)}")
-```
-
-## Using Your Custom LLM with CrewAI
-
-Once you've implemented your custom LLM, you can use it with CrewAI agents and crews:
-
-```python
-from crewai import Agent, Task, Crew
-from typing import Dict, Any
-
-# Create your custom LLM instance
-jwt_llm = JWTAuthLLM(
-    jwt_token="your.jwt.token", 
-    endpoint="https://your-llm-endpoint.com/v1/chat/completions"
-)
-
-# Use it with an agent
-agent = Agent(
-    role="Research Assistant",
-    goal="Find information on a topic",
-    backstory="You are a research assistant tasked with finding information.",
-    llm=jwt_llm,
-)
-
-# Create a task for the agent
-task = Task(
-    description="Research the benefits of exercise",
-    agent=agent,
-    expected_output="A summary of the benefits of exercise",
-)
-
-# Execute the task
-result = agent.execute_task(task)
-print(result)
-
-# Or use it with a crew
-crew = Crew(
-    agents=[agent],
-    tasks=[task],
-    manager_llm=jwt_llm,  # Use your custom LLM for the manager
-)
-
-# Run the crew
-result = crew.kickoff()
-print(result)
-```
-
-## Implementing Your Own Authentication Mechanism
-
-The `BaseLLM` class allows you to implement any authentication mechanism you need, not just JWT or API keys. You can use:
-
- OAuth tokens
- Client certificates
- Custom headers
- Session-based authentication
- Any other authentication method required by your LLM provider
-
-Simply implement the appropriate authentication logic in your custom LLM class.
--- a/docs/docs.json
+++ b/docs/docs.json
@@ -1,6 +1,6 @@
 {
  "$schema": "https://mintlify.com/docs.json",
-  "theme": "mint",
+  "theme": "palm",
  "name": "CrewAI",
  "colors": {
    "primary": "#EB6658",
@@ -76,7 +76,9 @@
              "concepts/testing",
              "concepts/cli",
              "concepts/tools",
-              "concepts/event-listener"
+              "concepts/event-listener",
+              "concepts/langchain-tools",
+              "concepts/llamaindex-tools"
            ]
          },
          {
@@ -96,22 +98,12 @@
              "how-to/kickoff-for-each",
              "how-to/replay-tasks-from-latest-crew-kickoff",
              "how-to/conditional-tasks",
-              "how-to/langchain-tools",
-              "how-to/llamaindex-tools"
-            ]
-          },
-          {
-            "group": "Agent Monitoring & Observability",
-            "pages": [
              "how-to/agentops-observability",
-              "how-to/arize-phoenix-observability",
-              "how-to/langfuse-observability",
              "how-to/langtrace-observability",
              "how-to/mlflow-observability",
              "how-to/openlit-observability",
-              "how-to/opik-observability",
              "how-to/portkey-observability",
-              "how-to/weave-integration"
+              "how-to/langfuse-observability"
            ]
          },
          {
@@ -119,8 +111,6 @@
            "pages": [
              "tools/aimindtool",
              "tools/apifyactorstool",
-              "tools/bedrockinvokeagenttool",
-              "tools/bedrockkbretriever",
              "tools/bravesearchtool",
              "tools/browserbaseloadtool",
              "tools/codedocssearchtool",
@@ -196,11 +186,6 @@
          "anchor": "Community",
          "href": "https://community.crewai.com",
          "icon": "discourse"
-        },
-        {
-          "anchor": "Tutorials",
-          "href": "https://www.youtube.com/@crewAIInc",
-          "icon": "youtube"
        }
      ]
    }
--- a/docs/how-to/agentops-observability.mdx
+++ b/docs/how-to/agentops-observability.mdx
@@ -1,5 +1,5 @@
 ---
-title: AgentOps Integration
+title: Agent Monitoring with AgentOps
 description: Understanding and logging your agent performance with AgentOps.
 icon: paperclip
 ---
--- a/docs/how-to/arize-phoenix-observability.mdx
+++ b/docs/how-to/arize-phoenix-observability.mdx
@@ -1,145 +0,0 @@
---
-title: Arize Phoenix
-description: Arize Phoenix integration for CrewAI with OpenTelemetry and OpenInference
-icon: magnifying-glass-chart
---
-
-# Arize Phoenix Integration
-
-This guide demonstrates how to integrate **Arize Phoenix** with **CrewAI** using OpenTelemetry via the [OpenInference](https://github.com/openinference/openinference) SDK. By the end of this guide, you will be able to trace your CrewAI agents and easily debug your agents.
-
-> **What is Arize Phoenix?** [Arize Phoenix](https://phoenix.arize.com) is an LLM observability platform that provides tracing and evaluation for AI applications.
-
-[![Watch a Video Demo of Our Integration with Phoenix](https://storage.googleapis.com/arize-assets/fixtures/setup_crewai.png)](https://www.youtube.com/watch?v=Yc5q3l6F7Ww)
-
-## Get Started
-
-We'll walk through a simple example of using CrewAI and integrating it with Arize Phoenix via OpenTelemetry using OpenInference.
-
-You can also access this guide on [Google Colab](https://colab.research.google.com/github/Arize-ai/phoenix/blob/main/tutorials/tracing/crewai_tracing_tutorial.ipynb).
-
-### Step 1: Install Dependencies
-
-```bash
-pip install openinference-instrumentation-crewai crewai crewai-tools arize-phoenix-otel
-```
-
-### Step 2: Set Up Environment Variables
-
-Setup Phoenix Cloud API keys and configure OpenTelemetry to send traces to Phoenix. Phoenix Cloud is a hosted version of Arize Phoenix, but it is not required to use this integration.
-
-You can get your free Serper API key [here](https://serper.dev/).
-
-```python
-import os
-from getpass import getpass
-
-# Get your Phoenix Cloud credentials
-PHOENIX_API_KEY = getpass("🔑 Enter your Phoenix Cloud API Key: ")
-
-# Get API keys for services
-OPENAI_API_KEY = getpass("🔑 Enter your OpenAI API key: ")
-SERPER_API_KEY = getpass("🔑 Enter your Serper API key: ")
-
-# Set environment variables
-os.environ["PHOENIX_CLIENT_HEADERS"] = f"api_key={PHOENIX_API_KEY}"
-os.environ["PHOENIX_COLLECTOR_ENDPOINT"] = "https://app.phoenix.arize.com" # Phoenix Cloud, change this to your own endpoint if you are using a self-hosted instance
-os.environ["OPENAI_API_KEY"] = OPENAI_API_KEY
-os.environ["SERPER_API_KEY"] = SERPER_API_KEY
-```
-
-### Step 3: Initialize OpenTelemetry with Phoenix
-
-Initialize the OpenInference OpenTelemetry instrumentation SDK to start capturing traces and send them to Phoenix. 
-
-```python
-from phoenix.otel import register
-
-tracer_provider = register(
-    project_name="crewai-tracing-demo",
-    auto_instrument=True,
-)
-```
-
-### Step 4: Create a CrewAI Application
-
-We'll create a CrewAI application where two agents collaborate to research and write a blog post about AI advancements.
-
-```python
-from crewai import Agent, Crew, Process, Task
-from crewai_tools import SerperDevTool
-
-search_tool = SerperDevTool()
-
-# Define your agents with roles and goals
-researcher = Agent(
-    role="Senior Research Analyst",
-    goal="Uncover cutting-edge developments in AI and data science",
-    backstory="""You work at a leading tech think tank.
-    Your expertise lies in identifying emerging trends.
-    You have a knack for dissecting complex data and presenting actionable insights.""",
-    verbose=True,
-    allow_delegation=False,
-    # You can pass an optional llm attribute specifying what model you wanna use.
-    # llm=ChatOpenAI(model_name="gpt-3.5", temperature=0.7),
-    tools=[search_tool],
-)
-writer = Agent(
-    role="Tech Content Strategist",
-    goal="Craft compelling content on tech advancements",
-    backstory="""You are a renowned Content Strategist, known for your insightful and engaging articles.
-    You transform complex concepts into compelling narratives.""",
-    verbose=True,
-    allow_delegation=True,
-)
-
-# Create tasks for your agents
-task1 = Task(
-    description="""Conduct a comprehensive analysis of the latest advancements in AI in 2024.
-    Identify key trends, breakthrough technologies, and potential industry impacts.""",
-    expected_output="Full analysis report in bullet points",
-    agent=researcher,
-)
-
-task2 = Task(
-    description="""Using the insights provided, develop an engaging blog
-    post that highlights the most significant AI advancements.
-    Your post should be informative yet accessible, catering to a tech-savvy audience.
-    Make it sound cool, avoid complex words so it doesn't sound like AI.""",
-    expected_output="Full blog post of at least 4 paragraphs",
-    agent=writer,
-)
-
-# Instantiate your crew with a sequential process
-crew = Crew(
-    agents=[researcher, writer], tasks=[task1, task2], verbose=1, process=Process.sequential
-)
-
-# Get your crew to work!
-result = crew.kickoff()
-
-print("######################")
-print(result)
-```
-
-### Step 5: View Traces in Phoenix
-
-After running the agent, you can view the traces generated by your CrewAI application in Phoenix. You should see detailed steps of the agent interactions and LLM calls, which can help you debug and optimize your AI agents.
-
-Log into your Phoenix Cloud account and navigate to the project you specified in the `project_name` parameter. You'll see a timeline view of your trace with all the agent interactions, tool usages, and LLM calls.
-
-![Example trace in Phoenix showing agent interactions](https://storage.googleapis.com/arize-assets/fixtures/crewai_traces.png)
-
-
-### Version Compatibility Information
- Python 3.8+
- CrewAI >= 0.86.0
- Arize Phoenix >= 7.0.1
- OpenTelemetry SDK >= 1.31.0
-
-
-### References
- [Phoenix Documentation](https://docs.arize.com/phoenix/) - Overview of the Phoenix platform.
- [CrewAI Documentation](https://docs.crewai.com/) - Overview of the CrewAI framework.
- [OpenTelemetry Docs](https://opentelemetry.io/docs/) - OpenTelemetry guide
- [OpenInference GitHub](https://github.com/openinference/openinference) - Source code for OpenInference SDK.
--- a/docs/how-to/kickoff-async.mdx
+++ b/docs/how-to/kickoff-async.mdx
@@ -92,14 +92,12 @@ coding_agent = Agent(
 # Create tasks that require code execution
 task_1 = Task(
    description="Analyze the first dataset and calculate the average age of participants. Ages: {ages}",
-    agent=coding_agent,
-    expected_output="The average age of the participants."
+    agent=coding_agent
 )

 task_2 = Task(
    description="Analyze the second dataset and calculate the average age of participants. Ages: {ages}",
-    agent=coding_agent,
-    expected_output="The average age of the participants."
+    agent=coding_agent
 )

 # Create two crews and add tasks
--- a/docs/how-to/kickoff-for-each.mdx
+++ b/docs/how-to/kickoff-for-each.mdx
@@ -39,7 +39,8 @@ analysis_crew = Crew(
    agents=[coding_agent],
    tasks=[data_analysis_task],
    verbose=True,
-    memory=False
+    memory=False,
+    respect_context_window=True  # enable by default
 )

 datasets = [
--- a/docs/how-to/langfuse-observability.mdx
+++ b/docs/how-to/langfuse-observability.mdx
@@ -1,7 +1,7 @@
 ---
-title: Langfuse Integration
+title: Agent Monitoring with Langfuse
 description: Learn how to integrate Langfuse with CrewAI via OpenTelemetry using OpenLit
-icon: vials
+icon: magnifying-glass-chart
 ---

 # Integrate Langfuse with CrewAI
--- a/docs/how-to/langtrace-observability.mdx
+++ b/docs/how-to/langtrace-observability.mdx
@@ -1,5 +1,5 @@
 ---
-title: Langtrace Integration
+title: Agent Monitoring with Langtrace
 description: How to monitor cost, latency, and performance of CrewAI Agents using Langtrace, an external observability tool.
 icon: chart-line
 ---
--- a/docs/how-to/mlflow-observability.mdx
+++ b/docs/how-to/mlflow-observability.mdx
@@ -1,5 +1,5 @@
 ---
-title: MLflow Integration
+title: Agent Monitoring with MLflow
 description: Quickly start monitoring your Agents with MLflow.
 icon: bars-staggered
 ---
--- a/docs/how-to/openlit-observability.mdx
+++ b/docs/how-to/openlit-observability.mdx
@@ -1,5 +1,5 @@
 ---
-title: OpenLIT Integration
+title: Agent Monitoring with OpenLIT
 description: Quickly start monitoring your Agents in just a single line of code with OpenTelemetry.
 icon: magnifying-glass-chart
 ---
--- a/docs/how-to/opik-observability.mdx
+++ b/docs/how-to/opik-observability.mdx
@@ -1,129 +0,0 @@
---
-title: Opik Integration
-description: Learn how to use Comet Opik to debug, evaluate, and monitor your CrewAI applications with comprehensive tracing, automated evaluations, and production-ready dashboards. 
-icon: meteor
---
-
-# Opik Overview
-
-With [Comet Opik](https://www.comet.com/docs/opik/), debug, evaluate, and monitor your LLM applications, RAG systems, and agentic workflows with comprehensive tracing, automated evaluations, and production-ready dashboards.
-
-<Frame caption="Opik Agent Dashboard">
-  <img src="/images/opik-crewai-dashboard.png" alt="Opik agent monitoring example with CrewAI" />
-</Frame>
-
-Opik provides comprehensive support for every stage of your CrewAI application development:
-
- **Log Traces and Spans**: Automatically track LLM calls and application logic to debug and analyze development and production systems. Manually or programmatically annotate, view, and compare responses across projects.
- **Evaluate Your LLM Application's Performance**: Evaluate against a custom test set and run built-in evaluation metrics or define your own metrics in the SDK or UI.
- **Test Within Your CI/CD Pipeline**: Establish reliable performance baselines with Opik's LLM unit tests, built on PyTest. Run online evaluations for continuous monitoring in production.
- **Monitor & Analyze Production Data**: Understand your models' performance on unseen data in production and generate datasets for new dev iterations.
-
-## Setup
-Comet provides a hosted version of the Opik platform, or you can run the platform locally. 
-
-To use the hosted version, simply [create a free Comet account](https://www.comet.com/signup?utm_medium=github&utm_source=crewai_docs) and grab you API Key.
-
-To run the Opik platform locally, see our [installation guide](https://www.comet.com/docs/opik/self-host/overview/) for more information.
-
-For this guide we will use CrewAI’s quickstart example.
-
-<Steps>
-    <Step title="Install required packages">
-      ```shell
-      pip install crewai crewai-tools opik --upgrade
-      ```
-    </Step>
-    <Step title="Configure Opik">
-      ```python
-      import opik
-      opik.configure(use_local=False)
-      ```
-    </Step>
-    <Step title="Prepare environment">
-      First, we set up our API keys for our LLM-provider as environment variables:
-  
-      ```python
-      import os
-      import getpass
-
-      if "OPENAI_API_KEY" not in os.environ:
-      os.environ["OPENAI_API_KEY"] = getpass.getpass("Enter your OpenAI API key: ")
-      ```
-    </Step>
-    <Step title="Using CrewAI">
-      The first step is to create our project. We will use an example from CrewAI’s documentation:
-
-      ```python
-      from crewai import Agent, Crew, Task, Process
-
-
-      class YourCrewName:
-          def agent_one(self) -> Agent:
-              return Agent(
-                  role="Data Analyst",
-                  goal="Analyze data trends in the market",
-                  backstory="An experienced data analyst with a background in economics",
-                  verbose=True,
-              )
-
-          def agent_two(self) -> Agent:
-              return Agent(
-                  role="Market Researcher",
-                  goal="Gather information on market dynamics",
-                  backstory="A diligent researcher with a keen eye for detail",
-                  verbose=True,
-              )
-
-          def task_one(self) -> Task:
-              return Task(
-                  name="Collect Data Task",
-                  description="Collect recent market data and identify trends.",
-                  expected_output="A report summarizing key trends in the market.",
-                  agent=self.agent_one(),
-              )
-
-          def task_two(self) -> Task:
-              return Task(
-                  name="Market Research Task",
-                  description="Research factors affecting market dynamics.",
-                  expected_output="An analysis of factors influencing the market.",
-                  agent=self.agent_two(),
-              )
-
-          def crew(self) -> Crew:
-              return Crew(
-                  agents=[self.agent_one(), self.agent_two()],
-                  tasks=[self.task_one(), self.task_two()],
-                  process=Process.sequential,
-                  verbose=True,
-              )
-
-      ```
-
-      Now we can import Opik’s tracker and run our crew:
-  
-      ```python
-      from opik.integrations.crewai import track_crewai
-
-      track_crewai(project_name="crewai-integration-demo")
-
-      my_crew = YourCrewName().crew()
-      result = my_crew.kickoff()
-
-      print(result)
-      ```
-      After running your CrewAI application, visit the Opik app to view:
-      - LLM traces, spans, and their metadata
-      - Agent interactions and task execution flow
-      - Performance metrics like latency and token usage
-      - Evaluation metrics (built-in or custom)
-    </Step>
-</Steps>
-
-## Resources
-
- [🦉 Opik Documentation](https://www.comet.com/docs/opik/)
- [👉 Opik + CrewAI Colab](https://colab.research.google.com/github/comet-ml/opik/blob/main/apps/opik-documentation/documentation/docs/cookbook/crewai.ipynb)
- [🐦 X](https://x.com/cometml)
- [💬 Slack](https://slack.comet.com/)
--- a/docs/how-to/portkey-observability.mdx
+++ b/docs/how-to/portkey-observability.mdx
@@ -1,5 +1,5 @@
 ---
-title: Portkey Integration
+title: Agent Monitoring with Portkey
 description: How to use Portkey with CrewAI
 icon: key
 ---
--- a/docs/how-to/weave-integration.mdx
+++ b/docs/how-to/weave-integration.mdx
@@ -1,124 +0,0 @@
---
-title: Weave Integration
-description: Learn how to use Weights & Biases (W&B) Weave to track, experiment with, evaluate, and improve your CrewAI applications.
-icon: radar
---
-
-# Weave Overview
-
-[Weights & Biases (W&B) Weave](https://weave-docs.wandb.ai/) is a framework for tracking, experimenting with, evaluating, deploying, and improving LLM-based applications. 
-
-![Overview of W&B Weave CrewAI tracing usage](/images/weave-tracing.gif)
-
-Weave provides comprehensive support for every stage of your CrewAI application development:
-
- **Tracing & Monitoring**: Automatically track LLM calls and application logic to debug and analyze production systems
- **Systematic Iteration**: Refine and iterate on prompts, datasets, and models
- **Evaluation**: Use custom or pre-built scorers to systematically assess and enhance agent performance
- **Guardrails**: Protect your agents with pre- and post-safeguards for content moderation and prompt safety
-
-Weave automatically captures traces for your CrewAI applications, enabling you to monitor and analyze your agents' performance, interactions, and execution flow. This helps you build better evaluation datasets and optimize your agent workflows.
-
-## Setup Instructions
-
-<Steps>
-    <Step title="Install required packages">
-      ```shell
-      pip install crewai weave
-      ```
-    </Step>
-    <Step title="Set up W&B Account">
-      Sign up for a [Weights & Biases account](https://wandb.ai) if you haven't already. You'll need this to view your traces and metrics.
-    </Step>
-    <Step title="Initialize Weave in Your Application">
-      Add the following code to your application:
-
-      ```python
-      import weave
-
-      # Initialize Weave with your project name
-      weave.init(project_name="crewai_demo")
-      ```
-      
-      After initialization, Weave will provide a URL where you can view your traces and metrics.
-    </Step>
-    <Step title="Create your Crews/Flows">
-      ```python
-      from crewai import Agent, Task, Crew, LLM, Process
-
-      # Create an LLM with a temperature of 0 to ensure deterministic outputs
-      llm = LLM(model="gpt-4o", temperature=0)
-
-      # Create agents
-      researcher = Agent(
-          role='Research Analyst',
-          goal='Find and analyze the best investment opportunities',
-          backstory='Expert in financial analysis and market research',
-          llm=llm,
-          verbose=True,
-          allow_delegation=False,
-      )
-
-      writer = Agent(
-          role='Report Writer',
-          goal='Write clear and concise investment reports',
-          backstory='Experienced in creating detailed financial reports',
-          llm=llm,
-          verbose=True,
-          allow_delegation=False,
-      )
-
-      # Create tasks
-      research_task = Task(
-          description='Deep research on the {topic}',
-          expected_output='Comprehensive market data including key players, market size, and growth trends.',
-          agent=researcher
-      )
-
-      writing_task = Task(
-          description='Write a detailed report based on the research',
-          expected_output='The report should be easy to read and understand. Use bullet points where applicable.',
-          agent=writer
-      )
-
-      # Create a crew
-      crew = Crew(
-          agents=[researcher, writer],
-          tasks=[research_task, writing_task],
-          verbose=True,
-          process=Process.sequential,
-      )
-
-      # Run the crew
-      result = crew.kickoff(inputs={"topic": "AI in material science"})
-      print(result)
-      ```
-    </Step>
-    <Step title="View Traces in Weave">
-      After running your CrewAI application, visit the Weave URL provided during initialization to view:
-      - LLM calls and their metadata
-      - Agent interactions and task execution flow
-      - Performance metrics like latency and token usage
-      - Any errors or issues that occurred during execution
-
-      <Frame caption="Weave Tracing Dashboard">
-        <img src="/images/weave-tracing.png" alt="Weave tracing example with CrewAI" />
-      </Frame>
-    </Step>
-</Steps>
-
-## Features
-
- Weave automatically captures all CrewAI operations: agent interactions and task executions; LLM calls with metadata and token usage; tool usage and results.
- The integration supports all CrewAI execution methods: `kickoff()`, `kickoff_for_each()`, `kickoff_async()`, and `kickoff_for_each_async()`.
- Automatic tracing of all [crewAI-tools](https://github.com/crewAIInc/crewAI-tools).
- Flow feature support with decorator patching (`@start`, `@listen`, `@router`, `@or_`, `@and_`).
- Track custom guardrails passed to CrewAI `Task` with `@weave.op()`.
-
-For detailed information on what's supported, visit the [Weave CrewAI documentation](https://weave-docs.wandb.ai/guides/integrations/crewai/#getting-started-with-flow).
-
-## Resources
-
- [📘 Weave Documentation](https://weave-docs.wandb.ai)
- [📊 Example Weave x CrewAI dashboard](https://wandb.ai/ayut/crewai_demo/weave/traces?cols=%7B%22wb_run_id%22%3Afalse%2C%22attributes.weave.client_version%22%3Afalse%2C%22attributes.weave.os_name%22%3Afalse%2C%22attributes.weave.os_release%22%3Afalse%2C%22attributes.weave.os_version%22%3Afalse%2C%22attributes.weave.source%22%3Afalse%2C%22attributes.weave.sys_version%22%3Afalse%7D&peekPath=%2Fayut%2Fcrewai_demo%2Fcalls%2F0195c838-38cb-71a2-8a15-651ecddf9d89)
- [🐦 X](https://x.com/weave_wb)
--- a/docs/images/opik-crewai-dashboard.png
+++ b/docs/images/opik-crewai-dashboard.png
--- a/docs/images/weave-tracing.gif
+++ b/docs/images/weave-tracing.gif
--- a/docs/images/weave-tracing.png
+++ b/docs/images/weave-tracing.png
--- a/docs/installation.mdx
+++ b/docs/installation.mdx
@@ -4,29 +4,14 @@ description: Get started with CrewAI - Install, configure, and build your first
 icon: wrench
 ---

-## Video Tutorial
-Watch this video tutorial for a step-by-step demonstration of the installation process:
-
-<iframe
-  width="100%"
-  height="400"
-  src="https://www.youtube.com/embed/-kSOTtYzgEw"
-  title="CrewAI Installation Guide"
-  frameborder="0"
-  style={{ borderRadius: '10px' }}
-  allow="accelerometer; autoplay; clipboard-write; encrypted-media; gyroscope; picture-in-picture"
-  allowfullscreen
-></iframe>
-
-## Text Tutorial
 <Note>
  **Python Version Requirements**
-
+  
  CrewAI requires `Python >=3.10 and <3.13`. Here's how to check your version:
  ```bash
  python3 --version
  ```
-
+  
  If you need to update Python, visit [python.org/downloads](https://python.org/downloads)
 </Note>

@@ -155,27 +140,6 @@ We recommend using the `YAML` template scaffolding for a structured approach to
  </Step>
 </Steps>

-## Enterprise Installation Options
-
-<Note type="info">
-For teams and organizations, CrewAI offers enterprise deployment options that eliminate setup complexity:
-
-### CrewAI Enterprise (SaaS)
- Zero installation required - just sign up for free at [app.crewai.com](https://app.crewai.com)
- Automatic updates and maintenance
- Managed infrastructure and scaling
- Build Crews with no Code
-
-### CrewAI Factory (Self-hosted)
- Containerized deployment for your infrastructure
- Supports any hyperscaler including on prem depployments
- Integration with your existing security systems
-
-<Card title="Explore Enterprise Options" icon="building" href="https://crewai.com/enterprise">
-  Learn about CrewAI's enterprise offerings and schedule a demo
-</Card>
-</Note>
-
 ## Next Steps

 <CardGroup cols={2}>
--- a/docs/introduction.mdx
+++ b/docs/introduction.mdx
@@ -15,7 +15,6 @@ CrewAI empowers developers with both high-level simplicity and precise low-level

 With over 100,000 developers certified through our community courses, CrewAI is rapidly becoming the standard for enterprise-ready AI automation.

-
 ## How Crews Work

 <Note>
--- a/docs/quickstart.mdx
+++ b/docs/quickstart.mdx
@@ -200,22 +200,6 @@ Follow the steps below to get Crewing! 🚣‍♂️
        ```
      </CodeGroup>
  </Step>
-
-  <Step title="Enterprise Alternative: Create in Crew Studio">
-  For CrewAI Enterprise users, you can create the same crew without writing code:
-
-  1. Log in to your CrewAI Enterprise account (create a free account at [app.crewai.com](https://app.crewai.com))
-  2. Open Crew Studio
-  3. Type what is the automation you're tryign to build
-  4. Create your tasks visually and connect them in sequence
-  5. Configure your inputs and click "Download Code" or "Deploy"
-
-  ![Crew Studio Quickstart](../images/enterprise/crew-studio-quickstart.png)
-
-  <Card title="Try CrewAI Enterprise" icon="rocket" href="https://app.crewai.com">
-    Start your free account at CrewAI Enterprise
-  </Card>
-  </Step>
  <Step title="View your final report">
  You should see the output in the console and the `report.md` file should be created in the root of your project with the final report.

@@ -287,7 +271,7 @@ Follow the steps below to get Crewing! 🚣‍♂️
 </Steps>

 <Check>
-Congratulations!
+Congratulations! 

 You have successfully set up your crew project and are ready to start building your own agentic workflows!
 </Check>
--- a/docs/telemetry.mdx
+++ b/docs/telemetry.mdx
@@ -22,16 +22,7 @@ usage of tools, API calls, responses, any data processed by the agents, or secre
 When the `share_crew` feature is enabled, detailed data including task descriptions, agents' backstories or goals, and other specific attributes are collected 
 to provide deeper insights. This expanded data collection may include personal information if users have incorporated it into their crews or tasks. 
 Users should carefully consider the content of their crews and tasks before enabling `share_crew`. 
-Users can disable telemetry by setting the environment variable `CREWAI_DISABLE_TELEMETRY` to `true` or by setting `OTEL_SDK_DISABLED` to `true` (note that the latter disables all OpenTelemetry instrumentation globally).
-
-### Examples:
-```python
-# Disable CrewAI telemetry only
-os.environ['CREWAI_DISABLE_TELEMETRY'] = 'true'
-
-# Disable all OpenTelemetry (including CrewAI)
-os.environ['OTEL_SDK_DISABLED'] = 'true'
-```
+Users can disable telemetry by setting the environment variable `OTEL_SDK_DISABLED` to `true`.

 ### Data Explanation:
 | Defaulted | Data                                      | Reason and Specifics                                                                                                       |
@@ -64,4 +55,4 @@ This enables a deeper insight into usage patterns.
 <Warning>
    If you enable `share_crew`, the collected data may include personal information if it has been incorporated into crew configurations, task descriptions, or outputs. 
    Users should carefully review their data and ensure compliance with GDPR and other applicable privacy regulations before enabling this feature.
-</Warning>
+</Warning>
--- a/docs/tools/bedrockinvokeagenttool.mdx
+++ b/docs/tools/bedrockinvokeagenttool.mdx
@@ -1,187 +0,0 @@
---
-title: Bedrock Invoke Agent Tool
-description: Enables CrewAI agents to invoke Amazon Bedrock Agents and leverage their capabilities within your workflows
-icon: aws
---
-
-# `BedrockInvokeAgentTool`
-
-The `BedrockInvokeAgentTool` enables CrewAI agents to invoke Amazon Bedrock Agents and leverage their capabilities within your workflows.
-
-## Installation
-
-```bash
-uv pip install 'crewai[tools]'
-```
-
-## Requirements
-
- AWS credentials configured (either through environment variables or AWS CLI)
- `boto3` and `python-dotenv` packages
- Access to Amazon Bedrock Agents
-
-## Usage
-
-Here's how to use the tool with a CrewAI agent:
-
-```python {2, 4-8}
-from crewai import Agent, Task, Crew
-from crewai_tools.aws.bedrock.agents.invoke_agent_tool import BedrockInvokeAgentTool
-
-# Initialize the tool
-agent_tool = BedrockInvokeAgentTool(
-    agent_id="your-agent-id",
-    agent_alias_id="your-agent-alias-id"
-)
-
-# Create a CrewAI agent that uses the tool
-aws_expert = Agent(
-    role='AWS Service Expert',
-    goal='Help users understand AWS services and quotas',
-    backstory='I am an expert in AWS services and can provide detailed information about them.',
-    tools=[agent_tool],
-    verbose=True
-)
-
-# Create a task for the agent
-quota_task = Task(
-    description="Find out the current service quotas for EC2 in us-west-2 and explain any recent changes.",
-    agent=aws_expert
-)
-
-# Create a crew with the agent
-crew = Crew(
-    agents=[aws_expert],
-    tasks=[quota_task],
-    verbose=2
-)
-
-# Run the crew
-result = crew.kickoff()
-print(result)
-```
-
-## Tool Arguments
-
-| Argument | Type | Required | Default | Description |
-|:---------|:-----|:---------|:--------|:------------|
-| **agent_id** | `str` | Yes | None | The unique identifier of the Bedrock agent |
-| **agent_alias_id** | `str` | Yes | None | The unique identifier of the agent alias |
-| **session_id** | `str` | No | timestamp | The unique identifier of the session |
-| **enable_trace** | `bool` | No | False | Whether to enable trace for debugging |
-| **end_session** | `bool` | No | False | Whether to end the session after invocation |
-| **description** | `str` | No | None | Custom description for the tool |
-
-## Environment Variables
-
-```bash
-BEDROCK_AGENT_ID=your-agent-id           # Alternative to passing agent_id
-BEDROCK_AGENT_ALIAS_ID=your-agent-alias-id # Alternative to passing agent_alias_id
-AWS_REGION=your-aws-region               # Defaults to us-west-2
-AWS_ACCESS_KEY_ID=your-access-key        # Required for AWS authentication
-AWS_SECRET_ACCESS_KEY=your-secret-key    # Required for AWS authentication
-```
-
-## Advanced Usage
-
-### Multi-Agent Workflow with Session Management
-
-```python {2, 4-22}
-from crewai import Agent, Task, Crew, Process
-from crewai_tools.aws.bedrock.agents.invoke_agent_tool import BedrockInvokeAgentTool
-
-# Initialize tools with session management
-initial_tool = BedrockInvokeAgentTool(
-    agent_id="your-agent-id",
-    agent_alias_id="your-agent-alias-id",
-    session_id="custom-session-id"
-)
-
-followup_tool = BedrockInvokeAgentTool(
-    agent_id="your-agent-id",
-    agent_alias_id="your-agent-alias-id",
-    session_id="custom-session-id"
-)
-
-final_tool = BedrockInvokeAgentTool(
-    agent_id="your-agent-id",
-    agent_alias_id="your-agent-alias-id",
-    session_id="custom-session-id",
-    end_session=True
-)
-
-# Create agents for different stages
-researcher = Agent(
-    role='AWS Service Researcher',
-    goal='Gather information about AWS services',
-    backstory='I am specialized in finding detailed AWS service information.',
-    tools=[initial_tool]
-)
-
-analyst = Agent(
-    role='Service Compatibility Analyst',
-    goal='Analyze service compatibility and requirements',
-    backstory='I analyze AWS services for compatibility and integration possibilities.',
-    tools=[followup_tool]
-)
-
-summarizer = Agent(
-    role='Technical Documentation Writer',
-    goal='Create clear technical summaries',
-    backstory='I specialize in creating clear, concise technical documentation.',
-    tools=[final_tool]
-)
-
-# Create tasks
-research_task = Task(
-    description="Find all available AWS services in us-west-2 region.",
-    agent=researcher
-)
-
-analysis_task = Task(
-    description="Analyze which services support IPv6 and their implementation requirements.",
-    agent=analyst
-)
-
-summary_task = Task(
-    description="Create a summary of IPv6-compatible services and their key features.",
-    agent=summarizer
-)
-
-# Create a crew with the agents and tasks
-crew = Crew(
-    agents=[researcher, analyst, summarizer],
-    tasks=[research_task, analysis_task, summary_task],
-    process=Process.sequential,
-    verbose=2
-)
-
-# Run the crew
-result = crew.kickoff()
-```
-
-## Use Cases
-
-### Hybrid Multi-Agent Collaborations
- Create workflows where CrewAI agents collaborate with managed Bedrock agents running as services in AWS
- Enable scenarios where sensitive data processing happens within your AWS environment while other agents operate externally
- Bridge on-premises CrewAI agents with cloud-based Bedrock agents for distributed intelligence workflows
-
-### Data Sovereignty and Compliance
- Keep data-sensitive agentic workflows within your AWS environment while allowing external CrewAI agents to orchestrate tasks
- Maintain compliance with data residency requirements by processing sensitive information only within your AWS account
- Enable secure multi-agent collaborations where some agents cannot access your organization's private data
-
-### Seamless AWS Service Integration
- Access any AWS service through Amazon Bedrock Actions without writing complex integration code
- Enable CrewAI agents to interact with AWS services through natural language requests
- Leverage pre-built Bedrock agent capabilities to interact with AWS services like Bedrock Knowledge Bases, Lambda, and more
-
-### Scalable Hybrid Agent Architectures
- Offload computationally intensive tasks to managed Bedrock agents while lightweight tasks run in CrewAI
- Scale agent processing by distributing workloads between local CrewAI agents and cloud-based Bedrock agents
-
-### Cross-Organizational Agent Collaboration
- Enable secure collaboration between your organization's CrewAI agents and partner organizations' Bedrock agents
- Create workflows where external expertise from Bedrock agents can be incorporated without exposing sensitive data
- Build agent ecosystems that span organizational boundaries while maintaining security and data control
--- a/docs/tools/bedrockkbretriever.mdx
+++ b/docs/tools/bedrockkbretriever.mdx
@@ -1,165 +0,0 @@
---
-title: 'Bedrock Knowledge Base Retriever'
-description: 'Retrieve information from Amazon Bedrock Knowledge Bases using natural language queries'
-icon: aws
---
-
-# `BedrockKBRetrieverTool`
-
-The `BedrockKBRetrieverTool` enables CrewAI agents to retrieve information from Amazon Bedrock Knowledge Bases using natural language queries.
-
-## Installation
-
-```bash
-uv pip install 'crewai[tools]'
-```
-
-## Requirements
-
- AWS credentials configured (either through environment variables or AWS CLI)
- `boto3` and `python-dotenv` packages
- Access to Amazon Bedrock Knowledge Base
-
-## Usage
-
-Here's how to use the tool with a CrewAI agent:
-
-```python {2, 4-17}
-from crewai import Agent, Task, Crew
-from crewai_tools.aws.bedrock.knowledge_base.retriever_tool import BedrockKBRetrieverTool
-
-# Initialize the tool
-kb_tool = BedrockKBRetrieverTool(
-    knowledge_base_id="your-kb-id",
-    number_of_results=5
-)
-
-# Create a CrewAI agent that uses the tool
-researcher = Agent(
-    role='Knowledge Base Researcher',
-    goal='Find information about company policies',
-    backstory='I am a researcher specialized in retrieving and analyzing company documentation.',
-    tools=[kb_tool],
-    verbose=True
-)
-
-# Create a task for the agent
-research_task = Task(
-    description="Find our company's remote work policy and summarize the key points.",
-    agent=researcher
-)
-
-# Create a crew with the agent
-crew = Crew(
-    agents=[researcher],
-    tasks=[research_task],
-    verbose=2
-)
-
-# Run the crew
-result = crew.kickoff()
-print(result)   
-```
-
-## Tool Arguments
-
-| Argument | Type | Required | Default | Description |
-|:---------|:-----|:---------|:---------|:-------------|
-| **knowledge_base_id** | `str` | Yes | None | The unique identifier of the knowledge base (0-10 alphanumeric characters) |
-| **number_of_results** | `int` | No | 5 | Maximum number of results to return |
-| **retrieval_configuration** | `dict` | No | None | Custom configurations for the knowledge base query |
-| **guardrail_configuration** | `dict` | No | None | Content filtering settings |
-| **next_token** | `str` | No | None | Token for pagination |
-
-## Environment Variables
-
-```bash
-BEDROCK_KB_ID=your-knowledge-base-id  # Alternative to passing knowledge_base_id
-AWS_REGION=your-aws-region            # Defaults to us-east-1
-AWS_ACCESS_KEY_ID=your-access-key     # Required for AWS authentication
-AWS_SECRET_ACCESS_KEY=your-secret-key # Required for AWS authentication
-```
-
-## Response Format
-
-The tool returns results in JSON format:
-
-```json
-{
-  "results": [
-    {
-      "content": "Retrieved text content",
-      "content_type": "text",
-      "source_type": "S3",
-      "source_uri": "s3://bucket/document.pdf",
-      "score": 0.95,
-      "metadata": {
-        "additional": "metadata"
-      }
-    }
-  ],
-  "nextToken": "pagination-token",
-  "guardrailAction": "NONE"
-}
-```
-
-## Advanced Usage
-
-### Custom Retrieval Configuration
-
-```python
-kb_tool = BedrockKBRetrieverTool(
-    knowledge_base_id="your-kb-id",
-    retrieval_configuration={
-        "vectorSearchConfiguration": {
-            "numberOfResults": 10,
-            "overrideSearchType": "HYBRID"
-        }
-    }
-)
-
-policy_expert = Agent(
-    role='Policy Expert',
-    goal='Analyze company policies in detail',
-    backstory='I am an expert in corporate policy analysis with deep knowledge of regulatory requirements.',
-    tools=[kb_tool]
-)
-```
-
-## Supported Data Sources
-
- Amazon S3
- Confluence
- Salesforce
- SharePoint
- Web pages
- Custom document locations
- Amazon Kendra
- SQL databases    
-
-## Use Cases
-
-### Enterprise Knowledge Integration
- Enable CrewAI agents to access your organization's proprietary knowledge without exposing sensitive data
- Allow agents to make decisions based on your company's specific policies, procedures, and documentation
- Create agents that can answer questions based on your internal documentation while maintaining data security
-
-### Specialized Domain Knowledge
- Connect CrewAI agents to domain-specific knowledge bases (legal, medical, technical) without retraining models
- Leverage existing knowledge repositories that are already maintained in your AWS environment
- Combine CrewAI's reasoning with domain-specific information from your knowledge bases
-
-### Data-Driven Decision Making
- Ground CrewAI agent responses in your actual company data rather than general knowledge
- Ensure agents provide recommendations based on your specific business context and documentation
- Reduce hallucinations by retrieving factual information from your knowledge bases
-
-### Scalable Information Access
- Access terabytes of organizational knowledge without embedding it all into your models
- Dynamically query only the relevant information needed for specific tasks
- Leverage AWS's scalable infrastructure to handle large knowledge bases efficiently
-
-### Compliance and Governance
- Ensure CrewAI agents provide responses that align with your company's approved documentation
- Create auditable trails of information sources used by your agents
- Maintain control over what information sources your agents can access
--- a/pyproject.toml
+++ b/pyproject.toml
@@ -1,6 +1,6 @@
 [project]
 name = "crewai"
-version = "0.114.0"
+version = "0.108.0"
 description = "Cutting-edge framework for orchestrating role-playing, autonomous AI agents. By fostering collaborative intelligence, CrewAI empowers agents to work together seamlessly, tackling complex tasks."
 readme = "README.md"
 requires-python = ">=3.10,<3.13"
@@ -45,7 +45,7 @@ Documentation = "https://docs.crewai.com"
 Repository = "https://github.com/crewAIInc/crewAI"

 [project.optional-dependencies]
-tools = ["crewai-tools~=0.40.1"]
+tools = ["crewai-tools>=0.37.0"]
 embeddings = [
    "tiktoken~=0.7.0"
 ]
@@ -64,9 +64,6 @@ mem0 = ["mem0ai>=0.1.29"]
 docling = [
    "docling>=2.12.0",
 ]
-aisuite = [
-    "aisuite>=0.1.10",
-]

 [tool.uv]
 dev-dependencies = [
--- a/src/crewai/init.py
+++ b/src/crewai/init.py
@@ -2,14 +2,11 @@ import warnings

 from crewai.agent import Agent
 from crewai.crew import Crew
-from crewai.crews.crew_output import CrewOutput
 from crewai.flow.flow import Flow
 from crewai.knowledge.knowledge import Knowledge
 from crewai.llm import LLM
-from crewai.llms.base_llm import BaseLLM
 from crewai.process import Process
 from crewai.task import Task
-from crewai.tasks.task_output import TaskOutput

 warnings.filterwarnings(
    "ignore",
@@ -17,16 +14,13 @@ warnings.filterwarnings(
    category=UserWarning,
    module="pydantic.main",
 )
-__version__ = "0.114.0"
+__version__ = "0.108.0"
 __all__ = [
    "Agent",
    "Crew",
-    "CrewOutput",
    "Process",
    "Task",
    "LLM",
-    "BaseLLM",
    "Flow",
    "Knowledge",
-    "TaskOutput",
 ]
--- a/src/crewai/agent.py
+++ b/src/crewai/agent.py
@@ -1,6 +1,7 @@
+import re
 import shutil
 import subprocess
-from typing import Any, Dict, List, Literal, Optional, Sequence, Type, Union
+from typing import Any, Dict, List, Literal, Optional, Sequence, Union

 from pydantic import Field, InstanceOf, PrivateAttr, model_validator

@@ -10,19 +11,13 @@ from crewai.agents.crew_agent_executor import CrewAgentExecutor
 from crewai.knowledge.knowledge import Knowledge
 from crewai.knowledge.source.base_knowledge_source import BaseKnowledgeSource
 from crewai.knowledge.utils.knowledge_utils import extract_knowledge_context
-from crewai.lite_agent import LiteAgent, LiteAgentOutput
-from crewai.llm import BaseLLM
+from crewai.llm import LLM
 from crewai.memory.contextual.contextual_memory import ContextualMemory
 from crewai.security import Fingerprint
 from crewai.task import Task
 from crewai.tools import BaseTool
 from crewai.tools.agent_tools.agent_tools import AgentTools
 from crewai.utilities import Converter, Prompts
-from crewai.utilities.agent_utils import (
-    get_tool_names,
-    parse_tools,
-    render_text_description_and_args,
-)
 from crewai.utilities.constants import TRAINED_AGENTS_DATA_FILE, TRAINING_DATA_FILE
 from crewai.utilities.converter import generate_model_description
 from crewai.utilities.events.agent_events import (
@@ -76,10 +71,10 @@ class Agent(BaseAgent):
        default=True,
        description="Use system prompt for the agent.",
    )
-    llm: Union[str, InstanceOf[BaseLLM], Any] = Field(
+    llm: Union[str, InstanceOf[LLM], Any] = Field(
        description="Language model that will run the agent.", default=None
    )
-    function_calling_llm: Optional[Union[str, InstanceOf[BaseLLM], Any]] = Field(
+    function_calling_llm: Optional[Union[str, InstanceOf[LLM], Any]] = Field(
        description="Language model that will run the agent.", default=None
    )
    system_template: Optional[str] = Field(
@@ -91,6 +86,9 @@ class Agent(BaseAgent):
    response_template: Optional[str] = Field(
        default=None, description="Response format for the agent."
    )
+    tools_results: Optional[List[Any]] = Field(
+        default=[], description="Results of the tools used by the agent."
+    )
    allow_code_execution: Optional[bool] = Field(
        default=False, description="Enable code execution for the agent."
    )
@@ -120,9 +118,7 @@ class Agent(BaseAgent):
        self.agent_ops_agent_name = self.role

        self.llm = create_llm(self.llm)
-        if self.function_calling_llm and not isinstance(
-            self.function_calling_llm, BaseLLM
-        ):
+        if self.function_calling_llm and not isinstance(self.function_calling_llm, LLM):
            self.function_calling_llm = create_llm(self.function_calling_llm)

        if not self.agent_executor:
@@ -144,13 +140,15 @@ class Agent(BaseAgent):
                self.embedder = crew_embedder

            if self.knowledge_sources:
+                full_pattern = re.compile(r"[^a-zA-Z0-9\-_\r\n]|(\.\.)")
+                knowledge_agent_name = f"{re.sub(full_pattern, '_', self.role)}"
                if isinstance(self.knowledge_sources, list) and all(
                    isinstance(k, BaseKnowledgeSource) for k in self.knowledge_sources
                ):
                    self.knowledge = Knowledge(
                        sources=self.knowledge_sources,
                        embedder=self.embedder,
-                        collection_name=self.role,
+                        collection_name=knowledge_agent_name,
                        storage=self.knowledge_storage or None,
                    )
        except (TypeError, ValueError) as e:
@@ -207,7 +205,6 @@ class Agent(BaseAgent):
                self.crew._long_term_memory,
                self.crew._entity_memory,
                self.crew._user_memory,
-                self.crew._external_memory,
            )
            memory = contextual_memory.build_context_for_task(task, context)
            if memory.strip() != "":
@@ -303,12 +300,12 @@ class Agent(BaseAgent):
        Returns:
            An instance of the CrewAgentExecutor class.
        """
-        raw_tools: List[BaseTool] = tools or self.tools or []
-        parsed_tools = parse_tools(raw_tools)
+        tools = tools or self.tools or []
+        parsed_tools = self._parse_tools(tools)

        prompt = Prompts(
            agent=self,
-            has_tools=len(raw_tools) > 0,
+            tools=tools,
            i18n=self.i18n,
            use_system_prompt=self.use_system_prompt,
            system_template=self.system_template,
@@ -330,12 +327,12 @@ class Agent(BaseAgent):
            crew=self.crew,
            tools=parsed_tools,
            prompt=prompt,
-            original_tools=raw_tools,
+            original_tools=tools,
            stop_words=stop_words,
            max_iter=self.max_iter,
            tools_handler=self.tools_handler,
-            tools_names=get_tool_names(parsed_tools),
-            tools_description=render_text_description_and_args(parsed_tools),
+            tools_names=self.__tools_names(parsed_tools),
+            tools_description=self._render_text_description_and_args(parsed_tools),
            step_callback=self.step_callback,
            function_calling_llm=self.function_calling_llm,
            respect_context_window=self.respect_context_window,
@@ -370,6 +367,25 @@ class Agent(BaseAgent):
    def get_output_converter(self, llm, text, model, instructions):
        return Converter(llm=llm, text=text, model=model, instructions=instructions)

+    def _parse_tools(self, tools: List[Any]) -> List[Any]:  # type: ignore
+        """Parse tools to be used for the task."""
+        tools_list = []
+        try:
+            # tentatively try to import from crewai_tools import BaseTool as CrewAITool
+            from crewai.tools import BaseTool as CrewAITool
+
+            for tool in tools:
+                if isinstance(tool, CrewAITool):
+                    tools_list.append(tool.to_structured_tool())
+                else:
+                    tools_list.append(tool)
+        except ModuleNotFoundError:
+            tools_list = []
+            for tool in tools:
+                tools_list.append(tool)
+
+        return tools_list
+
    def _training_handler(self, task_prompt: str) -> str:
        """Handle training data for the agent task prompt to improve output on Training."""
        if data := CrewTrainingHandler(TRAINING_DATA_FILE).load():
@@ -415,6 +431,23 @@ class Agent(BaseAgent):

        return description

+    def _render_text_description_and_args(self, tools: List[BaseTool]) -> str:
+        """Render the tool name, description, and args in plain text.
+
+            Output will be in the format of:
+
+            .. code-block:: markdown
+
+            search: This tool is used for search, args: {"query": {"type": "string"}}
+            calculator: This tool is used for math, \
+            args: {"expression": {"type": "string"}}
+        """
+        tool_strings = []
+        for tool in tools:
+            tool_strings.append(tool.description)
+
+        return "\n".join(tool_strings)
+
    def _validate_docker_installation(self) -> None:
        """Check if Docker is installed and running."""
        if not shutil.which("docker"):
@@ -434,6 +467,10 @@ class Agent(BaseAgent):
                f"Docker is not running. Please start Docker to use code execution with agent: {self.role}"
            )

+    @staticmethod
+    def __tools_names(tools) -> str:
+        return ", ".join([t.name for t in tools])
+
    def __repr__(self):
        return f"Agent(role={self.role}, goal={self.goal}, backstory={self.backstory})"

@@ -446,77 +483,3 @@ class Agent(BaseAgent):
            Fingerprint: The agent's fingerprint
        """
        return self.security_config.fingerprint
-
-    def set_fingerprint(self, fingerprint: Fingerprint):
-        self.security_config.fingerprint = fingerprint
-
-    def kickoff(
-        self,
-        messages: Union[str, List[Dict[str, str]]],
-        response_format: Optional[Type[Any]] = None,
-    ) -> LiteAgentOutput:
-        """
-        Execute the agent with the given messages using a LiteAgent instance.
-
-        This method is useful when you want to use the Agent configuration but
-        with the simpler and more direct execution flow of LiteAgent.
-
-        Args:
-            messages: Either a string query or a list of message dictionaries.
-                     If a string is provided, it will be converted to a user message.
-                     If a list is provided, each dict should have 'role' and 'content' keys.
-            response_format: Optional Pydantic model for structured output.
-
-        Returns:
-            LiteAgentOutput: The result of the agent execution.
-        """
-        lite_agent = LiteAgent(
-            role=self.role,
-            goal=self.goal,
-            backstory=self.backstory,
-            llm=self.llm,
-            tools=self.tools or [],
-            max_iterations=self.max_iter,
-            max_execution_time=self.max_execution_time,
-            respect_context_window=self.respect_context_window,
-            verbose=self.verbose,
-            response_format=response_format,
-            i18n=self.i18n,
-        )
-
-        return lite_agent.kickoff(messages)
-
-    async def kickoff_async(
-        self,
-        messages: Union[str, List[Dict[str, str]]],
-        response_format: Optional[Type[Any]] = None,
-    ) -> LiteAgentOutput:
-        """
-        Execute the agent asynchronously with the given messages using a LiteAgent instance.
-
-        This is the async version of the kickoff method.
-
-        Args:
-            messages: Either a string query or a list of message dictionaries.
-                     If a string is provided, it will be converted to a user message.
-                     If a list is provided, each dict should have 'role' and 'content' keys.
-            response_format: Optional Pydantic model for structured output.
-
-        Returns:
-            LiteAgentOutput: The result of the agent execution.
-        """
-        lite_agent = LiteAgent(
-            role=self.role,
-            goal=self.goal,
-            backstory=self.backstory,
-            llm=self.llm,
-            tools=self.tools or [],
-            max_iterations=self.max_iter,
-            max_execution_time=self.max_execution_time,
-            respect_context_window=self.respect_context_window,
-            verbose=self.verbose,
-            response_format=response_format,
-            i18n=self.i18n,
-        )
-
-        return await lite_agent.kickoff_async(messages)
--- a/src/crewai/agents/agent_builder/base_agent.py
+++ b/src/crewai/agents/agent_builder/base_agent.py
@@ -2,7 +2,7 @@ import uuid
 from abc import ABC, abstractmethod
 from copy import copy as shallow_copy
 from hashlib import md5
-from typing import Any, Callable, Dict, List, Optional, TypeVar
+from typing import Any, Dict, List, Optional, TypeVar

 from pydantic import (
    UUID4,
@@ -25,7 +25,6 @@ from crewai.tools.base_tool import BaseTool, Tool
 from crewai.utilities import I18N, Logger, RPMController
 from crewai.utilities.config import process_config
 from crewai.utilities.converter import Converter
-from crewai.utilities.string_utils import interpolate_only

 T = TypeVar("T", bound="BaseAgent")

@@ -72,6 +71,8 @@ class BaseAgent(ABC, BaseModel):
            Interpolate inputs into the agent description and backstory.
        set_cache_handler(cache_handler: CacheHandler) -> None:
            Set the cache handler for the agent.
+        increment_formatting_errors() -> None:
+            Increment formatting errors.
        copy() -> "BaseAgent":
            Create a copy of the agent.
        set_rpm_controller(rpm_controller: RPMController) -> None:
@@ -89,6 +90,9 @@ class BaseAgent(ABC, BaseModel):
    _original_backstory: Optional[str] = PrivateAttr(default=None)
    _token_process: TokenProcess = PrivateAttr(default_factory=TokenProcess)
    id: UUID4 = Field(default_factory=uuid.uuid4, frozen=True)
+    formatting_errors: int = Field(
+        default=0, description="Number of formatting errors."
+    )
    role: str = Field(description="Role of the agent")
    goal: str = Field(description="Objective of the agent")
    backstory: str = Field(description="Backstory of the agent")
@@ -130,9 +134,6 @@ class BaseAgent(ABC, BaseModel):
        default_factory=ToolsHandler,
        description="An instance of the ToolsHandler class.",
    )
-    tools_results: List[Dict[str, Any]] = Field(
-        default=[], description="Results of the tools used by the agent."
-    )
    max_tokens: Optional[int] = Field(
        default=None, description="Maximum number of tokens for the agent's execution."
    )
@@ -151,9 +152,6 @@ class BaseAgent(ABC, BaseModel):
        default_factory=SecurityConfig,
        description="Security configuration for the agent, including fingerprinting.",
    )
-    callbacks: List[Callable] = Field(
-        default=[], description="Callbacks to be used for the agent"
-    )

    @model_validator(mode="before")
    @classmethod
@@ -255,6 +253,10 @@ class BaseAgent(ABC, BaseModel):
    def create_agent_executor(self, tools=None) -> None:
        pass

+    @abstractmethod
+    def _parse_tools(self, tools: List[BaseTool]) -> List[BaseTool]:
+        pass
+
    @abstractmethod
    def get_delegation_tools(self, agents: List["BaseAgent"]) -> List[BaseTool]:
        """Set the task tools that init BaseAgenTools class."""
@@ -331,15 +333,9 @@ class BaseAgent(ABC, BaseModel):
            self._original_backstory = self.backstory

        if inputs:
-            self.role = interpolate_only(
-                input_string=self._original_role, inputs=inputs
-            )
-            self.goal = interpolate_only(
-                input_string=self._original_goal, inputs=inputs
-            )
-            self.backstory = interpolate_only(
-                input_string=self._original_backstory, inputs=inputs
-            )
+            self.role = self._original_role.format(**inputs)
+            self.goal = self._original_goal.format(**inputs)
+            self.backstory = self._original_backstory.format(**inputs)

    def set_cache_handler(self, cache_handler: CacheHandler) -> None:
        """Set the cache handler for the agent.
@@ -353,6 +349,9 @@ class BaseAgent(ABC, BaseModel):
            self.tools_handler.cache = cache_handler
        self.create_agent_executor()

+    def increment_formatting_errors(self) -> None:
+        self.formatting_errors += 1
+
    def set_rpm_controller(self, rpm_controller: RPMController) -> None:
        """Set the rpm controller for the agent.

--- a/src/crewai/agents/agent_builder/base_agent_executor_mixin.py
+++ b/src/crewai/agents/agent_builder/base_agent_executor_mixin.py
@@ -1,5 +1,5 @@
 import time
-from typing import TYPE_CHECKING
+from typing import TYPE_CHECKING, Optional

 from crewai.memory.entity.entity_memory_item import EntityMemoryItem
 from crewai.memory.long_term.long_term_memory_item import LongTermMemoryItem
@@ -15,9 +15,9 @@ if TYPE_CHECKING:


 class CrewAgentExecutorMixin:
-    crew: "Crew"
-    agent: "BaseAgent"
-    task: "Task"
+    crew: Optional["Crew"]
+    agent: Optional["BaseAgent"]
+    task: Optional["Task"]
    iterations: int
    max_iter: int
    _i18n: I18N
@@ -47,27 +47,6 @@ class CrewAgentExecutorMixin:
                print(f"Failed to add to short term memory: {e}")
                pass

-    def _create_external_memory(self, output) -> None:
-        """Create and save a external-term memory item if conditions are met."""
-        if (
-            self.crew
-            and self.agent
-            and self.task
-            and hasattr(self.crew, "_external_memory")
-            and self.crew._external_memory
-        ):
-            try:
-                self.crew._external_memory.save(
-                    value=output.text,
-                    metadata={
-                        "description": self.task.description,
-                    },
-                    agent=self.agent.role,
-                )
-            except Exception as e:
-                print(f"Failed to add to external memory: {e}")
-                pass
-
    def _create_long_term_memory(self, output) -> None:
        """Create and save long-term and entity memory items based on evaluation."""
        if (
--- a/src/crewai/agents/crew_agent_executor.py
+++ b/src/crewai/agents/crew_agent_executor.py
@@ -1,40 +1,42 @@
 import json
 import re
+from dataclasses import dataclass
 from typing import Any, Callable, Dict, List, Optional, Union

 from crewai.agents.agent_builder.base_agent import BaseAgent
 from crewai.agents.agent_builder.base_agent_executor_mixin import CrewAgentExecutorMixin
 from crewai.agents.parser import (
+    FINAL_ANSWER_AND_PARSABLE_ACTION_ERROR_MESSAGE,
    AgentAction,
    AgentFinish,
+    CrewAgentParser,
    OutputParserException,
 )
 from crewai.agents.tools_handler import ToolsHandler
-from crewai.llm import BaseLLM
+from crewai.llm import LLM
 from crewai.tools.base_tool import BaseTool
-from crewai.tools.structured_tool import CrewStructuredTool
-from crewai.tools.tool_types import ToolResult
+from crewai.tools.tool_usage import ToolUsage, ToolUsageErrorException
 from crewai.utilities import I18N, Printer
-from crewai.utilities.agent_utils import (
-    enforce_rpm_limit,
-    format_message_for_llm,
-    get_llm_response,
-    handle_agent_action_core,
-    handle_context_length,
-    handle_max_iterations_exceeded,
-    handle_output_parser_exception,
-    handle_unknown_error,
-    has_reached_max_iterations,
-    is_context_length_exceeded,
-    process_llm_response,
-    show_agent_logs,
-)
 from crewai.utilities.constants import MAX_LLM_RETRY, TRAINING_DATA_FILE
+from crewai.utilities.events import (
+    ToolUsageErrorEvent,
+    ToolUsageStartedEvent,
+    crewai_event_bus,
+)
+from crewai.utilities.events.tool_usage_events import ToolUsageStartedEvent
+from crewai.utilities.exceptions.context_window_exceeding_exception import (
+    LLMContextLengthExceededException,
+)
 from crewai.utilities.logger import Logger
-from crewai.utilities.tool_utils import execute_tool_and_check_finality
 from crewai.utilities.training_handler import CrewTrainingHandler


+@dataclass
+class ToolResult:
+    result: Any
+    result_as_answer: bool
+
+
 class CrewAgentExecutor(CrewAgentExecutorMixin):
    _logger: Logger = Logger()

@@ -46,7 +48,7 @@ class CrewAgentExecutor(CrewAgentExecutorMixin):
        agent: BaseAgent,
        prompt: dict[str, str],
        max_iter: int,
-        tools: List[CrewStructuredTool],
+        tools: List[BaseTool],
        tools_names: str,
        stop_words: List[str],
        tools_description: str,
@@ -59,7 +61,7 @@ class CrewAgentExecutor(CrewAgentExecutorMixin):
        callbacks: List[Any] = [],
    ):
        self._i18n: I18N = I18N()
-        self.llm: BaseLLM = llm
+        self.llm: LLM = llm
        self.task = task
        self.agent = agent
        self.crew = crew
@@ -82,27 +84,21 @@ class CrewAgentExecutor(CrewAgentExecutorMixin):
        self.messages: List[Dict[str, str]] = []
        self.iterations = 0
        self.log_error_after = 3
-        self.tool_name_to_tool_map: Dict[str, Union[CrewStructuredTool, BaseTool]] = {
+        self.tool_name_to_tool_map: Dict[str, BaseTool] = {
            tool.name: tool for tool in self.tools
        }
-        existing_stop = self.llm.stop or []
-        self.llm.stop = list(
-            set(
-                existing_stop + self.stop
-                if isinstance(existing_stop, list)
-                else self.stop
-            )
-        )
+        self.stop = stop_words
+        self.llm.stop = list(set(self.llm.stop + self.stop))

    def invoke(self, inputs: Dict[str, str]) -> Dict[str, Any]:
        if "system" in self.prompt:
            system_prompt = self._format_prompt(self.prompt.get("system", ""), inputs)
            user_prompt = self._format_prompt(self.prompt.get("user", ""), inputs)
-            self.messages.append(format_message_for_llm(system_prompt, role="system"))
-            self.messages.append(format_message_for_llm(user_prompt))
+            self.messages.append(self._format_msg(system_prompt, role="system"))
+            self.messages.append(self._format_msg(user_prompt))
        else:
            user_prompt = self._format_prompt(self.prompt.get("prompt", ""), inputs)
-            self.messages.append(format_message_for_llm(user_prompt))
+            self.messages.append(self._format_msg(user_prompt))

        self._show_start_logs()

@@ -117,7 +113,7 @@ class CrewAgentExecutor(CrewAgentExecutorMixin):
            )
            raise
        except Exception as e:
-            handle_unknown_error(self._printer, e)
+            self._handle_unknown_error(e)
            if e.__class__.__module__.startswith("litellm"):
                # Do not retry on litellm errors
                raise e
@@ -129,7 +125,6 @@ class CrewAgentExecutor(CrewAgentExecutorMixin):

        self._create_short_term_memory(formatted_answer)
        self._create_long_term_memory(formatted_answer)
-        self._create_external_memory(formatted_answer)
        return {"output": formatted_answer.output}

    def _invoke_loop(self) -> AgentFinish:
@@ -140,51 +135,20 @@ class CrewAgentExecutor(CrewAgentExecutorMixin):
        formatted_answer = None
        while not isinstance(formatted_answer, AgentFinish):
            try:
-                if has_reached_max_iterations(self.iterations, self.max_iter):
-                    formatted_answer = handle_max_iterations_exceeded(
-                        formatted_answer,
-                        printer=self._printer,
-                        i18n=self._i18n,
-                        messages=self.messages,
-                        llm=self.llm,
-                        callbacks=self.callbacks,
+                if self._has_reached_max_iterations():
+                    formatted_answer = self._handle_max_iterations_exceeded(
+                        formatted_answer
                    )
+                    break

-                enforce_rpm_limit(self.request_within_rpm_limit)
+                self._enforce_rpm_limit()

-                answer = get_llm_response(
-                    llm=self.llm,
-                    messages=self.messages,
-                    callbacks=self.callbacks,
-                    printer=self._printer,
-                )
-                formatted_answer = process_llm_response(answer, self.use_stop_words)
+                answer = self._get_llm_response()
+                formatted_answer = self._process_llm_response(answer)

                if isinstance(formatted_answer, AgentAction):
-                    # Extract agent fingerprint if available
-                    fingerprint_context = {}
-                    if (
-                        self.agent
-                        and hasattr(self.agent, "security_config")
-                        and hasattr(self.agent.security_config, "fingerprint")
-                    ):
-                        fingerprint_context = {
-                            "agent_fingerprint": str(
-                                self.agent.security_config.fingerprint
-                            )
-                        }
-
-                    tool_result = execute_tool_and_check_finality(
-                        agent_action=formatted_answer,
-                        fingerprint_context=fingerprint_context,
-                        tools=self.tools,
-                        i18n=self._i18n,
-                        agent_key=self.agent.key if self.agent else None,
-                        agent_role=self.agent.role if self.agent else None,
-                        tools_handler=self.tools_handler,
-                        task=self.task,
-                        agent=self.agent,
-                        function_calling_llm=self.function_calling_llm,
+                    tool_result = self._execute_tool_and_check_finality(
+                        formatted_answer
                    )
                    formatted_answer = self._handle_agent_action(
                        formatted_answer, tool_result
@@ -194,30 +158,17 @@ class CrewAgentExecutor(CrewAgentExecutorMixin):
                self._append_message(formatted_answer.text, role="assistant")

            except OutputParserException as e:
-                formatted_answer = handle_output_parser_exception(
-                    e=e,
-                    messages=self.messages,
-                    iterations=self.iterations,
-                    log_error_after=self.log_error_after,
-                    printer=self._printer,
-                )
+                formatted_answer = self._handle_output_parser_exception(e)

            except Exception as e:
                if e.__class__.__module__.startswith("litellm"):
                    # Do not retry on litellm errors
                    raise e
-                if is_context_length_exceeded(e):
-                    handle_context_length(
-                        respect_context_window=self.respect_context_window,
-                        printer=self._printer,
-                        messages=self.messages,
-                        llm=self.llm,
-                        callbacks=self.callbacks,
-                        i18n=self._i18n,
-                    )
+                if self._is_context_length_exceeded(e):
+                    self._handle_context_length()
                    continue
                else:
-                    handle_unknown_error(self._printer, e)
+                    self._handle_unknown_error(e)
                    raise e
            finally:
                self.iterations += 1
@@ -230,27 +181,89 @@ class CrewAgentExecutor(CrewAgentExecutorMixin):
        self._show_logs(formatted_answer)
        return formatted_answer

+    def _handle_unknown_error(self, exception: Exception) -> None:
+        """Handle unknown errors by informing the user."""
+        self._printer.print(
+            content="An unknown error occurred. Please check the details below.",
+            color="red",
+        )
+        self._printer.print(
+            content=f"Error details: {exception}",
+            color="red",
+        )
+
+    def _has_reached_max_iterations(self) -> bool:
+        """Check if the maximum number of iterations has been reached."""
+        return self.iterations >= self.max_iter
+
+    def _enforce_rpm_limit(self) -> None:
+        """Enforce the requests per minute (RPM) limit if applicable."""
+        if self.request_within_rpm_limit:
+            self.request_within_rpm_limit()
+
+    def _get_llm_response(self) -> str:
+        """Call the LLM and return the response, handling any invalid responses."""
+        try:
+            answer = self.llm.call(
+                self.messages,
+                callbacks=self.callbacks,
+            )
+        except Exception as e:
+            self._printer.print(
+                content=f"Error during LLM call: {e}",
+                color="red",
+            )
+            raise e
+
+        if not answer:
+            self._printer.print(
+                content="Received None or empty response from LLM call.",
+                color="red",
+            )
+            raise ValueError("Invalid response from LLM call - None or empty.")
+
+        return answer
+
+    def _process_llm_response(self, answer: str) -> Union[AgentAction, AgentFinish]:
+        """Process the LLM response and format it into an AgentAction or AgentFinish."""
+        if not self.use_stop_words:
+            try:
+                # Preliminary parsing to check for errors.
+                self._format_answer(answer)
+            except OutputParserException as e:
+                if FINAL_ANSWER_AND_PARSABLE_ACTION_ERROR_MESSAGE in e.error:
+                    answer = answer.split("Observation:")[0].strip()
+
+        return self._format_answer(answer)
+
    def _handle_agent_action(
        self, formatted_answer: AgentAction, tool_result: ToolResult
    ) -> Union[AgentAction, AgentFinish]:
        """Handle the AgentAction, execute tools, and process the results."""
-        # Special case for add_image_tool
        add_image_tool = self._i18n.tools("add_image")
        if (
            isinstance(add_image_tool, dict)
            and formatted_answer.tool.casefold().strip()
            == add_image_tool.get("name", "").casefold().strip()
        ):
-            self.messages.append({"role": "assistant", "content": tool_result.result})
-            return formatted_answer
+            self.messages.append(tool_result.result)
+            return formatted_answer  # Continue the loop

-        return handle_agent_action_core(
-            formatted_answer=formatted_answer,
-            tool_result=tool_result,
-            messages=self.messages,
-            step_callback=self.step_callback,
-            show_logs=self._show_logs,
-        )
+        if self.step_callback:
+            self.step_callback(tool_result)
+
+        formatted_answer.text += f"\nObservation: {tool_result.result}"
+        formatted_answer.result = tool_result.result
+
+        if tool_result.result_as_answer:
+            return AgentFinish(
+                thought="",
+                output=tool_result.result,
+                text=formatted_answer.text,
+            )
+
+        self._show_logs(formatted_answer)
+        return formatted_answer

    def _invoke_step_callback(self, formatted_answer) -> None:
        """Invoke the step callback if it exists."""
@@ -259,33 +272,151 @@ class CrewAgentExecutor(CrewAgentExecutorMixin):

    def _append_message(self, text: str, role: str = "assistant") -> None:
        """Append a message to the message list with the given role."""
-        self.messages.append(format_message_for_llm(text, role=role))
+        self.messages.append(self._format_msg(text, role=role))
+
+    def _handle_output_parser_exception(self, e: OutputParserException) -> AgentAction:
+        """Handle OutputParserException by updating messages and formatted_answer."""
+        self.messages.append({"role": "user", "content": e.error})
+
+        formatted_answer = AgentAction(
+            text=e.error,
+            tool="",
+            tool_input="",
+            thought="",
+        )
+
+        if self.iterations > self.log_error_after:
+            self._printer.print(
+                content=f"Error parsing LLM output, agent will retry: {e.error}",
+                color="red",
+            )
+
+        return formatted_answer
+
+    def _is_context_length_exceeded(self, exception: Exception) -> bool:
+        """Check if the exception is due to context length exceeding."""
+        return LLMContextLengthExceededException(
+            str(exception)
+        )._is_context_limit_error(str(exception))

    def _show_start_logs(self):
-        """Show logs for the start of agent execution."""
        if self.agent is None:
            raise ValueError("Agent cannot be None")
-        show_agent_logs(
-            printer=self._printer,
-            agent_role=self.agent.role,
-            task_description=(
+        if self.agent.verbose or (
+            hasattr(self, "crew") and getattr(self.crew, "verbose", False)
+        ):
+            agent_role = self.agent.role.split("\n")[0]
+            self._printer.print(
+                content=f"\033[1m\033[95m# Agent:\033[00m \033[1m\033[92m{agent_role}\033[00m"
+            )
+            description = (
                getattr(self.task, "description") if self.task else "Not Found"
-            ),
-            verbose=self.agent.verbose
-            or (hasattr(self, "crew") and getattr(self.crew, "verbose", False)),
-        )
+            )
+            self._printer.print(
+                content=f"\033[95m## Task:\033[00m \033[92m{description}\033[00m"
+            )

    def _show_logs(self, formatted_answer: Union[AgentAction, AgentFinish]):
-        """Show logs for the agent's execution."""
        if self.agent is None:
            raise ValueError("Agent cannot be None")
-        show_agent_logs(
-            printer=self._printer,
-            agent_role=self.agent.role,
-            formatted_answer=formatted_answer,
-            verbose=self.agent.verbose
-            or (hasattr(self, "crew") and getattr(self.crew, "verbose", False)),
-        )
+        if self.agent.verbose or (
+            hasattr(self, "crew") and getattr(self.crew, "verbose", False)
+        ):
+            agent_role = self.agent.role.split("\n")[0]
+            if isinstance(formatted_answer, AgentAction):
+                thought = re.sub(r"\n+", "\n", formatted_answer.thought)
+                formatted_json = json.dumps(
+                    formatted_answer.tool_input,
+                    indent=2,
+                    ensure_ascii=False,
+                )
+                self._printer.print(
+                    content=f"\n\n\033[1m\033[95m# Agent:\033[00m \033[1m\033[92m{agent_role}\033[00m"
+                )
+                if thought and thought != "":
+                    self._printer.print(
+                        content=f"\033[95m## Thought:\033[00m \033[92m{thought}\033[00m"
+                    )
+                self._printer.print(
+                    content=f"\033[95m## Using tool:\033[00m \033[92m{formatted_answer.tool}\033[00m"
+                )
+                self._printer.print(
+                    content=f"\033[95m## Tool Input:\033[00m \033[92m\n{formatted_json}\033[00m"
+                )
+                self._printer.print(
+                    content=f"\033[95m## Tool Output:\033[00m \033[92m\n{formatted_answer.result}\033[00m"
+                )
+            elif isinstance(formatted_answer, AgentFinish):
+                self._printer.print(
+                    content=f"\n\n\033[1m\033[95m# Agent:\033[00m \033[1m\033[92m{agent_role}\033[00m"
+                )
+                self._printer.print(
+                    content=f"\033[95m## Final Answer:\033[00m \033[92m\n{formatted_answer.output}\033[00m\n\n"
+                )
+
+    def _execute_tool_and_check_finality(self, agent_action: AgentAction) -> ToolResult:
+        try:
+            if self.agent:
+                crewai_event_bus.emit(
+                    self,
+                    event=ToolUsageStartedEvent(
+                        agent_key=self.agent.key,
+                        agent_role=self.agent.role,
+                        tool_name=agent_action.tool,
+                        tool_args=agent_action.tool_input,
+                        tool_class=agent_action.tool,
+                    ),
+                )
+            tool_usage = ToolUsage(
+                tools_handler=self.tools_handler,
+                tools=self.tools,
+                original_tools=self.original_tools,
+                tools_description=self.tools_description,
+                tools_names=self.tools_names,
+                function_calling_llm=self.function_calling_llm,
+                task=self.task,  # type: ignore[arg-type]
+                agent=self.agent,
+                action=agent_action,
+            )
+            tool_calling = tool_usage.parse_tool_calling(agent_action.text)
+
+            if isinstance(tool_calling, ToolUsageErrorException):
+                tool_result = tool_calling.message
+                return ToolResult(result=tool_result, result_as_answer=False)
+            else:
+                if tool_calling.tool_name.casefold().strip() in [
+                    name.casefold().strip() for name in self.tool_name_to_tool_map
+                ] or tool_calling.tool_name.casefold().replace("_", " ") in [
+                    name.casefold().strip() for name in self.tool_name_to_tool_map
+                ]:
+                    tool_result = tool_usage.use(tool_calling, agent_action.text)
+                    tool = self.tool_name_to_tool_map.get(tool_calling.tool_name)
+                    if tool:
+                        return ToolResult(
+                            result=tool_result, result_as_answer=tool.result_as_answer
+                        )
+                else:
+                    tool_result = self._i18n.errors("wrong_tool_name").format(
+                        tool=tool_calling.tool_name,
+                        tools=", ".join([tool.name.casefold() for tool in self.tools]),
+                    )
+                return ToolResult(result=tool_result, result_as_answer=False)
+
+        except Exception as e:
+            # TODO: drop
+            if self.agent:
+                crewai_event_bus.emit(
+                    self,
+                    event=ToolUsageErrorEvent(  # validation error
+                        agent_key=self.agent.key,
+                        agent_role=self.agent.role,
+                        tool_name=agent_action.tool,
+                        tool_args=agent_action.tool_input,
+                        tool_class=agent_action.tool,
+                        error=str(e),
+                    ),
+                )
+            raise e

    def _summarize_messages(self) -> None:
        messages_groups = []
@@ -293,33 +424,47 @@ class CrewAgentExecutor(CrewAgentExecutorMixin):
            content = message["content"]
            cut_size = self.llm.get_context_window_size()
            for i in range(0, len(content), cut_size):
-                messages_groups.append({"content": content[i : i + cut_size]})
+                messages_groups.append(content[i : i + cut_size])

        summarized_contents = []
        for group in messages_groups:
            summary = self.llm.call(
                [
-                    format_message_for_llm(
+                    self._format_msg(
                        self._i18n.slice("summarizer_system_message"), role="system"
                    ),
-                    format_message_for_llm(
-                        self._i18n.slice("summarize_instruction").format(
-                            group=group["content"]
-                        ),
+                    self._format_msg(
+                        self._i18n.slice("summarize_instruction").format(group=group),
                    ),
                ],
                callbacks=self.callbacks,
            )
-            summarized_contents.append({"content": str(summary)})
+            summarized_contents.append(summary)

-        merged_summary = " ".join(content["content"] for content in summarized_contents)
+        merged_summary = " ".join(str(content) for content in summarized_contents)

        self.messages = [
-            format_message_for_llm(
+            self._format_msg(
                self._i18n.slice("summary").format(merged_summary=merged_summary)
            )
        ]

+    def _handle_context_length(self) -> None:
+        if self.respect_context_window:
+            self._printer.print(
+                content="Context length exceeded. Summarizing content to fit the model context window.",
+                color="yellow",
+            )
+            self._summarize_messages()
+        else:
+            self._printer.print(
+                content="Context length exceeded. Consider using smaller text or RAG tools from crewai_tools.",
+                color="red",
+            )
+            raise SystemExit(
+                "Context length exceeded and user opted not to summarize. Consider using smaller text or RAG tools from crewai_tools."
+            )
+
    def _handle_crew_training_output(
        self, result: AgentFinish, human_feedback: Optional[str] = None
    ) -> None:
@@ -372,6 +517,13 @@ class CrewAgentExecutor(CrewAgentExecutorMixin):
        prompt = prompt.replace("{tools}", inputs["tools"])
        return prompt

+    def _format_answer(self, answer: str) -> Union[AgentAction, AgentFinish]:
+        return CrewAgentParser(agent=self.agent).parse(answer)
+
+    def _format_msg(self, prompt: str, role: str = "user") -> Dict[str, str]:
+        prompt = prompt.rstrip()
+        return {"role": role, "content": prompt}
+
    def _handle_human_feedback(self, formatted_answer: AgentFinish) -> AgentFinish:
        """Handle human feedback with different flows for training vs regular use.

@@ -398,7 +550,7 @@ class CrewAgentExecutor(CrewAgentExecutorMixin):
        """Process feedback for training scenarios with single iteration."""
        self._handle_crew_training_output(initial_answer, feedback)
        self.messages.append(
-            format_message_for_llm(
+            self._format_msg(
                self._i18n.slice("feedback_instructions").format(feedback=feedback)
            )
        )
@@ -427,7 +579,7 @@ class CrewAgentExecutor(CrewAgentExecutorMixin):
    def _process_feedback_iteration(self, feedback: str) -> AgentFinish:
        """Process a single feedback iteration."""
        self.messages.append(
-            format_message_for_llm(
+            self._format_msg(
                self._i18n.slice("feedback_instructions").format(feedback=feedback)
            )
        )
@@ -452,3 +604,45 @@ class CrewAgentExecutor(CrewAgentExecutorMixin):
            ),
            color="red",
        )
+
+    def _handle_max_iterations_exceeded(self, formatted_answer):
+        """
+        Handles the case when the maximum number of iterations is exceeded.
+        Performs one more LLM call to get the final answer.
+
+        Parameters:
+            formatted_answer: The last formatted answer from the agent.
+
+        Returns:
+            The final formatted answer after exceeding max iterations.
+        """
+        self._printer.print(
+            content="Maximum iterations reached. Requesting final answer.",
+            color="yellow",
+        )
+
+        if formatted_answer and hasattr(formatted_answer, "text"):
+            assistant_message = (
+                formatted_answer.text + f'\n{self._i18n.errors("force_final_answer")}'
+            )
+        else:
+            assistant_message = self._i18n.errors("force_final_answer")
+
+        self.messages.append(self._format_msg(assistant_message, role="assistant"))
+
+        # Perform one more LLM call to get the final answer
+        answer = self.llm.call(
+            self.messages,
+            callbacks=self.callbacks,
+        )
+
+        if answer is None or answer == "":
+            self._printer.print(
+                content="Received None or empty response from LLM call.",
+                color="red",
+            )
+            raise ValueError("Invalid response from LLM call - None or empty.")
+
+        formatted_answer = self._format_answer(answer)
+        # Return the formatted answer, regardless of its type
+        return formatted_answer
--- a/src/crewai/agents/parser.py
+++ b/src/crewai/agents/parser.py
@@ -1,5 +1,5 @@
 import re
-from typing import Any, Optional, Union
+from typing import Any, Union

 from json_repair import repair_json

@@ -67,23 +67,9 @@ class CrewAgentParser:
    _i18n: I18N = I18N()
    agent: Any = None

-    def __init__(self, agent: Optional[Any] = None):
+    def __init__(self, agent: Any):
        self.agent = agent

-    @staticmethod
-    def parse_text(text: str) -> Union[AgentAction, AgentFinish]:
-        """
-        Static method to parse text into an AgentAction or AgentFinish without needing to instantiate the class.
-
-        Args:
-            text: The text to parse.
-
-        Returns:
-            Either an AgentAction or AgentFinish based on the parsed content.
-        """
-        parser = CrewAgentParser()
-        return parser.parse(text)
-
    def parse(self, text: str) -> Union[AgentAction, AgentFinish]:
        thought = self._extract_thought(text)
        includes_answer = FINAL_ANSWER_ACTION in text
@@ -91,18 +77,11 @@ class CrewAgentParser:
            r"Action\s*\d*\s*:[\s]*(.*?)[\s]*Action\s*\d*\s*Input\s*\d*\s*:[\s]*(.*)"
        )
        action_match = re.search(regex, text, re.DOTALL)
-        if includes_answer:
-            final_answer = text.split(FINAL_ANSWER_ACTION)[-1].strip()
-            # Check whether the final answer ends with triple backticks.
-            if final_answer.endswith("```"):
-                # Count occurrences of triple backticks in the final answer.
-                count = final_answer.count("```")
-                # If count is odd then it's an unmatched trailing set; remove it.
-                if count % 2 != 0:
-                    final_answer = final_answer[:-3].rstrip()
-            return AgentFinish(thought, final_answer, text)
-
-        elif action_match:
+        if action_match:
+            if includes_answer:
+                raise OutputParserException(
+                    f"{FINAL_ANSWER_AND_PARSABLE_ACTION_ERROR_MESSAGE}"
+                )
            action = action_match.group(1)
            clean_action = self._clean_action(action)

@@ -113,19 +92,33 @@ class CrewAgentParser:

            return AgentAction(thought, clean_action, safe_tool_input, text)

+        elif includes_answer:
+            final_answer = text.split(FINAL_ANSWER_ACTION)[-1].strip()
+            # Check whether the final answer ends with triple backticks.
+            if final_answer.endswith("```"):
+                # Count occurrences of triple backticks in the final answer.
+                count = final_answer.count("```")
+                # If count is odd then it's an unmatched trailing set; remove it.
+                if count % 2 != 0:
+                    final_answer = final_answer[:-3].rstrip()
+            return AgentFinish(thought, final_answer, text)
+
        if not re.search(r"Action\s*\d*\s*:[\s]*(.*?)", text, re.DOTALL):
+            self.agent.increment_formatting_errors()
            raise OutputParserException(
                f"{MISSING_ACTION_AFTER_THOUGHT_ERROR_MESSAGE}\n{self._i18n.slice('final_answer_format')}",
            )
        elif not re.search(
            r"[\s]*Action\s*\d*\s*Input\s*\d*\s*:[\s]*(.*)", text, re.DOTALL
        ):
+            self.agent.increment_formatting_errors()
            raise OutputParserException(
                MISSING_ACTION_INPUT_AFTER_ACTION_ERROR_MESSAGE,
            )
        else:
            format = self._i18n.slice("format_without_tools")
            error = f"{format}"
+            self.agent.increment_formatting_errors()
            raise OutputParserException(
                error,
            )
--- a/src/crewai/cli/crew_chat.py
+++ b/src/crewai/cli/crew_chat.py
@@ -14,7 +14,7 @@ from packaging import version
 from crewai.cli.utils import read_toml
 from crewai.cli.version import get_crewai_version
 from crewai.crew import Crew
-from crewai.llm import LLM, BaseLLM
+from crewai.llm import LLM
 from crewai.types.crew_chat import ChatInputField, ChatInputs
 from crewai.utilities.llm_utils import create_llm

@@ -116,7 +116,7 @@ def show_loading(event: threading.Event):
    print()


-def initialize_chat_llm(crew: Crew) -> Optional[LLM | BaseLLM]:
+def initialize_chat_llm(crew: Crew) -> Optional[LLM]:
    """Initializes the chat LLM and handles exceptions."""
    try:
        return create_llm(crew.chat_llm)
--- a/src/crewai/cli/install_crew.py
+++ b/src/crewai/cli/install_crew.py
@@ -3,10 +3,6 @@ import subprocess
 import click


-# Be mindful about changing this.
-# on some enviorments we don't use this command but instead uv sync directly
-# so if you expect this to support more things you will need to replicate it there
-# ask @joaomdmoura if you are unsure
 def install_crew(proxy_options: list[str]) -> None:
    """
    Install the crew by running the UV command to lock and install.
--- a/src/crewai/cli/templates/crew/main.py
+++ b/src/crewai/cli/templates/crew/main.py
@@ -60,7 +60,7 @@ def test():
        "current_year": str(datetime.now().year)
    }
    try:
-        {{crew_name}}().crew().test(n_iterations=int(sys.argv[1]), eval_llm=sys.argv[2], inputs=inputs)
+        {{crew_name}}().crew().test(n_iterations=int(sys.argv[1]), openai_model_name=sys.argv[2], inputs=inputs)

    except Exception as e:
        raise Exception(f"An error occurred while testing the crew: {e}")
--- a/src/crewai/cli/templates/crew/pyproject.toml
+++ b/src/crewai/cli/templates/crew/pyproject.toml
@@ -5,7 +5,7 @@ description = "{{name}} using crewAI"
 authors = [{ name = "Your Name", email = "you@example.com" }]
 requires-python = ">=3.10,<3.13"
 dependencies = [
-    "crewai[tools]>=0.114.0,<1.0.0"
+    "crewai[tools]>=0.108.0,<1.0.0"
 ]

 [project.scripts]
--- a/src/crewai/cli/templates/flow/pyproject.toml
+++ b/src/crewai/cli/templates/flow/pyproject.toml
@@ -5,7 +5,7 @@ description = "{{name}} using crewAI"
 authors = [{ name = "Your Name", email = "you@example.com" }]
 requires-python = ">=3.10,<3.13"
 dependencies = [
-    "crewai[tools]>=0.114.0,<1.0.0",
+    "crewai[tools]>=0.108.0,<1.0.0",
 ]

 [project.scripts]
--- a/src/crewai/cli/templates/tool/pyproject.toml
+++ b/src/crewai/cli/templates/tool/pyproject.toml
@@ -5,7 +5,7 @@ description = "Power up your crews with {{folder_name}}"
 readme = "README.md"
 requires-python = ">=3.10,<3.13"
 dependencies = [
-    "crewai[tools]>=0.114.0"
+    "crewai[tools]>=0.108.0"
 ]

 [tool.crewai]
--- a/src/crewai/crew.py
+++ b/src/crewai/crew.py
@@ -6,7 +6,7 @@ import warnings
 from concurrent.futures import Future
 from copy import copy as shallow_copy
 from hashlib import md5
-from typing import Any, Callable, Dict, List, Optional, Set, Tuple, Union, cast
+from typing import Any, Callable, Dict, List, Optional, Set, Tuple, Union

 from pydantic import (
    UUID4,
@@ -26,9 +26,8 @@ from crewai.agents.cache import CacheHandler
 from crewai.crews.crew_output import CrewOutput
 from crewai.knowledge.knowledge import Knowledge
 from crewai.knowledge.source.base_knowledge_source import BaseKnowledgeSource
-from crewai.llm import LLM, BaseLLM
+from crewai.llm import LLM
 from crewai.memory.entity.entity_memory import EntityMemory
-from crewai.memory.external.external_memory import ExternalMemory
 from crewai.memory.long_term.long_term_memory import LongTermMemory
 from crewai.memory.short_term.short_term_memory import ShortTermMemory
 from crewai.memory.user.user_memory import UserMemory
@@ -38,7 +37,7 @@ from crewai.task import Task
 from crewai.tasks.conditional_task import ConditionalTask
 from crewai.tasks.task_output import TaskOutput
 from crewai.tools.agent_tools.agent_tools import AgentTools
-from crewai.tools.base_tool import BaseTool, Tool
+from crewai.tools.base_tool import Tool
 from crewai.types.usage_metrics import UsageMetrics
 from crewai.utilities import I18N, FileHandler, Logger, RPMController
 from crewai.utilities.constants import TRAINING_DATA_FILE
@@ -106,7 +105,6 @@ class Crew(BaseModel):
    _long_term_memory: Optional[InstanceOf[LongTermMemory]] = PrivateAttr()
    _entity_memory: Optional[InstanceOf[EntityMemory]] = PrivateAttr()
    _user_memory: Optional[InstanceOf[UserMemory]] = PrivateAttr()
-    _external_memory: Optional[InstanceOf[ExternalMemory]] = PrivateAttr()
    _train: Optional[bool] = PrivateAttr(default=False)
    _train_iteration: Optional[int] = PrivateAttr()
    _inputs: Optional[Dict[str, Any]] = PrivateAttr(default=None)
@@ -147,10 +145,6 @@ class Crew(BaseModel):
        default=None,
        description="An instance of the UserMemory to be used by the Crew to store/fetch memories of a specific user.",
    )
-    external_memory: Optional[InstanceOf[ExternalMemory]] = Field(
-        default=None,
-        description="An Instance of the ExternalMemory to be used by the Crew",
-    )
    embedder: Optional[dict] = Field(
        default=None,
        description="Configuration for the embedder to be used for the crew.",
@@ -159,7 +153,7 @@ class Crew(BaseModel):
        default=None,
        description="Metrics for the LLM usage during all tasks execution.",
    )
-    manager_llm: Optional[Union[str, InstanceOf[BaseLLM], Any]] = Field(
+    manager_llm: Optional[Any] = Field(
        description="Language model that will run the agent.", default=None
    )
    manager_agent: Optional[BaseAgent] = Field(
@@ -193,7 +187,7 @@ class Crew(BaseModel):
        default=None,
        description="Maximum number of requests per minute for the crew execution to be respected.",
    )
-    prompt_file: Optional[str] = Field(
+    prompt_file: str = Field(
        default=None,
        description="Path to the prompt json file to be used for the crew.",
    )
@@ -205,7 +199,7 @@ class Crew(BaseModel):
        default=False,
        description="Plan the crew execution and add the plan to the crew.",
    )
-    planning_llm: Optional[Union[str, InstanceOf[BaseLLM], Any]] = Field(
+    planning_llm: Optional[Any] = Field(
        default=None,
        description="Language model that will run the AgentPlanner if planning is True.",
    )
@@ -221,7 +215,7 @@ class Crew(BaseModel):
        default=None,
        description="Knowledge sources for the crew. Add knowledge sources to the knowledge object.",
    )
-    chat_llm: Optional[Union[str, InstanceOf[BaseLLM], Any]] = Field(
+    chat_llm: Optional[Any] = Field(
        default=None,
        description="LLM used to handle chatting with the crew.",
    )
@@ -295,24 +289,24 @@ class Crew(BaseModel):
                if self.entity_memory
                else EntityMemory(crew=self, embedder_config=self.embedder)
            )
-            self._external_memory = (
-                # External memory doesn’t support a default value since it was designed to be managed entirely externally
-                self.external_memory.set_crew(self)
-                if self.external_memory
-                else None
-            )
            if (
-                self.memory_config
-                and "user_memory" in self.memory_config
-                and self.memory_config.get("provider") == "mem0"
+                self.memory_config and "user_memory" in self.memory_config
            ):  # Check for user_memory in config
                user_memory_config = self.memory_config["user_memory"]
                if isinstance(
+                    user_memory_config, UserMemory
+                ):  # Check if it is already an instance
+                    self._user_memory = user_memory_config
+                elif isinstance(
                    user_memory_config, dict
                ):  # Check if it's a configuration dict
-                    self._user_memory = UserMemory(crew=self)
+                    self._user_memory = UserMemory(
+                        crew=self, **user_memory_config
+                    )  # Initialize with config
                else:
-                    raise TypeError("user_memory must be a configuration dictionary")
+                    raise TypeError(
+                        "user_memory must be a UserMemory instance or a configuration dictionary"
+                    )
            else:
                self._user_memory = None  # No user memory if not in config
        return self
@@ -495,7 +489,7 @@ class Crew(BaseModel):
            task.key for task in self.tasks
        ]
        return md5("|".join(source).encode(), usedforsecurity=False).hexdigest()
-
+        
    @property
    def fingerprint(self) -> Fingerprint:
        """
@@ -825,12 +819,7 @@ class Crew(BaseModel):

            # Determine which tools to use - task tools take precedence over agent tools
            tools_for_task = task.tools or agent_to_use.tools or []
-            # Prepare tools and ensure they're compatible with task execution
-            tools_for_task = self._prepare_tools(
-                agent_to_use,
-                task,
-                cast(Union[List[Tool], List[BaseTool]], tools_for_task),
-            )
+            tools_for_task = self._prepare_tools(agent_to_use, task, tools_for_task)

            self._log_task_start(task, agent_to_use.role)

@@ -849,7 +838,7 @@ class Crew(BaseModel):
                future = task.execute_async(
                    agent=agent_to_use,
                    context=context,
-                    tools=cast(List[BaseTool], tools_for_task),
+                    tools=tools_for_task,
                )
                futures.append((task, future, task_index))
            else:
@@ -861,7 +850,7 @@ class Crew(BaseModel):
                task_output = task.execute_sync(
                    agent=agent_to_use,
                    context=context,
-                    tools=cast(List[BaseTool], tools_for_task),
+                    tools=tools_for_task,
                )
                task_outputs.append(task_output)
                self._process_task_result(task, task_output)
@@ -899,12 +888,10 @@ class Crew(BaseModel):
        return None

    def _prepare_tools(
-        self, agent: BaseAgent, task: Task, tools: Union[List[Tool], List[BaseTool]]
-    ) -> List[BaseTool]:
+        self, agent: BaseAgent, task: Task, tools: List[Tool]
+    ) -> List[Tool]:
        # Add delegation tools if agent allows delegation
-        if hasattr(agent, "allow_delegation") and getattr(
-            agent, "allow_delegation", False
-        ):
+        if agent.allow_delegation:
            if self.process == Process.hierarchical:
                if self.manager_agent:
                    tools = self._update_manager_tools(task, tools)
@@ -913,24 +900,17 @@ class Crew(BaseModel):
                        "Manager agent is required for hierarchical process."
                    )

-            elif agent:
+            elif agent and agent.allow_delegation:
                tools = self._add_delegation_tools(task, tools)

        # Add code execution tools if agent allows code execution
-        if hasattr(agent, "allow_code_execution") and getattr(
-            agent, "allow_code_execution", False
-        ):
+        if agent.allow_code_execution:
            tools = self._add_code_execution_tools(agent, tools)

-        if (
-            agent
-            and hasattr(agent, "multimodal")
-            and getattr(agent, "multimodal", False)
-        ):
+        if agent and agent.multimodal:
            tools = self._add_multimodal_tools(agent, tools)

-        # Return a List[BaseTool] which is compatible with both Task.execute_sync and Task.execute_async
-        return cast(List[BaseTool], tools)
+        return tools

    def _get_agent_to_use(self, task: Task) -> Optional[BaseAgent]:
        if self.process == Process.hierarchical:
@@ -938,13 +918,11 @@ class Crew(BaseModel):
        return task.agent

    def _merge_tools(
-        self,
-        existing_tools: Union[List[Tool], List[BaseTool]],
-        new_tools: Union[List[Tool], List[BaseTool]],
-    ) -> List[BaseTool]:
+        self, existing_tools: List[Tool], new_tools: List[Tool]
+    ) -> List[Tool]:
        """Merge new tools into existing tools list, avoiding duplicates by tool name."""
        if not new_tools:
-            return cast(List[BaseTool], existing_tools)
+            return existing_tools

        # Create mapping of tool names to new tools
        new_tool_map = {tool.name: tool for tool in new_tools}
@@ -955,41 +933,23 @@ class Crew(BaseModel):
        # Add all new tools
        tools.extend(new_tools)

-        return cast(List[BaseTool], tools)
+        return tools

    def _inject_delegation_tools(
-        self,
-        tools: Union[List[Tool], List[BaseTool]],
-        task_agent: BaseAgent,
-        agents: List[BaseAgent],
-    ) -> List[BaseTool]:
-        if hasattr(task_agent, "get_delegation_tools"):
-            delegation_tools = task_agent.get_delegation_tools(agents)
-            # Cast delegation_tools to the expected type for _merge_tools
-            return self._merge_tools(tools, cast(List[BaseTool], delegation_tools))
-        return cast(List[BaseTool], tools)
+        self, tools: List[Tool], task_agent: BaseAgent, agents: List[BaseAgent]
+    ):
+        delegation_tools = task_agent.get_delegation_tools(agents)
+        return self._merge_tools(tools, delegation_tools)

-    def _add_multimodal_tools(
-        self, agent: BaseAgent, tools: Union[List[Tool], List[BaseTool]]
-    ) -> List[BaseTool]:
-        if hasattr(agent, "get_multimodal_tools"):
-            multimodal_tools = agent.get_multimodal_tools()
-            # Cast multimodal_tools to the expected type for _merge_tools
-            return self._merge_tools(tools, cast(List[BaseTool], multimodal_tools))
-        return cast(List[BaseTool], tools)
+    def _add_multimodal_tools(self, agent: BaseAgent, tools: List[Tool]):
+        multimodal_tools = agent.get_multimodal_tools()
+        return self._merge_tools(tools, multimodal_tools)

-    def _add_code_execution_tools(
-        self, agent: BaseAgent, tools: Union[List[Tool], List[BaseTool]]
-    ) -> List[BaseTool]:
-        if hasattr(agent, "get_code_execution_tools"):
-            code_tools = agent.get_code_execution_tools()
-            # Cast code_tools to the expected type for _merge_tools
-            return self._merge_tools(tools, cast(List[BaseTool], code_tools))
-        return cast(List[BaseTool], tools)
+    def _add_code_execution_tools(self, agent: BaseAgent, tools: List[Tool]):
+        code_tools = agent.get_code_execution_tools()
+        return self._merge_tools(tools, code_tools)

-    def _add_delegation_tools(
-        self, task: Task, tools: Union[List[Tool], List[BaseTool]]
-    ) -> List[BaseTool]:
+    def _add_delegation_tools(self, task: Task, tools: List[Tool]):
        agents_for_delegation = [agent for agent in self.agents if agent != task.agent]
        if len(self.agents) > 1 and len(agents_for_delegation) > 0 and task.agent:
            if not tools:
@@ -997,7 +957,7 @@ class Crew(BaseModel):
            tools = self._inject_delegation_tools(
                tools, task.agent, agents_for_delegation
            )
-        return cast(List[BaseTool], tools)
+        return tools

    def _log_task_start(self, task: Task, role: str = "None"):
        if self.output_log_file:
@@ -1005,9 +965,7 @@ class Crew(BaseModel):
                task_name=task.name, task=task.description, agent=role, status="started"
            )

-    def _update_manager_tools(
-        self, task: Task, tools: Union[List[Tool], List[BaseTool]]
-    ) -> List[BaseTool]:
+    def _update_manager_tools(self, task: Task, tools: List[Tool]):
        if self.manager_agent:
            if task.agent:
                tools = self._inject_delegation_tools(tools, task.agent, [task.agent])
@@ -1015,7 +973,7 @@ class Crew(BaseModel):
                tools = self._inject_delegation_tools(
                    tools, self.manager_agent, self.agents
                )
-        return cast(List[BaseTool], tools)
+        return tools

    def _get_context(self, task: Task, task_outputs: List[TaskOutput]):
        context = (
@@ -1162,12 +1120,7 @@ class Crew(BaseModel):
        return required_inputs

    def copy(self):
-        """
-        Creates a deep copy of the Crew instance.
-
-        Returns:
-            Crew: A new instance with copied components
-        """
+        """Create a deep copy of the Crew."""

        exclude = {
            "id",
@@ -1179,19 +1132,13 @@ class Crew(BaseModel):
            "_short_term_memory",
            "_long_term_memory",
            "_entity_memory",
-            "_external_memory",
-            "_telemetry",
            "agents",
            "tasks",
            "knowledge_sources",
            "knowledge",
-            "manager_agent",
-            "manager_llm",
        }

        cloned_agents = [agent.copy() for agent in self.agents]
-        manager_agent = self.manager_agent.copy() if self.manager_agent else None
-        manager_llm = shallow_copy(self.manager_llm) if self.manager_llm else None

        task_mapping = {}

@@ -1224,8 +1171,6 @@ class Crew(BaseModel):
            tasks=cloned_tasks,
            knowledge_sources=existing_knowledge_sources,
            knowledge=existing_knowledge,
-            manager_agent=manager_agent,
-            manager_llm=manager_llm,
        )

        return copied_crew
@@ -1269,14 +1214,13 @@ class Crew(BaseModel):
    def test(
        self,
        n_iterations: int,
-        eval_llm: Union[str, InstanceOf[BaseLLM]],
+        eval_llm: Union[str, InstanceOf[LLM]],
        inputs: Optional[Dict[str, Any]] = None,
    ) -> None:
        """Test and evaluate the Crew with the given inputs for n iterations concurrently using concurrent.futures."""
        try:
-            # Create LLM instance and ensure it's of type LLM for CrewEvaluator
-            llm_instance = create_llm(eval_llm)
-            if not llm_instance:
+            eval_llm = create_llm(eval_llm)
+            if not eval_llm:
                raise ValueError("Failed to create LLM instance.")

            crewai_event_bus.emit(
@@ -1284,12 +1228,12 @@ class Crew(BaseModel):
                CrewTestStartedEvent(
                    crew_name=self.name or "crew",
                    n_iterations=n_iterations,
-                    eval_llm=llm_instance,
+                    eval_llm=eval_llm,
                    inputs=inputs,
                ),
            )
            test_crew = self.copy()
-            evaluator = CrewEvaluator(test_crew, llm_instance)
+            evaluator = CrewEvaluator(test_crew, eval_llm)  # type: ignore[arg-type]

            for i in range(1, n_iterations + 1):
                evaluator.set_iteration(i)
@@ -1326,15 +1270,7 @@ class Crew(BaseModel):
            RuntimeError: If memory reset operation fails.
        """
        VALID_TYPES = frozenset(
-            [
-                "long",
-                "short",
-                "entity",
-                "knowledge",
-                "kickoff_outputs",
-                "all",
-                "external",
-            ]
+            ["long", "short", "entity", "knowledge", "kickoff_outputs", "all"]
        )

        if command_type not in VALID_TYPES:
@@ -1360,7 +1296,6 @@ class Crew(BaseModel):
        memory_systems = [
            ("short term", getattr(self, "_short_term_memory", None)),
            ("entity", getattr(self, "_entity_memory", None)),
-            ("external", getattr(self, "_external_memory", None)),
            ("long term", getattr(self, "_long_term_memory", None)),
            ("task output", getattr(self, "_task_output_handler", None)),
            ("knowledge", getattr(self, "knowledge", None)),
@@ -1388,7 +1323,6 @@ class Crew(BaseModel):
            "entity": (self._entity_memory, "entity"),
            "knowledge": (self.knowledge, "knowledge"),
            "kickoff_outputs": (self._task_output_handler, "task output"),
-            "external": (self._external_memory, "external"),
        }

        memory_system, name = reset_functions[memory_type]
--- a/src/crewai/flow/flow.py
+++ b/src/crewai/flow/flow.py
@@ -1043,7 +1043,6 @@ class Flow(Generic[T], metaclass=FlowMeta):
            import traceback

            traceback.print_exc()
-            raise

    def _log_flow_event(
        self, message: str, color: str = "yellow", level: str = "info"
--- a/src/crewai/flow/persistence/base.py
+++ b/src/crewai/flow/persistence/base.py
@@ -8,45 +8,45 @@ from pydantic import BaseModel

 class FlowPersistence(abc.ABC):
    """Abstract base class for flow state persistence.
-    
+
    This class defines the interface that all persistence implementations must follow.
    It supports both structured (Pydantic BaseModel) and unstructured (dict) states.
    """
-    
+
    @abc.abstractmethod
    def init_db(self) -> None:
        """Initialize the persistence backend.
-        
+
        This method should handle any necessary setup, such as:
        - Creating tables
        - Establishing connections
        - Setting up indexes
        """
        pass
-    
+
    @abc.abstractmethod
    def save_state(
        self,
        flow_uuid: str,
        method_name: str,
-        state_data: Union[Dict[str, Any], BaseModel]
+        state_data: Union[Dict[str, Any], BaseModel],
    ) -> None:
        """Persist the flow state after method completion.
-        
+
        Args:
            flow_uuid: Unique identifier for the flow instance
            method_name: Name of the method that just completed
            state_data: Current state data (either dict or Pydantic model)
        """
        pass
-    
+
    @abc.abstractmethod
    def load_state(self, flow_uuid: str) -> Optional[Dict[str, Any]]:
        """Load the most recent state for a given flow UUID.
-        
+
        Args:
            flow_uuid: Unique identifier for the flow instance
-            
+
        Returns:
            The most recent state as a dictionary, or None if no state exists
        """
--- a/src/crewai/flow/persistence/sqlite.py
+++ b/src/crewai/flow/persistence/sqlite.py
@@ -11,6 +11,7 @@ from typing import Any, Dict, Optional, Union
 from pydantic import BaseModel

 from crewai.flow.persistence.base import FlowPersistence
+from crewai.flow.state_utils import to_serializable


 class SQLiteFlowPersistence(FlowPersistence):
@@ -78,34 +79,53 @@ class SQLiteFlowPersistence(FlowPersistence):
            flow_uuid: Unique identifier for the flow instance
            method_name: Name of the method that just completed
            state_data: Current state data (either dict or Pydantic model)
-        """
-        # Convert state_data to dict, handling both Pydantic and dict cases
-        if isinstance(state_data, BaseModel):
-            state_dict = dict(state_data)  # Use dict() for better type compatibility
-        elif isinstance(state_data, dict):
-            state_dict = state_data
-        else:
-            raise ValueError(
-                f"state_data must be either a Pydantic BaseModel or dict, got {type(state_data)}"
-            )

-        with sqlite3.connect(self.db_path) as conn:
-            conn.execute(
-                """
-            INSERT INTO flow_states (
-                flow_uuid,
-                method_name,
-                timestamp,
-                state_json
-            ) VALUES (?, ?, ?, ?)
-            """,
-                (
-                    flow_uuid,
-                    method_name,
-                    datetime.now(timezone.utc).isoformat(),
-                    json.dumps(state_dict),
-                ),
-            )
+        Raises:
+            ValueError: If state_data is neither a dict nor a BaseModel
+            RuntimeError: If database operations fail
+            TypeError: If JSON serialization fails
+        """
+        try:
+            # Convert state_data to a JSON-serializable dict using the helper method
+            state_dict = to_serializable(state_data)
+
+            # Try to serialize to JSON to catch any serialization issues early
+            try:
+                state_json = json.dumps(state_dict)
+            except (TypeError, ValueError, OverflowError) as json_err:
+                raise TypeError(
+                    f"Failed to serialize state to JSON: {json_err}"
+                ) from json_err
+
+            # Perform database operation with error handling
+            try:
+                with sqlite3.connect(self.db_path) as conn:
+                    conn.execute(
+                        """
+                    INSERT INTO flow_states (
+                        flow_uuid,
+                        method_name,
+                        timestamp,
+                        state_json
+                    ) VALUES (?, ?, ?, ?)
+                    """,
+                        (
+                            flow_uuid,
+                            method_name,
+                            datetime.now(timezone.utc).isoformat(),
+                            state_json,
+                        ),
+                    )
+            except sqlite3.Error as db_err:
+                raise RuntimeError(f"Database operation failed: {db_err}") from db_err
+
+        except Exception as e:
+            # Log the error but don't crash the application
+            import logging
+
+            logging.error(f"Failed to save flow state: {e}")
+            # Re-raise to allow caller to handle or ignore
+            raise

    def load_state(self, flow_uuid: str) -> Optional[Dict[str, Any]]:
        """Load the most recent state for a given flow UUID.
--- a/src/crewai/utilities/serialization.py
+++ b/src/crewai/utilities/serialization.py
@@ -1,6 +1,6 @@
 import json
-import uuid
 from datetime import date, datetime
+from enum import Enum
 from typing import Any, Dict, List, Union

 from pydantic import BaseModel
@@ -12,10 +12,7 @@ Serializable = Union[


 def to_serializable(
-    obj: Any,
-    exclude: set[str] | None = None,
-    max_depth: int = 5,
-    _current_depth: int = 0,
+    obj: Any, max_depth: int = 5, _current_depth: int = 0
 ) -> Serializable:
    """Converts a Python object into a JSON-compatible representation.

@@ -25,7 +22,6 @@ def to_serializable(

    Args:
        obj (Any): Object to transform.
-        exclude (set[str], optional): Set of keys to exclude from the result.
        max_depth (int, optional): Maximum recursion depth. Defaults to 5.

    Returns:
@@ -34,39 +30,23 @@ def to_serializable(
    if _current_depth >= max_depth:
        return repr(obj)

-    if exclude is None:
-        exclude = set()
-
    if isinstance(obj, (str, int, float, bool, type(None))):
        return obj
-    elif isinstance(obj, uuid.UUID):
-        return str(obj)
+    elif isinstance(obj, Enum):
+        return obj.value
    elif isinstance(obj, (date, datetime)):
        return obj.isoformat()
    elif isinstance(obj, (list, tuple, set)):
-        return [
-            to_serializable(
-                item, max_depth=max_depth, _current_depth=_current_depth + 1
-            )
-            for item in obj
-        ]
+        return [to_serializable(item, max_depth, _current_depth + 1) for item in obj]
    elif isinstance(obj, dict):
        return {
            _to_serializable_key(key): to_serializable(
-                obj=value,
-                exclude=exclude,
-                max_depth=max_depth,
-                _current_depth=_current_depth + 1,
+                value, max_depth, _current_depth + 1
            )
            for key, value in obj.items()
-            if key not in exclude
        }
    elif isinstance(obj, BaseModel):
-        return to_serializable(
-            obj=obj.model_dump(exclude=exclude),
-            max_depth=max_depth,
-            _current_depth=_current_depth + 1,
-        )
+        return to_serializable(obj.model_dump(), max_depth, _current_depth + 1)
    else:
        return repr(obj)

--- a/src/crewai/knowledge/storage/knowledge_storage.py
+++ b/src/crewai/knowledge/storage/knowledge_storage.py
@@ -14,7 +14,6 @@ from chromadb.config import Settings

 from crewai.knowledge.storage.base_knowledge_storage import BaseKnowledgeStorage
 from crewai.utilities import EmbeddingConfigurator
-from crewai.utilities.chromadb import sanitize_collection_name
 from crewai.utilities.constants import KNOWLEDGE_DIRECTORY
 from crewai.utilities.logger import Logger
 from crewai.utilities.paths import db_storage_path
@@ -100,8 +99,7 @@ class KnowledgeStorage(BaseKnowledgeStorage):
            )
            if self.app:
                self.collection = self.app.get_or_create_collection(
-                    name=sanitize_collection_name(collection_name),
-                    embedding_function=self.embedder,
+                    name=collection_name, embedding_function=self.embedder
                )
            else:
                raise Exception("Vector Database Client not initialized")
--- a/src/crewai/lite_agent.py
+++ b/src/crewai/lite_agent.py
@@ -1,516 +0,0 @@
-import asyncio
-import uuid
-from datetime import datetime
-from typing import Any, Callable, Dict, List, Optional, Type, Union, cast
-
-from pydantic import BaseModel, Field, InstanceOf, PrivateAttr, model_validator
-
-from crewai.agents.agent_builder.base_agent import BaseAgent
-from crewai.agents.agent_builder.utilities.base_token_process import TokenProcess
-from crewai.agents.cache import CacheHandler
-from crewai.agents.parser import (
-    AgentAction,
-    AgentFinish,
-    OutputParserException,
-)
-from crewai.llm import LLM
-from crewai.tools.base_tool import BaseTool
-from crewai.tools.structured_tool import CrewStructuredTool
-from crewai.utilities import I18N
-from crewai.utilities.agent_utils import (
-    enforce_rpm_limit,
-    format_message_for_llm,
-    get_llm_response,
-    get_tool_names,
-    handle_agent_action_core,
-    handle_context_length,
-    handle_max_iterations_exceeded,
-    handle_output_parser_exception,
-    handle_unknown_error,
-    has_reached_max_iterations,
-    is_context_length_exceeded,
-    parse_tools,
-    process_llm_response,
-    render_text_description_and_args,
-    show_agent_logs,
-)
-from crewai.utilities.converter import convert_to_model, generate_model_description
-from crewai.utilities.events.agent_events import (
-    LiteAgentExecutionCompletedEvent,
-    LiteAgentExecutionErrorEvent,
-    LiteAgentExecutionStartedEvent,
-)
-from crewai.utilities.events.crewai_event_bus import crewai_event_bus
-from crewai.utilities.events.llm_events import (
-    LLMCallCompletedEvent,
-    LLMCallFailedEvent,
-    LLMCallStartedEvent,
-    LLMCallType,
-)
-from crewai.utilities.events.tool_usage_events import (
-    ToolUsageErrorEvent,
-    ToolUsageFinishedEvent,
-    ToolUsageStartedEvent,
-)
-from crewai.utilities.llm_utils import create_llm
-from crewai.utilities.printer import Printer
-from crewai.utilities.token_counter_callback import TokenCalcHandler
-from crewai.utilities.tool_utils import execute_tool_and_check_finality
-
-
-class LiteAgentOutput(BaseModel):
-    """Class that represents the result of a LiteAgent execution."""
-
-    model_config = {"arbitrary_types_allowed": True}
-
-    raw: str = Field(description="Raw output of the agent", default="")
-    pydantic: Optional[BaseModel] = Field(
-        description="Pydantic output of the agent", default=None
-    )
-    agent_role: str = Field(description="Role of the agent that produced this output")
-    usage_metrics: Optional[Dict[str, Any]] = Field(
-        description="Token usage metrics for this execution", default=None
-    )
-
-    def to_dict(self) -> Dict[str, Any]:
-        """Convert pydantic_output to a dictionary."""
-        if self.pydantic:
-            return self.pydantic.model_dump()
-        return {}
-
-    def __str__(self) -> str:
-        """String representation of the output."""
-        if self.pydantic:
-            return str(self.pydantic)
-        return self.raw
-
-
-class LiteAgent(BaseModel):
-    """
-    A lightweight agent that can process messages and use tools.
-
-    This agent is simpler than the full Agent class, focusing on direct execution
-    rather than task delegation. It's designed to be used for simple interactions
-    where a full crew is not needed.
-
-    Attributes:
-        role: The role of the agent.
-        goal: The objective of the agent.
-        backstory: The backstory of the agent.
-        llm: The language model that will run the agent.
-        tools: Tools at the agent's disposal.
-        verbose: Whether the agent execution should be in verbose mode.
-        max_iterations: Maximum number of iterations for tool usage.
-        max_execution_time: Maximum execution time in seconds.
-        response_format: Optional Pydantic model for structured output.
-    """
-
-    model_config = {"arbitrary_types_allowed": True}
-
-    # Core Agent Properties
-    role: str = Field(description="Role of the agent")
-    goal: str = Field(description="Goal of the agent")
-    backstory: str = Field(description="Backstory of the agent")
-    llm: Optional[Union[str, InstanceOf[LLM], Any]] = Field(
-        default=None, description="Language model that will run the agent"
-    )
-    tools: List[BaseTool] = Field(
-        default_factory=list, description="Tools at agent's disposal"
-    )
-
-    # Execution Control Properties
-    max_iterations: int = Field(
-        default=15, description="Maximum number of iterations for tool usage"
-    )
-    max_execution_time: Optional[int] = Field(
-        default=None, description="Maximum execution time in seconds"
-    )
-    respect_context_window: bool = Field(
-        default=True,
-        description="Whether to respect the context window of the LLM",
-    )
-    use_stop_words: bool = Field(
-        default=True,
-        description="Whether to use stop words to prevent the LLM from using tools",
-    )
-    request_within_rpm_limit: Optional[Callable[[], bool]] = Field(
-        default=None,
-        description="Callback to check if the request is within the RPM limit",
-    )
-    i18n: I18N = Field(default=I18N(), description="Internationalization settings.")
-
-    # Output and Formatting Properties
-    response_format: Optional[Type[BaseModel]] = Field(
-        default=None, description="Pydantic model for structured output"
-    )
-    verbose: bool = Field(
-        default=False, description="Whether to print execution details"
-    )
-    callbacks: List[Callable] = Field(
-        default=[], description="Callbacks to be used for the agent"
-    )
-
-    # State and Results
-    tools_results: List[Dict[str, Any]] = Field(
-        default=[], description="Results of the tools used by the agent."
-    )
-
-    # Private Attributes
-    _parsed_tools: List[CrewStructuredTool] = PrivateAttr(default_factory=list)
-    _token_process: TokenProcess = PrivateAttr(default_factory=TokenProcess)
-    _cache_handler: CacheHandler = PrivateAttr(default_factory=CacheHandler)
-    _key: str = PrivateAttr(default_factory=lambda: str(uuid.uuid4()))
-    _messages: List[Dict[str, str]] = PrivateAttr(default_factory=list)
-    _iterations: int = PrivateAttr(default=0)
-    _printer: Printer = PrivateAttr(default_factory=Printer)
-
-    @model_validator(mode="after")
-    def setup_llm(self):
-        """Set up the LLM and other components after initialization."""
-        self.llm = create_llm(self.llm)
-        if not isinstance(self.llm, LLM):
-            raise ValueError("Unable to create LLM instance")
-
-        # Initialize callbacks
-        token_callback = TokenCalcHandler(token_cost_process=self._token_process)
-        self._callbacks = [token_callback]
-
-        return self
-
-    @model_validator(mode="after")
-    def parse_tools(self):
-        """Parse the tools and convert them to CrewStructuredTool instances."""
-        self._parsed_tools = parse_tools(self.tools)
-
-        return self
-
-    @property
-    def key(self) -> str:
-        """Get the unique key for this agent instance."""
-        return self._key
-
-    @property
-    def _original_role(self) -> str:
-        """Return the original role for compatibility with tool interfaces."""
-        return self.role
-
-    def kickoff(self, messages: Union[str, List[Dict[str, str]]]) -> LiteAgentOutput:
-        """
-        Execute the agent with the given messages.
-
-        Args:
-            messages: Either a string query or a list of message dictionaries.
-                     If a string is provided, it will be converted to a user message.
-                     If a list is provided, each dict should have 'role' and 'content' keys.
-
-        Returns:
-            LiteAgentOutput: The result of the agent execution.
-        """
-        # Create agent info for event emission
-        agent_info = {
-            "role": self.role,
-            "goal": self.goal,
-            "backstory": self.backstory,
-            "tools": self._parsed_tools,
-            "verbose": self.verbose,
-        }
-
-        try:
-            # Reset state for this run
-            self._iterations = 0
-            self.tools_results = []
-
-            # Format messages for the LLM
-            self._messages = self._format_messages(messages)
-
-            # Emit event for agent execution start
-            crewai_event_bus.emit(
-                self,
-                event=LiteAgentExecutionStartedEvent(
-                    agent_info=agent_info,
-                    tools=self._parsed_tools,
-                    messages=messages,
-                ),
-            )
-
-            # Execute the agent using invoke loop
-            agent_finish = self._invoke_loop()
-            formatted_result: Optional[BaseModel] = None
-            if self.response_format:
-                try:
-                    # Cast to BaseModel to ensure type safety
-                    result = self.response_format.model_validate_json(
-                        agent_finish.output
-                    )
-                    if isinstance(result, BaseModel):
-                        formatted_result = result
-                except Exception as e:
-                    self._printer.print(
-                        content=f"Failed to parse output into response format: {str(e)}",
-                        color="yellow",
-                    )
-
-            # Calculate token usage metrics
-            usage_metrics = self._token_process.get_summary()
-
-            # Create output
-            output = LiteAgentOutput(
-                raw=agent_finish.output,
-                pydantic=formatted_result,
-                agent_role=self.role,
-                usage_metrics=usage_metrics.model_dump() if usage_metrics else None,
-            )
-
-            # Emit completion event
-            crewai_event_bus.emit(
-                self,
-                event=LiteAgentExecutionCompletedEvent(
-                    agent_info=agent_info,
-                    output=agent_finish.output,
-                ),
-            )
-
-            return output
-
-        except Exception as e:
-            self._printer.print(
-                content="Agent failed to reach a final answer. This is likely a bug - please report it.",
-                color="red",
-            )
-            handle_unknown_error(self._printer, e)
-            # Emit error event
-            crewai_event_bus.emit(
-                self,
-                event=LiteAgentExecutionErrorEvent(
-                    agent_info=agent_info,
-                    error=str(e),
-                ),
-            )
-            raise e
-
-    async def kickoff_async(
-        self, messages: Union[str, List[Dict[str, str]]]
-    ) -> LiteAgentOutput:
-        """
-        Execute the agent asynchronously with the given messages.
-
-        Args:
-            messages: Either a string query or a list of message dictionaries.
-                     If a string is provided, it will be converted to a user message.
-                     If a list is provided, each dict should have 'role' and 'content' keys.
-
-        Returns:
-            LiteAgentOutput: The result of the agent execution.
-        """
-        return await asyncio.to_thread(self.kickoff, messages)
-
-    def _get_default_system_prompt(self) -> str:
-        """Get the default system prompt for the agent."""
-        base_prompt = ""
-        if self._parsed_tools:
-            # Use the prompt template for agents with tools
-            base_prompt = self.i18n.slice("lite_agent_system_prompt_with_tools").format(
-                role=self.role,
-                backstory=self.backstory,
-                goal=self.goal,
-                tools=render_text_description_and_args(self._parsed_tools),
-                tool_names=get_tool_names(self._parsed_tools),
-            )
-        else:
-            # Use the prompt template for agents without tools
-            base_prompt = self.i18n.slice(
-                "lite_agent_system_prompt_without_tools"
-            ).format(
-                role=self.role,
-                backstory=self.backstory,
-                goal=self.goal,
-            )
-
-        # Add response format instructions if specified
-        if self.response_format:
-            schema = generate_model_description(self.response_format)
-            base_prompt += self.i18n.slice("lite_agent_response_format").format(
-                response_format=schema
-            )
-
-        return base_prompt
-
-    def _format_messages(
-        self, messages: Union[str, List[Dict[str, str]]]
-    ) -> List[Dict[str, str]]:
-        """Format messages for the LLM."""
-        if isinstance(messages, str):
-            messages = [{"role": "user", "content": messages}]
-
-        system_prompt = self._get_default_system_prompt()
-
-        # Add system message at the beginning
-        formatted_messages = [{"role": "system", "content": system_prompt}]
-
-        # Add the rest of the messages
-        formatted_messages.extend(messages)
-
-        return formatted_messages
-
-    def _invoke_loop(self) -> AgentFinish:
-        """
-        Run the agent's thought process until it reaches a conclusion or max iterations.
-
-        Returns:
-            AgentFinish: The final result of the agent execution.
-        """
-        # Execute the agent loop
-        formatted_answer = None
-        while not isinstance(formatted_answer, AgentFinish):
-            try:
-                if has_reached_max_iterations(self._iterations, self.max_iterations):
-                    formatted_answer = handle_max_iterations_exceeded(
-                        formatted_answer,
-                        printer=self._printer,
-                        i18n=self.i18n,
-                        messages=self._messages,
-                        llm=cast(LLM, self.llm),
-                        callbacks=self._callbacks,
-                    )
-
-                enforce_rpm_limit(self.request_within_rpm_limit)
-
-                # Emit LLM call started event
-                crewai_event_bus.emit(
-                    self,
-                    event=LLMCallStartedEvent(
-                        messages=self._messages,
-                        tools=None,
-                        callbacks=self._callbacks,
-                    ),
-                )
-
-                try:
-                    answer = get_llm_response(
-                        llm=cast(LLM, self.llm),
-                        messages=self._messages,
-                        callbacks=self._callbacks,
-                        printer=self._printer,
-                    )
-
-                    # Emit LLM call completed event
-                    crewai_event_bus.emit(
-                        self,
-                        event=LLMCallCompletedEvent(
-                            response=answer,
-                            call_type=LLMCallType.LLM_CALL,
-                        ),
-                    )
-                except Exception as e:
-                    # Emit LLM call failed event
-                    crewai_event_bus.emit(
-                        self,
-                        event=LLMCallFailedEvent(error=str(e)),
-                    )
-                    raise e
-
-                formatted_answer = process_llm_response(answer, self.use_stop_words)
-
-                if isinstance(formatted_answer, AgentAction):
-                    # Emit tool usage started event
-                    crewai_event_bus.emit(
-                        self,
-                        event=ToolUsageStartedEvent(
-                            agent_key=self.key,
-                            agent_role=self.role,
-                            tool_name=formatted_answer.tool,
-                            tool_args=formatted_answer.tool_input,
-                            tool_class=formatted_answer.tool,
-                        ),
-                    )
-
-                    try:
-                        tool_result = execute_tool_and_check_finality(
-                            agent_action=formatted_answer,
-                            tools=self._parsed_tools,
-                            i18n=self.i18n,
-                            agent_key=self.key,
-                            agent_role=self.role,
-                        )
-                        # Emit tool usage finished event
-                        crewai_event_bus.emit(
-                            self,
-                            event=ToolUsageFinishedEvent(
-                                agent_key=self.key,
-                                agent_role=self.role,
-                                tool_name=formatted_answer.tool,
-                                tool_args=formatted_answer.tool_input,
-                                tool_class=formatted_answer.tool,
-                                started_at=datetime.now(),
-                                finished_at=datetime.now(),
-                                output=tool_result.result,
-                            ),
-                        )
-                    except Exception as e:
-                        # Emit tool usage error event
-                        crewai_event_bus.emit(
-                            self,
-                            event=ToolUsageErrorEvent(
-                                agent_key=self.key,
-                                agent_role=self.role,
-                                tool_name=formatted_answer.tool,
-                                tool_args=formatted_answer.tool_input,
-                                tool_class=formatted_answer.tool,
-                                error=str(e),
-                            ),
-                        )
-                        raise e
-
-                    formatted_answer = handle_agent_action_core(
-                        formatted_answer=formatted_answer,
-                        tool_result=tool_result,
-                        show_logs=self._show_logs,
-                    )
-
-                self._append_message(formatted_answer.text, role="assistant")
-            except OutputParserException as e:
-                formatted_answer = handle_output_parser_exception(
-                    e=e,
-                    messages=self._messages,
-                    iterations=self._iterations,
-                    log_error_after=3,
-                    printer=self._printer,
-                )
-
-            except Exception as e:
-                if e.__class__.__module__.startswith("litellm"):
-                    # Do not retry on litellm errors
-                    raise e
-                if is_context_length_exceeded(e):
-                    handle_context_length(
-                        respect_context_window=self.respect_context_window,
-                        printer=self._printer,
-                        messages=self._messages,
-                        llm=cast(LLM, self.llm),
-                        callbacks=self._callbacks,
-                        i18n=self.i18n,
-                    )
-                    continue
-                else:
-                    handle_unknown_error(self._printer, e)
-                    raise e
-
-            finally:
-                self._iterations += 1
-
-        assert isinstance(formatted_answer, AgentFinish)
-        self._show_logs(formatted_answer)
-        return formatted_answer
-
-    def _show_logs(self, formatted_answer: Union[AgentAction, AgentFinish]):
-        """Show logs for the agent's execution."""
-        show_agent_logs(
-            printer=self._printer,
-            agent_role=self.role,
-            formatted_answer=formatted_answer,
-            verbose=self.verbose,
-        )
-
-    def _append_message(self, text: str, role: str = "assistant") -> None:
-        """Append a message to the message list with the given role."""
-        self._messages.append(format_message_for_llm(text, role=role))
--- a/src/crewai/llm.py
+++ b/src/crewai/llm.py
@@ -40,7 +40,6 @@ with warnings.catch_warnings():
    from litellm.utils import supports_response_schema


-from crewai.llms.base_llm import BaseLLM
 from crewai.utilities.events import crewai_event_bus
 from crewai.utilities.exceptions.context_window_exceeding_exception import (
    LLMContextLengthExceededException,
@@ -219,7 +218,7 @@ class StreamingChoices(TypedDict):
    finish_reason: Optional[str]


-class LLM(BaseLLM):
+class LLM:
    def __init__(
        self,
        model: str,
--- a/src/crewai/llms/base_llm.py
+++ b/src/crewai/llms/base_llm.py
@@ -1,91 +0,0 @@
-from abc import ABC, abstractmethod
-from typing import Any, Callable, Dict, List, Optional, Union
-
-
-class BaseLLM(ABC):
-    """Abstract base class for LLM implementations.
-
-    This class defines the interface that all LLM implementations must follow.
-    Users can extend this class to create custom LLM implementations that don't
-    rely on litellm's authentication mechanism.
-
-    Custom LLM implementations should handle error cases gracefully, including
-    timeouts, authentication failures, and malformed responses. They should also
-    implement proper validation for input parameters and provide clear error
-    messages when things go wrong.
-
-    Attributes:
-        stop (list): A list of stop sequences that the LLM should use to stop generation.
-            This is used by the CrewAgentExecutor and other components.
-    """
-
-    model: str
-    temperature: Optional[float] = None
-    stop: Optional[List[str]] = None
-
-    def __init__(
-        self,
-        model: str,
-        temperature: Optional[float] = None,
-    ):
-        """Initialize the BaseLLM with default attributes.
-
-        This constructor sets default values for attributes that are expected
-        by the CrewAgentExecutor and other components.
-
-        All custom LLM implementations should call super().__init__() to ensure
-        that these default attributes are properly initialized.
-        """
-        self.model = model
-        self.temperature = temperature
-        self.stop = []
-
-    @abstractmethod
-    def call(
-        self,
-        messages: Union[str, List[Dict[str, str]]],
-        tools: Optional[List[dict]] = None,
-        callbacks: Optional[List[Any]] = None,
-        available_functions: Optional[Dict[str, Any]] = None,
-    ) -> Union[str, Any]:
-        """Call the LLM with the given messages.
-
-        Args:
-            messages: Input messages for the LLM.
-                     Can be a string or list of message dictionaries.
-                     If string, it will be converted to a single user message.
-                     If list, each dict must have 'role' and 'content' keys.
-            tools: Optional list of tool schemas for function calling.
-                  Each tool should define its name, description, and parameters.
-            callbacks: Optional list of callback functions to be executed
-                      during and after the LLM call.
-            available_functions: Optional dict mapping function names to callables
-                               that can be invoked by the LLM.
-
-        Returns:
-            Either a text response from the LLM (str) or
-            the result of a tool function call (Any).
-
-        Raises:
-            ValueError: If the messages format is invalid.
-            TimeoutError: If the LLM request times out.
-            RuntimeError: If the LLM request fails for other reasons.
-        """
-        pass
-
-    def supports_stop_words(self) -> bool:
-        """Check if the LLM supports stop words.
-
-        Returns:
-            bool: True if the LLM supports stop words, False otherwise.
-        """
-        return True  # Default implementation assumes support for stop words
-
-    def get_context_window_size(self) -> int:
-        """Get the context window size for the LLM.
-
-        Returns:
-            int: The number of tokens/characters the model can handle.
-        """
-        # Default implementation - subclasses should override with model-specific values
-        return 4096
--- a/src/crewai/llms/third_party/ai_suite.py
+++ b/src/crewai/llms/third_party/ai_suite.py
@@ -1,38 +0,0 @@
-from typing import Any, Dict, List, Optional, Union
-
-import aisuite as ai
-
-from crewai.llms.base_llm import BaseLLM
-
-
-class AISuiteLLM(BaseLLM):
-    def __init__(self, model: str, temperature: Optional[float] = None, **kwargs):
-        super().__init__(model, temperature, **kwargs)
-        self.client = ai.Client()
-
-    def call(
-        self,
-        messages: Union[str, List[Dict[str, str]]],
-        tools: Optional[List[dict]] = None,
-        callbacks: Optional[List[Any]] = None,
-        available_functions: Optional[Dict[str, Any]] = None,
-    ) -> Union[str, Any]:
-        completion_params = self._prepare_completion_params(messages, tools)
-        response = self.client.chat.completions.create(**completion_params)
-
-        return response.choices[0].message.content
-
-    def _prepare_completion_params(
-        self,
-        messages: Union[str, List[Dict[str, str]]],
-        tools: Optional[List[dict]] = None,
-    ) -> Dict[str, Any]:
-        return {
-            "model": self.model,
-            "messages": messages,
-            "temperature": self.temperature,
-            "tools": tools,
-        }
-
-    def supports_function_calling(self) -> bool:
-        return False
--- a/src/crewai/memory/init.py
+++ b/src/crewai/memory/init.py
@@ -2,12 +2,5 @@ from .entity.entity_memory import EntityMemory
 from .long_term.long_term_memory import LongTermMemory
 from .short_term.short_term_memory import ShortTermMemory
 from .user.user_memory import UserMemory
-from .external.external_memory import ExternalMemory

-__all__ = [
-    "UserMemory",
-    "EntityMemory",
-    "LongTermMemory",
-    "ShortTermMemory",
-    "ExternalMemory",
-]
+__all__ = ["UserMemory", "EntityMemory", "LongTermMemory", "ShortTermMemory"]
--- a/src/crewai/memory/contextual/contextual_memory.py
+++ b/src/crewai/memory/contextual/contextual_memory.py
@@ -1,12 +1,6 @@
 from typing import Any, Dict, Optional

-from crewai.memory import (
-    EntityMemory,
-    ExternalMemory,
-    LongTermMemory,
-    ShortTermMemory,
-    UserMemory,
-)
+from crewai.memory import EntityMemory, LongTermMemory, ShortTermMemory, UserMemory


 class ContextualMemory:
@@ -17,7 +11,6 @@ class ContextualMemory:
        ltm: LongTermMemory,
        em: EntityMemory,
        um: UserMemory,
-        exm: ExternalMemory,
    ):
        if memory_config is not None:
            self.memory_provider = memory_config.get("provider")
@@ -27,7 +20,6 @@ class ContextualMemory:
        self.ltm = ltm
        self.em = em
        self.um = um
-        self.exm = exm

    def build_context_for_task(self, task, context) -> str:
        """
@@ -43,7 +35,6 @@ class ContextualMemory:
        context.append(self._fetch_ltm_context(task.description))
        context.append(self._fetch_stm_context(query))
        context.append(self._fetch_entity_context(query))
-        context.append(self._fetch_external_context(query))
        if self.memory_provider == "mem0":
            context.append(self._fetch_user_context(query))
        return "\n".join(filter(None, context))
@@ -103,10 +94,6 @@ class ContextualMemory:
        Returns:
            str: Formatted user memories as bullet points, or an empty string if none found.
        """
-
-        if self.um is None:
-            return ""
-
        user_memories = self.um.search(query)
        if not user_memories:
            return ""
@@ -115,24 +102,3 @@ class ContextualMemory:
            f"- {result['memory']}" for result in user_memories
        )
        return f"User memories/preferences:\n{formatted_memories}"
-
-    def _fetch_external_context(self, query: str) -> str:
-        """
-        Fetches and formats relevant information from External Memory.
-        Args:
-            query (str): The search query to find relevant information.
-        Returns:
-            str: Formatted information as bullet points, or an empty string if none found.
-        """
-        if self.exm is None:
-            return ""
-
-        external_memories = self.exm.search(query)
-
-        if not external_memories:
-            return ""
-
-        formatted_memories = "\n".join(
-            f"- {result['memory']}" for result in external_memories
-        )
-        return f"External memories:\n{formatted_memories}"
--- a/src/crewai/memory/external/init.py
+++ b/src/crewai/memory/external/init.py
--- a/src/crewai/memory/external/external_memory.py
+++ b/src/crewai/memory/external/external_memory.py
@@ -1,61 +0,0 @@
-from typing import TYPE_CHECKING, Any, Dict, Optional
-
-from crewai.memory.external.external_memory_item import ExternalMemoryItem
-from crewai.memory.memory import Memory
-from crewai.memory.storage.interface import Storage
-
-if TYPE_CHECKING:
-    from crewai.memory.storage.mem0_storage import Mem0Storage
-
-
-class ExternalMemory(Memory):
-    def __init__(self, storage: Optional[Storage] = None, **data: Any):
-        super().__init__(storage=storage, **data)
-
-    @staticmethod
-    def _configure_mem0(crew: Any, config: Dict[str, Any]) -> "Mem0Storage":
-        from crewai.memory.storage.mem0_storage import Mem0Storage
-
-        return Mem0Storage(type="external", crew=crew, config=config)
-
-    @staticmethod
-    def external_supported_storages() -> Dict[str, Any]:
-        return {
-            "mem0": ExternalMemory._configure_mem0,
-        }
-
-    @staticmethod
-    def create_storage(crew: Any, embedder_config: Optional[Dict[str, Any]]) -> Storage:
-        if not embedder_config:
-            raise ValueError("embedder_config is required")
-
-        if "provider" not in embedder_config:
-            raise ValueError("embedder_config must include a 'provider' key")
-
-        provider = embedder_config["provider"]
-        supported_storages = ExternalMemory.external_supported_storages()
-        if provider not in supported_storages:
-            raise ValueError(f"Provider {provider} not supported")
-
-        return supported_storages[provider](crew, embedder_config.get("config", {}))
-
-    def save(
-        self,
-        value: Any,
-        metadata: Optional[Dict[str, Any]] = None,
-        agent: Optional[str] = None,
-    ) -> None:
-        """Saves a value into the external storage."""
-        item = ExternalMemoryItem(value=value, metadata=metadata, agent=agent)
-        super().save(value=item.value, metadata=item.metadata, agent=item.agent)
-
-    def reset(self) -> None:
-        self.storage.reset()
-
-    def set_crew(self, crew: Any) -> "ExternalMemory":
-        super().set_crew(crew)
-
-        if not self.storage:
-            self.storage = self.create_storage(crew, self.embedder_config)
-
-        return self
--- a/src/crewai/memory/external/external_memory_item.py
+++ b/src/crewai/memory/external/external_memory_item.py
@@ -1,13 +0,0 @@
-from typing import Any, Dict, Optional
-
-
-class ExternalMemoryItem:
-    def __init__(
-        self,
-        value: Any,
-        metadata: Optional[Dict[str, Any]] = None,
-        agent: Optional[str] = None,
-    ):
-        self.value = value
-        self.metadata = metadata
-        self.agent = agent
--- a/src/crewai/memory/memory.py
+++ b/src/crewai/memory/memory.py
@@ -9,7 +9,6 @@ class Memory(BaseModel):
    """

    embedder_config: Optional[Dict[str, Any]] = None
-    crew: Optional[Any] = None

    storage: Any

@@ -37,7 +36,3 @@ class Memory(BaseModel):
        return self.storage.search(
            query=query, limit=limit, score_threshold=score_threshold
        )
-
-    def set_crew(self, crew: Any) -> "Memory":
-        self.crew = crew
-        return self
--- a/src/crewai/memory/storage/mem0_storage.py
+++ b/src/crewai/memory/storage/mem0_storage.py
@@ -11,20 +11,15 @@ class Mem0Storage(Storage):
    Extends Storage to handle embedding and searching across entities using Mem0.
    """

-    def __init__(self, type, crew=None, config=None):
+    def __init__(self, type, crew=None):
        super().__init__()
-        supported_types = ["user", "short_term", "long_term", "entities", "external"]
-        if type not in supported_types:
-            raise ValueError(
-                f"Invalid type '{type}' for Mem0Storage. Must be one of: "
-                + ", ".join(supported_types)
-            )
+
+        if type not in ["user", "short_term", "long_term", "entities"]:
+            raise ValueError("Invalid type for Mem0Storage. Must be 'user' or 'agent'.")

        self.memory_type = type
        self.crew = crew
-        self.config = config or {}
-        # TODO: Memory config will be removed in the future the config will be passed as a parameter
-        self.memory_config = self.config or getattr(crew, "memory_config", {}) or {}
+        self.memory_config = crew.memory_config

        # User ID is required for user memory type "user" since it's used as a unique identifier for the user.
        user_id = self._get_user_id()
@@ -32,11 +27,10 @@ class Mem0Storage(Storage):
            raise ValueError("User ID is required for user memory type")

        # API key in memory config overrides the environment variable
-        config = self._get_config()
+        config = self.memory_config.get("config", {})
        mem0_api_key = config.get("api_key") or os.getenv("MEM0_API_KEY")
        mem0_org_id = config.get("org_id")
        mem0_project_id = config.get("project_id")
-        mem0_local_config = config.get("local_mem0_config")

        # Initialize MemoryClient or Memory based on the presence of the mem0_api_key
        if mem0_api_key:
@@ -47,10 +41,7 @@ class Mem0Storage(Storage):
            else:
                self.memory = MemoryClient(api_key=mem0_api_key)
        else:
-            if mem0_local_config and len(mem0_local_config):
-                self.memory = Memory.from_config(config)
-            else:
-                self.memory = Memory()
+            self.memory = Memory()  # Fallback to Memory if no Mem0 API key is provided

    def _sanitize_role(self, role: str) -> str:
        """
@@ -61,34 +52,26 @@ class Mem0Storage(Storage):
    def save(self, value: Any, metadata: Dict[str, Any]) -> None:
        user_id = self._get_user_id()
        agent_name = self._get_agent_name()
-        params = None
-        if self.memory_type == "short_term":
-            params = {
-                "agent_id": agent_name,
-                "infer": False,
-                "metadata": {"type": "short_term", **metadata},
-            }
+        if self.memory_type == "user":
+            self.memory.add(value, user_id=user_id, metadata={**metadata})
+        elif self.memory_type == "short_term":
+            agent_name = self._get_agent_name()
+            self.memory.add(
+                value, agent_id=agent_name, metadata={"type": "short_term", **metadata}
+            )
        elif self.memory_type == "long_term":
-            params = {
-                "agent_id": agent_name,
-                "infer": False,
-                "metadata": {"type": "long_term", **metadata},
-            }
+            agent_name = self._get_agent_name()
+            self.memory.add(
+                value,
+                agent_id=agent_name,
+                infer=False,
+                metadata={"type": "long_term", **metadata},
+            )
        elif self.memory_type == "entities":
-            params = {
-                "agent_id": agent_name,
-                "infer": False,
-                "metadata": {"type": "entity", **metadata},
-            }
-        elif self.memory_type == "external":
-            params = {
-                "user_id": user_id,
-                "agent_id": agent_name,
-                "metadata": {"type": "external", **metadata},
-            }
-
-        if params:
-            self.memory.add(value, **params | {"output_format": "v1.1"})
+            entity_name = self._get_agent_name()
+            self.memory.add(
+                value, user_id=entity_name, metadata={"type": "entity", **metadata}
+            )

    def search(
        self,
@@ -97,43 +80,37 @@ class Mem0Storage(Storage):
        score_threshold: float = 0.35,
    ) -> List[Any]:
        params = {"query": query, "limit": limit}
-        if user_id := self._get_user_id():
+        if self.memory_type == "user":
+            user_id = self._get_user_id()
            params["user_id"] = user_id
-
-        agent_name = self._get_agent_name()
-        if self.memory_type == "short_term":
+        elif self.memory_type == "short_term":
+            agent_name = self._get_agent_name()
            params["agent_id"] = agent_name
            params["metadata"] = {"type": "short_term"}
        elif self.memory_type == "long_term":
+            agent_name = self._get_agent_name()
            params["agent_id"] = agent_name
            params["metadata"] = {"type": "long_term"}
        elif self.memory_type == "entities":
+            agent_name = self._get_agent_name()
            params["agent_id"] = agent_name
            params["metadata"] = {"type": "entity"}
-        elif self.memory_type == "external":
-            params["agent_id"] = agent_name
-            params["metadata"] = {"type": "external"}

        # Discard the filters for now since we create the filters
        # automatically when the crew is created.
        results = self.memory.search(**params)
        return [r for r in results if r["score"] >= score_threshold]

-    def _get_user_id(self) -> str:
-        return self._get_config().get("user_id", "")
+    def _get_user_id(self):
+        if self.memory_type == "user":
+            if hasattr(self, "memory_config") and self.memory_config is not None:
+                return self.memory_config.get("config", {}).get("user_id")
+            else:
+                return None
+        return None

-    def _get_agent_name(self) -> str:
-        if not self.crew:
-            return ""
-
-        agents = self.crew.agents
+    def _get_agent_name(self):
+        agents = self.crew.agents if self.crew else []
        agents = [self._sanitize_role(agent.role) for agent in agents]
        agents = "_".join(agents)
        return agents
-
-    def _get_config(self) -> Dict[str, Any]:
-        return self.config or getattr(self, "memory_config", {}).get("config", {}) or {}
-
-    def reset(self):
-        if self.memory:
-            self.memory.reset()
--- a/src/crewai/memory/user/user_memory.py
+++ b/src/crewai/memory/user/user_memory.py
@@ -1,4 +1,3 @@
-import warnings
 from typing import Any, Dict, Optional

 from crewai.memory.memory import Memory
@@ -13,12 +12,6 @@ class UserMemory(Memory):
    """

    def __init__(self, crew=None):
-        warnings.warn(
-            "UserMemory is deprecated and will be removed in a future version. "
-            "Please use ExternalMemory instead.",
-            DeprecationWarning,
-            stacklevel=2,
-        )
        try:
            from crewai.memory.storage.mem0_storage import Mem0Storage
        except ImportError:
@@ -50,9 +43,3 @@ class UserMemory(Memory):
            score_threshold=score_threshold,
        )
        return results
-
-    def reset(self) -> None:
-        try:
-            self.storage.reset()
-        except Exception as e:
-            raise Exception(f"An error occurred while resetting the user memory: {e}")
--- a/src/crewai/project/crew_base.py
+++ b/src/crewai/project/crew_base.py
@@ -137,11 +137,13 @@ def CrewBase(cls: T) -> T:
                all_functions, "is_cache_handler"
            )
            callbacks = self._filter_functions(all_functions, "is_callback")
+            agents = self._filter_functions(all_functions, "is_agent")

            for agent_name, agent_info in self.agents_config.items():
                self._map_agent_variables(
                    agent_name,
                    agent_info,
+                    agents,
                    llms,
                    tool_functions,
                    cache_handler_functions,
@@ -152,6 +154,7 @@ def CrewBase(cls: T) -> T:
            self,
            agent_name: str,
            agent_info: Dict[str, Any],
+            agents: Dict[str, Callable],
            llms: Dict[str, Callable],
            tool_functions: Dict[str, Callable],
            cache_handler_functions: Dict[str, Callable],
@@ -169,10 +172,9 @@ def CrewBase(cls: T) -> T:
                ]

            if function_calling_llm := agent_info.get("function_calling_llm"):
-                try:
-                    self.agents_config[agent_name]["function_calling_llm"] = llms[function_calling_llm]()
-                except KeyError:
-                    self.agents_config[agent_name]["function_calling_llm"] = function_calling_llm
+                self.agents_config[agent_name]["function_calling_llm"] = agents[
+                    function_calling_llm
+                ]()

            if step_callback := agent_info.get("step_callback"):
                self.agents_config[agent_name]["step_callback"] = callbacks[
--- a/src/crewai/task.py
+++ b/src/crewai/task.py
@@ -2,7 +2,6 @@ import datetime
 import inspect
 import json
 import logging
-import re
 import threading
 import uuid
 from concurrent.futures import Future
@@ -50,7 +49,6 @@ from crewai.utilities.events import (
 from crewai.utilities.events.crewai_event_bus import crewai_event_bus
 from crewai.utilities.i18n import I18N
 from crewai.utilities.printer import Printer
-from crewai.utilities.string_utils import interpolate_only


 class Task(BaseModel):
@@ -388,7 +386,7 @@ class Task(BaseModel):
            tools = tools or self.tools or []

            self.processed_by_agents.add(agent.role)
-            crewai_event_bus.emit(self, TaskStartedEvent(context=context, task=self))
+            crewai_event_bus.emit(self, TaskStartedEvent(context=context))
            result = agent.execute_task(
                task=self,
                context=context,
@@ -464,11 +462,11 @@ class Task(BaseModel):
                    )
                )
                self._save_file(content)
-            crewai_event_bus.emit(self, TaskCompletedEvent(output=task_output, task=self))
+            crewai_event_bus.emit(self, TaskCompletedEvent(output=task_output))
            return task_output
        except Exception as e:
            self.end_time = datetime.datetime.now()
-            crewai_event_bus.emit(self, TaskFailedEvent(error=str(e), task=self))
+            crewai_event_bus.emit(self, TaskFailedEvent(error=str(e)))
            raise e  # Re-raise the exception after emitting the event

    def prompt(self) -> str:
@@ -509,9 +507,7 @@ class Task(BaseModel):
            return

        try:
-            self.description = interpolate_only(
-                input_string=self._original_description, inputs=inputs
-            )
+            self.description = self._original_description.format(**inputs)
        except KeyError as e:
            raise ValueError(
                f"Missing required template variable '{e.args[0]}' in description"
@@ -520,7 +516,7 @@ class Task(BaseModel):
            raise ValueError(f"Error interpolating description: {str(e)}") from e

        try:
-            self.expected_output = interpolate_only(
+            self.expected_output = self.interpolate_only(
                input_string=self._original_expected_output, inputs=inputs
            )
        except (KeyError, ValueError) as e:
@@ -528,7 +524,7 @@ class Task(BaseModel):

        if self.output_file is not None:
            try:
-                self.output_file = interpolate_only(
+                self.output_file = self.interpolate_only(
                    input_string=self._original_output_file, inputs=inputs
                )
            except (KeyError, ValueError) as e:
@@ -559,6 +555,72 @@ class Task(BaseModel):
                f"\n\n{conversation_instruction}\n\n{conversation_history}"
            )

+    def interpolate_only(
+        self,
+        input_string: Optional[str],
+        inputs: Dict[str, Union[str, int, float, Dict[str, Any], List[Any]]],
+    ) -> str:
+        """Interpolate placeholders (e.g., {key}) in a string while leaving JSON untouched.
+
+        Args:
+            input_string: The string containing template variables to interpolate.
+                         Can be None or empty, in which case an empty string is returned.
+            inputs: Dictionary mapping template variables to their values.
+                   Supported value types are strings, integers, floats, and dicts/lists
+                   containing only these types and other nested dicts/lists.
+
+        Returns:
+            The interpolated string with all template variables replaced with their values.
+            Empty string if input_string is None or empty.
+
+        Raises:
+            ValueError: If a value contains unsupported types
+        """
+
+        # Validation function for recursive type checking
+        def validate_type(value: Any) -> None:
+            if value is None:
+                return
+            if isinstance(value, (str, int, float, bool)):
+                return
+            if isinstance(value, (dict, list)):
+                for item in value.values() if isinstance(value, dict) else value:
+                    validate_type(item)
+                return
+            raise ValueError(
+                f"Unsupported type {type(value).__name__} in inputs. "
+                "Only str, int, float, bool, dict, and list are allowed."
+            )
+
+        # Validate all input values
+        for key, value in inputs.items():
+            try:
+                validate_type(value)
+            except ValueError as e:
+                raise ValueError(f"Invalid value for key '{key}': {str(e)}") from e
+
+        if input_string is None or not input_string:
+            return ""
+        if "{" not in input_string and "}" not in input_string:
+            return input_string
+        if not inputs:
+            raise ValueError(
+                "Inputs dictionary cannot be empty when interpolating variables"
+            )
+        try:
+            escaped_string = input_string.replace("{", "{{").replace("}", "}}")
+
+            for key in inputs.keys():
+                escaped_string = escaped_string.replace(f"{{{{{key}}}}}", f"{{{key}}}")
+
+            return escaped_string.format(**inputs)
+        except KeyError as e:
+            raise KeyError(
+                f"Template variable '{e.args[0]}' not found in inputs dictionary"
+            ) from e
+        except ValueError as e:
+            raise ValueError(f"Error during string interpolation: {str(e)}") from e
+
    def increment_tools_errors(self) -> None:
        """Increment the tools errors counter."""
        self.tools_errors += 1
@@ -572,15 +634,7 @@ class Task(BaseModel):
    def copy(
        self, agents: List["BaseAgent"], task_mapping: Dict[str, "Task"]
    ) -> "Task":
-        """Creates a deep copy of the Task while preserving its original class type.
-
-        Args:
-            agents: List of agents available for the task.
-            task_mapping: Dictionary mapping task IDs to Task instances.
-
-        Returns:
-            A copy of the task with the same class type as the original.
-        """
+        """Create a deep copy of the Task."""
        exclude = {
            "id",
            "agent",
@@ -603,7 +657,7 @@ class Task(BaseModel):
        cloned_agent = get_agent_by_role(self.agent.role) if self.agent else None
        cloned_tools = copy(self.tools) if self.tools else []

-        copied_task = self.__class__(
+        copied_task = Task(
            **copied_data,
            context=cloned_context,
            agent=cloned_agent,
--- a/src/crewai/telemetry/telemetry.py
+++ b/src/crewai/telemetry/telemetry.py
@@ -45,10 +45,10 @@ class Telemetry:
    """

    def __init__(self):
-        self.ready: bool = False
-        self.trace_set: bool = False
+        self.ready = False
+        self.trace_set = False

-        if self._is_telemetry_disabled():
+        if os.getenv("OTEL_SDK_DISABLED", "false").lower() == "true":
            return

        try:
@@ -75,13 +75,6 @@ class Telemetry:
            ):
                raise  # Re-raise the exception to not interfere with system signals
            self.ready = False
-            
-    def _is_telemetry_disabled(self) -> bool:
-        """Check if telemetry should be disabled based on environment variables."""
-        return (
-            os.getenv("OTEL_SDK_DISABLED", "false").lower() == "true" or
-            os.getenv("CREWAI_DISABLE_TELEMETRY", "false").lower() == "true"
-        )

    def set_tracer(self):
        if self.ready and not self.trace_set:
@@ -119,23 +112,6 @@ class Telemetry:
            self._add_attribute(span, "crew_memory", crew.memory)
            self._add_attribute(span, "crew_number_of_tasks", len(crew.tasks))
            self._add_attribute(span, "crew_number_of_agents", len(crew.agents))
-
-            # Add fingerprint data
-            if hasattr(crew, "fingerprint") and crew.fingerprint:
-                self._add_attribute(span, "crew_fingerprint", crew.fingerprint.uuid_str)
-                self._add_attribute(
-                    span,
-                    "crew_fingerprint_created_at",
-                    crew.fingerprint.created_at.isoformat(),
-                )
-                # Add fingerprint metadata if it exists
-                if hasattr(crew.fingerprint, "metadata") and crew.fingerprint.metadata:
-                    self._add_attribute(
-                        span,
-                        "crew_fingerprint_metadata",
-                        json.dumps(crew.fingerprint.metadata),
-                    )
-
            if crew.share_crew:
                self._add_attribute(
                    span,
@@ -153,43 +129,17 @@ class Telemetry:
                                "max_rpm": agent.max_rpm,
                                "i18n": agent.i18n.prompt_file,
                                "function_calling_llm": (
-                                    getattr(
-                                        getattr(agent, "function_calling_llm", None),
-                                        "model",
-                                        "",
-                                    )
-                                    if getattr(agent, "function_calling_llm", None)
+                                    agent.function_calling_llm.model
+                                    if agent.function_calling_llm
                                    else ""
                                ),
                                "llm": agent.llm.model,
                                "delegation_enabled?": agent.allow_delegation,
-                                "allow_code_execution?": getattr(
-                                    agent, "allow_code_execution", False
-                                ),
-                                "max_retry_limit": getattr(agent, "max_retry_limit", 3),
+                                "allow_code_execution?": agent.allow_code_execution,
+                                "max_retry_limit": agent.max_retry_limit,
                                "tools_names": [
                                    tool.name.casefold() for tool in agent.tools or []
                                ],
-                                # Add agent fingerprint data if sharing crew details
-                                "fingerprint": (
-                                    getattr(
-                                        getattr(agent, "fingerprint", None),
-                                        "uuid_str",
-                                        None,
-                                    )
-                                ),
-                                "fingerprint_created_at": (
-                                    created_at.isoformat()
-                                    if (
-                                        created_at := getattr(
-                                            getattr(agent, "fingerprint", None),
-                                            "created_at",
-                                            None,
-                                        )
-                                    )
-                                    is not None
-                                    else None
-                                ),
                            }
                            for agent in crew.agents
                        ]
@@ -219,17 +169,6 @@ class Telemetry:
                                "tools_names": [
                                    tool.name.casefold() for tool in task.tools or []
                                ],
-                                # Add task fingerprint data if sharing crew details
-                                "fingerprint": (
-                                    task.fingerprint.uuid_str
-                                    if hasattr(task, "fingerprint") and task.fingerprint
-                                    else None
-                                ),
-                                "fingerprint_created_at": (
-                                    task.fingerprint.created_at.isoformat()
-                                    if hasattr(task, "fingerprint") and task.fingerprint
-                                    else None
-                                ),
                            }
                            for task in crew.tasks
                        ]
@@ -257,20 +196,14 @@ class Telemetry:
                                "max_iter": agent.max_iter,
                                "max_rpm": agent.max_rpm,
                                "function_calling_llm": (
-                                    getattr(
-                                        getattr(agent, "function_calling_llm", None),
-                                        "model",
-                                        "",
-                                    )
-                                    if getattr(agent, "function_calling_llm", None)
+                                    agent.function_calling_llm.model
+                                    if agent.function_calling_llm
                                    else ""
                                ),
                                "llm": agent.llm.model,
                                "delegation_enabled?": agent.allow_delegation,
-                                "allow_code_execution?": getattr(
-                                    agent, "allow_code_execution", False
-                                ),
-                                "max_retry_limit": getattr(agent, "max_retry_limit", 3),
+                                "allow_code_execution?": agent.allow_code_execution,
+                                "max_retry_limit": agent.max_retry_limit,
                                "tools_names": [
                                    tool.name.casefold() for tool in agent.tools or []
                                ],
@@ -319,39 +252,6 @@ class Telemetry:
            self._add_attribute(created_span, "task_key", task.key)
            self._add_attribute(created_span, "task_id", str(task.id))

-            # Add fingerprint data
-            if hasattr(crew, "fingerprint") and crew.fingerprint:
-                self._add_attribute(
-                    created_span, "crew_fingerprint", crew.fingerprint.uuid_str
-                )
-
-            if hasattr(task, "fingerprint") and task.fingerprint:
-                self._add_attribute(
-                    created_span, "task_fingerprint", task.fingerprint.uuid_str
-                )
-                self._add_attribute(
-                    created_span,
-                    "task_fingerprint_created_at",
-                    task.fingerprint.created_at.isoformat(),
-                )
-                # Add fingerprint metadata if it exists
-                if hasattr(task.fingerprint, "metadata") and task.fingerprint.metadata:
-                    self._add_attribute(
-                        created_span,
-                        "task_fingerprint_metadata",
-                        json.dumps(task.fingerprint.metadata),
-                    )
-
-            # Add agent fingerprint if task has an assigned agent
-            if hasattr(task, "agent") and task.agent:
-                agent_fingerprint = getattr(
-                    getattr(task.agent, "fingerprint", None), "uuid_str", None
-                )
-                if agent_fingerprint:
-                    self._add_attribute(
-                        created_span, "agent_fingerprint", agent_fingerprint
-                    )
-
            if crew.share_crew:
                self._add_attribute(
                    created_span, "formatted_description", task.description
@@ -370,21 +270,6 @@ class Telemetry:
            self._add_attribute(span, "task_key", task.key)
            self._add_attribute(span, "task_id", str(task.id))

-            # Add fingerprint data to execution span
-            if hasattr(crew, "fingerprint") and crew.fingerprint:
-                self._add_attribute(span, "crew_fingerprint", crew.fingerprint.uuid_str)
-
-            if hasattr(task, "fingerprint") and task.fingerprint:
-                self._add_attribute(span, "task_fingerprint", task.fingerprint.uuid_str)
-
-            # Add agent fingerprint if task has an assigned agent
-            if hasattr(task, "agent") and task.agent:
-                agent_fingerprint = getattr(
-                    getattr(task.agent, "fingerprint", None), "uuid_str", None
-                )
-                if agent_fingerprint:
-                    self._add_attribute(span, "agent_fingerprint", agent_fingerprint)
-
            if crew.share_crew:
                self._add_attribute(span, "formatted_description", task.description)
                self._add_attribute(
@@ -406,12 +291,7 @@ class Telemetry:
        Note:
            If share_crew is enabled, this will also record the task output
        """
-
        def operation():
-            # Ensure fingerprint data is present on completion span
-            if hasattr(task, "fingerprint") and task.fingerprint:
-                self._add_attribute(span, "task_fingerprint", task.fingerprint.uuid_str)
-
            if crew.share_crew:
                self._add_attribute(
                    span,
@@ -432,7 +312,6 @@ class Telemetry:
            tool_name (str): Name of the tool being repeatedly used
            attempts (int): Number of attempts made with this tool
        """
-
        def operation():
            tracer = trace.get_tracer("crewai.telemetry")
            span = tracer.start_span("Tool Repeated Usage")
@@ -450,16 +329,14 @@ class Telemetry:

        self._safe_telemetry_operation(operation)

-    def tool_usage(self, llm: Any, tool_name: str, attempts: int, agent: Any = None):
+    def tool_usage(self, llm: Any, tool_name: str, attempts: int):
        """Records the usage of a tool by an agent.

        Args:
            llm (Any): The language model being used
            tool_name (str): Name of the tool being used
            attempts (int): Number of attempts made with this tool
-            agent (Any, optional): The agent using the tool
        """
-
        def operation():
            tracer = trace.get_tracer("crewai.telemetry")
            span = tracer.start_span("Tool Usage")
@@ -472,31 +349,17 @@ class Telemetry:
            self._add_attribute(span, "attempts", attempts)
            if llm:
                self._add_attribute(span, "llm", llm.model)
-
-            # Add agent fingerprint data if available
-            if agent and hasattr(agent, "fingerprint") and agent.fingerprint:
-                self._add_attribute(
-                    span, "agent_fingerprint", agent.fingerprint.uuid_str
-                )
-                if hasattr(agent, "role"):
-                    self._add_attribute(span, "agent_role", agent.role)
-
            span.set_status(Status(StatusCode.OK))
            span.end()

        self._safe_telemetry_operation(operation)

-    def tool_usage_error(
-        self, llm: Any, agent: Any = None, tool_name: Optional[str] = None
-    ):
+    def tool_usage_error(self, llm: Any):
        """Records when a tool usage results in an error.

        Args:
            llm (Any): The language model being used when the error occurred
-            agent (Any, optional): The agent using the tool
-            tool_name (str, optional): Name of the tool that caused the error
        """
-
        def operation():
            tracer = trace.get_tracer("crewai.telemetry")
            span = tracer.start_span("Tool Usage Error")
@@ -507,18 +370,6 @@ class Telemetry:
            )
            if llm:
                self._add_attribute(span, "llm", llm.model)
-
-            if tool_name:
-                self._add_attribute(span, "tool_name", tool_name)
-
-            # Add agent fingerprint data if available
-            if agent and hasattr(agent, "fingerprint") and agent.fingerprint:
-                self._add_attribute(
-                    span, "agent_fingerprint", agent.fingerprint.uuid_str
-                )
-                if hasattr(agent, "role"):
-                    self._add_attribute(span, "agent_role", agent.role)
-
            span.set_status(Status(StatusCode.OK))
            span.end()

@@ -535,7 +386,6 @@ class Telemetry:
            exec_time (int): Execution time in seconds
            model_name (str): Name of the model used
        """
-
        def operation():
            tracer = trace.get_tracer("crewai.telemetry")
            span = tracer.start_span("Crew Individual Test Result")
@@ -570,7 +420,6 @@ class Telemetry:
            inputs (dict[str, Any] | None): Input parameters for the test
            model_name (str): Name of the model used in testing
        """
-
        def operation():
            tracer = trace.get_tracer("crewai.telemetry")
            span = tracer.start_span("Crew Test Execution")
@@ -597,7 +446,6 @@ class Telemetry:

    def deploy_signup_error_span(self):
        """Records when an error occurs during the deployment signup process."""
-
        def operation():
            tracer = trace.get_tracer("crewai.telemetry")
            span = tracer.start_span("Deploy Signup Error")
@@ -612,7 +460,6 @@ class Telemetry:
        Args:
            uuid (Optional[str]): Unique identifier for the deployment
        """
-
        def operation():
            tracer = trace.get_tracer("crewai.telemetry")
            span = tracer.start_span("Start Deployment")
@@ -625,7 +472,6 @@ class Telemetry:

    def create_crew_deployment_span(self):
        """Records the creation of a new crew deployment."""
-
        def operation():
            tracer = trace.get_tracer("crewai.telemetry")
            span = tracer.start_span("Create Crew Deployment")
@@ -641,7 +487,6 @@ class Telemetry:
            uuid (Optional[str]): Unique identifier for the crew
            log_type (str, optional): Type of logs being retrieved. Defaults to "deployment".
        """
-
        def operation():
            tracer = trace.get_tracer("crewai.telemetry")
            span = tracer.start_span("Get Crew Logs")
@@ -659,7 +504,6 @@ class Telemetry:
        Args:
            uuid (Optional[str]): Unique identifier for the crew being removed
        """
-
        def operation():
            tracer = trace.get_tracer("crewai.telemetry")
            span = tracer.start_span("Remove Crew")
@@ -790,7 +634,6 @@ class Telemetry:
        Args:
            flow_name (str): Name of the flow being created
        """
-
        def operation():
            tracer = trace.get_tracer("crewai.telemetry")
            span = tracer.start_span("Flow Creation")
@@ -807,7 +650,6 @@ class Telemetry:
            flow_name (str): Name of the flow being plotted
            node_names (list[str]): List of node names in the flow
        """
-
        def operation():
            tracer = trace.get_tracer("crewai.telemetry")
            span = tracer.start_span("Flow Plotting")
@@ -825,7 +667,6 @@ class Telemetry:
            flow_name (str): Name of the flow being executed
            node_names (list[str]): List of nodes being executed in the flow
        """
-
        def operation():
            tracer = trace.get_tracer("crewai.telemetry")
            span = tracer.start_span("Flow Execution")
--- a/src/crewai/tools/base_tool.py
+++ b/src/crewai/tools/base_tool.py
@@ -7,27 +7,29 @@ from pydantic import (
    BaseModel,
    ConfigDict,
    Field,
+    PydanticDeprecatedSince20,
    create_model,
-    field_validator,
+    validator,
 )
 from pydantic import BaseModel as PydanticBaseModel

 from crewai.tools.structured_tool import CrewStructuredTool

+# Ignore all "PydanticDeprecatedSince20" warnings globally
+warnings.filterwarnings("ignore", category=PydanticDeprecatedSince20)
+

 class BaseTool(BaseModel, ABC):
    class _ArgsSchemaPlaceholder(PydanticBaseModel):
        pass

-    model_config = ConfigDict(arbitrary_types_allowed=True)
+    model_config = ConfigDict()

    name: str
    """The unique name of the tool that clearly communicates its purpose."""
    description: str
    """Used to tell the model how/when/why to use the tool."""
-    args_schema: Type[PydanticBaseModel] = Field(
-        default_factory=_ArgsSchemaPlaceholder, validate_default=True
-    )
+    args_schema: Type[PydanticBaseModel] = Field(default_factory=_ArgsSchemaPlaceholder)
    """The schema for the arguments that the tool accepts."""
    description_updated: bool = False
    """Flag to check if the description has been updated."""
@@ -36,8 +38,7 @@ class BaseTool(BaseModel, ABC):
    result_as_answer: bool = False
    """Flag to check if the tool should be the final agent answer."""

-    @field_validator("args_schema", mode="before")
-    @classmethod
+    @validator("args_schema", always=True, pre=True)
    def _default_args_schema(
        cls, v: Type[PydanticBaseModel]
    ) -> Type[PydanticBaseModel]:
@@ -244,13 +245,9 @@ def to_langchain(
    return [t.to_structured_tool() if isinstance(t, BaseTool) else t for t in tools]


-def tool(*args, result_as_answer=False):
+def tool(*args):
    """
    Decorator to create a tool from a function.
-    
-    Args:
-        *args: Positional arguments, either the function to decorate or the tool name.
-        result_as_answer: Flag to indicate if the tool result should be used as the final agent answer.
    """

    def _make_with_name(tool_name: str) -> Callable:
@@ -276,7 +273,6 @@ def tool(*args, result_as_answer=False):
                description=f.__doc__,
                func=f,
                args_schema=args_schema,
-                result_as_answer=result_as_answer,
            )

        return _make_tool
--- a/src/crewai/tools/tool_types.py
+++ b/src/crewai/tools/tool_types.py
@@ -1,9 +0,0 @@
-from dataclasses import dataclass
-
-
-@dataclass
-class ToolResult:
-    """Result of tool execution."""
-
-    result: str
-    result_as_answer: bool = False
--- a/src/crewai/tools/tool_usage.py
+++ b/src/crewai/tools/tool_usage.py
@@ -2,11 +2,10 @@ import ast
 import datetime
 import json
 import time
-from dataclasses import dataclass
 from difflib import SequenceMatcher
 from json import JSONDecodeError
 from textwrap import dedent
-from typing import TYPE_CHECKING, Any, Dict, List, Optional, Union
+from typing import Any, Dict, List, Optional, Union

 import json5
 from json_repair import repair_json
@@ -14,13 +13,10 @@ from json_repair import repair_json
 from crewai.agents.tools_handler import ToolsHandler
 from crewai.task import Task
 from crewai.telemetry import Telemetry
+from crewai.tools import BaseTool
 from crewai.tools.structured_tool import CrewStructuredTool
 from crewai.tools.tool_calling import InstructorToolCalling, ToolCalling
-from crewai.utilities import I18N, Converter, Printer
-from crewai.utilities.agent_utils import (
-    get_tool_names,
-    render_text_description_and_args,
-)
+from crewai.utilities import I18N, Converter, ConverterError, Printer
 from crewai.utilities.events.crewai_event_bus import crewai_event_bus
 from crewai.utilities.events.tool_usage_events import (
    ToolSelectionErrorEvent,
@@ -29,10 +25,6 @@ from crewai.utilities.events.tool_usage_events import (
    ToolValidateInputErrorEvent,
 )

-if TYPE_CHECKING:
-    from crewai.agents.agent_builder.base_agent import BaseAgent
-    from crewai.lite_agent import LiteAgent
-
 OPENAI_BIGGER_MODELS = [
    "gpt-4",
    "gpt-4o",
@@ -68,29 +60,31 @@ class ToolUsage:

    def __init__(
        self,
-        tools_handler: Optional[ToolsHandler],
-        tools: List[CrewStructuredTool],
-        task: Optional[Task],
+        tools_handler: ToolsHandler,
+        tools: List[BaseTool],
+        original_tools: List[Any],
+        tools_description: str,
+        tools_names: str,
+        task: Task,
        function_calling_llm: Any,
-        agent: Optional[Union["BaseAgent", "LiteAgent"]] = None,
-        action: Any = None,
-        fingerprint_context: Optional[Dict[str, str]] = None,
+        agent: Any,
+        action: Any,
    ) -> None:
-        self._i18n: I18N = agent.i18n if agent else I18N()
+        self._i18n: I18N = agent.i18n
        self._printer: Printer = Printer()
        self._telemetry: Telemetry = Telemetry()
        self._run_attempts: int = 1
        self._max_parsing_attempts: int = 3
        self._remember_format_after_usages: int = 3
        self.agent = agent
-        self.tools_description = render_text_description_and_args(tools)
-        self.tools_names = get_tool_names(tools)
+        self.tools_description = tools_description
+        self.tools_names = tools_names
        self.tools_handler = tools_handler
+        self.original_tools = original_tools
        self.tools = tools
        self.task = task
        self.action = action
        self.function_calling_llm = function_calling_llm
-        self.fingerprint_context = fingerprint_context or {}

        # Set the maximum parsing attempts for bigger models
        if (
@@ -109,35 +103,29 @@ class ToolUsage:
    ) -> str:
        if isinstance(calling, ToolUsageErrorException):
            error = calling.message
-            if self.agent and self.agent.verbose:
+            if self.agent.verbose:
                self._printer.print(content=f"\n\n{error}\n", color="red")
-            if self.task:
-                self.task.increment_tools_errors()
+            self.task.increment_tools_errors()
            return error

        try:
            tool = self._select_tool(calling.tool_name)
        except Exception as e:
            error = getattr(e, "message", str(e))
-            if self.task:
-                self.task.increment_tools_errors()
-            if self.agent and self.agent.verbose:
+            self.task.increment_tools_errors()
+            if self.agent.verbose:
                self._printer.print(content=f"\n\n{error}\n", color="red")
            return error

-        if (
-            isinstance(tool, CrewStructuredTool)
-            and tool.name == self._i18n.tools("add_image")["name"]  # type: ignore
-        ):
+        if isinstance(tool, CrewStructuredTool) and tool.name == self._i18n.tools("add_image")["name"]:  # type: ignore
            try:
                result = self._use(tool_string=tool_string, tool=tool, calling=calling)
                return result

            except Exception as e:
                error = getattr(e, "message", str(e))
-                if self.task:
-                    self.task.increment_tools_errors()
-                if self.agent and self.agent.verbose:
+                self.task.increment_tools_errors()
+                if self.agent.verbose:
                    self._printer.print(content=f"\n\n{error}\n", color="red")
                return error

@@ -146,9 +134,9 @@ class ToolUsage:
    def _use(
        self,
        tool_string: str,
-        tool: CrewStructuredTool,
+        tool: Any,
        calling: Union[ToolCalling, InstructorToolCalling],
-    ) -> str:
+    ) -> str:  # TODO: Fix this return type
        if self._check_tool_repeated_usage(calling=calling):  # type: ignore # _check_tool_repeated_usage of "ToolUsage" does not return a value (it only ever returns None)
            try:
                result = self._i18n.errors("task_repeated_usage").format(
@@ -163,29 +151,24 @@ class ToolUsage:
                return result  # type: ignore # Fix the return type of this function

            except Exception:
-                if self.task:
-                    self.task.increment_tools_errors()
+                self.task.increment_tools_errors()

        started_at = time.time()
        from_cache = False
-        result = None  # type: ignore

-        if self.tools_handler and self.tools_handler.cache:
-            result = self.tools_handler.cache.read(
+        result = None  # type: ignore # Incompatible types in assignment (expression has type "None", variable has type "str")
+        # check if cache is available
+        if self.tools_handler.cache:
+            result = self.tools_handler.cache.read(  # type: ignore # Incompatible types in assignment (expression has type "str | None", variable has type "str")
                tool=calling.tool_name, input=calling.arguments
-            )  # type: ignore
+            )
            from_cache = result is not None

-        available_tool = next(
-            (
-                available_tool
-                for available_tool in self.tools
-                if available_tool.name == tool.name
-            ),
-            None,
+        original_tool = next(
+            (ot for ot in self.original_tools if ot.name == tool.name), None
        )

-        if result is None:
+        if result is None:  #! finecwg: if not result --> if result is None
            try:
                if calling.tool_name in [
                    "Delegate work to coworker",
@@ -194,31 +177,22 @@ class ToolUsage:
                    coworker = (
                        calling.arguments.get("coworker") if calling.arguments else None
                    )
-                    if self.task:
-                        self.task.increment_delegations(coworker)
+                    self.task.increment_delegations(coworker)

                if calling.arguments:
                    try:
-                        acceptable_args = tool.args_schema.model_json_schema()[
-                            "properties"
-                        ].keys()  # type: ignore
+                        acceptable_args = tool.args_schema.model_json_schema()["properties"].keys()  # type: ignore
                        arguments = {
                            k: v
                            for k, v in calling.arguments.items()
                            if k in acceptable_args
                        }
-                        # Add fingerprint metadata if available
-                        arguments = self._add_fingerprint_metadata(arguments)
                        result = tool.invoke(input=arguments)
                    except Exception:
                        arguments = calling.arguments
-                        # Add fingerprint metadata if available
-                        arguments = self._add_fingerprint_metadata(arguments)
                        result = tool.invoke(input=arguments)
                else:
-                    # Add fingerprint metadata even to empty arguments
-                    arguments = self._add_fingerprint_metadata({})
-                    result = tool.invoke(input=arguments)
+                    result = tool.invoke(input={})
            except Exception as e:
                self.on_tool_error(tool=tool, tool_calling=calling, e=e)
                self._run_attempts += 1
@@ -228,27 +202,25 @@ class ToolUsage:
                        error=e, tool=tool.name, tool_inputs=tool.description
                    )
                    error = ToolUsageErrorException(
-                        f"\n{error_message}.\nMoving on then. {self._i18n.slice('format').format(tool_names=self.tools_names)}"
+                        f'\n{error_message}.\nMoving on then. {self._i18n.slice("format").format(tool_names=self.tools_names)}'
                    ).message
-                    if self.task:
-                        self.task.increment_tools_errors()
-                    if self.agent and self.agent.verbose:
+                    self.task.increment_tools_errors()
+                    if self.agent.verbose:
                        self._printer.print(
                            content=f"\n\n{error_message}\n", color="red"
                        )
                    return error  # type: ignore # No return value expected

-                if self.task:
-                    self.task.increment_tools_errors()
+                self.task.increment_tools_errors()
                return self.use(calling=calling, tool_string=tool_string)  # type: ignore # No return value expected

            if self.tools_handler:
                should_cache = True
                if (
-                    hasattr(available_tool, "cache_function")
-                    and available_tool.cache_function  # type: ignore # Item "None" of "Any | None" has no attribute "cache_function"
+                    hasattr(original_tool, "cache_function")
+                    and original_tool.cache_function  # type: ignore # Item "None" of "Any | None" has no attribute "cache_function"
                ):
-                    should_cache = available_tool.cache_function(  # type: ignore # Item "None" of "Any | None" has no attribute "cache_function"
+                    should_cache = original_tool.cache_function(  # type: ignore # Item "None" of "Any | None" has no attribute "cache_function"
                        calling.arguments, result
                    )

@@ -272,50 +244,44 @@ class ToolUsage:
            tool_calling=calling,
            from_cache=from_cache,
            started_at=started_at,
-            result=result,
        )

        if (
-            hasattr(available_tool, "result_as_answer")
-            and available_tool.result_as_answer  # type: ignore # Item "None" of "Any | None" has no attribute "cache_function"
+            hasattr(original_tool, "result_as_answer")
+            and original_tool.result_as_answer  # type: ignore # Item "None" of "Any | None" has no attribute "cache_function"
        ):
-            result_as_answer = available_tool.result_as_answer  # type: ignore # Item "None" of "Any | None" has no attribute "result_as_answer"
-            data["result_as_answer"] = result_as_answer  # type: ignore
+            result_as_answer = original_tool.result_as_answer  # type: ignore # Item "None" of "Any | None" has no attribute "result_as_answer"
+            data["result_as_answer"] = result_as_answer

-        if self.agent and hasattr(self.agent, "tools_results"):
-            self.agent.tools_results.append(data)
+        self.agent.tools_results.append(data)

+        return result  # type: ignore # No return value expected
+
+    def _format_result(self, result: Any) -> None:
+        self.task.used_tools += 1
+        if self._should_remember_format():  # type: ignore # "_should_remember_format" of "ToolUsage" does not return a value (it only ever returns None)
+            result = self._remember_format(result=result)  # type: ignore # "_remember_format" of "ToolUsage" does not return a value (it only ever returns None)
        return result

-    def _format_result(self, result: Any) -> str:
-        if self.task:
-            self.task.used_tools += 1
-        if self._should_remember_format():
-            result = self._remember_format(result=result)
-        return str(result)
-
    def _should_remember_format(self) -> bool:
-        if self.task:
-            return self.task.used_tools % self._remember_format_after_usages == 0
-        return False
+        return self.task.used_tools % self._remember_format_after_usages == 0

-    def _remember_format(self, result: str) -> str:
+    def _remember_format(self, result: str) -> None:
        result = str(result)
        result += "\n\n" + self._i18n.slice("tools").format(
            tools=self.tools_description, tool_names=self.tools_names
        )
-        return result
+        return result  # type: ignore # No return value expected

    def _check_tool_repeated_usage(
        self, calling: Union[ToolCalling, InstructorToolCalling]
-    ) -> bool:
+    ) -> None:
        if not self.tools_handler:
-            return False
+            return False  # type: ignore # No return value expected
        if last_tool_usage := self.tools_handler.last_used_tool:
-            return (calling.tool_name == last_tool_usage.tool_name) and (
+            return (calling.tool_name == last_tool_usage.tool_name) and (  # type: ignore # No return value expected
                calling.arguments == last_tool_usage.arguments
            )
-        return False

    def _select_tool(self, tool_name: str) -> Any:
        order_tools = sorted(
@@ -334,11 +300,10 @@ class ToolUsage:
                > 0.85
            ):
                return tool
-        if self.task:
-            self.task.increment_tools_errors()
-        tool_selection_data: Dict[str, Any] = {
-            "agent_key": getattr(self.agent, "key", None) if self.agent else None,
-            "agent_role": getattr(self.agent, "role", None) if self.agent else None,
+        self.task.increment_tools_errors()
+        tool_selection_data = {
+            "agent_key": self.agent.key,
+            "agent_role": self.agent.role,
            "tool_name": tool_name,
            "tool_args": {},
            "tool_class": self.tools_description,
@@ -371,9 +336,7 @@ class ToolUsage:
            descriptions.append(tool.description)
        return "\n--\n".join(descriptions)

-    def _function_calling(
-        self, tool_string: str
-    ) -> Union[ToolCalling, InstructorToolCalling]:
+    def _function_calling(self, tool_string: str):
        model = (
            InstructorToolCalling
            if self.function_calling_llm.supports_function_calling()
@@ -395,14 +358,18 @@ class ToolUsage:
            max_attempts=1,
        )
        tool_object = converter.to_pydantic()
-        if not isinstance(tool_object, (ToolCalling, InstructorToolCalling)):
-            raise ToolUsageErrorException("Failed to parse tool calling")
+        calling = ToolCalling(
+            tool_name=tool_object["tool_name"],
+            arguments=tool_object["arguments"],
+            log=tool_string,  # type: ignore
+        )

-        return tool_object
+        if isinstance(calling, ConverterError):
+            raise calling

-    def _original_tool_calling(
-        self, tool_string: str, raise_error: bool = False
-    ) -> Union[ToolCalling, InstructorToolCalling, ToolUsageErrorException]:
+        return calling
+
+    def _original_tool_calling(self, tool_string: str, raise_error: bool = False):
        tool_name = self.action.tool
        tool = self._select_tool(tool_name)
        try:
@@ -413,7 +380,7 @@ class ToolUsage:
                raise
            else:
                return ToolUsageErrorException(
-                    f"{self._i18n.errors('tool_arguments_error')}"
+                    f'{self._i18n.errors("tool_arguments_error")}'
                )

        if not isinstance(arguments, dict):
@@ -421,17 +388,18 @@ class ToolUsage:
                raise
            else:
                return ToolUsageErrorException(
-                    f"{self._i18n.errors('tool_arguments_error')}"
+                    f'{self._i18n.errors("tool_arguments_error")}'
                )

        return ToolCalling(
            tool_name=tool.name,
            arguments=arguments,
+            log=tool_string,
        )

    def _tool_calling(
        self, tool_string: str
-    ) -> Union[ToolCalling, InstructorToolCalling, ToolUsageErrorException]:
+    ) -> Union[ToolCalling, InstructorToolCalling]:
        try:
            try:
                return self._original_tool_calling(tool_string, raise_error=True)
@@ -444,12 +412,11 @@ class ToolUsage:
            self._run_attempts += 1
            if self._run_attempts > self._max_parsing_attempts:
                self._telemetry.tool_usage_error(llm=self.function_calling_llm)
-                if self.task:
-                    self.task.increment_tools_errors()
-                if self.agent and self.agent.verbose:
+                self.task.increment_tools_errors()
+                if self.agent.verbose:
                    self._printer.print(content=f"\n\n{e}\n", color="red")
                return ToolUsageErrorException(  # type: ignore # Incompatible return value type (got "ToolUsageErrorException", expected "ToolCalling | InstructorToolCalling")
-                    f"{self._i18n.errors('tool_usage_error').format(error=e)}\nMoving on then. {self._i18n.slice('format').format(tool_names=self.tools_names)}"
+                    f'{self._i18n.errors("tool_usage_error").format(error=e)}\nMoving on then. {self._i18n.slice("format").format(tool_names=self.tools_names)}'
                )
            return self._tool_calling(tool_string)

@@ -476,7 +443,6 @@ class ToolUsage:
            if isinstance(arguments, dict):
                return arguments
        except (ValueError, SyntaxError):
-            repaired_input = repair_json(tool_input)
            pass  # Continue to the next parsing attempt

        # Attempt 3: Parse as JSON5
@@ -489,7 +455,7 @@ class ToolUsage:

        # Attempt 4: Repair JSON
        try:
-            repaired_input = str(repair_json(tool_input, skip_json_loads=True))
+            repaired_input = repair_json(tool_input, skip_json_loads=True)
            self._printer.print(
                content=f"Repaired JSON: {repaired_input}", color="blue"
            )
@@ -509,39 +475,24 @@ class ToolUsage:

    def _emit_validate_input_error(self, final_error: str):
        tool_selection_data = {
-            "agent_key": getattr(self.agent, "key", None) if self.agent else None,
-            "agent_role": getattr(self.agent, "role", None) if self.agent else None,
+            "agent_key": self.agent.key,
+            "agent_role": self.agent.role,
            "tool_name": self.action.tool,
            "tool_args": str(self.action.tool_input),
            "tool_class": self.__class__.__name__,
-            "agent": self.agent,  # Adding agent for fingerprint extraction
        }

-        # Include fingerprint context if available
-        if self.fingerprint_context:
-            tool_selection_data.update(self.fingerprint_context)
-
        crewai_event_bus.emit(
            self,
            ToolValidateInputErrorEvent(**tool_selection_data, error=final_error),
        )

-    def on_tool_error(
-        self,
-        tool: Any,
-        tool_calling: Union[ToolCalling, InstructorToolCalling],
-        e: Exception,
-    ) -> None:
+    def on_tool_error(self, tool: Any, tool_calling: ToolCalling, e: Exception) -> None:
        event_data = self._prepare_event_data(tool, tool_calling)
        crewai_event_bus.emit(self, ToolUsageErrorEvent(**{**event_data, "error": e}))

    def on_tool_use_finished(
-        self,
-        tool: Any,
-        tool_calling: Union[ToolCalling, InstructorToolCalling],
-        from_cache: bool,
-        started_at: float,
-        result: Any,
+        self, tool: Any, tool_calling: ToolCalling, from_cache: bool, started_at: float
    ) -> None:
        finished_at = time.time()
        event_data = self._prepare_event_data(tool, tool_calling)
@@ -550,75 +501,17 @@ class ToolUsage:
                "started_at": datetime.datetime.fromtimestamp(started_at),
                "finished_at": datetime.datetime.fromtimestamp(finished_at),
                "from_cache": from_cache,
-                "output": result,
            }
        )
        crewai_event_bus.emit(self, ToolUsageFinishedEvent(**event_data))

-    def _prepare_event_data(
-        self, tool: Any, tool_calling: Union[ToolCalling, InstructorToolCalling]
-    ) -> dict:
-        event_data = {
+    def _prepare_event_data(self, tool: Any, tool_calling: ToolCalling) -> dict:
+        return {
+            "agent_key": self.agent.key,
+            "agent_role": (self.agent._original_role or self.agent.role),
            "run_attempts": self._run_attempts,
-            "delegations": self.task.delegations if self.task else 0,
+            "delegations": self.task.delegations,
            "tool_name": tool.name,
            "tool_args": tool_calling.arguments,
            "tool_class": tool.__class__.__name__,
-            "agent_key": (
-                getattr(self.agent, "key", "unknown") if self.agent else "unknown"
-            ),
-            "agent_role": (
-                getattr(self.agent, "_original_role", None)
-                or getattr(self.agent, "role", "unknown")
-                if self.agent
-                else "unknown"
-            ),
        }
-
-        # Include fingerprint context if available
-        if self.fingerprint_context:
-            event_data.update(self.fingerprint_context)
-
-        return event_data
-
-    def _add_fingerprint_metadata(self, arguments: dict) -> dict:
-        """Add fingerprint metadata to tool arguments if available.
-
-        Args:
-            arguments: The original tool arguments
-
-        Returns:
-            Updated arguments dictionary with fingerprint metadata
-        """
-        # Create a shallow copy to avoid modifying the original
-        arguments = arguments.copy()
-
-        # Add security metadata under a designated key
-        if "security_context" not in arguments:
-            arguments["security_context"] = {}
-
-        security_context = arguments["security_context"]
-
-        # Add agent fingerprint if available
-        if self.agent and hasattr(self.agent, "security_config"):
-            security_config = getattr(self.agent, "security_config", None)
-            if security_config and hasattr(security_config, "fingerprint"):
-                try:
-                    security_context["agent_fingerprint"] = (
-                        security_config.fingerprint.to_dict()
-                    )
-                except AttributeError:
-                    pass
-
-        # Add task fingerprint if available
-        if self.task and hasattr(self.task, "security_config"):
-            security_config = getattr(self.task, "security_config", None)
-            if security_config and hasattr(security_config, "fingerprint"):
-                try:
-                    security_context["task_fingerprint"] = (
-                        security_config.fingerprint.to_dict()
-                    )
-                except AttributeError:
-                    pass
-
-        return arguments
--- a/src/crewai/translations/en.json
+++ b/src/crewai/translations/en.json
@@ -24,10 +24,7 @@
    "manager_request": "Your best answer to your coworker asking you this, accounting for the context shared.",
    "formatted_task_instructions": "Ensure your final answer contains only the content in the following format: {output_format}\n\nEnsure the final output does not include any code block markers like ```json or ```python.",
    "conversation_history_instruction": "You are a member of a crew collaborating to achieve a common goal. Your task is a specific action that contributes to this larger objective. For additional context, please review the conversation history between you and the user that led to the initiation of this crew. Use any relevant information or feedback from the conversation to inform your task execution and ensure your response aligns with both the immediate task and the crew's overall goals.",
-    "feedback_instructions": "User feedback: {feedback}\nInstructions: Use this feedback to enhance the next output iteration.\nNote: Do not respond or add commentary.",
-    "lite_agent_system_prompt_with_tools": "You are {role}. {backstory}\nYour personal goal is: {goal}\n\nYou ONLY have access to the following tools, and should NEVER make up tools that are not listed here:\n\n{tools}\n\nIMPORTANT: Use the following format in your response:\n\n```\nThought: you should always think about what to do\nAction: the action to take, only one name of [{tool_names}], just the name, exactly as it's written.\nAction Input: the input to the action, just a simple JSON object, enclosed in curly braces, using \" to wrap keys and values.\nObservation: the result of the action\n```\n\nOnce all necessary information is gathered, return the following format:\n\n```\nThought: I now know the final answer\nFinal Answer: the final answer to the original input question\n```",
-    "lite_agent_system_prompt_without_tools": "You are {role}. {backstory}\nYour personal goal is: {goal}\n\nTo give my best complete final answer to the task respond using the exact following format:\n\nThought: I now can give a great answer\nFinal Answer: Your final answer must be the great and the most complete as possible, it must be outcome described.\n\nI MUST use these formats, my job depends on it!",
-    "lite_agent_response_format": "\nIMPORTANT: Your final answer MUST contain all the information requested in the following format: {response_format}\n\nIMPORTANT: Ensure the final output does not include any code block markers like ```json or ```python."
+    "feedback_instructions": "User feedback: {feedback}\nInstructions: Use this feedback to enhance the next output iteration.\nNote: Do not respond or add commentary."
  },
  "errors": {
    "force_final_answer_error": "You can't keep going, here is the best final answer you generated:\n\n {formatted_answer}",
--- a/src/crewai/utilities/agent_utils.py
+++ b/src/crewai/utilities/agent_utils.py
@@ -1,431 +0,0 @@
-import json
-import re
-from typing import Any, Callable, Dict, List, Optional, Sequence, Union
-
-from crewai.agents.parser import (
-    FINAL_ANSWER_AND_PARSABLE_ACTION_ERROR_MESSAGE,
-    AgentAction,
-    AgentFinish,
-    CrewAgentParser,
-    OutputParserException,
-)
-from crewai.llm import LLM
-from crewai.llms.base_llm import BaseLLM
-from crewai.tools import BaseTool as CrewAITool
-from crewai.tools.base_tool import BaseTool
-from crewai.tools.structured_tool import CrewStructuredTool
-from crewai.tools.tool_types import ToolResult
-from crewai.utilities import I18N, Printer
-from crewai.utilities.events.tool_usage_events import ToolUsageStartedEvent
-from crewai.utilities.exceptions.context_window_exceeding_exception import (
-    LLMContextLengthExceededException,
-)
-
-
-def parse_tools(tools: List[BaseTool]) -> List[CrewStructuredTool]:
-    """Parse tools to be used for the task."""
-    tools_list = []
-
-    for tool in tools:
-        if isinstance(tool, CrewAITool):
-            tools_list.append(tool.to_structured_tool())
-        else:
-            raise ValueError("Tool is not a CrewStructuredTool or BaseTool")
-
-    return tools_list
-
-
-def get_tool_names(tools: Sequence[Union[CrewStructuredTool, BaseTool]]) -> str:
-    """Get the names of the tools."""
-    return ", ".join([t.name for t in tools])
-
-
-def render_text_description_and_args(
-    tools: Sequence[Union[CrewStructuredTool, BaseTool]],
-) -> str:
-    """Render the tool name, description, and args in plain text.
-    
-        search: This tool is used for search, args: {"query": {"type": "string"}}
-        calculator: This tool is used for math, \
-        args: {"expression": {"type": "string"}}
-    """
-    tool_strings = []
-    for tool in tools:
-        tool_strings.append(tool.description)
-
-    return "\n".join(tool_strings)
-
-
-def has_reached_max_iterations(iterations: int, max_iterations: int) -> bool:
-    """Check if the maximum number of iterations has been reached."""
-    return iterations >= max_iterations
-
-
-def handle_max_iterations_exceeded(
-    formatted_answer: Union[AgentAction, AgentFinish, None],
-    printer: Printer,
-    i18n: I18N,
-    messages: List[Dict[str, str]],
-    llm: Union[LLM, BaseLLM],
-    callbacks: List[Any],
-) -> Union[AgentAction, AgentFinish]:
-    """
-    Handles the case when the maximum number of iterations is exceeded.
-    Performs one more LLM call to get the final answer.
-
-    Parameters:
-        formatted_answer: The last formatted answer from the agent.
-
-    Returns:
-        The final formatted answer after exceeding max iterations.
-    """
-    printer.print(
-        content="Maximum iterations reached. Requesting final answer.",
-        color="yellow",
-    )
-
-    if formatted_answer and hasattr(formatted_answer, "text"):
-        assistant_message = (
-            formatted_answer.text + f'\n{i18n.errors("force_final_answer")}'
-        )
-    else:
-        assistant_message = i18n.errors("force_final_answer")
-
-    messages.append(format_message_for_llm(assistant_message, role="assistant"))
-
-    # Perform one more LLM call to get the final answer
-    answer = llm.call(
-        messages,
-        callbacks=callbacks,
-    )
-
-    if answer is None or answer == "":
-        printer.print(
-            content="Received None or empty response from LLM call.",
-            color="red",
-        )
-        raise ValueError("Invalid response from LLM call - None or empty.")
-
-    formatted_answer = format_answer(answer)
-    # Return the formatted answer, regardless of its type
-    return formatted_answer
-
-
-def format_message_for_llm(prompt: str, role: str = "user") -> Dict[str, str]:
-    prompt = prompt.rstrip()
-    return {"role": role, "content": prompt}
-
-
-def format_answer(answer: str) -> Union[AgentAction, AgentFinish]:
-    """Format a response from the LLM into an AgentAction or AgentFinish."""
-    try:
-        return CrewAgentParser.parse_text(answer)
-    except Exception:
-        # If parsing fails, return a default AgentFinish
-        return AgentFinish(
-            thought="Failed to parse LLM response",
-            output=answer,
-            text=answer,
-        )
-
-
-def enforce_rpm_limit(
-    request_within_rpm_limit: Optional[Callable[[], bool]] = None,
-) -> None:
-    """Enforce the requests per minute (RPM) limit if applicable."""
-    if request_within_rpm_limit:
-        request_within_rpm_limit()
-
-
-def get_llm_response(
-    llm: Union[LLM, BaseLLM],
-    messages: List[Dict[str, str]],
-    callbacks: List[Any],
-    printer: Printer,
-) -> str:
-    """Call the LLM and return the response, handling any invalid responses."""
-    try:
-        answer = llm.call(
-            messages,
-            callbacks=callbacks,
-        )
-    except Exception as e:
-        printer.print(
-            content=f"Error during LLM call: {e}",
-            color="red",
-        )
-        raise e
-    if not answer:
-        printer.print(
-            content="Received None or empty response from LLM call.",
-            color="red",
-        )
-        raise ValueError("Invalid response from LLM call - None or empty.")
-
-    return answer
-
-
-def process_llm_response(
-    answer: str, use_stop_words: bool
-) -> Union[AgentAction, AgentFinish]:
-    """Process the LLM response and format it into an AgentAction or AgentFinish."""
-    if not use_stop_words:
-        try:
-            # Preliminary parsing to check for errors.
-            format_answer(answer)
-        except OutputParserException as e:
-            if FINAL_ANSWER_AND_PARSABLE_ACTION_ERROR_MESSAGE in e.error:
-                answer = answer.split("Observation:")[0].strip()
-
-    return format_answer(answer)
-
-
-def handle_agent_action_core(
-    formatted_answer: AgentAction,
-    tool_result: ToolResult,
-    messages: Optional[List[Dict[str, str]]] = None,
-    step_callback: Optional[Callable] = None,
-    show_logs: Optional[Callable] = None,
-) -> Union[AgentAction, AgentFinish]:
-    """Core logic for handling agent actions and tool results.
-
-    Args:
-        formatted_answer: The agent's action
-        tool_result: The result of executing the tool
-        messages: Optional list of messages to append results to
-        step_callback: Optional callback to execute after processing
-        show_logs: Optional function to show logs
-
-    Returns:
-        Either an AgentAction or AgentFinish
-    """
-    if step_callback:
-        step_callback(tool_result)
-
-    formatted_answer.text += f"\nObservation: {tool_result.result}"
-    formatted_answer.result = tool_result.result
-
-    if tool_result.result_as_answer:
-        return AgentFinish(
-            thought="",
-            output=tool_result.result,
-            text=formatted_answer.text,
-        )
-
-    if show_logs:
-        show_logs(formatted_answer)
-
-    if messages is not None:
-        messages.append({"role": "assistant", "content": tool_result.result})
-
-    return formatted_answer
-
-
-def handle_unknown_error(printer: Any, exception: Exception) -> None:
-    """Handle unknown errors by informing the user.
-
-    Args:
-        printer: Printer instance for output
-        exception: The exception that occurred
-    """
-    printer.print(
-        content="An unknown error occurred. Please check the details below.",
-        color="red",
-    )
-    printer.print(
-        content=f"Error details: {exception}",
-        color="red",
-    )
-
-
-def handle_output_parser_exception(
-    e: OutputParserException,
-    messages: List[Dict[str, str]],
-    iterations: int,
-    log_error_after: int = 3,
-    printer: Optional[Any] = None,
-) -> AgentAction:
-    """Handle OutputParserException by updating messages and formatted_answer.
-
-    Args:
-        e: The OutputParserException that occurred
-        messages: List of messages to append to
-        iterations: Current iteration count
-        log_error_after: Number of iterations after which to log errors
-        printer: Optional printer instance for logging
-
-    Returns:
-        AgentAction: A formatted answer with the error
-    """
-    messages.append({"role": "user", "content": e.error})
-
-    formatted_answer = AgentAction(
-        text=e.error,
-        tool="",
-        tool_input="",
-        thought="",
-    )
-
-    if iterations > log_error_after and printer:
-        printer.print(
-            content=f"Error parsing LLM output, agent will retry: {e.error}",
-            color="red",
-        )
-
-    return formatted_answer
-
-
-def is_context_length_exceeded(exception: Exception) -> bool:
-    """Check if the exception is due to context length exceeding.
-
-    Args:
-        exception: The exception to check
-
-    Returns:
-        bool: True if the exception is due to context length exceeding
-    """
-    return LLMContextLengthExceededException(str(exception))._is_context_limit_error(
-        str(exception)
-    )
-
-
-def handle_context_length(
-    respect_context_window: bool,
-    printer: Any,
-    messages: List[Dict[str, str]],
-    llm: Any,
-    callbacks: List[Any],
-    i18n: Any,
-) -> None:
-    """Handle context length exceeded by either summarizing or raising an error.
-
-    Args:
-        respect_context_window: Whether to respect context window
-        printer: Printer instance for output
-        messages: List of messages to summarize
-        llm: LLM instance for summarization
-        callbacks: List of callbacks for LLM
-        i18n: I18N instance for messages
-    """
-    if respect_context_window:
-        printer.print(
-            content="Context length exceeded. Summarizing content to fit the model context window.",
-            color="yellow",
-        )
-        summarize_messages(messages, llm, callbacks, i18n)
-    else:
-        printer.print(
-            content="Context length exceeded. Consider using smaller text or RAG tools from crewai_tools.",
-            color="red",
-        )
-        raise SystemExit(
-            "Context length exceeded and user opted not to summarize. Consider using smaller text or RAG tools from crewai_tools."
-        )
-
-
-def summarize_messages(
-    messages: List[Dict[str, str]],
-    llm: Any,
-    callbacks: List[Any],
-    i18n: Any,
-) -> None:
-    """Summarize messages to fit within context window.
-
-    Args:
-        messages: List of messages to summarize
-        llm: LLM instance for summarization
-        callbacks: List of callbacks for LLM
-        i18n: I18N instance for messages
-    """
-    messages_groups = []
-    for message in messages:
-        content = message["content"]
-        cut_size = llm.get_context_window_size()
-        for i in range(0, len(content), cut_size):
-            messages_groups.append({"content": content[i : i + cut_size]})
-
-    summarized_contents = []
-    for group in messages_groups:
-        summary = llm.call(
-            [
-                format_message_for_llm(
-                    i18n.slice("summarizer_system_message"), role="system"
-                ),
-                format_message_for_llm(
-                    i18n.slice("summarize_instruction").format(group=group["content"]),
-                ),
-            ],
-            callbacks=callbacks,
-        )
-        summarized_contents.append({"content": str(summary)})
-
-    merged_summary = " ".join(content["content"] for content in summarized_contents)
-
-    messages.clear()
-    messages.append(
-        format_message_for_llm(
-            i18n.slice("summary").format(merged_summary=merged_summary)
-        )
-    )
-
-
-def show_agent_logs(
-    printer: Printer,
-    agent_role: str,
-    formatted_answer: Optional[Union[AgentAction, AgentFinish]] = None,
-    task_description: Optional[str] = None,
-    verbose: bool = False,
-) -> None:
-    """Show agent logs for both start and execution states.
-
-    Args:
-        printer: Printer instance for output
-        agent_role: Role of the agent
-        formatted_answer: Optional AgentAction or AgentFinish for execution logs
-        task_description: Optional task description for start logs
-        verbose: Whether to show verbose output
-    """
-    if not verbose:
-        return
-
-    agent_role = agent_role.split("\n")[0]
-
-    if formatted_answer is None:
-        # Start logs
-        printer.print(
-            content=f"\033[1m\033[95m# Agent:\033[00m \033[1m\033[92m{agent_role}\033[00m"
-        )
-        if task_description:
-            printer.print(
-                content=f"\033[95m## Task:\033[00m \033[92m{task_description}\033[00m"
-            )
-    else:
-        # Execution logs
-        printer.print(
-            content=f"\n\n\033[1m\033[95m# Agent:\033[00m \033[1m\033[92m{agent_role}\033[00m"
-        )
-
-        if isinstance(formatted_answer, AgentAction):
-            thought = re.sub(r"\n+", "\n", formatted_answer.thought)
-            formatted_json = json.dumps(
-                formatted_answer.tool_input,
-                indent=2,
-                ensure_ascii=False,
-            )
-            if thought and thought != "":
-                printer.print(
-                    content=f"\033[95m## Thought:\033[00m \033[92m{thought}\033[00m"
-                )
-            printer.print(
-                content=f"\033[95m## Using tool:\033[00m \033[92m{formatted_answer.tool}\033[00m"
-            )
-            printer.print(
-                content=f"\033[95m## Tool Input:\033[00m \033[92m\n{formatted_json}\033[00m"
-            )
-            printer.print(
-                content=f"\033[95m## Tool Output:\033[00m \033[92m\n{formatted_answer.result}\033[00m"
-            )
-        elif isinstance(formatted_answer, AgentFinish):
-            printer.print(
-                content=f"\033[95m## Final Answer:\033[00m \033[92m\n{formatted_answer.output}\033[00m\n\n"
-            )
--- a/src/crewai/utilities/chromadb.py
+++ b/src/crewai/utilities/chromadb.py
@@ -1,62 +0,0 @@
-import re
-from typing import Optional
-
-MIN_COLLECTION_LENGTH = 3
-MAX_COLLECTION_LENGTH = 63
-DEFAULT_COLLECTION = "default_collection"
-
-# Compiled regex patterns for better performance
-INVALID_CHARS_PATTERN = re.compile(r"[^a-zA-Z0-9_-]")
-IPV4_PATTERN = re.compile(r"^(\d{1,3}\.){3}\d{1,3}$")
-
-
-def is_ipv4_pattern(name: str) -> bool:
-    """
-    Check if a string matches an IPv4 address pattern.
-
-    Args:
-        name: The string to check
-
-    Returns:
-        True if the string matches an IPv4 pattern, False otherwise
-    """
-    return bool(IPV4_PATTERN.match(name))
-
-
-def sanitize_collection_name(name: Optional[str]) -> str:
-    """
-    Sanitize a collection name to meet ChromaDB requirements:
-    1. 3-63 characters long
-    2. Starts and ends with alphanumeric character
-    3. Contains only alphanumeric characters, underscores, or hyphens
-    4. No consecutive periods
-    5. Not a valid IPv4 address
-
-    Args:
-        name: The original collection name to sanitize
-
-    Returns:
-        A sanitized collection name that meets ChromaDB requirements
-    """
-    if not name:
-        return DEFAULT_COLLECTION
-
-    if is_ipv4_pattern(name):
-        name = f"ip_{name}"
-
-    sanitized = INVALID_CHARS_PATTERN.sub("_", name)
-
-    if not sanitized[0].isalnum():
-        sanitized = "a" + sanitized
-
-    if not sanitized[-1].isalnum():
-        sanitized = sanitized[:-1] + "z"
-
-    if len(sanitized) < MIN_COLLECTION_LENGTH:
-        sanitized = sanitized + "x" * (MIN_COLLECTION_LENGTH - len(sanitized))
-    if len(sanitized) > MAX_COLLECTION_LENGTH:
-        sanitized = sanitized[:MAX_COLLECTION_LENGTH]
-        if not sanitized[-1].isalnum():
-            sanitized = sanitized[:-1] + "z"
-
-    return sanitized
--- a/src/crewai/utilities/converter.py
+++ b/src/crewai/utilities/converter.py
@@ -287,9 +287,8 @@ def generate_model_description(model: Type[BaseModel]) -> str:
        else:
            return str(field_type)

-    fields = model.model_fields
+    fields = model.__annotations__
    field_descriptions = [
-        f'"{name}": {describe_field(field.annotation)}'
-        for name, field in fields.items()
+        f'"{name}": {describe_field(type_)}' for name, type_ in fields.items()
    ]
    return "{\n  " + ",\n  ".join(field_descriptions) + "\n}"
--- a/src/crewai/utilities/evaluators/crew_evaluator_handler.py
+++ b/src/crewai/utilities/evaluators/crew_evaluator_handler.py
@@ -6,7 +6,7 @@ from rich.console import Console
 from rich.table import Table

 from crewai.agent import Agent
-from crewai.llm import BaseLLM
+from crewai.llm import LLM
 from crewai.task import Task
 from crewai.tasks.task_output import TaskOutput
 from crewai.telemetry import Telemetry
@@ -24,7 +24,7 @@ class CrewEvaluator:

    Attributes:
        crew (Crew): The crew of agents to evaluate.
-        eval_llm (BaseLLM): Language model instance to use for evaluations
+        eval_llm (LLM): Language model instance to use for evaluations
        tasks_scores (defaultdict): A dictionary to store the scores of the agents for each task.
        iteration (int): The current iteration of the evaluation.
    """
@@ -33,7 +33,7 @@ class CrewEvaluator:
    run_execution_times: defaultdict = defaultdict(list)
    iteration: int = 0

-    def __init__(self, crew, eval_llm: InstanceOf[BaseLLM]):
+    def __init__(self, crew, eval_llm: InstanceOf[LLM]):
        self.crew = crew
        self.llm = eval_llm
        self._telemetry = Telemetry()
--- a/src/crewai/utilities/evaluators/task_evaluator.py
+++ b/src/crewai/utilities/evaluators/task_evaluator.py
@@ -45,7 +45,7 @@ class TaskEvaluator:

    def evaluate(self, task, output) -> TaskEvaluation:
        crewai_event_bus.emit(
-            self, TaskEvaluationEvent(evaluation_type="task_evaluation", task=task)
+            self, TaskEvaluationEvent(evaluation_type="task_evaluation")
        )
        evaluation_query = (
            f"Assess the quality of the task completed based on the description, expected output, and actual results.\n\n"
--- a/src/crewai/utilities/events/agent_events.py
+++ b/src/crewai/utilities/events/agent_events.py
@@ -1,16 +1,16 @@
-from typing import TYPE_CHECKING, Any, Dict, List, Optional, Sequence, Union
+from typing import TYPE_CHECKING, Any, Dict, Optional, Sequence, Union

 from crewai.agents.agent_builder.base_agent import BaseAgent
 from crewai.tools.base_tool import BaseTool
 from crewai.tools.structured_tool import CrewStructuredTool

-from .base_events import BaseEvent
+from .base_events import CrewEvent

 if TYPE_CHECKING:
    from crewai.agents.agent_builder.base_agent import BaseAgent


-class AgentExecutionStartedEvent(BaseEvent):
+class AgentExecutionStartedEvent(CrewEvent):
    """Event emitted when an agent starts executing a task"""

    agent: BaseAgent
@@ -21,20 +21,8 @@ class AgentExecutionStartedEvent(BaseEvent):

    model_config = {"arbitrary_types_allowed": True}

-    def __init__(self, **data):
-        super().__init__(**data)
-        # Set fingerprint data from the agent
-        if hasattr(self.agent, "fingerprint") and self.agent.fingerprint:
-            self.source_fingerprint = self.agent.fingerprint.uuid_str
-            self.source_type = "agent"
-            if (
-                hasattr(self.agent.fingerprint, "metadata")
-                and self.agent.fingerprint.metadata
-            ):
-                self.fingerprint_metadata = self.agent.fingerprint.metadata

-
-class AgentExecutionCompletedEvent(BaseEvent):
+class AgentExecutionCompletedEvent(CrewEvent):
    """Event emitted when an agent completes executing a task"""

    agent: BaseAgent
@@ -42,63 +30,11 @@ class AgentExecutionCompletedEvent(BaseEvent):
    output: str
    type: str = "agent_execution_completed"

-    def __init__(self, **data):
-        super().__init__(**data)
-        # Set fingerprint data from the agent
-        if hasattr(self.agent, "fingerprint") and self.agent.fingerprint:
-            self.source_fingerprint = self.agent.fingerprint.uuid_str
-            self.source_type = "agent"
-            if (
-                hasattr(self.agent.fingerprint, "metadata")
-                and self.agent.fingerprint.metadata
-            ):
-                self.fingerprint_metadata = self.agent.fingerprint.metadata

-
-class AgentExecutionErrorEvent(BaseEvent):
+class AgentExecutionErrorEvent(CrewEvent):
    """Event emitted when an agent encounters an error during execution"""

    agent: BaseAgent
    task: Any
    error: str
    type: str = "agent_execution_error"
-
-    def __init__(self, **data):
-        super().__init__(**data)
-        # Set fingerprint data from the agent
-        if hasattr(self.agent, "fingerprint") and self.agent.fingerprint:
-            self.source_fingerprint = self.agent.fingerprint.uuid_str
-            self.source_type = "agent"
-            if (
-                hasattr(self.agent.fingerprint, "metadata")
-                and self.agent.fingerprint.metadata
-            ):
-                self.fingerprint_metadata = self.agent.fingerprint.metadata
-
-
-# New event classes for LiteAgent
-class LiteAgentExecutionStartedEvent(BaseEvent):
-    """Event emitted when a LiteAgent starts executing"""
-
-    agent_info: Dict[str, Any]
-    tools: Optional[Sequence[Union[BaseTool, CrewStructuredTool]]]
-    messages: Union[str, List[Dict[str, str]]]
-    type: str = "lite_agent_execution_started"
-
-    model_config = {"arbitrary_types_allowed": True}
-
-
-class LiteAgentExecutionCompletedEvent(BaseEvent):
-    """Event emitted when a LiteAgent completes execution"""
-
-    agent_info: Dict[str, Any]
-    output: str
-    type: str = "lite_agent_execution_completed"
-
-
-class LiteAgentExecutionErrorEvent(BaseEvent):
-    """Event emitted when a LiteAgent encounters an error during execution"""
-
-    agent_info: Dict[str, Any]
-    error: str
-    type: str = "lite_agent_execution_error"
--- a/src/crewai/utilities/events/base_events.py
+++ b/src/crewai/utilities/events/base_events.py
@@ -1,28 +1,10 @@
 from datetime import datetime
-from typing import Any, Dict, Optional

 from pydantic import BaseModel, Field

-from crewai.utilities.serialization import to_serializable

-
-class BaseEvent(BaseModel):
-    """Base class for all events"""
+class CrewEvent(BaseModel):
+    """Base class for all crew events"""

    timestamp: datetime = Field(default_factory=datetime.now)
    type: str
-    source_fingerprint: Optional[str] = None  # UUID string of the source entity
-    source_type: Optional[str] = None  # "agent", "task", "crew"
-    fingerprint_metadata: Optional[Dict[str, Any]] = None  # Any relevant metadata
-
-    def to_json(self, exclude: set[str] | None = None):
-        """
-        Converts the event to a JSON-serializable dictionary.
-
-        Args:
-            exclude (set[str], optional): Set of keys to exclude from the result. Defaults to None.
-
-        Returns:
-            dict: A JSON-serializable dictionary.
-        """
-        return to_serializable(self, exclude=exclude)
--- a/src/crewai/utilities/events/crew_events.py
+++ b/src/crewai/utilities/events/crew_events.py
@@ -1,102 +1,81 @@
-from typing import TYPE_CHECKING, Any, Dict, Optional, Union
+from typing import Any, Dict, Optional, Union

-from crewai.utilities.events.base_events import BaseEvent
+from pydantic import InstanceOf

-if TYPE_CHECKING:
-    from crewai.crew import Crew
-else:
-    Crew = Any
+from crewai.utilities.events.base_events import CrewEvent


-class CrewBaseEvent(BaseEvent):
-    """Base class for crew events with fingerprint handling"""
-
-    crew_name: Optional[str]
-    crew: Optional[Crew] = None
-
-    def __init__(self, **data):
-        super().__init__(**data)
-        self.set_crew_fingerprint()
-
-    def set_crew_fingerprint(self) -> None:
-        if self.crew and hasattr(self.crew, "fingerprint") and self.crew.fingerprint:
-            self.source_fingerprint = self.crew.fingerprint.uuid_str
-            self.source_type = "crew"
-            if (
-                hasattr(self.crew.fingerprint, "metadata")
-                and self.crew.fingerprint.metadata
-            ):
-                self.fingerprint_metadata = self.crew.fingerprint.metadata
-
-    def to_json(self, exclude: set[str] | None = None):
-        if exclude is None:
-            exclude = set()
-        exclude.add("crew")
-        return super().to_json(exclude=exclude)
-
-
-class CrewKickoffStartedEvent(CrewBaseEvent):
+class CrewKickoffStartedEvent(CrewEvent):
    """Event emitted when a crew starts execution"""

+    crew_name: Optional[str]
    inputs: Optional[Dict[str, Any]]
    type: str = "crew_kickoff_started"


-class CrewKickoffCompletedEvent(CrewBaseEvent):
+class CrewKickoffCompletedEvent(CrewEvent):
    """Event emitted when a crew completes execution"""

+    crew_name: Optional[str]
    output: Any
    type: str = "crew_kickoff_completed"


-class CrewKickoffFailedEvent(CrewBaseEvent):
+class CrewKickoffFailedEvent(CrewEvent):
    """Event emitted when a crew fails to complete execution"""

    error: str
+    crew_name: Optional[str]
    type: str = "crew_kickoff_failed"


-class CrewTrainStartedEvent(CrewBaseEvent):
+class CrewTrainStartedEvent(CrewEvent):
    """Event emitted when a crew starts training"""

+    crew_name: Optional[str]
    n_iterations: int
    filename: str
    inputs: Optional[Dict[str, Any]]
    type: str = "crew_train_started"


-class CrewTrainCompletedEvent(CrewBaseEvent):
+class CrewTrainCompletedEvent(CrewEvent):
    """Event emitted when a crew completes training"""

+    crew_name: Optional[str]
    n_iterations: int
    filename: str
    type: str = "crew_train_completed"


-class CrewTrainFailedEvent(CrewBaseEvent):
+class CrewTrainFailedEvent(CrewEvent):
    """Event emitted when a crew fails to complete training"""

    error: str
+    crew_name: Optional[str]
    type: str = "crew_train_failed"


-class CrewTestStartedEvent(CrewBaseEvent):
+class CrewTestStartedEvent(CrewEvent):
    """Event emitted when a crew starts testing"""

+    crew_name: Optional[str]
    n_iterations: int
    eval_llm: Optional[Union[str, Any]]
    inputs: Optional[Dict[str, Any]]
    type: str = "crew_test_started"


-class CrewTestCompletedEvent(CrewBaseEvent):
+class CrewTestCompletedEvent(CrewEvent):
    """Event emitted when a crew completes testing"""

+    crew_name: Optional[str]
    type: str = "crew_test_completed"


-class CrewTestFailedEvent(CrewBaseEvent):
+class CrewTestFailedEvent(CrewEvent):
    """Event emitted when a crew fails to complete testing"""

    error: str
+    crew_name: Optional[str]
    type: str = "crew_test_failed"
--- a/src/crewai/utilities/events/crewai_event_bus.py
+++ b/src/crewai/utilities/events/crewai_event_bus.py
@@ -4,10 +4,10 @@ from typing import Any, Callable, Dict, List, Type, TypeVar, cast

 from blinker import Signal

-from crewai.utilities.events.base_events import BaseEvent
+from crewai.utilities.events.base_events import CrewEvent
 from crewai.utilities.events.event_types import EventTypes

-EventT = TypeVar("EventT", bound=BaseEvent)
+EventT = TypeVar("EventT", bound=CrewEvent)


 class CrewAIEventsBus:
@@ -30,7 +30,7 @@ class CrewAIEventsBus:
    def _initialize(self) -> None:
        """Initialize the event bus internal state"""
        self._signal = Signal("crewai_event_bus")
-        self._handlers: Dict[Type[BaseEvent], List[Callable]] = {}
+        self._handlers: Dict[Type[CrewEvent], List[Callable]] = {}

    def on(
        self, event_type: Type[EventT]
@@ -59,7 +59,7 @@ class CrewAIEventsBus:

        return decorator

-    def emit(self, source: Any, event: BaseEvent) -> None:
+    def emit(self, source: Any, event: CrewEvent) -> None:
        """
        Emit an event to all registered handlers

--- a/src/crewai/utilities/events/event_listener.py
+++ b/src/crewai/utilities/events/event_listener.py
@@ -16,13 +16,7 @@ from crewai.utilities.events.llm_events import (
 )
 from crewai.utilities.events.utils.console_formatter import ConsoleFormatter

-from .agent_events import (
-    AgentExecutionCompletedEvent,
-    AgentExecutionStartedEvent,
-    LiteAgentExecutionCompletedEvent,
-    LiteAgentExecutionErrorEvent,
-    LiteAgentExecutionStartedEvent,
-)
+from .agent_events import AgentExecutionCompletedEvent, AgentExecutionStartedEvent
 from .crew_events import (
    CrewKickoffCompletedEvent,
    CrewKickoffFailedEvent,
@@ -71,7 +65,7 @@ class EventListener(BaseEventListener):
            self._telemetry.set_tracer()
            self.execution_spans = {}
            self._initialized = True
-            self.formatter = ConsoleFormatter(verbose=True)
+            self.formatter = ConsoleFormatter()

    # ----------- CREW EVENTS -----------

@@ -177,36 +171,6 @@ class EventListener(BaseEventListener):
                self.formatter.current_crew_tree,
            )

-        # ----------- LITE AGENT EVENTS -----------
-
-        @crewai_event_bus.on(LiteAgentExecutionStartedEvent)
-        def on_lite_agent_execution_started(
-            source, event: LiteAgentExecutionStartedEvent
-        ):
-            """Handle LiteAgent execution started event."""
-            self.formatter.handle_lite_agent_execution(
-                event.agent_info["role"], status="started", **event.agent_info
-            )
-
-        @crewai_event_bus.on(LiteAgentExecutionCompletedEvent)
-        def on_lite_agent_execution_completed(
-            source, event: LiteAgentExecutionCompletedEvent
-        ):
-            """Handle LiteAgent execution completed event."""
-            self.formatter.handle_lite_agent_execution(
-                event.agent_info["role"], status="completed", **event.agent_info
-            )
-
-        @crewai_event_bus.on(LiteAgentExecutionErrorEvent)
-        def on_lite_agent_execution_error(source, event: LiteAgentExecutionErrorEvent):
-            """Handle LiteAgent execution error event."""
-            self.formatter.handle_lite_agent_execution(
-                event.agent_info["role"],
-                status="failed",
-                error=event.error,
-                **event.agent_info,
-            )
-
        # ----------- FLOW EVENTS -----------

        @crewai_event_bus.on(FlowCreatedEvent)
--- a/src/crewai/utilities/events/flow_events.py
+++ b/src/crewai/utilities/events/flow_events.py
@@ -2,10 +2,10 @@ from typing import Any, Dict, Optional, Union

 from pydantic import BaseModel, ConfigDict

-from .base_events import BaseEvent
+from .base_events import CrewEvent


-class FlowEvent(BaseEvent):
+class FlowEvent(CrewEvent):
    """Base class for all flow events"""

    type: str
--- a/src/crewai/utilities/events/llm_events.py
+++ b/src/crewai/utilities/events/llm_events.py
@@ -1,7 +1,7 @@
 from enum import Enum
 from typing import Any, Dict, List, Optional, Union

-from crewai.utilities.events.base_events import BaseEvent
+from crewai.utilities.events.base_events import CrewEvent


 class LLMCallType(Enum):
@@ -11,22 +11,17 @@ class LLMCallType(Enum):
    LLM_CALL = "llm_call"


-class LLMCallStartedEvent(BaseEvent):
-    """Event emitted when a LLM call starts
-
-    Attributes:
-        messages: Content can be either a string or a list of dictionaries that support
-            multimodal content (text, images, etc.)
-    """
+class LLMCallStartedEvent(CrewEvent):
+    """Event emitted when a LLM call starts"""

    type: str = "llm_call_started"
-    messages: Union[str, List[Dict[str, Any]]]
+    messages: Union[str, List[Dict[str, str]]]
    tools: Optional[List[dict]] = None
    callbacks: Optional[List[Any]] = None
    available_functions: Optional[Dict[str, Any]] = None


-class LLMCallCompletedEvent(BaseEvent):
+class LLMCallCompletedEvent(CrewEvent):
    """Event emitted when a LLM call completes"""

    type: str = "llm_call_completed"
@@ -34,14 +29,14 @@ class LLMCallCompletedEvent(BaseEvent):
    call_type: LLMCallType


-class LLMCallFailedEvent(BaseEvent):
+class LLMCallFailedEvent(CrewEvent):
    """Event emitted when a LLM call fails"""

    error: str
    type: str = "llm_call_failed"


-class LLMStreamChunkEvent(BaseEvent):
+class LLMStreamChunkEvent(CrewEvent):
    """Event emitted when a streaming chunk is received"""

    type: str = "llm_stream_chunk"
--- a/src/crewai/utilities/events/task_events.py
+++ b/src/crewai/utilities/events/task_events.py
@@ -1,84 +1,32 @@
-from typing import Any, Optional
+from typing import Optional

 from crewai.tasks.task_output import TaskOutput
-from crewai.utilities.events.base_events import BaseEvent
+from crewai.utilities.events.base_events import CrewEvent


-class TaskStartedEvent(BaseEvent):
+class TaskStartedEvent(CrewEvent):
    """Event emitted when a task starts"""

    type: str = "task_started"
    context: Optional[str]
-    task: Optional[Any] = None
-
-    def __init__(self, **data):
-        super().__init__(**data)
-        # Set fingerprint data from the task
-        if hasattr(self.task, "fingerprint") and self.task.fingerprint:
-            self.source_fingerprint = self.task.fingerprint.uuid_str
-            self.source_type = "task"
-            if (
-                hasattr(self.task.fingerprint, "metadata")
-                and self.task.fingerprint.metadata
-            ):
-                self.fingerprint_metadata = self.task.fingerprint.metadata


-class TaskCompletedEvent(BaseEvent):
+class TaskCompletedEvent(CrewEvent):
    """Event emitted when a task completes"""

    output: TaskOutput
    type: str = "task_completed"
-    task: Optional[Any] = None
-
-    def __init__(self, **data):
-        super().__init__(**data)
-        # Set fingerprint data from the task
-        if hasattr(self.task, "fingerprint") and self.task.fingerprint:
-            self.source_fingerprint = self.task.fingerprint.uuid_str
-            self.source_type = "task"
-            if (
-                hasattr(self.task.fingerprint, "metadata")
-                and self.task.fingerprint.metadata
-            ):
-                self.fingerprint_metadata = self.task.fingerprint.metadata


-class TaskFailedEvent(BaseEvent):
+class TaskFailedEvent(CrewEvent):
    """Event emitted when a task fails"""

    error: str
    type: str = "task_failed"
-    task: Optional[Any] = None
-
-    def __init__(self, **data):
-        super().__init__(**data)
-        # Set fingerprint data from the task
-        if hasattr(self.task, "fingerprint") and self.task.fingerprint:
-            self.source_fingerprint = self.task.fingerprint.uuid_str
-            self.source_type = "task"
-            if (
-                hasattr(self.task.fingerprint, "metadata")
-                and self.task.fingerprint.metadata
-            ):
-                self.fingerprint_metadata = self.task.fingerprint.metadata


-class TaskEvaluationEvent(BaseEvent):
+class TaskEvaluationEvent(CrewEvent):
    """Event emitted when a task evaluation is completed"""

    type: str = "task_evaluation"
    evaluation_type: str
-    task: Optional[Any] = None
-
-    def __init__(self, **data):
-        super().__init__(**data)
-        # Set fingerprint data from the task
-        if hasattr(self.task, "fingerprint") and self.task.fingerprint:
-            self.source_fingerprint = self.task.fingerprint.uuid_str
-            self.source_type = "task"
-            if (
-                hasattr(self.task.fingerprint, "metadata")
-                and self.task.fingerprint.metadata
-            ):
-                self.fingerprint_metadata = self.task.fingerprint.metadata
--- a/src/crewai/utilities/events/tool_usage_events.py
+++ b/src/crewai/utilities/events/tool_usage_events.py
@@ -1,10 +1,10 @@
 from datetime import datetime
-from typing import Any, Callable, Dict, Optional
+from typing import Any, Callable, Dict

-from .base_events import BaseEvent
+from .base_events import CrewEvent


-class ToolUsageEvent(BaseEvent):
+class ToolUsageEvent(CrewEvent):
    """Base event for tool usage tracking"""

    agent_key: str
@@ -14,22 +14,9 @@ class ToolUsageEvent(BaseEvent):
    tool_class: str
    run_attempts: int | None = None
    delegations: int | None = None
-    agent: Optional[Any] = None

    model_config = {"arbitrary_types_allowed": True}

-    def __init__(self, **data):
-        super().__init__(**data)
-        # Set fingerprint data from the agent
-        if self.agent and hasattr(self.agent, "fingerprint") and self.agent.fingerprint:
-            self.source_fingerprint = self.agent.fingerprint.uuid_str
-            self.source_type = "agent"
-            if (
-                hasattr(self.agent.fingerprint, "metadata")
-                and self.agent.fingerprint.metadata
-            ):
-                self.fingerprint_metadata = self.agent.fingerprint.metadata
-

 class ToolUsageStartedEvent(ToolUsageEvent):
    """Event emitted when a tool execution is started"""
@@ -43,7 +30,6 @@ class ToolUsageFinishedEvent(ToolUsageEvent):
    started_at: datetime
    finished_at: datetime
    from_cache: bool = False
-    output: Any
    type: str = "tool_usage_finished"


@@ -68,7 +54,7 @@ class ToolSelectionErrorEvent(ToolUsageEvent):
    type: str = "tool_selection_error"


-class ToolExecutionErrorEvent(BaseEvent):
+class ToolExecutionErrorEvent(CrewEvent):
    """Event emitted when a tool execution encounters an error"""

    error: Any
@@ -76,16 +62,3 @@ class ToolExecutionErrorEvent(BaseEvent):
    tool_name: str
    tool_args: Dict[str, Any]
    tool_class: Callable
-    agent: Optional[Any] = None
-
-    def __init__(self, **data):
-        super().__init__(**data)
-        # Set fingerprint data from the agent
-        if self.agent and hasattr(self.agent, "fingerprint") and self.agent.fingerprint:
-            self.source_fingerprint = self.agent.fingerprint.uuid_str
-            self.source_type = "agent"
-            if (
-                hasattr(self.agent.fingerprint, "metadata")
-                and self.agent.fingerprint.metadata
-            ):
-                self.fingerprint_metadata = self.agent.fingerprint.metadata
--- a/src/crewai/utilities/events/utils/console_formatter.py
+++ b/src/crewai/utilities/events/utils/console_formatter.py
@@ -1,4 +1,4 @@
-from typing import Any, Dict, Optional
+from typing import Dict, Optional

 from rich.console import Console
 from rich.panel import Panel
@@ -13,7 +13,6 @@ class ConsoleFormatter:
    current_tool_branch: Optional[Tree] = None
    current_flow_tree: Optional[Tree] = None
    current_method_branch: Optional[Tree] = None
-    current_lite_agent_branch: Optional[Tree] = None
    tool_usage_counts: Dict[str, int] = {}

    def __init__(self, verbose: bool = False):
@@ -391,24 +390,21 @@ class ConsoleFormatter:
        crew_tree: Optional[Tree],
    ) -> Optional[Tree]:
        """Handle tool usage started event."""
-        if not self.verbose:
-            return None
-
-        # Use LiteAgent branch if available, otherwise use regular agent branch
-        branch_to_use = self.current_lite_agent_branch or agent_branch
-        tree_to_use = branch_to_use or crew_tree
-
-        if branch_to_use is None or tree_to_use is None:
+        if not self.verbose or agent_branch is None or crew_tree is None:
            return None

        # Update tool usage count
        self.tool_usage_counts[tool_name] = self.tool_usage_counts.get(tool_name, 0) + 1

-        # Find or create tool node
-        tool_branch = self.current_tool_branch
-        if tool_branch is None:
-            tool_branch = branch_to_use.add("")
-            self.current_tool_branch = tool_branch
+        # Find existing tool node or create new one
+        tool_branch = None
+        for child in agent_branch.children:
+            if tool_name in str(child.label):
+                tool_branch = child
+                break
+
+        if not tool_branch:
+            tool_branch = agent_branch.add("")

        # Update label with current count
        self.update_tree_label(
@@ -418,10 +414,11 @@ class ConsoleFormatter:
            "yellow",
        )

-        # Only print if this is a new tool usage
-        if tool_branch not in branch_to_use.children:
-            self.print(tree_to_use)
-            self.print()
+        self.print(crew_tree)
+        self.print()
+
+        # Set the current_tool_branch attribute directly
+        self.current_tool_branch = tool_branch

        return tool_branch

@@ -432,29 +429,17 @@ class ConsoleFormatter:
        crew_tree: Optional[Tree],
    ) -> None:
        """Handle tool usage finished event."""
-        if not self.verbose or tool_branch is None:
+        if not self.verbose or tool_branch is None or crew_tree is None:
            return

-        # Use LiteAgent branch if available, otherwise use crew tree
-        tree_to_use = self.current_lite_agent_branch or crew_tree
-        if tree_to_use is None:
-            return
-
-        # Update the existing tool node's label
        self.update_tree_label(
            tool_branch,
            "🔧",
            f"Used {tool_name} ({self.tool_usage_counts[tool_name]})",
            "green",
        )
-
-        # Clear the current tool branch as we're done with it
-        self.current_tool_branch = None
-
-        # Only print if we have a valid tree and the tool node is still in it
-        if isinstance(tree_to_use, Tree) and tool_branch in tree_to_use.children:
-            self.print(tree_to_use)
-            self.print()
+        self.print(crew_tree)
+        self.print()

    def handle_tool_usage_error(
        self,
@@ -467,9 +452,6 @@ class ConsoleFormatter:
        if not self.verbose:
            return

-        # Use LiteAgent branch if available, otherwise use crew tree
-        tree_to_use = self.current_lite_agent_branch or crew_tree
-
        if tool_branch:
            self.update_tree_label(
                tool_branch,
@@ -477,9 +459,8 @@ class ConsoleFormatter:
                f"{tool_name} ({self.tool_usage_counts[tool_name]})",
                "red",
            )
-            if tree_to_use:
-                self.print(tree_to_use)
-                self.print()
+            self.print(crew_tree)
+            self.print()

        # Show error panel
        error_content = self.create_status_content(
@@ -493,23 +474,19 @@ class ConsoleFormatter:
        crew_tree: Optional[Tree],
    ) -> Optional[Tree]:
        """Handle LLM call started event."""
-        if not self.verbose:
+        if not self.verbose or agent_branch is None or crew_tree is None:
            return None

-        # Use LiteAgent branch if available, otherwise use regular agent branch
-        branch_to_use = self.current_lite_agent_branch or agent_branch
-        tree_to_use = branch_to_use or crew_tree
-
-        if branch_to_use is None or tree_to_use is None:
-            return None
-
-        # Only add thinking status if we don't have a current tool branch
-        if self.current_tool_branch is None:
-            tool_branch = branch_to_use.add("")
+        # Only add thinking status if it doesn't exist
+        if not any("Thinking" in str(child.label) for child in agent_branch.children):
+            tool_branch = agent_branch.add("")
            self.update_tree_label(tool_branch, "🧠", "Thinking...", "blue")
-            self.current_tool_branch = tool_branch
-            self.print(tree_to_use)
+            self.print(crew_tree)
            self.print()
+
+            # Set the current_tool_branch attribute directly
+            self.current_tool_branch = tool_branch
+
            return tool_branch
        return None

@@ -520,27 +497,19 @@ class ConsoleFormatter:
        crew_tree: Optional[Tree],
    ) -> None:
        """Handle LLM call completed event."""
-        if not self.verbose or tool_branch is None:
+        if (
+            not self.verbose
+            or tool_branch is None
+            or agent_branch is None
+            or crew_tree is None
+        ):
            return

-        # Use LiteAgent branch if available, otherwise use regular agent branch
-        branch_to_use = self.current_lite_agent_branch or agent_branch
-        tree_to_use = branch_to_use or crew_tree
-
-        if branch_to_use is None or tree_to_use is None:
-            return
-
-        # Remove the thinking status node when complete, but only if it exists
+        # Remove the thinking status node when complete
        if "Thinking" in str(tool_branch.label):
-            try:
-                # Check if the node is actually in the children list
-                if tool_branch in branch_to_use.children:
-                    branch_to_use.children.remove(tool_branch)
-                    self.print(tree_to_use)
-                    self.print()
-            except Exception:
-                # If any error occurs during removal, just continue without removing
-                pass
+            agent_branch.children.remove(tool_branch)
+            self.print(crew_tree)
+            self.print()

    def handle_llm_call_failed(
        self, tool_branch: Optional[Tree], error: str, crew_tree: Optional[Tree]
@@ -549,15 +518,11 @@ class ConsoleFormatter:
        if not self.verbose:
            return

-        # Use LiteAgent branch if available, otherwise use crew tree
-        tree_to_use = self.current_lite_agent_branch or crew_tree
-
        # Update tool branch if it exists
        if tool_branch:
            tool_branch.label = Text("❌ LLM Failed", style="red bold")
-            if tree_to_use:
-                self.print(tree_to_use)
-                self.print()
+            self.print(crew_tree)
+            self.print()

        # Show error panel
        error_content = Text()
@@ -622,7 +587,6 @@ class ConsoleFormatter:
            for child in flow_tree.children:
                if "Running tests" in str(child.label):
                    child.label = Text("✅ Tests completed successfully", style="green")
-                    break

            self.print(flow_tree)
            self.print()
@@ -692,94 +656,3 @@ class ConsoleFormatter:

        self.print_panel(failure_content, "Test Failure", "red")
        self.print()
-
-    def create_lite_agent_branch(self, lite_agent_role: str) -> Optional[Tree]:
-        """Create and initialize a lite agent branch."""
-        if not self.verbose:
-            return None
-
-        # Create initial tree for LiteAgent if it doesn't exist
-        if not self.current_lite_agent_branch:
-            lite_agent_label = Text()
-            lite_agent_label.append("🤖 LiteAgent: ", style="cyan bold")
-            lite_agent_label.append(lite_agent_role, style="cyan")
-            lite_agent_label.append("\n    Status: ", style="white")
-            lite_agent_label.append("In Progress", style="yellow")
-
-            lite_agent_tree = Tree(lite_agent_label)
-            self.current_lite_agent_branch = lite_agent_tree
-            self.print(lite_agent_tree)
-            self.print()
-
-        return self.current_lite_agent_branch
-
-    def update_lite_agent_status(
-        self,
-        lite_agent_branch: Optional[Tree],
-        lite_agent_role: str,
-        status: str = "completed",
-        **fields: Dict[str, Any],
-    ) -> None:
-        """Update lite agent status in the tree."""
-        if not self.verbose or lite_agent_branch is None:
-            return
-
-        # Determine style based on status
-        if status == "completed":
-            prefix, style = "✅ LiteAgent:", "green"
-            status_text = "Completed"
-            title = "LiteAgent Completion"
-        elif status == "failed":
-            prefix, style = "❌ LiteAgent:", "red"
-            status_text = "Failed"
-            title = "LiteAgent Error"
-        else:
-            prefix, style = "🤖 LiteAgent:", "yellow"
-            status_text = "In Progress"
-            title = "LiteAgent Status"
-
-        # Update the tree label
-        lite_agent_label = Text()
-        lite_agent_label.append(f"{prefix} ", style=f"{style} bold")
-        lite_agent_label.append(lite_agent_role, style=style)
-        lite_agent_label.append("\n    Status: ", style="white")
-        lite_agent_label.append(status_text, style=f"{style} bold")
-        lite_agent_branch.label = lite_agent_label
-
-        self.print(lite_agent_branch)
-        self.print()
-
-        # Show status panel if additional fields are provided
-        if fields:
-            content = self.create_status_content(
-                f"LiteAgent {status.title()}", lite_agent_role, style, **fields
-            )
-            self.print_panel(content, title, style)
-
-    def handle_lite_agent_execution(
-        self,
-        lite_agent_role: str,
-        status: str = "started",
-        error: Any = None,
-        **fields: Dict[str, Any],
-    ) -> None:
-        """Handle lite agent execution events with consistent formatting."""
-        if not self.verbose:
-            return
-
-        if status == "started":
-            # Create or get the LiteAgent branch
-            lite_agent_branch = self.create_lite_agent_branch(lite_agent_role)
-            if lite_agent_branch and fields:
-                # Show initial status panel
-                content = self.create_status_content(
-                    "LiteAgent Session Started", lite_agent_role, "cyan", **fields
-                )
-                self.print_panel(content, "LiteAgent Started", "cyan")
-        else:
-            # Update existing LiteAgent branch
-            if error:
-                fields["Error"] = error
-            self.update_lite_agent_status(
-                self.current_lite_agent_branch, lite_agent_role, status, **fields
-            )
--- a/src/crewai/utilities/formatter.py
+++ b/src/crewai/utilities/formatter.py
@@ -1,12 +1,10 @@
-import re
-from typing import TYPE_CHECKING, List
+from typing import List

-if TYPE_CHECKING:
-    from crewai.task import Task
-    from crewai.tasks.task_output import TaskOutput
+from crewai.task import Task
+from crewai.tasks.task_output import TaskOutput


-def aggregate_raw_outputs_from_task_outputs(task_outputs: List["TaskOutput"]) -> str:
+def aggregate_raw_outputs_from_task_outputs(task_outputs: List[TaskOutput]) -> str:
    """Generate string context from the task outputs."""
    dividers = "\n\n----------\n\n"

@@ -15,7 +13,7 @@ def aggregate_raw_outputs_from_task_outputs(task_outputs: List["TaskOutput"]) ->
    return context


-def aggregate_raw_outputs_from_tasks(tasks: List["Task"]) -> str:
+def aggregate_raw_outputs_from_tasks(tasks: List[Task]) -> str:
    """Generate string context from the tasks."""
    task_outputs = [task.output for task in tasks if task.output is not None]

--- a/src/crewai/utilities/llm_utils.py
+++ b/src/crewai/utilities/llm_utils.py
@@ -2,28 +2,28 @@ import os
 from typing import Any, Dict, List, Optional, Union

 from crewai.cli.constants import DEFAULT_LLM_MODEL, ENV_VARS, LITELLM_PARAMS
-from crewai.llm import LLM, BaseLLM
+from crewai.llm import LLM


 def create_llm(
    llm_value: Union[str, LLM, Any, None] = None,
-) -> Optional[LLM | BaseLLM]:
+) -> Optional[LLM]:
    """
    Creates or returns an LLM instance based on the given llm_value.

    Args:
-        llm_value (str | BaseLLM | Any | None):
+        llm_value (str | LLM | Any | None):
            - str: The model name (e.g., "gpt-4").
-            - BaseLLM: Already instantiated BaseLLM (including LLM), returned as-is.
+            - LLM: Already instantiated LLM, returned as-is.
            - Any: Attempt to extract known attributes like model_name, temperature, etc.
            - None: Use environment-based or fallback default model.

    Returns:
-        A BaseLLM instance if successful, or None if something fails.
+        An LLM instance if successful, or None if something fails.
    """

-    # 1) If llm_value is already a BaseLLM or LLM object, return it directly
-    if isinstance(llm_value, LLM) or isinstance(llm_value, BaseLLM):
+    # 1) If llm_value is already an LLM object, return it directly
+    if isinstance(llm_value, LLM):
        return llm_value

    # 2) If llm_value is a string (model name)
--- a/src/crewai/utilities/prompts.py
+++ b/src/crewai/utilities/prompts.py
@@ -9,7 +9,7 @@ class Prompts(BaseModel):
    """Manages and generates prompts for a generic agent."""

    i18n: I18N = Field(default=I18N())
-    has_tools: bool = False
+    tools: list[Any] = Field(default=[])
    system_template: Optional[str] = None
    prompt_template: Optional[str] = None
    response_template: Optional[str] = None
@@ -19,7 +19,7 @@ class Prompts(BaseModel):
    def task_execution(self) -> dict[str, str]:
        """Generate a standard prompt for task execution."""
        slices = ["role_playing"]
-        if self.has_tools:
+        if len(self.tools) > 0:
            slices.append("tools")
        else:
            slices.append("no_tools")
--- a/src/crewai/utilities/string_utils.py
+++ b/src/crewai/utilities/string_utils.py
@@ -1,82 +0,0 @@
-import re
-from typing import Any, Dict, List, Optional, Union
-
-
-def interpolate_only(
-    input_string: Optional[str],
-    inputs: Dict[str, Union[str, int, float, Dict[str, Any], List[Any]]],
-) -> str:
-    """Interpolate placeholders (e.g., {key}) in a string while leaving JSON untouched.
-    Only interpolates placeholders that follow the pattern {variable_name} where
-    variable_name starts with a letter/underscore and contains only letters, numbers, and underscores.
-
-    Args:
-        input_string: The string containing template variables to interpolate.
-                     Can be None or empty, in which case an empty string is returned.
-        inputs: Dictionary mapping template variables to their values.
-               Supported value types are strings, integers, floats, and dicts/lists
-               containing only these types and other nested dicts/lists.
-
-    Returns:
-        The interpolated string with all template variables replaced with their values.
-        Empty string if input_string is None or empty.
-
-    Raises:
-        ValueError: If a value contains unsupported types or a template variable is missing
-    """
-
-    # Validation function for recursive type checking
-    def validate_type(value: Any) -> None:
-        if value is None:
-            return
-        if isinstance(value, (str, int, float, bool)):
-            return
-        if isinstance(value, (dict, list)):
-            for item in value.values() if isinstance(value, dict) else value:
-                validate_type(item)
-            return
-        raise ValueError(
-            f"Unsupported type {type(value).__name__} in inputs. "
-            "Only str, int, float, bool, dict, and list are allowed."
-        )
-
-    # Validate all input values
-    for key, value in inputs.items():
-        try:
-            validate_type(value)
-        except ValueError as e:
-            raise ValueError(f"Invalid value for key '{key}': {str(e)}") from e
-
-    if input_string is None or not input_string:
-        return ""
-    if "{" not in input_string and "}" not in input_string:
-        return input_string
-    if not inputs:
-        raise ValueError(
-            "Inputs dictionary cannot be empty when interpolating variables"
-        )
-
-    # The regex pattern to find valid variable placeholders
-    # Matches {variable_name} where variable_name starts with a letter/underscore
-    # and contains only letters, numbers, and underscores
-    pattern = r"\{([A-Za-z_][A-Za-z0-9_]*)\}"
-
-    # Find all matching variables in the input string
-    variables = re.findall(pattern, input_string)
-    result = input_string
-
-    # Check if all variables exist in inputs
-    missing_vars = [var for var in variables if var not in inputs]
-    if missing_vars:
-        raise KeyError(
-            f"Template variable '{missing_vars[0]}' not found in inputs dictionary"
-        )
-
-    # Replace each variable with its value
-    for var in variables:
-        if var in inputs:
-            placeholder = "{" + var + "}"
-            value = str(inputs[var])
-            result = result.replace(placeholder, value)
-
-    return result
--- a/src/crewai/utilities/tool_utils.py
+++ b/src/crewai/utilities/tool_utils.py
@@ -1,126 +0,0 @@
-from typing import Any, Dict, List, Optional
-
-from crewai.agents.parser import AgentAction
-from crewai.security import Fingerprint
-from crewai.tools.structured_tool import CrewStructuredTool
-from crewai.tools.tool_types import ToolResult
-from crewai.tools.tool_usage import ToolUsage, ToolUsageErrorException
-from crewai.utilities.events import crewai_event_bus
-from crewai.utilities.events.tool_usage_events import (
-    ToolUsageErrorEvent,
-    ToolUsageStartedEvent,
-)
-from crewai.utilities.i18n import I18N
-
-
-def execute_tool_and_check_finality(
-    agent_action: AgentAction,
-    tools: List[CrewStructuredTool],
-    i18n: I18N,
-    agent_key: Optional[str] = None,
-    agent_role: Optional[str] = None,
-    tools_handler: Optional[Any] = None,
-    task: Optional[Any] = None,
-    agent: Optional[Any] = None,
-    function_calling_llm: Optional[Any] = None,
-    fingerprint_context: Optional[Dict[str, str]] = None,
-) -> ToolResult:
-    """Execute a tool and check if the result should be treated as a final answer.
-
-    Args:
-        agent_action: The action containing the tool to execute
-        tools: List of available tools
-        i18n: Internationalization settings
-        agent_key: Optional key for event emission
-        agent_role: Optional role for event emission
-        tools_handler: Optional tools handler for tool execution
-        task: Optional task for tool execution
-        agent: Optional agent instance for tool execution
-        function_calling_llm: Optional LLM for function calling
-
-    Returns:
-        ToolResult containing the execution result and whether it should be treated as a final answer
-    """
-    try:
-        # Create tool name to tool map
-        tool_name_to_tool_map = {tool.name: tool for tool in tools}
-
-        # Emit tool usage event if agent info is available
-        if agent_key and agent_role and agent:
-            fingerprint_context = fingerprint_context or {}
-            if agent:
-                if hasattr(agent, "set_fingerprint") and callable(
-                    agent.set_fingerprint
-                ):
-                    if isinstance(fingerprint_context, dict):
-                        try:
-                            fingerprint_obj = Fingerprint.from_dict(fingerprint_context)
-                            agent.set_fingerprint(fingerprint_obj)
-                        except Exception as e:
-                            raise ValueError(f"Failed to set fingerprint: {e}")
-
-            event_data = {
-                "agent_key": agent_key,
-                "agent_role": agent_role,
-                "tool_name": agent_action.tool,
-                "tool_args": agent_action.tool_input,
-                "tool_class": agent_action.tool,
-                "agent": agent,
-            }
-            event_data.update(fingerprint_context)
-            crewai_event_bus.emit(
-                agent,
-                event=ToolUsageStartedEvent(
-                    **event_data,
-                ),
-            )
-
-        # Create tool usage instance
-        tool_usage = ToolUsage(
-            tools_handler=tools_handler,
-            tools=tools,
-            function_calling_llm=function_calling_llm,
-            task=task,
-            agent=agent,
-            action=agent_action,
-        )
-
-        # Parse tool calling
-        tool_calling = tool_usage.parse_tool_calling(agent_action.text)
-
-        if isinstance(tool_calling, ToolUsageErrorException):
-            return ToolResult(tool_calling.message, False)
-
-        # Check if tool name matches
-        if tool_calling.tool_name.casefold().strip() in [
-            name.casefold().strip() for name in tool_name_to_tool_map
-        ] or tool_calling.tool_name.casefold().replace("_", " ") in [
-            name.casefold().strip() for name in tool_name_to_tool_map
-        ]:
-            tool_result = tool_usage.use(tool_calling, agent_action.text)
-            tool = tool_name_to_tool_map.get(tool_calling.tool_name)
-            if tool:
-                return ToolResult(tool_result, tool.result_as_answer)
-
-        # Handle invalid tool name
-        tool_result = i18n.errors("wrong_tool_name").format(
-            tool=tool_calling.tool_name,
-            tools=", ".join([tool.name.casefold() for tool in tools]),
-        )
-        return ToolResult(tool_result, False)
-
-    except Exception as e:
-        # Emit error event if agent info is available
-        if agent_key and agent_role and agent:
-            crewai_event_bus.emit(
-                agent,
-                event=ToolUsageErrorEvent(
-                    agent_key=agent_key,
-                    agent_role=agent_role,
-                    tool_name=agent_action.tool,
-                    tool_args=agent_action.tool_input,
-                    tool_class=agent_action.tool,
-                    error=str(e),
-                ),
-            )
-        raise e
--- a/tests/agent_test.py
+++ b/tests/agent_test.py
@@ -9,7 +9,7 @@ import pytest
 from crewai import Agent, Crew, Task
 from crewai.agents.cache import CacheHandler
 from crewai.agents.crew_agent_executor import AgentFinish, CrewAgentExecutor
-from crewai.agents.parser import CrewAgentParser, OutputParserException
+from crewai.agents.parser import AgentAction, CrewAgentParser, OutputParserException
 from crewai.knowledge.source.base_knowledge_source import BaseKnowledgeSource
 from crewai.knowledge.source.string_knowledge_source import StringKnowledgeSource
 from crewai.llm import LLM
@@ -18,6 +18,7 @@ from crewai.tools.tool_calling import InstructorToolCalling
 from crewai.tools.tool_usage import ToolUsage
 from crewai.utilities import RPMController
 from crewai.utilities.events import crewai_event_bus
+from crewai.utilities.events.llm_events import LLMStreamChunkEvent
 from crewai.utilities.events.tool_usage_events import ToolUsageFinishedEvent


@@ -374,7 +375,7 @@ def test_agent_powered_by_new_o_model_family_that_allows_skipping_tool():
        role="test role",
        goal="test goal",
        backstory="test backstory",
-        llm=LLM(model="o3-mini"),
+        llm="o1-preview",
        max_iter=3,
        use_system_prompt=False,
        allow_delegation=False,
@@ -400,7 +401,7 @@ def test_agent_powered_by_new_o_model_family_that_uses_tool():
        role="test role",
        goal="test goal",
        backstory="test backstory",
-        llm="o3-mini",
+        llm="o1-preview",
        max_iter=3,
        use_system_prompt=False,
        allow_delegation=False,
@@ -442,7 +443,7 @@ def test_agent_custom_max_iterations():
            task=task,
            tools=[get_final_answer],
        )
-        assert private_mock.call_count == 3
+        assert private_mock.call_count == 2


@pytest.mark.vcr(filter_headers=["authorization"])
@@ -530,7 +531,7 @@ def test_agent_moved_on_after_max_iterations():
        role="test role",
        goal="test goal",
        backstory="test backstory",
-        max_iter=5,
+        max_iter=3,
        allow_delegation=False,
    )

@@ -551,7 +552,6 @@ def test_agent_respect_the_max_rpm_set(capsys):
    def get_final_answer() -> float:
        """Get the final answer but don't give it yet, just re-use this
        tool non-stop."""
-        return 42

    agent = Agent(
        role="test role",
@@ -573,7 +573,7 @@ def test_agent_respect_the_max_rpm_set(capsys):
            task=task,
            tools=[get_final_answer],
        )
-        assert output == "42"
+        assert output == "The final answer is 42."
        captured = capsys.readouterr()
        assert "Max RPM reached, waiting for next minute to start." in captured.out
        moveon.assert_called()
@@ -863,6 +863,25 @@ def test_agent_function_calling_llm():
        mock_original_tool_calling.assert_called()


+def test_agent_count_formatting_error():
+    from unittest.mock import patch
+
+    agent1 = Agent(
+        role="test role",
+        goal="test goal",
+        backstory="test backstory",
+        verbose=True,
+    )
+
+    parser = CrewAgentParser(agent=agent1)
+
+    with patch.object(Agent, "increment_formatting_errors") as mock_count_errors:
+        test_text = "This text does not match expected formats."
+        with pytest.raises(OutputParserException):
+            parser.parse(test_text)
+        mock_count_errors.assert_called_once()
+
+
@pytest.mark.vcr(filter_headers=["authorization"])
 def test_tool_result_as_answer_is_the_final_answer_for_the_agent():
    from crewai.tools import BaseTool
@@ -1286,55 +1305,46 @@ def test_llm_call_with_error():

@pytest.mark.vcr(filter_headers=["authorization"])
 def test_handle_context_length_exceeds_limit():
-    # Import necessary modules
-    from crewai.utilities.agent_utils import handle_context_length
-    from crewai.utilities.i18n import I18N
-    from crewai.utilities.printer import Printer
-
-    # Create mocks for dependencies
-    printer = Printer()
-    i18n = I18N()
-
-    # Create an agent just for its LLM
    agent = Agent(
        role="test role",
        goal="test goal",
        backstory="test backstory",
-        respect_context_window=True,
+    )
+    original_action = AgentAction(
+        tool="test_tool",
+        tool_input="test_input",
+        text="test_log",
+        thought="test_thought",
    )

-    llm = agent.llm
-
-    # Create test messages
-    messages = [
-        {
-            "role": "user",
-            "content": "This is a test message that would exceed context length",
-        }
-    ]
-
-    # Set up test parameters
-    respect_context_window = True
-    callbacks = []
-
-    # Apply our patch to summarize_messages to force an error
-    with patch("crewai.utilities.agent_utils.summarize_messages") as mock_summarize:
-        mock_summarize.side_effect = ValueError("Context length limit exceeded")
-
-        # Directly call handle_context_length with our parameters
-        with pytest.raises(ValueError) as excinfo:
-            handle_context_length(
-                respect_context_window=respect_context_window,
-                printer=printer,
-                messages=messages,
-                llm=llm,
-                callbacks=callbacks,
-                i18n=i18n,
+    with patch.object(
+        CrewAgentExecutor, "invoke", wraps=agent.agent_executor.invoke
+    ) as private_mock:
+        task = Task(
+            description="The final answer is 42. But don't give it yet, instead keep using the `get_final_answer` tool.",
+            expected_output="The final answer",
+        )
+        agent.execute_task(
+            task=task,
+        )
+        private_mock.assert_called_once()
+        with patch.object(
+            CrewAgentExecutor, "_handle_context_length"
+        ) as mock_handle_context:
+            mock_handle_context.side_effect = ValueError(
+                "Context length limit exceeded"
            )

-        # Verify our patch was called and raised the correct error
-        assert "Context length limit exceeded" in str(excinfo.value)
-        mock_summarize.assert_called_once()
+            long_input = "This is a very long input. " * 10000
+
+            # Attempt to handle context length, expecting the mocked error
+            with pytest.raises(ValueError) as excinfo:
+                agent.agent_executor._handle_context_length(
+                    [(original_action, long_input)]
+                )
+
+            assert "Context length limit exceeded" in str(excinfo.value)
+            mock_handle_context.assert_called_once()


@pytest.mark.vcr(filter_headers=["authorization"])
@@ -1343,7 +1353,7 @@ def test_handle_context_length_exceeds_limit_cli_no():
        role="test role",
        goal="test goal",
        backstory="test backstory",
-        respect_context_window=False,
+        sliding_context_window=False,
    )
    task = Task(description="test task", agent=agent, expected_output="test output")

@@ -1359,8 +1369,8 @@ def test_handle_context_length_exceeds_limit_cli_no():
        )
        private_mock.assert_called_once()
        pytest.raises(SystemExit)
-        with patch(
-            "crewai.utilities.agent_utils.handle_context_length"
+        with patch.object(
+            CrewAgentExecutor, "_handle_context_length"
        ) as mock_handle_context:
            mock_handle_context.assert_not_called()

@@ -1611,38 +1621,6 @@ def test_agent_with_knowledge_sources():
        assert "red" in result.raw.lower()


-@pytest.mark.vcr(filter_headers=["authorization"])
-def test_agent_with_knowledge_sources_extensive_role():
-    content = "Brandon's favorite color is red and he likes Mexican food."
-    string_source = StringKnowledgeSource(content=content)
-
-    with patch(
-        "crewai.knowledge.storage.knowledge_storage.KnowledgeStorage"
-    ) as MockKnowledge:
-        mock_knowledge_instance = MockKnowledge.return_value
-        mock_knowledge_instance.sources = [string_source]
-        mock_knowledge_instance.query.return_value = [{"content": content}]
-
-        agent = Agent(
-            role="Information Agent with extensive role description that is longer than 80 characters",
-            goal="Provide information based on knowledge sources",
-            backstory="You have access to specific knowledge sources.",
-            llm=LLM(model="gpt-4o-mini"),
-            knowledge_sources=[string_source],
-        )
-
-        task = Task(
-            description="What is Brandon's favorite color?",
-            expected_output="Brandon's favorite color.",
-            agent=agent,
-        )
-
-        crew = Crew(agents=[agent], tasks=[task])
-        result = crew.kickoff()
-
-        assert "red" in result.raw.lower()
-
-
@pytest.mark.vcr(filter_headers=["authorization"])
 def test_agent_with_knowledge_sources_works_with_copy():
    content = "Brandon's favorite color is red and he likes Mexican food."
--- a/tests/agents/test_crew_agent_parser.py
+++ b/tests/agents/test_crew_agent_parser.py
@@ -227,6 +227,13 @@ def test_missing_action_input_error(parser):
    assert "I missed the 'Action Input:' after 'Action:'." in str(exc_info.value)


+def test_action_and_final_answer_error(parser):
+    text = "Thought: I found the information\nAction: search\nAction Input: what is the temperature in SF?\nFinal Answer: The temperature is 100 degrees"
+    with pytest.raises(OutputParserException) as exc_info:
+        parser.parse(text)
+    assert "both perform Action and give a Final Answer" in str(exc_info.value)
+
+
 def test_safe_repair_json(parser):
    invalid_json = '{"task": "Research XAI", "context": "Explainable AI", "coworker": Senior Researcher'
    expected_repaired_json = '{"task": "Research XAI", "context": "Explainable AI", "coworker": "Senior Researcher"}'
--- a/tests/cassettes/test_agent_custom_max_iterations.yaml
+++ b/tests/cassettes/test_agent_custom_max_iterations.yaml
@@ -4,35 +4,37 @@ interactions:
      personal goal is: test goal\nYou ONLY have access to the following tools, and
      should NEVER make up tools that are not listed here:\n\nTool Name: get_final_answer\nTool
      Arguments: {}\nTool Description: Get the final answer but don''t give it yet,
-      just re-use this\n        tool non-stop.\n\nIMPORTANT: Use the following format
-      in your response:\n\n```\nThought: you should always think about what to do\nAction:
-      the action to take, only one name of [get_final_answer], just the name, exactly
-      as it''s written.\nAction Input: the input to the action, just a simple JSON
-      object, enclosed in curly braces, using \" to wrap keys and values.\nObservation:
-      the result of the action\n```\n\nOnce all necessary information is gathered,
-      return the following format:\n\n```\nThought: I now know the final answer\nFinal
-      Answer: the final answer to the original input question\n```"}, {"role": "user",
-      "content": "\nCurrent Task: The final answer is 42. But don''t give it yet,
-      instead keep using the `get_final_answer` tool.\n\nThis is the expected criteria
-      for your final answer: The final answer\nyou MUST return the actual complete
-      content as the final answer, not a summary.\n\nBegin! This is VERY important
-      to you, use the tools available and give your best Final Answer, your job depends
-      on it!\n\nThought:"}], "model": "gpt-4o", "stop": ["\nObservation:"]}'
+      just re-use this\n        tool non-stop.\n\nUse the following format:\n\nThought:
+      you should always think about what to do\nAction: the action to take, only one
+      name of [get_final_answer], just the name, exactly as it''s written.\nAction
+      Input: the input to the action, just a simple python dictionary, enclosed in
+      curly braces, using \" to wrap keys and values.\nObservation: the result of
+      the action\n\nOnce all necessary information is gathered:\n\nThought: I now
+      know the final answer\nFinal Answer: the final answer to the original input
+      question"}, {"role": "user", "content": "\nCurrent Task: The final answer is
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--- a/Show More
+++ b/Show More
Author	SHA1	Message	Date
Lorenze Jay	38735cba99	Merge branch 'main' into bugfix/flow-persist-nested-models	2025-03-21 17:03:57 -07:00
Brandon Hancock	cde67882b4	resuse existing code and address PRs	2025-03-21 15:10:08 -04:00
Lorenze Jay	d3df545f1e	Merge branch 'main' into bugfix/flow-persist-nested-models	2025-03-21 11:59:11 -07:00
Brandon Hancock (bhancock_ai)	b5067a2689	Merge branch 'main' into bugfix/flow-persist-nested-models	2025-03-10 12:05:13 -04:00
Brandon Hancock (bhancock_ai)	362b20f052	Merge branch 'main' into bugfix/flow-persist-nested-models	2025-03-07 12:55:05 -05:00
Brandon Hancock	d5408ec461	Drop file	2025-03-06 16:40:36 -05:00
Brandon Hancock	6677c9c192	nested models in flow persist	2025-03-05 16:14:50 -05:00