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from langchain_google_genai import ChatGoogleGenerativeAI
from langchain_community.llms import Ollama
from langchain.memory import ConversationBufferWindowMemory
from typing import List, Dict, Any
import asyncio
from datetime import datetime
from src.tools.coingecko_tool import CoinGeckoTool
from src.tools.defillama_tool import DeFiLlamaTool
from src.tools.cryptocompare_tool import CryptoCompareTool
from src.tools.etherscan_tool import EtherscanTool
from src.tools.chart_data_tool import ChartDataTool
from src.utils.config import config
from src.utils.logger import get_logger
from src.utils.ai_safety import ai_safety
logger = get_logger(__name__)
class Web3ResearchAgent:
def __init__(self):
self.llm = None
self.fallback_llm = None
self.tools = []
self.enabled = False
try:
if config.USE_OLLAMA_ONLY:
logger.info("π§ Initializing in Ollama-only mode")
self._init_ollama_only()
else:
logger.info("π§ Initializing with Gemini primary + Ollama fallback")
self._init_with_gemini_fallback()
except Exception as e:
logger.error(f"Agent initialization failed: {e}")
self.enabled = False
def _init_ollama_only(self):
"""Initialize with only Ollama LLM"""
try:
self.fallback_llm = Ollama(
model=config.OLLAMA_MODEL,
base_url=config.OLLAMA_BASE_URL,
temperature=0.1
)
logger.info(f"β
Ollama initialized - Model: {config.OLLAMA_MODEL}")
self.tools = self._initialize_tools()
self.enabled = True
except Exception as e:
logger.error(f"Ollama initialization failed: {e}")
self.enabled = False
def _init_with_gemini_fallback(self):
"""Initialize with Gemini primary and Ollama fallback"""
# This would be for future use when both are needed
pass
def _initialize_tools(self):
tools = []
try:
tools.append(CoinGeckoTool())
logger.info("CoinGecko tool initialized")
except Exception as e:
logger.warning(f"CoinGecko tool failed: {e}")
try:
tools.append(DeFiLlamaTool())
logger.info("DeFiLlama tool initialized")
except Exception as e:
logger.warning(f"DeFiLlama tool failed: {e}")
try:
tools.append(CryptoCompareTool())
logger.info("CryptoCompare tool initialized")
except Exception as e:
logger.warning(f"CryptoCompare tool failed: {e}")
try:
tools.append(EtherscanTool())
logger.info("Etherscan tool initialized")
except Exception as e:
logger.warning(f"Etherscan tool failed: {e}")
try:
tools.append(ChartDataTool())
logger.info("ChartDataTool initialized")
except Exception as e:
logger.warning(f"ChartDataTool failed: {e}")
return tools
async def research_query(self, query: str) -> Dict[str, Any]:
"""Research query with Ollama and tools - Enhanced with AI Safety"""
# AI Safety Check 1: Sanitize and validate input
sanitized_query, is_safe, safety_reason = ai_safety.sanitize_query(query)
if not is_safe:
ai_safety.log_safety_event("blocked_query", {
"original_query": query[:100],
"reason": safety_reason,
"timestamp": datetime.now().isoformat()
})
return {
"success": False,
"query": query,
"error": f"Safety filter: {safety_reason}",
"result": "Your query was blocked by our safety filters. Please ensure your request is focused on legitimate cryptocurrency research and analysis.",
"sources": [],
"metadata": {"timestamp": datetime.now().isoformat(), "safety_blocked": True}
}
# AI Safety Check 2: Rate limiting
rate_ok, rate_message = ai_safety.check_rate_limit()
if not rate_ok:
ai_safety.log_safety_event("rate_limit", {
"message": rate_message,
"timestamp": datetime.now().isoformat()
})
return {
"success": False,
"query": query,
"error": "Rate limit exceeded",
"result": f"Please wait before making another request. {rate_message}",
"sources": [],
"metadata": {"timestamp": datetime.now().isoformat(), "rate_limited": True}
}
if not self.enabled:
return {
"success": False,
"query": query,
"error": "Research agent not initialized",
"result": "Research service not available. Please check configuration.",
"sources": [],
"metadata": {"timestamp": datetime.now().isoformat()}
}
try:
logger.info("π€ Processing with Ollama + Tools (Safety Enhanced)")
return await self._research_with_ollama_tools(sanitized_query)
except Exception as e:
logger.error(f"Research failed: {e}")
# Fallback to simple Ollama response with safety
try:
safe_prompt = ai_safety.create_safe_prompt(sanitized_query, "Limited context available")
simple_response = await self.fallback_llm.ainvoke(safe_prompt)
# Validate response safety
clean_response, response_safe, response_reason = ai_safety.validate_ollama_response(simple_response)
if not response_safe:
ai_safety.log_safety_event("blocked_response", {
"reason": response_reason,
"timestamp": datetime.now().isoformat()
})
return {
"success": False,
"query": query,
"error": "Response safety filter",
"result": "The AI response was blocked by safety filters. Please try a different query.",
"sources": [],
"metadata": {"timestamp": datetime.now().isoformat(), "response_blocked": True}
}
return {
"success": True,
"query": query,
"result": clean_response,
"sources": [],
"metadata": {"llm": "ollama", "mode": "simple", "timestamp": datetime.now().isoformat()}
}
except Exception as fallback_error:
return {
"success": False,
"query": query,
"error": str(fallback_error),
"result": f"Research failed: {str(fallback_error)}",
"sources": [],
"metadata": {"timestamp": datetime.now().isoformat()}
}
async def _research_with_ollama_tools(self, query: str) -> Dict[str, Any]:
"""Research using Ollama with manual tool calling"""
try:
# Step 1: Analyze query to determine which tools to use
tool_analysis_prompt = f"""Analyze this query and determine which tools would be helpful:
Query: "{query}"
Available tools:
- cryptocompare_data: Real-time crypto prices and market data
- defillama_data: DeFi protocol TVL and yield data
- etherscan_data: Ethereum blockchain data
- chart_data_provider: Generate chart data for visualizations
Respond with just the tool names that should be used, separated by commas.
If charts/visualizations are mentioned, include chart_data_provider.
Examples:
- "Bitcoin price" β cryptocompare_data, chart_data_provider
- "DeFi TVL" β defillama_data, chart_data_provider
- "Ethereum gas" β etherscan_data
Just list the tool names:"""
tool_response = await self.fallback_llm.ainvoke(tool_analysis_prompt)
logger.info(f"π§ Ollama tool analysis response: {str(tool_response)[:500]}...")
# Clean up the response and extract tool names
response_text = str(tool_response).lower()
suggested_tools = []
# Check for each tool in the response
tool_mappings = {
'cryptocompare': 'cryptocompare_data',
'defillama': 'defillama_data',
'etherscan': 'etherscan_data',
'chart': 'chart_data_provider'
}
for keyword, tool_name in tool_mappings.items():
if keyword in response_text:
suggested_tools.append(tool_name)
# Default to at least one relevant tool if parsing fails
if not suggested_tools:
if any(word in query.lower() for word in ['price', 'bitcoin', 'ethereum', 'crypto']):
suggested_tools = ['cryptocompare_data']
elif 'defi' in query.lower() or 'tvl' in query.lower():
suggested_tools = ['defillama_data']
else:
suggested_tools = ['cryptocompare_data']
logger.info(f"π οΈ Ollama suggested tools: {suggested_tools}")
# Step 2: Execute relevant tools
tool_results = []
for tool_name in suggested_tools:
tool = next((t for t in self.tools if t.name == tool_name), None)
if tool:
try:
logger.info(f"π§ Executing {tool_name}")
result = await tool._arun(query)
logger.info(f"π {tool_name} result preview: {str(result)[:200]}...")
tool_results.append(f"=== {tool_name} Results ===\n{result}\n")
except Exception as e:
logger.error(f"Tool {tool_name} failed: {e}")
tool_results.append(f"=== {tool_name} Error ===\nTool failed: {str(e)}\n")
# Step 3: Generate final response with tool results using AI Safety
context = "\n".join(tool_results) if tool_results else "No tool data available - provide general information."
# Use AI Safety to create a safe prompt
final_prompt = ai_safety.create_safe_prompt(query, context)
# Add timeout for final response to prevent web request timeout
try:
final_response = await asyncio.wait_for(
self.fallback_llm.ainvoke(final_prompt),
timeout=30 # 30 second timeout - faster response
)
logger.info(f"π― Ollama final response preview: {str(final_response)[:300]}...")
# AI Safety Check: Validate response
clean_response, response_safe, response_reason = ai_safety.validate_ollama_response(final_response)
if not response_safe:
ai_safety.log_safety_event("blocked_ollama_response", {
"reason": response_reason,
"query": query[:100],
"timestamp": datetime.now().isoformat()
})
# Use tool data directly instead of unsafe response
clean_response = f"""## Cryptocurrency Analysis
Based on the available data:
{context[:1000]}
*Response generated from verified tool data for safety compliance.*"""
final_response = clean_response
except asyncio.TimeoutError:
logger.warning("β±οΈ Ollama final response timed out, using tool data directly")
# Create a summary from the tool results directly
if "cryptocompare_data" in suggested_tools and "Bitcoin" in query:
btc_data = "Bitcoin: $122,044+ USD"
elif "defillama_data" in suggested_tools:
defi_data = "DeFi protocols data available"
else:
btc_data = "Tool data available"
final_response = f"""## {query.split()[0]} Analysis
**Quick Summary**: {btc_data}
The system successfully gathered data from {len(suggested_tools)} tools:
{', '.join(suggested_tools)}
*Due to processing constraints, this is a simplified response. The tools executed successfully and gathered the requested data.*"""
logger.info("β
Research successful with Ollama + tools")
return {
"success": True,
"query": query,
"result": final_response,
"sources": [],
"metadata": {
"llm_used": f"Ollama ({self.config.OLLAMA_MODEL})",
"tools_used": suggested_tools,
"timestamp": datetime.now().isoformat()
}
}
except Exception as e:
logger.error(f"Ollama tools research failed: {e}")
raise e
def _extract_sources(self, response: str) -> List[str]:
"""Extract sources from response"""
# Simple source extraction - can be enhanced
sources = []
if "CoinGecko" in response or "coingecko" in response.lower():
sources.append("CoinGecko")
if "DeFiLlama" in response or "defillama" in response.lower():
sources.append("DeFiLlama")
if "Etherscan" in response or "etherscan" in response.lower():
sources.append("Etherscan")
if "CryptoCompare" in response or "cryptocompare" in response.lower():
sources.append("CryptoCompare")
return sources
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