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Lanbench Apr 2026

def calculate_statistics(self, data: List[float]) -> Dict: """Calculate statistical metrics""" return { 'mean': np.mean(data), 'std': np.std(data), 'min': np.min(data), 'max': np.max(data), 'p95': np.percentile(data, 95), 'p99': np.percentile(data, 99) } # dashboard.py import dash from dash import dcc, html, Input, Output import plotly.graph_objs as go import plotly.express as px from collections import deque import threading class LiveDashboard: def init (self): self.app = dash.Dash( name ) self.latency_data = deque(maxlen=100) self.throughput_data = deque(maxlen=100) self.setup_layout() self.setup_callbacks()

<script> const socket = io('http://localhost:5000'); let chart; function startTest() { const config = { type: document.getElementById('test-type').value, host: document.getElementById('target-host').value, duration: parseInt(document.getElementById('duration').value) }; socket.emit('start_test', config); } socket.on('test_update', (data) => { updateChart(data); updateResults(data); }); </script> </body> </html> # reporting.py import pandas as pd from jinja2 import Template import matplotlib.pyplot as plt from reportlab.lib import colors from reportlab.pdfgen import canvas class ReportGenerator: def init (self, test_results: Dict): self.results = test_results

def create_latency_chart(self): return go.Figure( data=[go.Scatter(y=list(self.latency_data), mode='lines+markers')], layout=go.Layout(title="Network Latency Over Time") ) # distributed.py import redis import json from typing import List, Dict from multiprocessing import Pool import asyncio class DistributedTester: def init (self, redis_host='localhost', redis_port=6379): self.redis_client = redis.Redis(host=redis_host, port=redis_port) self.test_nodes = []

def export_to_pdf(self, filename: str): """Generate PDF report""" c = canvas.Canvas(filename) c.drawString(100, 750, "LANBench Performance Report") # Add more report content c.save() # api.py from fastapi import FastAPI, WebSocket, BackgroundTasks from pydantic import BaseModel from typing import Optional import uvicorn app = FastAPI(title="LANBench API") LANBench

def setup_layout(self): self.app.layout = html.Div([ html.H1("LANBench - Live Network Monitor"), html.Div([ dcc.Graph(id='live-latency'), dcc.Graph(id='live-throughput'), dcc.Graph(id='bandwidth-heatmap'), dcc.Interval(id='interval-update', interval=1000) ]) ])

def collect_system_metrics(self) -> Dict: """Collect real-time system metrics""" return { 'cpu_percent': psutil.cpu_percent(interval=1), 'memory_percent': psutil.virtual_memory().percent, 'network_io': psutil.net_io_counters(), 'connections': len(psutil.net_connections()) }

results = {} for class_name, params in traffic_classes.items(): metrics = AdvancedNetworkTests.send_traffic_class( host, port, params ) results[class_name] = metrics return results data: List[float]) -&gt

@app.websocket("/ws/live") async def websocket_endpoint(websocket: WebSocket): """WebSocket for real-time updates""" await websocket.accept() while True: data = await websocket.receive_text() # Process real-time data await websocket.send_json({"status": "updating", "data": data}) # requirements.txt fastapi==0.104.1 uvicorn==0.24.0 dash==2.14.0 plotly==5.17.0 psutil==5.9.5 numpy==1.24.3 pandas==2.1.0 scapy==2.5.0 redis==5.0.1 websockets==12.0 python-socketio==5.10.0 reportlab==4.0.4 jinja2==3.1.2 Quick Start Example # main.py from fastapi import FastAPI import asyncio async def main(): # Initialize LANBench with all features dashboard = LiveDashboard() api_server = FastAPI() distributed_tester = DistributedTester()

@app.post("/api/v1/start_test") async def start_test(config: TestConfig, background_tasks: BackgroundTasks): """Start a network test""" test_id = generate_test_id() background_tasks.add_task(run_network_test, test_id, config) return {"test_id": test_id, "status": "started"}

1. Multi-Protocol Testing Suite # protocols.py from enum import Enum import socket import ssl import asyncio class ProtocolType(Enum): TCP = "tcp" UDP = "udp" TLS = "tls" WEBSOCKET = "websocket" QUIC = "quic" const socket = io('http://localhost:5000')

class MetricsCollector: def (self): self.metrics_history: List[NetworkMetrics] = []

def export_to_csv(self, filename: str): """Export raw data to CSV""" df = pd.DataFrame(self.results['raw_data']) df.to_csv(filename, index=False)

@staticmethod async def udp_jitter_test(host: str, port: int, packet_size: int): """UDP latency and jitter measurement""" sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM) # Implement jitter calculation pass # metrics.py import psutil import time from dataclasses import dataclass from typing import List, Dict import numpy as np @dataclass class NetworkMetrics: throughput_mbps: float latency_ms: float jitter_ms: float packet_loss_percent: float tcp_retransmissions: int cpu_usage_percent: float memory_usage_mb: float