TorrentDB Proxy

There are special tools developed to check if a proxy is working. There are a large number of appropriate services and programs on the Internet. Any software that works in a general way should be excluded from their number. To use online checkers to check the quality and validity of a proxy, just specify your IP address and port number in the fields provided.

When working with HtmlAgilityPack in C# to scrape identical tags, you can use XPath or LINQ queries to select and iterate over the desired elements. Here's an example using HtmlAgilityPack to scrape links (anchor tags) from an HTML document:

using HtmlAgilityPack;

class Program
{
    static void Main()
    {
        // Load the HTML document (replace with your HTML content or file path)
        HtmlDocument htmlDoc = new HtmlDocument();
        htmlDoc.LoadHtml("Link 1Link 2Link 3");

        // Select all anchor elements
        HtmlNodeCollection links = htmlDoc.DocumentNode.SelectNodes("//a");

        // Iterate over each anchor element and print the href attribute
        if (links != null)
        {
            foreach (HtmlNode link in links)
            {
                string href = link.GetAttributeValue("href", "");
                Console.WriteLine("Link: " + href);
            }
        }
        else
        {
            Console.WriteLine("No links found.");
        }
    }
}

In this example:

• The HtmlDocument class is used to load the HTML content.
• The SelectNodes method with the XPath expression "//a" is used to select all anchor elements.
• The GetAttributeValue method is used to retrieve the value of the href attribute for each anchor element.

Make sure to replace the HTML content in htmlDoc.LoadHtml with your actual HTML or load it from a file.

Adjust the XPath expression or use LINQ queries based on your specific HTML structure and the tags you want to scrape. Remember to handle cases where elements might not exist or contain the desired attributes.

CefSharp is a .NET wrapper for the Chromium Embedded Framework (CEF) that allows you to embed a Chromium browser in your .NET applications. While CefSharp doesn't have a direct replacement for Selenium functions, you can use its own methods to interact with the browser and perform similar actions.

To find elements using XPath in CefSharp, you can use the GetElementById(), GetElementsByClassName(), GetElementsByTagName(), and GetElementsByAttribute() methods provided by the CEFBrowser and CefV8Handler classes.

Here's an example of how you can find elements using XPath in CefSharp:

First, install the CefSharp NuGet package in your project:

Install-Package CefSharp.Minimal

Use the following code to create a CefSharp browser and load a webpage:

using CefSharp.WinForms;
using System;
using System.Drawing;
using System.Windows.Forms;

namespace CefSharpExample
{
    public class Program
    {
        [STAThread]
        public static void Main(string[] args)
        {
            CefSettings settings = new CefSettings();
            settings.BrowserSubprocessPath = "path/to/cef/browser_win32_x64.exe";
            settings.CefCommandLineArgs.Add("--disable-gpu");
            settings.CefCommandLineArgs.Add("--headless");
            Cef.Initialize(settings);

            Application.EnableVisualStyles();
            Application.SetCompatibleTextRenderingDefault(false);

            using (Form mainForm = new Form())
            {
                ChromiumWebBrowser browser = new ChromiumWebBrowser("https://www.example.com");
                mainForm.Controls.Add(browser);
                mainForm.Show();

                // Wait for the browser to initialize
                Application.DoEvents();

                // Load the JavaScript needed to interact with the browser
                browser.EvaluateScriptAsync("document.body.style.behavior = 'url(#default#homepage)'; document.body.style.expression = 'ieUseLinkHover=true';");

                // Wait for the page to load
                Application.DoEvents();

                // Add event handlers for navigation, loading, and error events
                browser.LoadingStateChanged += (sender, args) => { };
                browser.NavigationStateChanged += (sender, args) => { };
                browser.ErrorOccurred += (sender, args) => { };

                // Perform actions on the webpage using the browser object
                // ...

                // Close the browser when done
                browser.Dispose();
            }

            Cef.Shutdown();
        }
    }
}

To find elements using XPath, you can use the CefV8Handler class to execute JavaScript code that locates elements based on the XPath expression. Here's an example of how to find elements using XPath:

using System;
using CefSharp.WinForms;

namespace CefSharpXPathExample
{
    public class Program
    {
        [STAThread]
        public static void Main(string[] args)
        {
            CefSettings settings = new CefSettings();
            settings.BrowserSubprocessPath = "path/to/cef/browser_win32_x64.exe";
            settings.CefCommandLineArgs.Add("--disable-gpu");
            settings.CefCommandLineArgs.Add("--headless");
            Cef.Initialize(settings);

            Application.EnableVisualStyles();
            Application.SetCompatibleTextRenderingDefault(false);

            using (Form mainForm = new Form())
            {
                ChromiumWebBrowser browser = new ChromiumWebBrowser("https://www.example.com");
                mainForm.Controls.Add(browser);
                mainForm.Show();

                // Wait for the browser to initialize
                Application.DoEvents();

                // Load the JavaScript needed to interact with the browser
                browser.EvaluateScriptAsync("document.body.style.behavior = 'url(#default#homepage)'; document.body.style.expression = 'ieUseLinkHover=true';");

                // Wait for the page to load
                Application.DoEvents();

                // Execute JavaScript code to find elements using XPath
                browser.ExecuteScriptAsync("var xpath = arguments[0];" +
                                           "var result = document.evaluate(xpath, document, null, XPathResult.FIRST_ORDERED_NODE_TYPE, null);" +
                                           "return result.singleNodeValue;", "//*[@id='element-id']");

                // Perform actions on the webpage using the browser object
                // ...

                // Close the browser when done
                browser.Dispose();
            }

            Cef.Shutdown();
        }
    }
}

In this example, we use the ExecuteScriptAsync() method to execute JavaScript code that finds elements using the provided XPath expression. The JavaScript code uses the document.evaluate() method to find the first matched node based on the provided XPath expression.

Keep in mind that the CefSharp library is actively maintained and provides a wide range of features for interacting with the browser. You can find more information and examples in the CefSharp GitHub repository.

In Python, when using socket module, both TCP and UDP sockets have different local addresses (laddr) because they serve different purposes and have different characteristics.

TCP (Transmission Control Protocol) is a connection-oriented protocol that ensures reliable, in-order, and error-checked delivery of data between the sender and receiver. It uses a connection establishment phase to establish a session between the sender and receiver, and it maintains a connection state throughout the data exchange.

UDP (User Datagram Protocol) is a connectionless protocol that provides a simple and fast way to send and receive data without the overhead of establishing and maintaining a connection. It does not guarantee the delivery, order, or error-checking of data packets.

Here are the main differences between TCP and UDP sockets in Python:

1. Local Address (laddr):

TCP Socket: The laddr for a TCP socket contains the IP address and port number of the local endpoint that is listening for incoming connections. This is the address and port that the server binds to and listens on for incoming connections.

UDP Socket: The laddr for a UDP socket contains the IP address and port number of the local endpoint that is sending or receiving data. This is the address and port that the client uses to send data or the server uses to receive data.

2. Connection:

TCP Socket: TCP sockets establish a connection between the client and server before data exchange.

UDP Socket: UDP sockets do not establish a connection; they send and receive data without a connection.

3. Reliability:

TCP Socket: TCP provides reliable, in-order, and error-checked data delivery.

UDP Socket: UDP does not guarantee data delivery, order, or error checking.

In summary, the different laddr values in TCP and UDP sockets are due to their different purposes and characteristics. TCP sockets use laddr to represent the listening endpoint, while UDP sockets use laddr to represent the sending or receiving endpoint.

Both versions of the protocol, at first glance, are able to provide anonymity on the Internet, as well as bypass all kinds of blockages. In addition, they are not only suitable for online entertainment, but also for work (study). This is what unites them to some extent, but there are still more differences. These are primarily the number of IP addresses, the cost of rent, appearance, connection speed, ping, and security. The IPv4 protocol, developed in the 1980s, is a more outdated model with a number of significant problems, including inefficient routing.