Backfox Proxy

HTTP proxies are used for surfing the Internet and working with social networks. However, when using this type of proxy, the user's IP address remains unprotected. At the same time, the connection speed remains high.
SOCKS proxy are designed to use programs and visit sites anonymously. Also this type of proxy allows bypassing the resources with proxy-server protection.
To sum up: SOCKS proxies are a more advanced development compared to HTTP. However, to use SOCKS, you must know how to configure your browser and use special utilities.

Bypassing CAPTCHA (Completely Automated Public Turing test to tell Computers and Humans Apart) is generally considered unethical and against the terms of service of most websites. CAPTCHAs are designed to ensure that interactions with a website are performed by humans rather than automated scripts. Attempting to bypass CAPTCHA measures without explicit permission is likely to violate the website's terms of service and may have legal consequences.

If you are facing challenges with CAPTCHAs while using Selenium, consider the following alternatives:

1. Use CAPTCHA Solving Services:

   • Some third-party services offer CAPTCHA solving solutions. These services may use human workers to solve CAPTCHAs for you. However, keep in mind that using such services may still violate the terms of service of the website.

2. Contact the Website Owner:

   • If you are legitimately using Selenium for testing purposes or any other sanctioned activity, consider reaching out to the website owner or administrator. They may provide you with a way to bypass CAPTCHAs for testing purposes.

3. Use Headless Browsing:

   • Some websites may implement CAPTCHAs only for users interacting with the website in a visible browser window. Running Selenium in headless mode (without a visible browser) may reduce the likelihood of encountering CAPTCHAs.

4. Automate Only What's Necessary:

   • Avoid unnecessary interactions with the website and automate only what is essential. Excessive and rapid interactions may trigger CAPTCHAs.

5. Consider Alternatives:

   • Explore alternatives to web scraping if CAPTCHAs are a significant obstacle. Some websites provide APIs or other methods for accessing data without the need for traditional web scraping.

Always respect the terms of service of the websites you are interacting with and seek permission if you encounter obstacles like CAPTCHAs. Attempting to bypass security measures without authorization is not only unethical but may also lead to legal consequences.

In Selenium, you can find out the URL of a newly opened window by switching to that window and retrieving its URL. Here's a step-by-step guide in Python:

1. Switch to the New Window

After opening a new window, you need to switch the focus of the WebDriver to that window.

from selenium import webdriver

driver = webdriver.Chrome()
driver.get("https://example.com")

# Open a new window (e.g., by clicking a link)
new_window_link = driver.find_element_by_link_text("Open New Window")
new_window_link.click()

# Switch to the new window
new_window_handle = driver.window_handles[-1]
driver.switch_to.window(new_window_handle)

In this example, replace "Open New Window" with the actual link text or locator that opens the new window.

2. Retrieve the URL of the New Window

Once you have switched to the new window, you can retrieve its URL using current_url.

new_window_url = driver.current_url
print("URL of the new window:", new_window_url)

This will print the URL of the new window. You can then store it in a variable or use it as needed in your script.

3. Switch Back to the Original Window (Optional)

If you need to switch back to the original window after retrieving the URL from the new window, you can do so using a similar process.

original_window_handle = driver.window_handles[0]
driver.switch_to.window(original_window_handle)

Replace 0 with the index of the original window's handle in the window_handles list.

Here's the complete example:

from selenium import webdriver

driver = webdriver.Chrome()
driver.get("https://example.com")

# Open a new window (replace with the actual link or action)
new_window_link = driver.find_element_by_link_text("Open New Window")
new_window_link.click()

# Switch to the new window
new_window_handle = driver.window_handles[-1]
driver.switch_to.window(new_window_handle)

# Retrieve the URL of the new window
new_window_url = driver.current_url
print("URL of the new window:", new_window_url)

# Switch back to the original window (optional)
original_window_handle = driver.window_handles[0]
driver.switch_to.window(original_window_handle)

# Continue with your script...

# Close the browser when done
driver.quit()

Make sure to adjust the code based on the actual actions and elements in your application that trigger the opening of a new window.

Using UDP, you can request data from a server by sending a request message to the server. Since UDP is a connectionless protocol, you need to know the server's IP address and port to send the request. The server should have a predefined mechanism to handle incoming requests and return the desired data as a response.

Here's a high-level overview of how to request data from a server using UDP:

1. Prepare your request message: Create a message containing the data you want to request from the server. The format of the message depends on the specific application and data you're working with.

2. Send the request message to the server: Use a UDP socket to send the request message to the server's IP address and port. The server should be listening for incoming UDP packets on that address and port.

3. Receive the response from the server: The server processes the incoming request and sends back a response. Use a UDP socket to receive the response on the same or a different port, depending on the application's requirements.

4. Process the response: Extract the desired data from the response and process it as needed.

Here's an example using Python:

import socket

# Prepare the request message
request_message = b"REQUEST_DATA"

# Create a UDP socket
client_socket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)

# Send the request message to the server
server_address = ('127.0.0.1', 12345)
client_socket.sendto(request_message, server_address)

# Receive the response from the server
response_message, server_address = client_socket.recvfrom(1024)

# Process the response
print(f"Received response: {response_message}")

# Close the socket
client_socket.close()

In this example, the sendto() function sends a request message to the server, and the recvfrom() function receives the response from the server. The server should be running and listening for incoming UDP packets on the specified address and port.

In Key Collector settings, the user can specify parameters of the proxy server through which the program will connect to the network. In the application window, first select "Settings", then go to the "Network" tab and check "Use proxy". Its parameters can be set either manually or through a configuration file.