StreamFab Proxy

Both on a PC and on modern cell phones, a built-in utility that is responsible for working with network connections, provides the ability to set up a connection through a proxy server. You just need to enter the IP-address for connection and the port number. In the future all traffic will be redirected through this proxy. Accordingly, the provider will not block it.

When using BeautifulSoup in Python to parse HTML or XML with identical tags, you can use various methods to extract the desired information. One common approach is to use the find_all method along with additional criteria to narrow down the selection.

Here's an example of how you can parse identical tags with BeautifulSoup:

from bs4 import BeautifulSoup

html_content = """

    
First paragraph
    
Second paragraph
    
Third paragraph

"""

soup = BeautifulSoup(html_content, 'html.parser')

# Find all paragraphs within the div with class="example"
div_example = soup.find('div', class_='example')
if div_example:
    paragraphs = div_example.find_all('p')

    # Print the text content of each paragraph
    for paragraph in paragraphs:
        print(paragraph.text)
else:
    print("Div with class='example' not found.")

In this example, find is used to locate the div with class "example," and then find_all is used to retrieve all paragraph tags within that div. The text content of each paragraph is then printed.

You can adapt this approach to your specific HTML or XML structure. If the identical tags are nested within a specific parent element, use that parent element as a starting point for your search.

Keep in mind that identifying the elements you want to extract may involve inspecting the HTML structure and adapting your code accordingly.

Flipping a page (or navigating to the next/previous page) using Selenium involves interacting with the browser's navigation controls. You can use the WebDriver methods provided by Selenium to navigate between pages. Here are examples in Python using Selenium

1. Navigate to the Next Page:

from selenium import webdriver

# Create a WebDriver instance (e.g., Chrome)
driver = webdriver.Chrome()

# Navigate to the initial page
driver.get("https://example.com/page1")

# Perform actions on the first page...

# Navigate to the next page
driver.find_element_by_link_text("Next").click()  # Replace with the actual locator for the "Next" link

# Perform actions on the second page...

# Close the browser when done
driver.quit()

2. Navigate to the Previous Page:

from selenium import webdriver

# Create a WebDriver instance (e.g., Chrome)
driver = webdriver.Chrome()

# Navigate to the second page
driver.get("https://example.com/page2")

# Perform actions on the second page...

# Navigate to the previous page
driver.back()

# Perform actions on the first page...

# Close the browser when done
driver.quit()

3. Navigate to a Specific Page:

from selenium import webdriver

# Create a WebDriver instance (e.g., Chrome)
driver = webdriver.Chrome()

# Navigate to a specific page
driver.get("https://example.com/page3")

# Perform actions on the third page...

# Close the browser when done
driver.quit()

Replace the placeholder URLs and locators with the actual URLs and locators for your specific use case. The click() method is used to simulate clicking on a link or button that leads to the next page.

If you're navigating between pages that are part of a sequence (e.g., Next/Previous buttons), locate the appropriate elements using Selenium's methods (find_element_by_id, find_element_by_xpath, find_element_by_link_text, etc.) and perform the necessary actions.

Remember that the order of actions in your script should match the sequence of interactions on the pages you are navigating. Also, consider using explicit waits (WebDriverWait) to ensure that the elements on the new page are fully loaded before interacting with them.

UDP (User Datagram Protocol) is a transport layer protocol that provides a simple and fast way to send data over a network. Unlike TCP, UDP does not establish a connection between the sender and receiver before sending data. Instead, UDP uses a connectionless communication model, where each datagram (data packet) is sent independently.

Here's how UDP works:

1. The sender application prepares the data to be sent and wraps it in a UDP datagram. This datagram contains the data, the source IP address, the destination IP address, and a checksum for error detection.

2. The sender application sends the UDP datagram to the network layer, which then forwards it to the appropriate network interface for transmission.

3. The datagram is transmitted over the network as a single, self-contained packet. There is no guarantee that the datagram will reach its destination, as UDP does not provide any error correction or retransmission mechanisms.

4. The receiving application listens for incoming UDP datagrams on a specific port. When a datagram arrives, the network layer forwards it to the appropriate application.

5. The receiving application processes the datagram, extracts the data, and handles any errors detected by the checksum.

It's important to note that UDP does not establish a connection between the sender and receiver. This means that there is no handshake or acknowledgment of receipt, and the sender does not know if the datagram was successfully delivered. UDP is often used for applications that prioritize speed over reliability, such as video streaming, online gaming, and VoIP (Voice over Internet Protocol).

Not all routers support proxies, this nuance should be clarified with the manufacturer. But many of the routers from Asus, TP-Link, Xiaomi work well with this type of connection. All this is configured through the web interface. By the way, for some routers, custom Padavan firmware is also available. The proxy works best there, especially in the presence of the OpenVPN plugin.