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hrequests

PyPI PyPI

Hrequests (human requests) is a simple, configurable, feature-rich, replacement for the Python requests library.

✨ Features

  • Seamless transition between HTTP and headless browsing πŸ’»
  • Integrated fast HTML parser πŸš€
  • High performance concurrency with gevent (without monkey-patching!) πŸš€
  • Replication of browser TLS fingerprints πŸš€
  • JavaScript rendering πŸš€
  • Supports HTTP/2 πŸš€
  • Realistic browser header generation πŸš€
  • JSON serializing up to 10x faster than the standard library πŸš€

πŸ’» Browser crawling

  • Simple & uncomplicated browser automation
  • Human-like cursor movement and typing
  • Chrome extension support
  • Full page screenshots
  • Headless and headful support
  • No CORS restrictions

⚑ More

  • High performance ✨
  • Minimal dependence on the python standard libraries
  • Written with type safety
  • 100% threadsafe ❀️

Installation

Install via pip:

pip install -U hrequests[all]
python -m playwright install chromium

Other dependencies will be downloaded on the first import:

>>> import hrequests
Or, install without headless browsing support

Ignore the [all] option if you don't want headless browsing support:

pip install -U hrequests

Documentation

  1. Simple Usage
  2. Sessions
  3. Concurrent & Lazy Requests
  4. HTML Parsing
  5. Browser Automation

Simple Usage

Here is an example of a simple get request:

>>> resp = hrequests.get('https://www.google.com/')

Requests are sent through bogdanfinn's tls-client to spoof the TLS client fingerprint. This is done automatically, and is completely transparent to the user.

Other request methods include post, put, delete, head, options, and patch.

The Response object is a near 1:1 replica of the requests.Response object, with some additional attributes.

Parameters
Parameters:
    url (Union[str, Iterable[str]]): URL or list of URLs to request.
    data (Union[str, bytes, bytearray, dict], optional): Data to send to request. Defaults to None.
    files (Dict[str, Union[BufferedReader, tuple]], optional): Data to send to request. Defaults to None.
    headers (dict, optional): Dictionary of HTTP headers to send with the request. Defaults to None.
    params (dict, optional): Dictionary of URL parameters to append to the URL. Defaults to None.
    cookies (Union[RequestsCookieJar, dict, list], optional): Dict or CookieJar to send. Defaults to None.
    json (dict, optional): Json to send in the request body. Defaults to None.
    allow_redirects (bool, optional): Allow request to redirect. Defaults to True.
    history (bool, optional): Remember request history. Defaults to False.
    verify (bool, optional): Verify the server's TLS certificate. Defaults to True.
    timeout (float, optional): Timeout in seconds. Defaults to 30.
    proxies (dict, optional): Dictionary of proxies. Defaults to None.
    nohup (bool, optional): Run the request in the background. Defaults to False.
    <Additionally includes all parameters from `hrequests.Session` if a session was not specified>

Returns:
    hrequests.response.Response: Response object

Properties

Get the response url:

>>> resp.url: str
'https://www.google.com/'

Check if the request was successful:

>>> resp.status_code: int
200
>>> resp.reason: str
'OK'
>>> resp.ok: bool
True
>>> bool(resp)
True

Getting the response body:

>>> resp.text: str
'<!doctype html><html itemscope="" itemtype="http://schema.org/WebPage" lang="en"><head><meta charset="UTF-8"><meta content="origin" name="referrer"><m...'
>>> resp.content: Union[bytes, str]
'<!doctype html><html itemscope="" itemtype="http://schema.org/WebPage" lang="en"><head><meta charset="UTF-8"><meta content="origin" name="referrer"><m...'

Parse the response body as JSON:

>>> resp.json(): Union[dict, list]
{'somedata': True}

Get the elapsed time of the request:

>>> resp.elapsed: datetime.timedelta
datetime.timedelta(microseconds=77768)

Get the response cookies:

>>> resp.cookies: RequestsCookieJar
<RequestsCookieJar[Cookie(version=0, name='1P_JAR', value='2023-07-05-20', port=None, port_specified=False, domain='.google.com', domain_specified=True...

Get the response headers:

>>> resp.headers: CaseInsensitiveDict
{'Alt-Svc': 'h3=":443"; ma=2592000,h3-29=":443"; ma=2592000', 'Cache-Control': 'private, max-age=0', 'Content-Encoding': 'br', 'Content-Length': '51288', 'Content-Security-Policy-Report-Only': "object-src 'none';base-uri 'se

Sessions

Creating a new Chrome Session object:

>>> session = hrequests.Session()  # version randomized by default
>>> session = hrequests.Session('chrome', version=112)
Parameters
Parameters:
    browser (Literal['firefox', 'chrome', 'opera'], optional): Browser to use. Default is 'chrome'.
    version (int, optional): Version of the browser to use. Browser must be specified. Default is randomized.
    os (Literal['win', 'mac', 'lin'], optional): OS to use in header. Default is randomized.
    headers (dict, optional): Dictionary of HTTP headers to send with the request. Default is generated from `browser` and `os`.
    verify (bool, optional): Verify the server's TLS certificate. Defaults to True.
    timeout (float, optional): Default timeout in seconds. Defaults to 30.
    ja3_string (str, optional): JA3 string. Defaults to None.
    h2_settings (dict, optional): HTTP/2 settings. Defaults to None.
    additional_decode (str, optional): Additional decode. Defaults to None.
    pseudo_header_order (list, optional): Pseudo header order. Defaults to None.
    priority_frames (list, optional): Priority frames. Defaults to None.
    header_order (list, optional): Header order. Defaults to None.
    force_http1 (bool, optional): Force HTTP/1. Defaults to False.
    catch_panics (bool, optional): Catch panics. Defaults to False.
    debug (bool, optional): Debug mode. Defaults to False.

Browsers can also be created through the firefox, chrome, and opera shortcuts:

>>> session = hrequests.firefox.Session()
>>> session = hrequests.chrome.Session()
>>> session = hrequests.opera.Session()
Parameters
Parameters:
    version (int, optional): Version of the browser to use. Browser must be specified. Default is randomized.
    os (Literal['win', 'mac', 'lin'], optional): OS to use in header. Default is randomized.
    headers (dict, optional): Dictionary of HTTP headers to send with the request. Default is generated from `browser` and `os`.
    verify (bool, optional): Verify the server's TLS certificate. Defaults to True.
    ja3_string (str, optional): JA3 string. Defaults to None.
    h2_settings (dict, optional): HTTP/2 settings. Defaults to None.
    additional_decode (str, optional): Additional decode. Defaults to None.
    pseudo_header_order (list, optional): Pseudo header order. Defaults to None.
    priority_frames (list, optional): Priority frames. Defaults to None.
    header_order (list, optional): Header order. Defaults to None.
    force_http1 (bool, optional): Force HTTP/1. Defaults to False.
    catch_panics (bool, optional): Catch panics. Defaults to False.
    debug (bool, optional): Debug mode. Defaults to False.

os can be 'win', 'mac', or 'lin'. Default is randomized.

>>> session = hrequests.firefox.Session(os='mac')

This will automatically generate headers based on the browser name and OS:

>>> session.headers
{'Accept': '*/*', 'Connection': 'keep-alive', 'User-Agent': 'Mozilla/5.0 (Macintosh; Intel Mac OS X 10_12_4; rv:60.2.2) Gecko/20100101 Firefox/60.2.2', 'Accept-Encoding': 'gzip, deflate, br', 'Pragma': 'no-cache'}
Why is the browser version in the header different than the TLS browser version?

Website bot detection systems typically do not correlate the TLS fingerprint browser version with the browser header.

By adding more randomization to our headers, we can make our requests appear to be coming from a larger number of clients. We can make it seem like our requests are coming from a larger number of clients. This makes it harder for websites to identify and block our requests based on a consistent browser version.

Properties

Here is a simple get request. This is a wrapper around hrequests.get. The only difference is that the session cookies are updated with each request. Creating sessions are recommended for making multiple requests to the same domain.

>>> resp = session.get('https://www.google.com/')

Session cookies update with each request:

>>> session.cookies: RequestsCookieJar
<RequestsCookieJar[Cookie(version=0, name='1P_JAR', value='2023-07-05-20', port=None, port_specified=False, domain='.google.com', domain_specified=True...

Regenerate headers for a different OS:

>>> session.os = 'win'
>>> session.headers: CaseInsensitiveDict
{'Accept': '*/*', 'Connection': 'keep-alive', 'User-Agent': 'Mozilla/5.0 (Windows NT 10.0; Win64; x64; rv:66.0.3) Gecko/20100101 Firefox/66.0.3', 'Accept-Encoding': 'gzip, deflate, br', 'Accept-Language': 'en-US;q=0.5,en;q=0.3', 'Cache-Control': 'max-age=0', 'DNT': '1', 'Upgrade-Insecure-Requests': '1', 'Pragma': 'no-cache'}

Closing Sessions

Sessions can also be closed to free memory:

>>> session.close()

Alternatively, sessions can be used as context managers:

with hrequests.Session() as session:
    resp = session.get('https://www.google.com/')
    print(resp)

Concurrent & Lazy Requests

Nohup Requests

Similar to Unix's nohup command, nohup requests are sent in the background.

Adding the nohup=True keyword argument will return a LazyTLSRequest object. This will send the request immediately, but doesn't wait for the response to be ready until an attribute of the response is accessed.

resp1 = hrequests.get('https://www.google.com/', nohup=True)
resp2 = hrequests.get('https://www.google.com/', nohup=True)

resp1 and resp2 are sent concurrently. They will never pause the current thread, unless an attribute of the response is accessed:

print('Resp 1:', resp1.reason)  # will wait for resp1 to finish, if it hasn't already
print('Resp 2:', resp2.reason)  # will wait for resp2 to finish, if it hasn't already

This is useful for sending requests in the background that aren't needed until later.

Note: In nohup, a new thread is created for each request. For larger scale concurrency, please consider the following:

Easy Concurrency

You can pass an array/iterator of links to the request methods to send them concurrently. This wraps around hrequests.map:

>>> hrequests.get(['https://google.com/', 'https://github.com/'])
(<Response [200]>, <Response [200]>)

This also works with nohup:

>>> resps = hrequests.get(['https://google.com/', 'https://github.com/'], nohup=True)
>>> resps
(<LazyResponse[Pending]>, <LazyResponse[Pending]>)
>>> # Sometime later...
>>> resps
(<Response [200]>, <Response [200]>)

Grequests-style Concurrency

The methods async_get, async_post, etc. will create an unsent request. This levereges gevent, making it blazing fast.

Parameters
Parameters:
    url (str): URL to send request to
    data (Union[str, bytes, bytearray, dict], optional): Data to send to request. Defaults to None.
    files (Dict[str, Union[BufferedReader, tuple]], optional): Data to send to request. Defaults to None.
    headers (dict, optional): Dictionary of HTTP headers to send with the request. Defaults to None.
    params (dict, optional): Dictionary of URL parameters to append to the URL. Defaults to None.
    cookies (Union[RequestsCookieJar, dict, list], optional): Dict or CookieJar to send. Defaults to None.
    json (dict, optional): Json to send in the request body. Defaults to None.
    allow_redirects (bool, optional): Allow request to redirect. Defaults to True.
    history (bool, optional): Remember request history. Defaults to False.
    verify (bool, optional): Verify the server's TLS certificate. Defaults to True.
    timeout (float, optional): Timeout in seconds. Defaults to 30.
    proxies (dict, optional): Dictionary of proxies. Defaults to None.
    nohup (bool, optional): Run the request in the background. Defaults to False.
    <Additionally includes all parameters from `hrequests.Session` if a session was not specified>

Returns:
    hrequests.response.Response: Response object

Async requests are evaluated on hrequests.map, hrequests.imap, or hrequests.imap_enum.

This functionality is similar to grequests. Unlike grequests, monkey patching is not required because this does not rely on the standard python SSL library.

Create a set of unsent Requests:

reqs = [
    hrequests.async_get('https://www.google.com/'),
    hrequests.async_get('https://www.duckduckgo.com/'),
    hrequests.async_get('https://www.yahoo.com/')
]

map

Send them all at the same time using map:

>>> hrequests.map(reqs, size=3)
[<Response [200]>, <Response [200]>, <Response [200]>]
Parameters
Concurrently converts a list of Requests to Responses.
Parameters:
    requests - a collection of Request objects.
    size - Specifies the number of requests to make at a time. If None, no throttling occurs.
    exception_handler - Callback function, called when exception occurred. Params: Request, Exception
    timeout - Gevent joinall timeout in seconds. (Note: unrelated to requests timeout)

Returns:
    A list of Response objects.

imap

imap returns a generator that yields responses as they come in:

>>> for resp in hrequests.imap(reqs, size=3):
...    print(resp)
<Response [200]>
<Response [200]>
<Response [200]>
Parameters
Concurrently converts a generator object of Requests to a generator of Responses.

Parameters:
    requests - a generator or sequence of Request objects.
    size - Specifies the number of requests to make at a time. default is 2
    exception_handler - Callback function, called when exception occurred. Params: Request, Exception

Yields:
    Response objects.

imap_enum returns a generator that yields a tuple of (index, response) as they come in. The index is the index of the request in the original list:

>>> for index, resp in hrequests.imap_enum(reqs, size=3):
...     print(index, resp)
(1, <Response [200]>)
(0, <Response [200]>)
(2, <Response [200]>)
Parameters
Like imap, but yields tuple of original request index and response object
Unlike imap, failed results and responses from exception handlers that return None are not ignored. Instead, a
tuple of (index, None) is yielded.
Responses are still in arbitrary order.

Parameters:
    requests - a sequence of Request objects.
    size - Specifies the number of requests to make at a time. default is 2
    exception_handler - Callback function, called when exception occurred. Params: Request, Exception

Yields:
    (index, Response) tuples.

Exception Handling

To handle timeouts or any other exception during the connection of the request, you can add an optional exception handler that will be called with the request and exception inside the main thread.

>>> def exception_handler(request, exception):
...    return f'Response failed: {exception}'

>>> bad_reqs = [
...     hrequests.async_get('http://httpbin.org/delay/5', timeout=1),
...     hrequests.async_get('http://fakedomain/'),
...     hrequests.async_get('http://example.com/'),
... ]
>>> hrequests.map(bad_reqs, size=3, exception_handler=exception_handler)
['Response failed: Connection error', 'Response failed: Connection error', <Response [200]>]

The value returned by the exception handler will be used in place of the response in the result list:


HTML Parsing

HTML scraping uses PyQuery, which is ~7x faster than bs4. This functionality is based of requests-html.

Library Time (1e5 trials)
BeautifulSoup4 52.6
PyQuery 7.5

The HTML parser can be accessed through the html attribute of the response object:

>>> resp = session.get('https://python.org/')
>>> resp.html
<HTML url='https://www.python.org/'>

Parsing page

Grab a list of all links on the page, as-is (anchors excluded):

>>> resp.html.links
{'//docs.python.org/3/tutorial/', '/about/apps/', 'https://github.com/python/pythondotorg/issues', '/accounts/login/', '/dev/peps/', '/about/legal/',...

Grab a list of all links on the page, in absolute form (anchors excluded):

>>> resp.html.absolute_links
{'https://github.com/python/pythondotorg/issues', 'https://docs.python.org/3/tutorial/', 'https://www.python.org/about/success/', 'http://feedproxy.g...

Search for text on the page:

>>> resp.html.search('Python is a {} language')[0]
programming

Selecting elements

Select an element using a CSS Selector:

>>> about = resp.html.find('#about')
Parameters
Given a CSS Selector, returns a list of
:class:`Element <Element>` objects or a single one.

Parameters:
    selector: CSS Selector to use.
    clean: Whether or not to sanitize the found HTML of ``<script>`` and ``<style>``
    containing: If specified, only return elements that contain the provided text.
    first: Whether or not to return just the first result.
    _encoding: The encoding format.

Returns:
    A list of :class:`Element <Element>` objects or a single one.

Example CSS Selectors:
- ``a``
- ``a.someClass``
- ``a#someID``
- ``a[target=_blank]``
See W3School's `CSS Selectors Reference
<https://www.w3schools.com/cssref/css_selectors.asp>`_
for more details.
If ``first`` is ``True``, only returns the first
:class:`Element <Element>` found.

XPath is also supported:

>>> resp.html.xpath('/html/body/div[1]/a')
[<Element 'a' class=('px-2', 'py-4', 'show-on-focus', 'js-skip-to-content') href='#start-of-content' tabindex='1'>]
Parameters
Given an XPath selector, returns a list of Element objects or a single one.

Parameters:
    selector (str): XPath Selector to use.
    clean (bool, optional): Whether or not to sanitize the found HTML of <script> and <style> tags. Defaults to
    first (bool, optional): Whether or not to return just the first result. Defaults to False.
    _encoding (str, optional): The encoding format. Defaults to None.

Returns:
    _XPath: A list of Element objects or a single one.

If a sub-selector is specified (e.g. //a/@href), a simple list of results is returned.
See W3School's XPath Examples for more details.

If first is True, only returns the first Element found.

Introspecting elements

Grab an Element's text contents:

>>> print(about.text)
About
Applications
Quotes
Getting Started
Help
Python Brochure

Getting an Element's attributes:

>>> about.attrs
{'id': 'about', 'class': ('tier-1', 'element-1'), 'aria-haspopup': 'true'}

Get an Element's raw HTML:

>>> about.html
'<li aria-haspopup="true" class="tier-1 element-1 " id="about">\n<a class="" href="/about/" title="">About</a>\n<ul aria-hidden="true" class="subnav menu" role="menu">\n<li class="tier-2 element-1" role="treeitem"><a href="/about/apps/" title="">Applications</a></li>\n<li class="tier-2 element-2" role="treeitem"><a href="/about/quotes/" title="">Quotes</a></li>\n<li class="tier-2 element-3" role="treeitem"><a href="/about/gettingstarted/" title="">Getting Started</a></li>\n<li class="tier-2 element-4" role="treeitem"><a href="/about/help/" title="">Help</a></li>\n<li class="tier-2 element-5" role="treeitem"><a href="http://brochure.getpython.info/" title="">Python Brochure</a></li>\n</ul>\n</li>'

Select Elements within Elements:

>>> about.find_all('a')
[<Element 'a' href='/about/' title='' class=''>, <Element 'a' href='/about/apps/' title=''>, <Element 'a' href='/about/quotes/' title=''>, <Element 'a' href='/about/gettingstarted/' title=''>, <Element 'a' href='/about/help/' title=''>, <Element 'a' href='http://brochure.getpython.info/' title=''>]
>>> about.find('a')
<Element 'a' href='/about/' title='' class=''>

Search for links within an element:

>>> about.absolute_links
{'http://brochure.getpython.info/', 'https://www.python.org/about/gettingstarted/', 'https://www.python.org/about/', 'https://www.python.org/about/quotes/', 'https://www.python.org/about/help/', 'https://www.python.org/about/apps/'}

Browser Automation

You can spawn a BrowserSession instance by calling it:

>>> page = hrequests.BrowserSession()  # headless=True by default
Parameters
Parameters:
    headless (bool, optional): Whether to run the browser in headless mode. Defaults to True.
    session (hrequests.session.TLSSession, optional): Session to use for headers, cookies, etc.
    resp (hrequests.response.Response, optional): Response to update with cookies, headers, etc.
    proxy_ip (str, optional): Proxy to use for the browser. Example: 123.123.123
    mock_human (bool, optional): Whether to emulate human behavior. Defaults to False.
    browser (Literal['firefox', 'chrome', 'opera'], optional): Generate useragent headers for a specific browser
    os (Literal['win', 'mac', 'lin'], optional): Generate headers for a specific OS
    extensions (Union[str, Iterable[str]], optional): Path to a folder of unpacked extensions, or a list of paths to unpacked extensions

BrowserSession is entirely safe to use across threads.

Render an existing Response

Responses have a .render() method. This will render the contents of the response in a browser page.

Once the page is closed, the Response content and the Response's session cookies will be updated.

Example - submitting a login form:

>>> resp = session.get('https://www.somewebsite.com/')
>>> with resp.render(mock_human=True) as page:
...     page.type('.input#username', 'myuser')
...     page.type('.input#password', 'p4ssw0rd')
...     page.click('#submit')
# `session` & `resp` now have updated cookies, content, etc.
Or, without a context manager
>>> resp = session.get('https://www.somewebsite.com/')
>>> page = resp.render(mock_human=True)
>>> page.type('.input#username', 'myuser')
>>> page.type('.input#password', 'p4ssw0rd')
>>> page.click('#submit')
>>> page.close()  # must close the page when done!

The mock_human parameter will emulate human-like behavior. This includes easing and randomizing mouse movements, and randomizing typing speed. This functionality is based on botright.

Parameters
Parameters:
    headless (bool, optional): Whether to run the browser in headless mode. Defaults to False.
    mock_human (bool, optional): Whether to emulate human behavior. Defaults to False.
    extensions (Union[str, Iterable[str]], optional): Path to a folder of unpacked extensions, or a list of paths to unpacked extensions

Properties

Cookies are inherited from the session:

>>> page.cookies: RequestsCookieJar  # cookies are inherited from the session
<RequestsCookieJar[Cookie(version=0, name='1P_JAR', value='2023-07-05-20', port=None, port_specified=False, domain='.somewebsite.com', domain_specified=True...

Pulling page data

Get current page url:

>>> page.url: str
https://www.somewebsite.com/

Get page content:

>>> page.text: str
'<!doctype html><html itemscope="" itemtype="http://schema.org/WebPage" lang="en"><head><meta content="Search the world\'s information, including webpag'
>>> page.content: bytes
b'<!doctype html><html itemscope="" itemtype="http://schema.org/WebPage" lang="en"><head><meta content="Search the world\'s information, including webpag'

Parsing HTML from the page content:

>>> page.html.find_all('a')
[<Element 'a' href='/about/' title='' class=''>, <Element 'a' href='/about/apps/' title=''>, ...]
>>> page.html.find('a')
<Element 'a' href='/about/' title='' class=''>, <Element 'a' href='/about/apps/' title=''>

Take a screenshot of the page:

page.screenshot('screenshot.png')
Parameters
Parameters:
    path (str): Path to save screenshot to
    full_page (bool): Whether to take a screenshot of the full scrollable page

Navigate the browser

Navigate to a url:

>>> page.url = 'https://bing.com'
# or use goto
>>> page.goto('https://bing.com')

Navigate through page history:

>>> page.back()
>>> page.forward()

Controlling elements

Click an element:

>>> page.click('#my-button')
# or through the html parser
>>> page.html.find('#my-button').click()
Parameters
Parameters:
    selector (str): CSS selector to click.
    button (Literal['left', 'right', 'middle'], optional): Mouse button to click. Defaults to 'left'.
    count (int, optional): Number of clicks. Defaults to 1.
    timeout (float, optional): Timeout in seconds. Defaults to 30.
    wait_after (bool, optional): Wait for a page event before continuing. Defaults to True.

Hover over an element:

>>> page.hover('.dropbtn')
# or through the html parser
>>> page.html.find('.dropbtn').hover()
Parameters
Parameters:
    selector (str): CSS selector to hover over
    modifiers (List[Literal['Alt', 'Control', 'Meta', 'Shift']], optional): Modifier keys to press. Defaults to None.
    timeout (float, optional): Timeout in seconds. Defaults to 90.

Type text into an element:

>>> page.type('#my-input', 'Hello world!')
# or through the html parser
>>> page.html.find('#my-input').type('Hello world!')
Parameters
Parameters:
    selector (str): CSS selector to type in
    text (str): Text to type
    delay (int, optional): Delay between keypresses in ms. On mock_human, this is randomized by 50%. Defaults to 50.
    timeout (float, optional): Timeout in seconds. Defaults to 30.

Drag and drop an element:

>>> page.dragTo('#source-selector', '#target-selector')
# or through the html parser
>>> page.html.find('#source-selector').dragTo('#target-selector')
Parameters
Parameters:
    source (str): Source to drag from
    target (str): Target to drop to
    timeout (float, optional): Timeout in seconds. Defaults to 30.
    wait_after (bool, optional): Wait for a page event before continuing. Defaults to False.
    check (bool, optional): Check if an element is draggable before running. Defaults to False.

Throws:
    hrequests.exceptions.BrowserTimeoutException: If timeout is reached

Check page elements

Check if a selector is visible and enabled:

>>> page.isVisible('#my-selector'): bool
>>> page.isEnabled('#my-selector'): bool
Parameters
Parameters:
    selector (str): Selector to check

Evaluate and return a script:

>>> page.evaluate('selector => document.querySelector(selector).checked', '#my-selector')
Parameters
Parameters:
    script (str): Javascript to evaluate in the page
    arg (str, optional): Argument to pass into the javascript function

Awaiting events

>>> page.awaitNavigation()
Parameters
Parameters:
    timeout (float, optional): Timeout in seconds. Defaults to 30.

Throws:
    hrequests.exceptions.BrowserTimeoutException: If timeout is reached

Wait for a script or function to return a truthy value:

>>> page.awaitScript('selector => document.querySelector(selector).value === 100', '#progress')
Parameters
Parameters:
    script (str): Script to evaluate
    arg (str, optional): Argument to pass to script
    timeout (float, optional): Timeout in seconds. Defaults to 30.

Throws:
    hrequests.exceptions.BrowserTimeoutException: If timeout is reached

Wait for the URL to match:

>>> page.awaitUrl(re.compile(r'https?://www\.google\.com/.*'), timeout=10)
Parameters
Parameters:
    url (Union[str, Pattern[str], Callable[[str], bool]]) - URL to match for
    timeout (float, optional): Timeout in seconds. Defaults to 30.

Throws:
    hrequests.exceptions.BrowserTimeoutException: If timeout is reached

Wait for an element to exist on the page:

>>> page.awaitSelector('#my-selector')
Parameters
Parameters:
    selector (str): Selector to wait for
    timeout (float, optional): Timeout in seconds. Defaults to 30.

Throws:
    hrequests.exceptions.BrowserTimeoutException: If timeout is reached

Wait for an element to be enabled:

>>> page.awaitEnabled('#my-selector')
Parameters
Parameters:
    selector (str): Selector to wait for
    timeout (float, optional): Timeout in seconds. Defaults to 30.

Throws:
    hrequests.exceptions.BrowserTimeoutException: If timeout is reached

Adding Chrome extensions

Chrome extensions can be easily imported into a browser session. Some potentially useful extensions include:

Extensions are added with the extensions parameter.

  • This can be an list of absolute paths to unpacked extensions:

    with resp.render(extensions=['C:\\extensions\\hektcaptcha', 'C:\\extensions\\ublockorigin']):
  • Or a folder containing the unpacked extensions:

    with resp.render(extensions='C:\\extentions'):

    Note that these need to be unpacked extensions. You can unpack a .crx file by changing the file extension to .zip and extracting the contents.

Here is an usage example of using a captcha solver:

>>> with hrequests.render('https://accounts.hcaptcha.com/demo', extensions=['C:\\extensions\\hektcaptcha']) as page:
...     page.awaitSelector('.hcaptcha-success')  # wait for captcha to finish
...     page.click('input[type=submit]')

Requests & Responses

Requests can also be sent within browser sessions. These operate the same as the standard hrequests.request, and will use the browser's cookies and headers. The BrowserSession cookies will be updated with each request.

This returns a normal Response object:

>>> resp = page.get('https://duckduckgo.com')
Parameters
Parameters:
    url (str): URL to send request to
    params (dict, optional): Dictionary of URL parameters to append to the URL. Defaults to None.
    data (Union[str, dict], optional): Data to send to request. Defaults to None.
    headers (dict, optional): Dictionary of HTTP headers to send with the request. Defaults to None.
    form (dict, optional): Form data to send with the request. Defaults to None.
    multipart (dict, optional): Multipart data to send with the request. Defaults to None.
    timeout (float, optional): Timeout in seconds. Defaults to 30.
    verify (bool, optional): Verify the server's TLS certificate. Defaults to True.
    max_redirects (int, optional): Maximum number of redirects to follow. Defaults to None.

Throws:
    hrequests.exceptions.BrowserTimeoutException: If timeout is reached

Returns:
    hrequests.response.Response: Response object

Other methods include post, put, delete, head, and patch.

Closing the page

The BrowserSession object must be closed when finished. This will close the browser, update the response data, and merge new cookies with the session cookies.

>>> page.close()

Note that this is automatically done when using a context manager.

Session cookies are updated:

>>> session.cookies: RequestsCookieJar
<RequestsCookieJar[Cookie(version=0, name='MUID', value='123456789', port=None, port_specified=False, domain='.bing.com', domain_specified=True, domain_initial_dot=True...

Response data is updated:

>>> resp.url: str
'https://www.bing.com/?toWww=1&redig=823778234657823652376438'
>>> resp.content: Union[bytes, str]
'<!DOCTYPE html><html lang="en" dir="ltr"><head><meta name="theme-color" content="#4F4F4F"><meta name="description" content="Bing helps you turn inform...

Other ways to create a Browser Session

You can use .render to spawn a BrowserSession object directly from a url:

# Using a Session:
>>> page = session.render('https://google.com')
# Or without a session at all:
>>> page = hrequests.render('https://google.com')

Make sure to close all BrowserSession objects when done!

>>> page.close()

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