# -*- coding: utf-8 -*-

import pytest
import threading
import requests

from tests.testserver.server import Server, consume_socket_content

from .utils import override_environ


def test_chunked_upload():
    """can safely send generators"""
    close_server = threading.Event()
    server = Server.basic_response_server(wait_to_close_event=close_server)
    data = iter([b'a', b'b', b'c'])

    with server as (host, port):
        url = 'http://{}:{}/'.format(host, port)
        r = requests.post(url, data=data, stream=True)
        close_server.set()  # release server block

    assert r.status_code == 200
    assert r.request.headers['Transfer-Encoding'] == 'chunked'


def test_digestauth_401_count_reset_on_redirect():
    """Ensure we correctly reset num_401_calls after a successful digest auth,
    followed by a 302 redirect to another digest auth prompt.

    See https://github.com/psf/requests/issues/1979.
    """
    text_401 = (b'HTTP/1.1 401 UNAUTHORIZED\r\n'
                b'Content-Length: 0\r\n'
                b'WWW-Authenticate: Digest nonce="6bf5d6e4da1ce66918800195d6b9130d"'
                b', opaque="372825293d1c26955496c80ed6426e9e", '
                b'realm="me@kennethreitz.com", qop=auth\r\n\r\n')

    text_302 = (b'HTTP/1.1 302 FOUND\r\n'
                b'Content-Length: 0\r\n'
                b'Location: /\r\n\r\n')

    text_200 = (b'HTTP/1.1 200 OK\r\n'
                b'Content-Length: 0\r\n\r\n')

    expected_digest = (b'Authorization: Digest username="user", '
                       b'realm="me@kennethreitz.com", '
                       b'nonce="6bf5d6e4da1ce66918800195d6b9130d", uri="/"')

    auth = requests.auth.HTTPDigestAuth('user', 'pass')

    def digest_response_handler(sock):
        # Respond to initial GET with a challenge.
        request_content = consume_socket_content(sock, timeout=0.5)
        assert request_content.startswith(b"GET / HTTP/1.1")
        sock.send(text_401)

        # Verify we receive an Authorization header in response, then redirect.
        request_content = consume_socket_content(sock, timeout=0.5)
        assert expected_digest in request_content
        sock.send(text_302)

        # Verify Authorization isn't sent to the redirected host,
        # then send another challenge.
        request_content = consume_socket_content(sock, timeout=0.5)
        assert b'Authorization:' not in request_content
        sock.send(text_401)

        # Verify Authorization is sent correctly again, and return 200 OK.
        request_content = consume_socket_content(sock, timeout=0.5)
        assert expected_digest in request_content
        sock.send(text_200)

        return request_content

    close_server = threading.Event()
    server = Server(digest_response_handler, wait_to_close_event=close_server)

    with server as (host, port):
        url = 'http://{}:{}/'.format(host, port)
        r = requests.get(url, auth=auth)
        # Verify server succeeded in authenticating.
        assert r.status_code == 200
        # Verify Authorization was sent in final request.
        assert 'Authorization' in r.request.headers
        assert r.request.headers['Authorization'].startswith('Digest ')
        # Verify redirect happened as we expected.
        assert r.history[0].status_code == 302
        close_server.set()


def test_digestauth_401_only_sent_once():
    """Ensure we correctly respond to a 401 challenge once, and then
    stop responding if challenged again.
    """
    text_401 = (b'HTTP/1.1 401 UNAUTHORIZED\r\n'
                b'Content-Length: 0\r\n'
                b'WWW-Authenticate: Digest nonce="6bf5d6e4da1ce66918800195d6b9130d"'
                b', opaque="372825293d1c26955496c80ed6426e9e", '
                b'realm="me@kennethreitz.com", qop=auth\r\n\r\n')

    expected_digest = (b'Authorization: Digest username="user", '
                       b'realm="me@kennethreitz.com", '
                       b'nonce="6bf5d6e4da1ce66918800195d6b9130d", uri="/"')

    auth = requests.auth.HTTPDigestAuth('user', 'pass')

    def digest_failed_response_handler(sock):
        # Respond to initial GET with a challenge.
        request_content = consume_socket_content(sock, timeout=0.5)
        assert request_content.startswith(b"GET / HTTP/1.1")
        sock.send(text_401)

        # Verify we receive an Authorization header in response, then
        # challenge again.
        request_content = consume_socket_content(sock, timeout=0.5)
        assert expected_digest in request_content
        sock.send(text_401)

        # Verify the client didn't respond to second challenge.
        request_content = consume_socket_content(sock, timeout=0.5)
        assert request_content == b''

        return request_content

    close_server = threading.Event()
    server = Server(digest_failed_response_handler, wait_to_close_event=close_server)

    with server as (host, port):
        url = 'http://{}:{}/'.format(host, port)
        r = requests.get(url, auth=auth)
        # Verify server didn't authenticate us.
        assert r.status_code == 401
        assert r.history[0].status_code == 401
        close_server.set()


def test_digestauth_only_on_4xx():
    """Ensure we only send digestauth on 4xx challenges.

    See https://github.com/psf/requests/issues/3772.
    """
    text_200_chal = (b'HTTP/1.1 200 OK\r\n'
                     b'Content-Length: 0\r\n'
                     b'WWW-Authenticate: Digest nonce="6bf5d6e4da1ce66918800195d6b9130d"'
                     b', opaque="372825293d1c26955496c80ed6426e9e", '
                     b'realm="me@kennethreitz.com", qop=auth\r\n\r\n')

    auth = requests.auth.HTTPDigestAuth('user', 'pass')

    def digest_response_handler(sock):
        # Respond to GET with a 200 containing www-authenticate header.
        request_content = consume_socket_content(sock, timeout=0.5)
        assert request_content.startswith(b"GET / HTTP/1.1")
        sock.send(text_200_chal)

        # Verify the client didn't respond with auth.
        request_content = consume_socket_content(sock, timeout=0.5)
        assert request_content == b''

        return request_content

    close_server = threading.Event()
    server = Server(digest_response_handler, wait_to_close_event=close_server)

    with server as (host, port):
        url = 'http://{}:{}/'.format(host, port)
        r = requests.get(url, auth=auth)
        # Verify server didn't receive auth from us.
        assert r.status_code == 200
        assert len(r.history) == 0
        close_server.set()


_schemes_by_var_prefix = [
    ('http', ['http']),
    ('https', ['https']),
    ('all', ['http', 'https']),
]

_proxy_combos = []
for prefix, schemes in _schemes_by_var_prefix:
    for scheme in schemes:
        _proxy_combos.append(("{}_proxy".format(prefix), scheme))

_proxy_combos += [(var.upper(), scheme) for var, scheme in _proxy_combos]


@pytest.mark.parametrize("var,scheme", _proxy_combos)
def test_use_proxy_from_environment(httpbin, var, scheme):
    url = "{}://httpbin.org".format(scheme)
    fake_proxy = Server()  # do nothing with the requests; just close the socket
    with fake_proxy as (host, port):
        proxy_url = "socks5://{}:{}".format(host, port)
        kwargs = {var: proxy_url}
        with override_environ(**kwargs):
            # fake proxy's lack of response will cause a ConnectionError
            with pytest.raises(requests.exceptions.ConnectionError):
                requests.get(url)

        # the fake proxy received a request
        assert len(fake_proxy.handler_results) == 1

        # it had actual content (not checking for SOCKS protocol for now)
        assert len(fake_proxy.handler_results[0]) > 0


def test_redirect_rfc1808_to_non_ascii_location():
    path = u'š'
    expected_path = b'%C5%A1'
    redirect_request = []  # stores the second request to the server

    def redirect_resp_handler(sock):
        consume_socket_content(sock, timeout=0.5)
        location = u'//{}:{}/{}'.format(host, port, path)
        sock.send(
            b'HTTP/1.1 301 Moved Permanently\r\n'
            b'Content-Length: 0\r\n'
            b'Location: ' + location.encode('utf8') + b'\r\n'
            b'\r\n'
        )
        redirect_request.append(consume_socket_content(sock, timeout=0.5))
        sock.send(b'HTTP/1.1 200 OK\r\n\r\n')

    close_server = threading.Event()
    server = Server(redirect_resp_handler, wait_to_close_event=close_server)

    with server as (host, port):
        url = u'http://{}:{}'.format(host, port)
        r = requests.get(url=url, allow_redirects=True)
        assert r.status_code == 200
        assert len(r.history) == 1
        assert r.history[0].status_code == 301
        assert redirect_request[0].startswith(b'GET /' + expected_path + b' HTTP/1.1')
        assert r.url == u'{}/{}'.format(url, expected_path.decode('ascii'))

        close_server.set()

def test_fragment_not_sent_with_request():
    """Verify that the fragment portion of a URI isn't sent to the server."""
    def response_handler(sock):
        req = consume_socket_content(sock, timeout=0.5)
        sock.send(
            b'HTTP/1.1 200 OK\r\n'
            b'Content-Length: '+bytes(len(req))+b'\r\n'
            b'\r\n'+req
        )

    close_server = threading.Event()
    server = Server(response_handler, wait_to_close_event=close_server)

    with server as (host, port):
        url = 'http://{}:{}/path/to/thing/#view=edit&token=hunter2'.format(host, port)
        r = requests.get(url)
        raw_request = r.content

        assert r.status_code == 200
        headers, body = raw_request.split(b'\r\n\r\n', 1)
        status_line, headers = headers.split(b'\r\n', 1)

        assert status_line == b'GET /path/to/thing/ HTTP/1.1'
        for frag in (b'view', b'edit', b'token', b'hunter2'):
            assert frag not in headers
            assert frag not in body

        close_server.set()

def test_fragment_update_on_redirect():
    """Verify we only append previous fragment if one doesn't exist on new
    location. If a new fragment is encountered in a Location header, it should
    be added to all subsequent requests.
    """

    def response_handler(sock):
        consume_socket_content(sock, timeout=0.5)
        sock.send(
            b'HTTP/1.1 302 FOUND\r\n'
            b'Content-Length: 0\r\n'
            b'Location: /get#relevant-section\r\n\r\n'
        )
        consume_socket_content(sock, timeout=0.5)
        sock.send(
            b'HTTP/1.1 302 FOUND\r\n'
            b'Content-Length: 0\r\n'
            b'Location: /final-url/\r\n\r\n'
        )
        consume_socket_content(sock, timeout=0.5)
        sock.send(
            b'HTTP/1.1 200 OK\r\n\r\n'
        )

    close_server = threading.Event()
    server = Server(response_handler, wait_to_close_event=close_server)

    with server as (host, port):
        url = 'http://{}:{}/path/to/thing/#view=edit&token=hunter2'.format(host, port)
        r = requests.get(url)
        raw_request = r.content

        assert r.status_code == 200
        assert len(r.history) == 2
        assert r.history[0].request.url == url

        # Verify we haven't overwritten the location with our previous fragment.
        assert r.history[1].request.url == 'http://{}:{}/get#relevant-section'.format(host, port)
        # Verify previous fragment is used and not the original.
        assert r.url == 'http://{}:{}/final-url/#relevant-section'.format(host, port)

        close_server.set()