import OpenSSL from netlib import http2 from netlib import tcp from netlib import test from netlib.http2.frame import * from test import tutils class EchoHandler(tcp.BaseHandler): sni = None def handle(self): v = self.rfile.readline() self.wfile.write(v) self.wfile.flush() class TestCheckALPNMatch(test.ServerTestBase): handler = EchoHandler ssl = dict( alpn_select=http2.HTTP2Protocol.ALPN_PROTO_H2, ) if OpenSSL._util.lib.Cryptography_HAS_ALPN: def test_check_alpn(self): c = tcp.TCPClient(("127.0.0.1", self.port)) c.connect() c.convert_to_ssl(alpn_protos=[http2.HTTP2Protocol.ALPN_PROTO_H2]) protocol = http2.HTTP2Protocol(c) assert protocol.check_alpn() class TestCheckALPNMismatch(test.ServerTestBase): handler = EchoHandler ssl = dict( alpn_select=None, ) if OpenSSL._util.lib.Cryptography_HAS_ALPN: def test_check_alpn(self): c = tcp.TCPClient(("127.0.0.1", self.port)) c.connect() c.convert_to_ssl(alpn_protos=[http2.HTTP2Protocol.ALPN_PROTO_H2]) protocol = http2.HTTP2Protocol(c) tutils.raises(NotImplementedError, protocol.check_alpn) class TestPerformConnectionPreface(test.ServerTestBase): class handler(tcp.BaseHandler): def handle(self): # check magic assert self.rfile.read(24) ==\ '505249202a20485454502f322e300d0a0d0a534d0d0a0d0a'.decode('hex') # check empty settings frame assert self.rfile.read(9) ==\ '000000040000000000'.decode('hex') # send empty settings frame self.wfile.write('000000040000000000'.decode('hex')) self.wfile.flush() # check settings acknowledgement assert self.rfile.read(9) == \ '000000040100000000'.decode('hex') # send settings acknowledgement self.wfile.write('000000040100000000'.decode('hex')) self.wfile.flush() ssl = True def test_perform_connection_preface(self): c = tcp.TCPClient(("127.0.0.1", self.port)) c.connect() c.convert_to_ssl() protocol = http2.HTTP2Protocol(c) protocol.perform_connection_preface() class TestStreamIds(): c = tcp.TCPClient(("127.0.0.1", 0)) protocol = http2.HTTP2Protocol(c) def test_stream_ids(self): assert self.protocol.current_stream_id is None assert self.protocol.next_stream_id() == 1 assert self.protocol.current_stream_id == 1 assert self.protocol.next_stream_id() == 3 assert self.protocol.current_stream_id == 3 assert self.protocol.next_stream_id() == 5 assert self.protocol.current_stream_id == 5 class TestApplySettings(test.ServerTestBase): class handler(tcp.BaseHandler): def handle(self): # check settings acknowledgement assert self.rfile.read(9) == '000000040100000000'.decode('hex') self.wfile.write("OK") self.wfile.flush() ssl = True def test_apply_settings(self): c = tcp.TCPClient(("127.0.0.1", self.port)) c.connect() c.convert_to_ssl() protocol = http2.HTTP2Protocol(c) protocol._apply_settings({ SettingsFrame.SETTINGS.SETTINGS_ENABLE_PUSH: 'foo', SettingsFrame.SETTINGS.SETTINGS_MAX_CONCURRENT_STREAMS: 'bar', SettingsFrame.SETTINGS.SETTINGS_INITIAL_WINDOW_SIZE: 'deadbeef', }) assert c.rfile.safe_read(2) == "OK" assert protocol.http2_settings[ SettingsFrame.SETTINGS.SETTINGS_ENABLE_PUSH] == 'foo' assert protocol.http2_settings[ SettingsFrame.SETTINGS.SETTINGS_MAX_CONCURRENT_STREAMS] == 'bar' assert protocol.http2_settings[ SettingsFrame.SETTINGS.SETTINGS_INITIAL_WINDOW_SIZE] == 'deadbeef' class TestCreateHeaders(): c = tcp.TCPClient(("127.0.0.1", 0)) def test_create_headers(self): headers = [ (b':method', b'GET'), (b':path', b'index.html'), (b':scheme', b'https'), (b'foo', b'bar')] bytes = http2.HTTP2Protocol(self.c)._create_headers( headers, 1, end_stream=True) assert b''.join(bytes) ==\ '000014010500000001824488355217caf3a69a3f87408294e7838c767f'\ .decode('hex') bytes = http2.HTTP2Protocol(self.c)._create_headers( headers, 1, end_stream=False) assert b''.join(bytes) ==\ '000014010400000001824488355217caf3a69a3f87408294e7838c767f'\ .decode('hex') # TODO: add test for too large header_block_fragments class TestCreateBody(): c = tcp.TCPClient(("127.0.0.1", 0)) protocol = http2.HTTP2Protocol(c) def test_create_body_empty(self): bytes = self.protocol._create_body(b'', 1) assert b''.join(bytes) == ''.decode('hex') def test_create_body_single_frame(self): bytes = self.protocol._create_body('foobar', 1) assert b''.join(bytes) == '000006000100000001666f6f626172'.decode('hex') def test_create_body_multiple_frames(self): pass # bytes = self.protocol._create_body('foobar' * 3000, 1) # TODO: add test for too large frames class TestCreateRequest(): c = tcp.TCPClient(("127.0.0.1", 0)) def test_create_request_simple(self): bytes = http2.HTTP2Protocol(self.c).create_request('GET', '/') assert len(bytes) == 1 assert bytes[0] == '000003010500000001828487'.decode('hex') def test_create_request_with_body(self): bytes = http2.HTTP2Protocol(self.c).create_request( 'GET', '/', [(b'foo', b'bar')], 'foobar') assert len(bytes) == 2 assert bytes[0] ==\ '00000b010400000001828487408294e7838c767f'.decode('hex') assert bytes[1] ==\ '000006000100000001666f6f626172'.decode('hex') class TestReadResponse(test.ServerTestBase): class handler(tcp.BaseHandler): def handle(self): self.wfile.write( b'00000801040000000188628594e78c767f'.decode('hex')) self.wfile.write( b'000006000100000001666f6f626172'.decode('hex')) self.wfile.flush() ssl = True def test_read_response(self): c = tcp.TCPClient(("127.0.0.1", self.port)) c.connect() c.convert_to_ssl() protocol = http2.HTTP2Protocol(c) status, headers, body = protocol.read_response() assert headers == {':status': '200', 'etag': 'foobar'} assert status == '200' assert body == b'foobar'