import cStringIO, textwrap, binascii from netlib import http, odict, tcp, test import tutils def test_httperror(): e = http.HttpError(404, "Not found") assert str(e) def test_has_chunked_encoding(): h = odict.ODictCaseless() assert not http.has_chunked_encoding(h) h["transfer-encoding"] = ["chunked"] assert http.has_chunked_encoding(h) def test_read_chunked(): h = odict.ODictCaseless() h["transfer-encoding"] = ["chunked"] s = cStringIO.StringIO("1\r\na\r\n0\r\n") tutils.raises("malformed chunked body", http.read_http_body, s, h, None, "GET", None, True) s = cStringIO.StringIO("1\r\na\r\n0\r\n\r\n") assert http.read_http_body(s, h, None, "GET", None, True) == "a" s = cStringIO.StringIO("\r\n\r\n1\r\na\r\n0\r\n\r\n") assert http.read_http_body(s, h, None, "GET", None, True) == "a" s = cStringIO.StringIO("\r\n") tutils.raises("closed prematurely", http.read_http_body, s, h, None, "GET", None, True) s = cStringIO.StringIO("1\r\nfoo") tutils.raises("malformed chunked body", http.read_http_body, s, h, None, "GET", None, True) s = cStringIO.StringIO("foo\r\nfoo") tutils.raises(http.HttpError, http.read_http_body, s, h, None, "GET", None, True) s = cStringIO.StringIO("5\r\naaaaa\r\n0\r\n\r\n") tutils.raises("too large", http.read_http_body, s, h, 2, "GET", None, True) def test_connection_close(): h = odict.ODictCaseless() assert http.connection_close((1, 0), h) assert not http.connection_close((1, 1), h) h["connection"] = ["keep-alive"] assert not http.connection_close((1, 1), h) h["connection"] = ["close"] assert http.connection_close((1, 1), h) def test_get_header_tokens(): h = odict.ODictCaseless() assert http.get_header_tokens(h, "foo") == [] h["foo"] = ["bar"] assert http.get_header_tokens(h, "foo") == ["bar"] h["foo"] = ["bar, voing"] assert http.get_header_tokens(h, "foo") == ["bar", "voing"] h["foo"] = ["bar, voing", "oink"] assert http.get_header_tokens(h, "foo") == ["bar", "voing", "oink"] def test_read_http_body_request(): h = odict.ODictCaseless() r = cStringIO.StringIO("testing") assert http.read_http_body(r, h, None, "GET", None, True) == "" def test_read_http_body_response(): h = odict.ODictCaseless() s = cStringIO.StringIO("testing") assert http.read_http_body(s, h, None, "GET", 200, False) == "testing" def test_read_http_body(): # test default case h = odict.ODictCaseless() h["content-length"] = [7] s = cStringIO.StringIO("testing") assert http.read_http_body(s, h, None, "GET", 200, False) == "testing" # test content length: invalid header h["content-length"] = ["foo"] s = cStringIO.StringIO("testing") tutils.raises(http.HttpError, http.read_http_body, s, h, None, "GET", 200, False) # test content length: invalid header #2 h["content-length"] = [-1] s = cStringIO.StringIO("testing") tutils.raises(http.HttpError, http.read_http_body, s, h, None, "GET", 200, False) # test content length: content length > actual content h["content-length"] = [5] s = cStringIO.StringIO("testing") tutils.raises(http.HttpError, http.read_http_body, s, h, 4, "GET", 200, False) # test content length: content length < actual content s = cStringIO.StringIO("testing") assert len(http.read_http_body(s, h, None, "GET", 200, False)) == 5 # test no content length: limit > actual content h = odict.ODictCaseless() s = cStringIO.StringIO("testing") assert len(http.read_http_body(s, h, 100, "GET", 200, False)) == 7 # test no content length: limit < actual content s = cStringIO.StringIO("testing") tutils.raises(http.HttpError, http.read_http_body, s, h, 4, "GET", 200, False) # test chunked h = odict.ODictCaseless() h["transfer-encoding"] = ["chunked"] s = cStringIO.StringIO("5\r\naaaaa\r\n0\r\n\r\n") assert http.read_http_body(s, h, 100, "GET", 200, False) == "aaaaa" def test_expected_http_body_size(): # gibber in the content-length field h = odict.ODictCaseless() h["content-length"] = ["foo"] tutils.raises(http.HttpError, http.expected_http_body_size, h, False, "GET", 200) # negative number in the content-length field h = odict.ODictCaseless() h["content-length"] = ["-7"] tutils.raises(http.HttpError, http.expected_http_body_size, h, False, "GET", 200) # explicit length h = odict.ODictCaseless() h["content-length"] = ["5"] assert http.expected_http_body_size(h, False, "GET", 200) == 5 # no length h = odict.ODictCaseless() assert http.expected_http_body_size(h, False, "GET", 200) == -1 # no length request h = odict.ODictCaseless() assert http.expected_http_body_size(h, True, "GET", None) == 0 def test_parse_http_protocol(): assert http.parse_http_protocol("HTTP/1.1") == (1, 1) assert http.parse_http_protocol("HTTP/0.0") == (0, 0) assert not http.parse_http_protocol("HTTP/a.1") assert not http.parse_http_protocol("HTTP/1.a") assert not http.parse_http_protocol("foo/0.0") assert not http.parse_http_protocol("HTTP/x") def test_parse_init_connect(): assert http.parse_init_connect("CONNECT host.com:443 HTTP/1.0") assert not http.parse_init_connect("C\xfeONNECT host.com:443 HTTP/1.0") assert not http.parse_init_connect("CONNECT \0host.com:443 HTTP/1.0") assert not http.parse_init_connect("CONNECT host.com:444444 HTTP/1.0") assert not http.parse_init_connect("bogus") assert not http.parse_init_connect("GET host.com:443 HTTP/1.0") assert not http.parse_init_connect("CONNECT host.com443 HTTP/1.0") assert not http.parse_init_connect("CONNECT host.com:443 foo/1.0") assert not http.parse_init_connect("CONNECT host.com:foo HTTP/1.0") def test_parse_init_proxy(): u = "GET http://foo.com:8888/test HTTP/1.1" m, s, h, po, pa, httpversion = http.parse_init_proxy(u) assert m == "GET" assert s == "http" assert h == "foo.com" assert po == 8888 assert pa == "/test" assert httpversion == (1, 1) u = "G\xfeET http://foo.com:8888/test HTTP/1.1" assert not http.parse_init_proxy(u) assert not http.parse_init_proxy("invalid") assert not http.parse_init_proxy("GET invalid HTTP/1.1") assert not http.parse_init_proxy("GET http://foo.com:8888/test foo/1.1") def test_parse_init_http(): u = "GET /test HTTP/1.1" m, u, httpversion = http.parse_init_http(u) assert m == "GET" assert u == "/test" assert httpversion == (1, 1) u = "G\xfeET /test HTTP/1.1" assert not http.parse_init_http(u) assert not http.parse_init_http("invalid") assert not http.parse_init_http("GET invalid HTTP/1.1") assert not http.parse_init_http("GET /test foo/1.1") assert not http.parse_init_http("GET /test\xc0 HTTP/1.1") class TestReadHeaders: def _read(self, data, verbatim=False): if not verbatim: data = textwrap.dedent(data) data = data.strip() s = cStringIO.StringIO(data) return http.read_headers(s) def test_read_simple(self): data = """ Header: one Header2: two \r\n """ h = self._read(data) assert h.lst == [["Header", "one"], ["Header2", "two"]] def test_read_multi(self): data = """ Header: one Header: two \r\n """ h = self._read(data) assert h.lst == [["Header", "one"], ["Header", "two"]] def test_read_continued(self): data = """ Header: one \ttwo Header2: three \r\n """ h = self._read(data) assert h.lst == [["Header", "one\r\n two"], ["Header2", "three"]] def test_read_continued_err(self): data = "\tfoo: bar\r\n" assert self._read(data, True) is None def test_read_err(self): data = """ foo """ assert self._read(data) is None class NoContentLengthHTTPHandler(tcp.BaseHandler): def handle(self): self.wfile.write("HTTP/1.1 200 OK\r\n\r\nbar\r\n\r\n") self.wfile.flush() class TestReadResponseNoContentLength(test.ServerTestBase): handler = NoContentLengthHTTPHandler def test_no_content_length(self): c = tcp.TCPClient(("127.0.0.1", self.port)) c.connect() httpversion, code, msg, headers, content = http.read_response(c.rfile, "GET", None) assert content == "bar\r\n\r\n" def test_read_response(): def tst(data, method, limit, include_body=True): data = textwrap.dedent(data) r = cStringIO.StringIO(data) return http.read_response(r, method, limit, include_body=include_body) tutils.raises("server disconnect", tst, "", "GET", None) tutils.raises("invalid server response", tst, "foo", "GET", None) data = """ HTTP/1.1 200 OK """ assert tst(data, "GET", None) == ((1, 1), 200, 'OK', odict.ODictCaseless(), '') data = """ HTTP/1.1 200 """ assert tst(data, "GET", None) == ((1, 1), 200, '', odict.ODictCaseless(), '') data = """ HTTP/x 200 OK """ tutils.raises("invalid http version", tst, data, "GET", None) data = """ HTTP/1.1 xx OK """ tutils.raises("invalid server response", tst, data, "GET", None) data = """ HTTP/1.1 100 CONTINUE HTTP/1.1 200 OK """ assert tst(data, "GET", None) == ((1, 1), 100, 'CONTINUE', odict.ODictCaseless(), '') data = """ HTTP/1.1 200 OK Content-Length: 3 foo """ assert tst(data, "GET", None)[4] == 'foo' assert tst(data, "HEAD", None)[4] == '' data = """ HTTP/1.1 200 OK \tContent-Length: 3 foo """ tutils.raises("invalid headers", tst, data, "GET", None) data = """ HTTP/1.1 200 OK Content-Length: 3 foo """ assert tst(data, "GET", None, include_body=False)[4] == None def test_parse_url(): assert not http.parse_url("") u = "http://foo.com:8888/test" s, h, po, pa = http.parse_url(u) assert s == "http" assert h == "foo.com" assert po == 8888 assert pa == "/test" s, h, po, pa = http.parse_url("http://foo/bar") assert s == "http" assert h == "foo" assert po == 80 assert pa == "/bar" s, h, po, pa = http.parse_url("http://foo") assert pa == "/" s, h, po, pa = http.parse_url("https://foo") assert po == 443 assert not http.parse_url("https://foo:bar") assert not http.parse_url("https://foo:") # Invalid IDNA assert not http.parse_url("http://\xfafoo") # Invalid PATH assert not http.parse_url("http:/\xc6/localhost:56121") # Null byte in host assert not http.parse_url("http://foo\0") # Port out of range assert not http.parse_url("http://foo:999999") # Invalid IPv6 URL - see http://www.ietf.org/rfc/rfc2732.txt assert not http.parse_url('http://lo[calhost') def test_parse_http_basic_auth(): vals = ("basic", "foo", "bar") assert http.parse_http_basic_auth(http.assemble_http_basic_auth(*vals)) == vals assert not http.parse_http_basic_auth("") assert not http.parse_http_basic_auth("foo bar") v = "basic " + binascii.b2a_base64("foo") assert not http.parse_http_basic_auth(v)