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import typing from urllib.parse import parse_qs, quote, unquote, urlencode import idna import rfc3986 import rfc3986.exceptions from ._exceptions import InvalidURL from ._types import PrimitiveData, QueryParamTypes, RawURL, URLTypes from ._utils import primitive_value_to_str class URL: """ url = httpx.URL("HTTPS://jo%40email.com:a%20secret@müller.de:1234/pa%20th?search=ab#anchorlink") assert url.scheme == "https" assert url.username == "jo@email.com" assert url.password == "a secret" assert url.userinfo == b"jo%40email.com:a%20secret" assert url.host == "müller.de" assert url.raw_host == b"xn--mller-kva.de" assert url.port == 1234 assert url.netloc == b"xn--mller-kva.de:1234" assert url.path == "/pa th" assert url.query == b"?search=ab" assert url.raw_path == b"/pa%20th?search=ab" assert url.fragment == "anchorlink" The components of a URL are broken down like this: https://jo%40email.com:a%20secret@müller.de:1234/pa%20th?search=ab#anchorlink [scheme] [ username ] [password] [ host ][port][ path ] [ query ] [fragment] [ userinfo ] [ netloc ][ raw_path ] Note that: * `url.scheme` is normalized to always be lowercased. * `url.host` is normalized to always be lowercased. Internationalized domain names are represented in unicode, without IDNA encoding applied. For instance: url = httpx.URL("http://中国.icom.museum") assert url.host == "中国.icom.museum" url = httpx.URL("http://xn--fiqs8s.icom.museum") assert url.host == "中国.icom.museum" * `url.raw_host` is normalized to always be lowercased, and is IDNA encoded. url = httpx.URL("http://中国.icom.museum") assert url.raw_host == b"xn--fiqs8s.icom.museum" url = httpx.URL("http://xn--fiqs8s.icom.museum") assert url.raw_host == b"xn--fiqs8s.icom.museum" * `url.port` is either None or an integer. URLs that include the default port for "http", "https", "ws", "wss", and "ftp" schemes have their port normalized to `None`. assert httpx.URL("http://example.com") == httpx.URL("http://example.com:80") assert httpx.URL("http://example.com").port is None assert httpx.URL("http://example.com:80").port is None * `url.userinfo` is raw bytes, without URL escaping. Usually you'll want to work with `url.username` and `url.password` instead, which handle the URL escaping. * `url.raw_path` is raw bytes of both the path and query, without URL escaping. This portion is used as the target when constructing HTTP requests. Usually you'll want to work with `url.path` instead. * `url.query` is raw bytes, without URL escaping. A URL query string portion can only be properly URL escaped when decoding the parameter names and values themselves. """ _uri_reference: rfc3986.URIReference def __init__( self, url: typing.Union["URL", str] = "", **kwargs: typing.Any ) -> None: if isinstance(url, str): try: self._uri_reference = rfc3986.iri_reference(url).encode() except rfc3986.exceptions.InvalidAuthority as exc: raise InvalidURL(message=str(exc)) from None if self.is_absolute_url: # We don't want to normalize relative URLs, since doing so # removes any leading `../` portion. self._uri_reference = self._uri_reference.normalize() elif isinstance(url, URL): self._uri_reference = url._uri_reference else: raise TypeError( f"Invalid type for url. Expected str or httpx.URL, got {type(url)}: {url!r}" ) # Perform port normalization, following the WHATWG spec for default ports. # # See: # * https://tools.ietf.org/html/rfc3986#section-3.2.3 # * https://url.spec.whatwg.org/#url-miscellaneous # * https://url.spec.whatwg.org/#scheme-state default_port = { "ftp": ":21", "http": ":80", "https": ":443", "ws": ":80", "wss": ":443", }.get(self._uri_reference.scheme, "") authority = self._uri_reference.authority or "" if default_port and authority.endswith(default_port): authority = authority[: -len(default_port)] self._uri_reference = self._uri_reference.copy_with(authority=authority) if kwargs: self._uri_reference = self.copy_with(**kwargs)._uri_reference @property def scheme(self) -> str: """ The URL scheme, such as "http", "https". Always normalised to lowercase. """ return self._uri_reference.scheme or "" @property def raw_scheme(self) -> bytes: """ The raw bytes representation of the URL scheme, such as b"http", b"https". Always normalised to lowercase. """ return self.scheme.encode("ascii") @property def userinfo(self) -> bytes: """ The URL userinfo as a raw bytestring. For example: b"jo%40email.com:a%20secret". """ userinfo = self._uri_reference.userinfo or "" return userinfo.encode("ascii") @property def username(self) -> str: """ The URL username as a string, with URL decoding applied. For example: "jo@email.com" """ userinfo = self._uri_reference.userinfo or "" return unquote(userinfo.partition(":")[0]) @property def password(self) -> str: """ The URL password as a string, with URL decoding applied. For example: "a secret" """ userinfo = self._uri_reference.userinfo or "" return unquote(userinfo.partition(":")[2]) @property def host(self) -> str: """ The URL host as a string. Always normalized to lowercase, with IDNA hosts decoded into unicode. Examples: url = httpx.URL("http://www.EXAMPLE.org") assert url.host == "www.example.org" url = httpx.URL("http://中国.icom.museum") assert url.host == "中国.icom.museum" url = httpx.URL("http://xn--fiqs8s.icom.museum") assert url.host == "中国.icom.museum" url = httpx.URL("https://[::ffff:192.168.0.1]") assert url.host == "::ffff:192.168.0.1" """ host: str = self._uri_reference.host or "" if host and ":" in host and host[0] == "[": # it's an IPv6 address host = host.lstrip("[").rstrip("]") if host.startswith("xn--"): host = idna.decode(host) return host @property def raw_host(self) -> bytes: """ The raw bytes representation of the URL host. Always normalized to lowercase, and IDNA encoded. Examples: url = httpx.URL("http://www.EXAMPLE.org") assert url.raw_host == b"www.example.org" url = httpx.URL("http://中国.icom.museum") assert url.raw_host == b"xn--fiqs8s.icom.museum" url = httpx.URL("http://xn--fiqs8s.icom.museum") assert url.raw_host == b"xn--fiqs8s.icom.museum" url = httpx.URL("https://[::ffff:192.168.0.1]") assert url.raw_host == b"::ffff:192.168.0.1" """ host: str = self._uri_reference.host or "" if host and ":" in host and host[0] == "[": # it's an IPv6 address host = host.lstrip("[").rstrip("]") return host.encode("ascii") @property def port(self) -> typing.Optional[int]: """ The URL port as an integer. Note that the URL class performs port normalization as per the WHATWG spec. Default ports for "http", "https", "ws", "wss", and "ftp" schemes are always treated as `None`. For example: assert httpx.URL("http://www.example.com") == httpx.URL("http://www.example.com:80") assert httpx.URL("http://www.example.com:80").port is None """ port = self._uri_reference.port return int(port) if port else None @property def netloc(self) -> bytes: """ Either `<host>` or `<host>:<port>` as bytes. Always normalized to lowercase, and IDNA encoded. This property may be used for generating the value of a request "Host" header. """ host = self._uri_reference.host or "" port = self._uri_reference.port netloc = host.encode("ascii") if port: netloc = netloc + b":" + port.encode("ascii") return netloc @property def path(self) -> str: """ The URL path as a string. Excluding the query string, and URL decoded. For example: url = httpx.URL("https://example.com/pa%20th") assert url.path == "/pa th" """ path = self._uri_reference.path or "/" return unquote(path) @property def query(self) -> bytes: """ The URL query string, as raw bytes, excluding the leading b"?". This is necessarily a bytewise interface, because we cannot perform URL decoding of this representation until we've parsed the keys and values into a QueryParams instance. For example: url = httpx.URL("https://example.com/?filter=some%20search%20terms") assert url.query == b"filter=some%20search%20terms" """ query = self._uri_reference.query or "" return query.encode("ascii") @property def params(self) -> "QueryParams": """ The URL query parameters, neatly parsed and packaged into an immutable multidict representation. """ return QueryParams(self._uri_reference.query) @property def raw_path(self) -> bytes: """ The complete URL path and query string as raw bytes. Used as the target when constructing HTTP requests. For example: GET /users?search=some%20text HTTP/1.1 Host: www.example.org Connection: close """ path = self._uri_reference.path or "/" if self._uri_reference.query is not None: path += "?" + self._uri_reference.query return path.encode("ascii") @property def fragment(self) -> str: """ The URL fragments, as used in HTML anchors. As a string, without the leading '#'. """ return unquote(self._uri_reference.fragment or "") @property def raw(self) -> RawURL: """ Provides the (scheme, host, port, target) for the outgoing request. In older versions of `httpx` this was used in the low-level transport API. We no longer use `RawURL`, and this property will be deprecated in a future release. """ return RawURL( self.raw_scheme, self.raw_host, self.port, self.raw_path, ) @property def is_absolute_url(self) -> bool: """ Return `True` for absolute URLs such as 'http://example.com/path', and `False` for relative URLs such as '/path'. """ # We don't use `.is_absolute` from `rfc3986` because it treats # URLs with a fragment portion as not absolute. # What we actually care about is if the URL provides # a scheme and hostname to which connections should be made. return bool(self._uri_reference.scheme and self._uri_reference.host) @property def is_relative_url(self) -> bool: """ Return `False` for absolute URLs such as 'http://example.com/path', and `True` for relative URLs such as '/path'. """ return not self.is_absolute_url def copy_with(self, **kwargs: typing.Any) -> "URL": """ Copy this URL, returning a new URL with some components altered. Accepts the same set of parameters as the components that are made available via properties on the `URL` class. For example: url = httpx.URL("https://www.example.com").copy_with(username="jo@gmail.com", password="a secret") assert url == "https://jo%40email.com:a%20secret@www.example.com" """ allowed = { "scheme": str, "username": str, "password": str, "userinfo": bytes, "host": str, "port": int, "netloc": bytes, "path": str, "query": bytes, "raw_path": bytes, "fragment": str, "params": object, } # Step 1 # ====== # # Perform type checking for all supported keyword arguments. for key, value in kwargs.items(): if key not in allowed: message = f"{key!r} is an invalid keyword argument for copy_with()" raise TypeError(message) if value is not None and not isinstance(value, allowed[key]): expected = allowed[key].__name__ seen = type(value).__name__ message = f"Argument {key!r} must be {expected} but got {seen}" raise TypeError(message) # Step 2 # ====== # # Consolidate "username", "password", "userinfo", "host", "port" and "netloc" # into a single "authority" keyword, for `rfc3986`. if "username" in kwargs or "password" in kwargs: # Consolidate "username" and "password" into "userinfo". username = quote(kwargs.pop("username", self.username) or "") password = quote(kwargs.pop("password", self.password) or "") userinfo = f"{username}:{password}" if password else username kwargs["userinfo"] = userinfo.encode("ascii") if "host" in kwargs or "port" in kwargs: # Consolidate "host" and "port" into "netloc". host = kwargs.pop("host", self.host) or "" port = kwargs.pop("port", self.port) if host and ":" in host and host[0] != "[": # IPv6 addresses need to be escaped within square brackets. host = f"[{host}]" kwargs["netloc"] = ( f"{host}:{port}".encode("ascii") if port is not None else host.encode("ascii") ) if "userinfo" in kwargs or "netloc" in kwargs: # Consolidate "userinfo" and "netloc" into authority. userinfo = (kwargs.pop("userinfo", self.userinfo) or b"").decode("ascii") netloc = (kwargs.pop("netloc", self.netloc) or b"").decode("ascii") authority = f"{userinfo}@{netloc}" if userinfo else netloc kwargs["authority"] = authority # Step 3 # ====== # # Wrangle any "path", "query", "raw_path" and "params" keywords into # "query" and "path" keywords for `rfc3986`. if "raw_path" in kwargs: # If "raw_path" is included, then split it into "path" and "query" components. raw_path = kwargs.pop("raw_path") or b"" path, has_query, query = raw_path.decode("ascii").partition("?") kwargs["path"] = path kwargs["query"] = query if has_query else None else: if kwargs.get("path") is not None: # Ensure `kwargs["path"] = <url quoted str>` for `rfc3986`. kwargs["path"] = quote(kwargs["path"]) if kwargs.get("query") is not None: # Ensure `kwargs["query"] = <str>` for `rfc3986`. # # Note that `.copy_with(query=None)` and `.copy_with(query=b"")` # are subtly different. The `None` style will not include an empty # trailing "?" character. kwargs["query"] = kwargs["query"].decode("ascii") if "params" in kwargs: # Replace any "params" keyword with the raw "query" instead. # # Ensure that empty params use `kwargs["query"] = None` rather # than `kwargs["query"] = ""`, so that generated URLs do not # include an empty trailing "?". params = kwargs.pop("params") kwargs["query"] = None if not params else str(QueryParams(params)) # Step 4 # ====== # # Ensure any fragment component is quoted. if kwargs.get("fragment") is not None: kwargs["fragment"] = quote(kwargs["fragment"]) # Step 5 # ====== # # At this point kwargs may include keys for "scheme", "authority", "path", # "query" and "fragment". Together these constitute the entire URL. # # See https://tools.ietf.org/html/rfc3986#section-3 # # foo://example.com:8042/over/there?name=ferret#nose # \_/ \______________/\_________/ \_________/ \__/ # | | | | | # scheme authority path query fragment new_url = URL(self) new_url._uri_reference = self._uri_reference.copy_with(**kwargs) if new_url.is_absolute_url: new_url._uri_reference = new_url._uri_reference.normalize() return URL(new_url) def copy_set_param(self, key: str, value: typing.Any = None) -> "URL": return self.copy_with(params=self.params.set(key, value)) def copy_add_param(self, key: str, value: typing.Any = None) -> "URL": return self.copy_with(params=self.params.add(key, value)) def copy_remove_param(self, key: str) -> "URL": return self.copy_with(params=self.params.remove(key)) def copy_merge_params(self, params: QueryParamTypes) -> "URL": return self.copy_with(params=self.params.merge(params)) def join(self, url: URLTypes) -> "URL": """ Return an absolute URL, using this URL as the base. Eg. url = httpx.URL("https://www.example.com/test") url = url.join("/new/path") assert url == "https://www.example.com/new/path" """ if self.is_relative_url: # Workaround to handle relative URLs, which otherwise raise # rfc3986.exceptions.ResolutionError when used as an argument # in `.resolve_with`. return ( self.copy_with(scheme="http", host="example.com") .join(url) .copy_with(scheme=None, host=None) ) # We drop any fragment portion, because RFC 3986 strictly # treats URLs with a fragment portion as not being absolute URLs. base_uri = self._uri_reference.copy_with(fragment=None) relative_url = URL(url) return URL(relative_url._uri_reference.resolve_with(base_uri).unsplit()) def __hash__(self) -> int: return hash(str(self)) def __eq__(self, other: typing.Any) -> bool: return isinstance(other, (URL, str)) and str(self) == str(URL(other)) def __str__(self) -> str: return typing.cast(str, self._uri_reference.unsplit()) def __repr__(self) -> str: class_name = self.__class__.__name__ url_str = str(self) if self._uri_reference.userinfo: # Mask any password component in the URL representation, to lower the # risk of unintended leakage, such as in debug information and logging. username = quote(self.username) url_str = ( rfc3986.urlparse(url_str) .copy_with(userinfo=f"{username}:[secure]") .unsplit() ) return f"{class_name}({url_str!r})" class QueryParams(typing.Mapping[str, str]): """ URL query parameters, as a multi-dict. """ def __init__( self, *args: typing.Optional[QueryParamTypes], **kwargs: typing.Any ) -> None: assert len(args) < 2, "Too many arguments." assert not (args and kwargs), "Cannot mix named and unnamed arguments." value = args[0] if args else kwargs items: typing.Sequence[typing.Tuple[str, PrimitiveData]] if value is None or isinstance(value, (str, bytes)): value = value.decode("ascii") if isinstance(value, bytes) else value self._dict = parse_qs(value, keep_blank_values=True) elif isinstance(value, QueryParams): self._dict = {k: list(v) for k, v in value._dict.items()} else: dict_value: typing.Dict[typing.Any, typing.List[typing.Any]] = {} if isinstance(value, (list, tuple)): # Convert list inputs like: # [("a", "123"), ("a", "456"), ("b", "789")] # To a dict representation, like: # {"a": ["123", "456"], "b": ["789"]} for item in value: dict_value.setdefault(item[0], []).append(item[1]) else: # Convert dict inputs like: # {"a": "123", "b": ["456", "789"]} # To dict inputs where values are always lists, like: # {"a": ["123"], "b": ["456", "789"]} dict_value = { k: list(v) if isinstance(v, (list, tuple)) else [v] for k, v in value.items() } # Ensure that keys and values are neatly coerced to strings. # We coerce values `True` and `False` to JSON-like "true" and "false" # representations, and coerce `None` values to the empty string. self._dict = { str(k): [primitive_value_to_str(item) for item in v] for k, v in dict_value.items() } def keys(self) -> typing.KeysView[str]: """ Return all the keys in the query params. Usage: q = httpx.QueryParams("a=123&a=456&b=789") assert list(q.keys()) == ["a", "b"] """ return self._dict.keys() def values(self) -> typing.ValuesView[str]: """ Return all the values in the query params. If a key occurs more than once only the first item for that key is returned. Usage: q = httpx.QueryParams("a=123&a=456&b=789") assert list(q.values()) == ["123", "789"] """ return {k: v[0] for k, v in self._dict.items()}.values() def items(self) -> typing.ItemsView[str, str]: """ Return all items in the query params. If a key occurs more than once only the first item for that key is returned. Usage: q = httpx.QueryParams("a=123&a=456&b=789") assert list(q.items()) == [("a", "123"), ("b", "789")] """ return {k: v[0] for k, v in self._dict.items()}.items() def multi_items(self) -> typing.List[typing.Tuple[str, str]]: """ Return all items in the query params. Allow duplicate keys to occur. Usage: q = httpx.QueryParams("a=123&a=456&b=789") assert list(q.multi_items()) == [("a", "123"), ("a", "456"), ("b", "789")] """ multi_items: typing.List[typing.Tuple[str, str]] = [] for k, v in self._dict.items(): multi_items.extend([(k, i) for i in v]) return multi_items def get(self, key: typing.Any, default: typing.Any = None) -> typing.Any: """ Get a value from the query param for a given key. If the key occurs more than once, then only the first value is returned. Usage: q = httpx.QueryParams("a=123&a=456&b=789") assert q.get("a") == "123" """ if key in self._dict: return self._dict[str(key)][0] return default def get_list(self, key: str) -> typing.List[str]: """ Get all values from the query param for a given key. Usage: q = httpx.QueryParams("a=123&a=456&b=789") assert q.get_list("a") == ["123", "456"] """ return list(self._dict.get(str(key), [])) def set(self, key: str, value: typing.Any = None) -> "QueryParams": """ Return a new QueryParams instance, setting the value of a key. Usage: q = httpx.QueryParams("a=123") q = q.set("a", "456") assert q == httpx.QueryParams("a=456") """ q = QueryParams() q._dict = dict(self._dict) q._dict[str(key)] = [primitive_value_to_str(value)] return q def add(self, key: str, value: typing.Any = None) -> "QueryParams": """ Return a new QueryParams instance, setting or appending the value of a key. Usage: q = httpx.QueryParams("a=123") q = q.add("a", "456") assert q == httpx.QueryParams("a=123&a=456") """ q = QueryParams() q._dict = dict(self._dict) q._dict[str(key)] = q.get_list(key) + [primitive_value_to_str(value)] return q def remove(self, key: str) -> "QueryParams": """ Return a new QueryParams instance, removing the value of a key. Usage: q = httpx.QueryParams("a=123") q = q.remove("a") assert q == httpx.QueryParams("") """ q = QueryParams() q._dict = dict(self._dict) q._dict.pop(str(key), None) return q def merge(self, params: typing.Optional[QueryParamTypes] = None) -> "QueryParams": """ Return a new QueryParams instance, updated with. Usage: q = httpx.QueryParams("a=123") q = q.merge({"b": "456"}) assert q == httpx.QueryParams("a=123&b=456") q = httpx.QueryParams("a=123") q = q.merge({"a": "456", "b": "789"}) assert q == httpx.QueryParams("a=456&b=789") """ q = QueryParams(params) q._dict = {**self._dict, **q._dict} return q def __getitem__(self, key: typing.Any) -> str: return self._dict[key][0] def __contains__(self, key: typing.Any) -> bool: return key in self._dict def __iter__(self) -> typing.Iterator[typing.Any]: return iter(self.keys()) def __len__(self) -> int: return len(self._dict) def __bool__(self) -> bool: return bool(self._dict) def __hash__(self) -> int: return hash(str(self)) def __eq__(self, other: typing.Any) -> bool: if not isinstance(other, self.__class__): return False return sorted(self.multi_items()) == sorted(other.multi_items()) def __str__(self) -> str: return urlencode(self.multi_items()) def __repr__(self) -> str: class_name = self.__class__.__name__ query_string = str(self) return f"{class_name}({query_string!r})" def update(self, params: typing.Optional[QueryParamTypes] = None) -> None: raise RuntimeError( "QueryParams are immutable since 0.18.0. " "Use `q = q.merge(...)` to create an updated copy." ) def __setitem__(self, key: str, value: str) -> None: raise RuntimeError( "QueryParams are immutable since 0.18.0. " "Use `q = q.set(key, value)` to create an updated copy." )