import functools import logging import os import posixpath import re import urllib.parse from typing import TYPE_CHECKING, Dict, List, NamedTuple, Optional, Tuple, Union from pip._internal.utils.filetypes import WHEEL_EXTENSION from pip._internal.utils.hashes import Hashes from pip._internal.utils.misc import ( redact_auth_from_url, split_auth_from_netloc, splitext, ) from pip._internal.utils.models import KeyBasedCompareMixin from pip._internal.utils.urls import path_to_url, url_to_path if TYPE_CHECKING: from pip._internal.index.collector import HTMLPage logger = logging.getLogger(__name__) _SUPPORTED_HASHES = ("sha1", "sha224", "sha384", "sha256", "sha512", "md5") class Link(KeyBasedCompareMixin): """Represents a parsed link from a Package Index's simple URL """ __slots__ = [ "_parsed_url", "_url", "comes_from", "requires_python", "yanked_reason", "cache_link_parsing", ] def __init__( self, url: str, comes_from: Optional[Union[str, "HTMLPage"]] = None, requires_python: Optional[str] = None, yanked_reason: Optional[str] = None, cache_link_parsing: bool = True, ) -> None: """ :param url: url of the resource pointed to (href of the link) :param comes_from: instance of HTMLPage where the link was found, or string. :param requires_python: String containing the `Requires-Python` metadata field, specified in PEP 345. This may be specified by a data-requires-python attribute in the HTML link tag, as described in PEP 503. :param yanked_reason: the reason the file has been yanked, if the file has been yanked, or None if the file hasn't been yanked. This is the value of the "data-yanked" attribute, if present, in a simple repository HTML link. If the file has been yanked but no reason was provided, this should be the empty string. See PEP 592 for more information and the specification. :param cache_link_parsing: A flag that is used elsewhere to determine whether resources retrieved from this link should be cached. PyPI index urls should generally have this set to False, for example. """ # url can be a UNC windows share if url.startswith('\\\\'): url = path_to_url(url) self._parsed_url = urllib.parse.urlsplit(url) # Store the url as a private attribute to prevent accidentally # trying to set a new value. self._url = url self.comes_from = comes_from self.requires_python = requires_python if requires_python else None self.yanked_reason = yanked_reason super().__init__(key=url, defining_class=Link) self.cache_link_parsing = cache_link_parsing def __str__(self) -> str: if self.requires_python: rp = f' (requires-python:{self.requires_python})' else: rp = '' if self.comes_from: return '{} (from {}){}'.format( redact_auth_from_url(self._url), self.comes_from, rp) else: return redact_auth_from_url(str(self._url)) def __repr__(self) -> str: return f'' @property def url(self) -> str: return self._url @property def filename(self) -> str: path = self.path.rstrip('/') name = posixpath.basename(path) if not name: # Make sure we don't leak auth information if the netloc # includes a username and password. netloc, user_pass = split_auth_from_netloc(self.netloc) return netloc name = urllib.parse.unquote(name) assert name, f'URL {self._url!r} produced no filename' return name @property def file_path(self) -> str: return url_to_path(self.url) @property def scheme(self) -> str: return self._parsed_url.scheme @property def netloc(self) -> str: """ This can contain auth information. """ return self._parsed_url.netloc @property def path(self) -> str: return urllib.parse.unquote(self._parsed_url.path) def splitext(self) -> Tuple[str, str]: return splitext(posixpath.basename(self.path.rstrip('/'))) @property def ext(self) -> str: return self.splitext()[1] @property def url_without_fragment(self) -> str: scheme, netloc, path, query, fragment = self._parsed_url return urllib.parse.urlunsplit((scheme, netloc, path, query, '')) _egg_fragment_re = re.compile(r'[#&]egg=([^&]*)') @property def egg_fragment(self) -> Optional[str]: match = self._egg_fragment_re.search(self._url) if not match: return None return match.group(1) _subdirectory_fragment_re = re.compile(r'[#&]subdirectory=([^&]*)') @property def subdirectory_fragment(self) -> Optional[str]: match = self._subdirectory_fragment_re.search(self._url) if not match: return None return match.group(1) _hash_re = re.compile( r'({choices})=([a-f0-9]+)'.format(choices="|".join(_SUPPORTED_HASHES)) ) @property def hash(self) -> Optional[str]: match = self._hash_re.search(self._url) if match: return match.group(2) return None @property def hash_name(self) -> Optional[str]: match = self._hash_re.search(self._url) if match: return match.group(1) return None @property def show_url(self) -> str: return posixpath.basename(self._url.split('#', 1)[0].split('?', 1)[0]) @property def is_file(self) -> bool: return self.scheme == 'file' def is_existing_dir(self) -> bool: return self.is_file and os.path.isdir(self.file_path) @property def is_wheel(self) -> bool: return self.ext == WHEEL_EXTENSION @property def is_vcs(self) -> bool: from pip._internal.vcs import vcs return self.scheme in vcs.all_schemes @property def is_yanked(self) -> bool: return self.yanked_reason is not None @property def has_hash(self) -> bool: return self.hash_name is not None def is_hash_allowed(self, hashes: Optional[Hashes]) -> bool: """ Return True if the link has a hash and it is allowed. """ if hashes is None or not self.has_hash: return False # Assert non-None so mypy knows self.hash_name and self.hash are str. assert self.hash_name is not None assert self.hash is not None return hashes.is_hash_allowed(self.hash_name, hex_digest=self.hash) class _CleanResult(NamedTuple): """Convert link for equivalency check. This is used in the resolver to check whether two URL-specified requirements likely point to the same distribution and can be considered equivalent. This equivalency logic avoids comparing URLs literally, which can be too strict (e.g. "a=1&b=2" vs "b=2&a=1") and produce conflicts unexpecting to users. Currently this does three things: 1. Drop the basic auth part. This is technically wrong since a server can serve different content based on auth, but if it does that, it is even impossible to guarantee two URLs without auth are equivalent, since the user can input different auth information when prompted. So the practical solution is to assume the auth doesn't affect the response. 2. Parse the query to avoid the ordering issue. Note that ordering under the same key in the query are NOT cleaned; i.e. "a=1&a=2" and "a=2&a=1" are still considered different. 3. Explicitly drop most of the fragment part, except ``subdirectory=`` and hash values, since it should have no impact the downloaded content. Note that this drops the "egg=" part historically used to denote the requested project (and extras), which is wrong in the strictest sense, but too many people are supplying it inconsistently to cause superfluous resolution conflicts, so we choose to also ignore them. """ parsed: urllib.parse.SplitResult query: Dict[str, List[str]] subdirectory: str hashes: Dict[str, str] @classmethod def from_link(cls, link: Link) -> "_CleanResult": parsed = link._parsed_url netloc = parsed.netloc.rsplit("@", 1)[-1] # According to RFC 8089, an empty host in file: means localhost. if parsed.scheme == "file" and not netloc: netloc = "localhost" fragment = urllib.parse.parse_qs(parsed.fragment) if "egg" in fragment: logger.debug("Ignoring egg= fragment in %s", link) try: # If there are multiple subdirectory values, use the first one. # This matches the behavior of Link.subdirectory_fragment. subdirectory = fragment["subdirectory"][0] except (IndexError, KeyError): subdirectory = "" # If there are multiple hash values under the same algorithm, use the # first one. This matches the behavior of Link.hash_value. hashes = {k: fragment[k][0] for k in _SUPPORTED_HASHES if k in fragment} return cls( parsed=parsed._replace(netloc=netloc, query="", fragment=""), query=urllib.parse.parse_qs(parsed.query), subdirectory=subdirectory, hashes=hashes, ) @functools.lru_cache(maxsize=None) def links_equivalent(link1: Link, link2: Link) -> bool: return _CleanResult.from_link(link1) == _CleanResult.from_link(link2)