"""Routines related to PyPI, indexes""" from __future__ import absolute_import import logging import cgi from collections import namedtuple import itertools import sys import os import re import mimetypes import posixpath import warnings from pip._vendor.six.moves.urllib import parse as urllib_parse from pip._vendor.six.moves.urllib import request as urllib_request from pip.compat import ipaddress from pip.utils import ( Inf, cached_property, normalize_name, splitext, normalize_path, ARCHIVE_EXTENSIONS, SUPPORTED_EXTENSIONS) from pip.utils.deprecation import RemovedInPip8Warning from pip.utils.logging import indent_log from pip.exceptions import ( DistributionNotFound, BestVersionAlreadyInstalled, InvalidWheelFilename, UnsupportedWheel, ) from pip.download import url_to_path, path_to_url from pip.models import PyPI from pip.wheel import Wheel, wheel_ext from pip.pep425tags import supported_tags, supported_tags_noarch, get_platform from pip._vendor import html5lib, requests, pkg_resources, six from pip._vendor.packaging.version import parse as parse_version from pip._vendor.requests.exceptions import SSLError __all__ = ['PackageFinder'] # Taken from Chrome's list of secure origins (See: http://bit.ly/1qrySKC) SECURE_ORIGINS = [ # protocol, hostname, port ("https", "*", "*"), ("*", "localhost", "*"), ("*", "127.0.0.0/8", "*"), ("*", "::1/128", "*"), ("file", "*", None), ] logger = logging.getLogger(__name__) class InstallationCandidate(object): def __init__(self, project, version, location): self.project = project self.version = parse_version(version) self.location = location self._key = (self.project, self.version, self.location) def __repr__(self): return "".format( self.project, self.version, self.location, ) def __hash__(self): return hash(self._key) def __lt__(self, other): return self._compare(other, lambda s, o: s < o) def __le__(self, other): return self._compare(other, lambda s, o: s <= o) def __eq__(self, other): return self._compare(other, lambda s, o: s == o) def __ge__(self, other): return self._compare(other, lambda s, o: s >= o) def __gt__(self, other): return self._compare(other, lambda s, o: s > o) def __ne__(self, other): return self._compare(other, lambda s, o: s != o) def _compare(self, other, method): if not isinstance(other, InstallationCandidate): return NotImplemented return method(self._key, other._key) class PackageFinder(object): """This finds packages. This is meant to match easy_install's technique for looking for packages, by reading pages and looking for appropriate links """ def __init__(self, find_links, index_urls, use_wheel=True, allow_external=(), allow_unverified=(), allow_all_external=False, allow_all_prereleases=False, trusted_hosts=None, process_dependency_links=False, session=None): if session is None: raise TypeError( "PackageFinder() missing 1 required keyword argument: " "'session'" ) # Build find_links. If an argument starts with ~, it may be # a local file relative to a home directory. So try normalizing # it and if it exists, use the normalized version. # This is deliberately conservative - it might be fine just to # blindly normalize anything starting with a ~... self.find_links = [] for link in find_links: if link.startswith('~'): new_link = normalize_path(link) if os.path.exists(new_link): link = new_link self.find_links.append(link) self.index_urls = index_urls self.dependency_links = [] # These are boring links that have already been logged somehow: self.logged_links = set() self.use_wheel = use_wheel # Do we allow (safe and verifiable) externally hosted files? self.allow_external = set(normalize_name(n) for n in allow_external) # Which names are allowed to install insecure and unverifiable files? self.allow_unverified = set( normalize_name(n) for n in allow_unverified ) # Anything that is allowed unverified is also allowed external self.allow_external |= self.allow_unverified # Do we allow all (safe and verifiable) externally hosted files? self.allow_all_external = allow_all_external # Domains that we won't emit warnings for when not using HTTPS self.secure_origins = [ ("*", host, "*") for host in (trusted_hosts if trusted_hosts else []) ] # Stores if we ignored any external links so that we can instruct # end users how to install them if no distributions are available self.need_warn_external = False # Stores if we ignored any unsafe links so that we can instruct # end users how to install them if no distributions are available self.need_warn_unverified = False # Do we want to allow _all_ pre-releases? self.allow_all_prereleases = allow_all_prereleases # Do we process dependency links? self.process_dependency_links = process_dependency_links # The Session we'll use to make requests self.session = session def add_dependency_links(self, links): # # FIXME: this shouldn't be global list this, it should only # # apply to requirements of the package that specifies the # # dependency_links value # # FIXME: also, we should track comes_from (i.e., use Link) if self.process_dependency_links: warnings.warn( "Dependency Links processing has been deprecated and will be " "removed in a future release.", RemovedInPip8Warning, ) self.dependency_links.extend(links) @staticmethod def _sort_locations(locations, expand_dir=False): """ Sort locations into "files" (archives) and "urls", and return a pair of lists (files,urls) """ files = [] urls = [] # puts the url for the given file path into the appropriate list def sort_path(path): url = path_to_url(path) if mimetypes.guess_type(url, strict=False)[0] == 'text/html': urls.append(url) else: files.append(url) for url in locations: is_local_path = os.path.exists(url) is_file_url = url.startswith('file:') if is_local_path or is_file_url: if is_local_path: path = url else: path = url_to_path(url) if os.path.isdir(path): if expand_dir: path = os.path.realpath(path) for item in os.listdir(path): sort_path(os.path.join(path, item)) elif is_file_url: urls.append(url) elif os.path.isfile(path): sort_path(path) else: urls.append(url) return files, urls def _candidate_sort_key(self, candidate): """ Function used to generate link sort key for link tuples. The greater the return value, the more preferred it is. If not finding wheels, then sorted by version only. If finding wheels, then the sort order is by version, then: 1. existing installs 2. wheels ordered via Wheel.support_index_min() 3. source archives Note: it was considered to embed this logic into the Link comparison operators, but then different sdist links with the same version, would have to be considered equal """ support_num = len(supported_tags) if candidate.location == INSTALLED_VERSION: pri = 1 elif candidate.location.is_wheel: # can raise InvalidWheelFilename wheel = Wheel(candidate.location.filename) if not wheel.supported(): raise UnsupportedWheel( "%s is not a supported wheel for this platform. It " "can't be sorted." % wheel.filename ) pri = -(wheel.support_index_min()) else: # sdist pri = -(support_num) return (candidate.version, pri) def _sort_versions(self, applicable_versions): """ Bring the latest version (and wheels) to the front, but maintain the existing ordering as secondary. See the docstring for `_link_sort_key` for details. This function is isolated for easier unit testing. """ return sorted( applicable_versions, key=self._candidate_sort_key, reverse=True ) def _validate_secure_origin(self, logger, location): # Determine if this url used a secure transport mechanism parsed = urllib_parse.urlparse(str(location)) origin = (parsed.scheme, parsed.hostname, parsed.port) # Determine if our origin is a secure origin by looking through our # hardcoded list of secure origins, as well as any additional ones # configured on this PackageFinder instance. for secure_origin in (SECURE_ORIGINS + self.secure_origins): # Check to see if the protocol matches if origin[0] != secure_origin[0] and secure_origin[0] != "*": continue try: # We need to do this decode dance to ensure that we have a # unicode object, even on Python 2.x. addr = ipaddress.ip_address( origin[1] if ( isinstance(origin[1], six.text_type) or origin[1] is None ) else origin[1].decode("utf8") ) network = ipaddress.ip_network( secure_origin[1] if isinstance(secure_origin[1], six.text_type) else secure_origin[1].decode("utf8") ) except ValueError: # We don't have both a valid address or a valid network, so # we'll check this origin against hostnames. if origin[1] != secure_origin[1] and secure_origin[1] != "*": continue else: # We have a valid address and network, so see if the address # is contained within the network. if addr not in network: continue # Check to see if the port patches if (origin[2] != secure_origin[2] and secure_origin[2] != "*" and secure_origin[2] is not None): continue # If we've gotten here, then this origin matches the current # secure origin and we should return True return True # If we've gotten to this point, then the origin isn't secure and we # will not accept it as a valid location to search. We will however # log a warning that we are ignoring it. logger.warning( "The repository located at %s is not a trusted or secure host and " "is being ignored. If this repository is available via HTTPS it " "is recommended to use HTTPS instead, otherwise you may silence " "this warning and allow it anyways with '--trusted-host %s'.", parsed.hostname, parsed.hostname, ) return False def _get_index_urls_locations(self, project_name): """Returns the locations found via self.index_urls Checks the url_name on the main (first in the list) index and use this url_name to produce all locations """ def mkurl_pypi_url(url): loc = posixpath.join(url, project_url_name) # For maximum compatibility with easy_install, ensure the path # ends in a trailing slash. Although this isn't in the spec # (and PyPI can handle it without the slash) some other index # implementations might break if they relied on easy_install's # behavior. if not loc.endswith('/'): loc = loc + '/' return loc project_url_name = urllib_parse.quote(project_name.lower()) if self.index_urls: # Check that we have the url_name correctly spelled: # Only check main index if index URL is given main_index_url = Link( mkurl_pypi_url(self.index_urls[0]), trusted=True, ) page = self._get_page(main_index_url) if page is None and PyPI.netloc not in str(main_index_url): warnings.warn( "Failed to find %r at %s. It is suggested to upgrade " "your index to support normalized names as the name in " "/simple/{name}." % (project_name, main_index_url), RemovedInPip8Warning, ) project_url_name = self._find_url_name( Link(self.index_urls[0], trusted=True), project_url_name, ) or project_url_name if project_url_name is not None: return [mkurl_pypi_url(url) for url in self.index_urls] return [] def _find_all_versions(self, project_name): """Find all available versions for project_name This checks index_urls, find_links and dependency_links All versions found are returned See _link_package_versions for details on which files are accepted """ index_locations = self._get_index_urls_locations(project_name) index_file_loc, index_url_loc = self._sort_locations(index_locations) fl_file_loc, fl_url_loc = self._sort_locations( self.find_links, expand_dir=True) dep_file_loc, dep_url_loc = self._sort_locations(self.dependency_links) file_locations = ( Link(url) for url in itertools.chain( index_file_loc, fl_file_loc, dep_file_loc) ) # We trust every url that the user has given us whether it was given # via --index-url or --find-links # We explicitly do not trust links that came from dependency_links # We want to filter out any thing which does not have a secure origin. url_locations = [ link for link in itertools.chain( (Link(url, trusted=True) for url in index_url_loc), (Link(url, trusted=True) for url in fl_url_loc), (Link(url) for url in dep_url_loc), ) if self._validate_secure_origin(logger, link) ] logger.debug('%d location(s) to search for versions of %s:', len(url_locations), project_name) for location in url_locations: logger.debug('* %s', location) formats = set(["source"]) if self.use_wheel: formats.add("binary") search = Search( project_name.lower(), pkg_resources.safe_name(project_name).lower(), frozenset(formats)) find_links_versions = list(self._package_versions( # We trust every directly linked archive in find_links (Link(url, '-f', trusted=True) for url in self.find_links), search )) page_versions = [] for page in self._get_pages(url_locations, project_name): logger.debug('Analyzing links from page %s', page.url) with indent_log(): page_versions.extend( self._package_versions(page.links, search) ) dependency_versions = list(self._package_versions( (Link(url) for url in self.dependency_links), search )) if dependency_versions: logger.debug( 'dependency_links found: %s', ', '.join([ version.location.url for version in dependency_versions ]) ) file_versions = list( self._package_versions(file_locations, search) ) if file_versions: file_versions.sort(reverse=True) logger.debug( 'Local files found: %s', ', '.join([ url_to_path(candidate.location.url) for candidate in file_versions ]) ) # This is an intentional priority ordering return ( file_versions + find_links_versions + page_versions + dependency_versions ) def find_requirement(self, req, upgrade): """Try to find an InstallationCandidate for req Expects req, an InstallRequirement and upgrade, a boolean Returns an InstallationCandidate or None May raise DistributionNotFound or BestVersionAlreadyInstalled """ all_versions = self._find_all_versions(req.name) # Filter out anything which doesn't match our specifier _versions = set( req.specifier.filter( [x.version for x in all_versions], prereleases=( self.allow_all_prereleases if self.allow_all_prereleases else None ), ) ) applicable_versions = [ x for x in all_versions if x.version in _versions ] if req.satisfied_by is not None: # Finally add our existing versions to the front of our versions. applicable_versions.insert( 0, InstallationCandidate( req.name, req.satisfied_by.version, INSTALLED_VERSION, ) ) existing_applicable = True else: existing_applicable = False applicable_versions = self._sort_versions(applicable_versions) if not upgrade and existing_applicable: if applicable_versions[0].location is INSTALLED_VERSION: logger.debug( 'Existing installed version (%s) is most up-to-date and ' 'satisfies requirement', req.satisfied_by.version, ) else: logger.debug( 'Existing installed version (%s) satisfies requirement ' '(most up-to-date version is %s)', req.satisfied_by.version, applicable_versions[0][2], ) return None if not applicable_versions: logger.critical( 'Could not find a version that satisfies the requirement %s ' '(from versions: %s)', req, ', '.join( sorted( set(str(i.version) for i in all_versions), key=parse_version, ) ) ) if self.need_warn_external: logger.warning( "Some externally hosted files were ignored as access to " "them may be unreliable (use --allow-external %s to " "allow).", req.name, ) if self.need_warn_unverified: logger.warning( "Some insecure and unverifiable files were ignored" " (use --allow-unverified %s to allow).", req.name, ) raise DistributionNotFound( 'No matching distribution found for %s' % req ) if applicable_versions[0].location is INSTALLED_VERSION: # We have an existing version, and its the best version logger.debug( 'Installed version (%s) is most up-to-date (past versions: ' '%s)', req.satisfied_by.version, ', '.join(str(i.version) for i in applicable_versions[1:]) or "none", ) raise BestVersionAlreadyInstalled if len(applicable_versions) > 1: logger.debug( 'Using version %s (newest of versions: %s)', applicable_versions[0].version, ', '.join(str(i.version) for i in applicable_versions) ) selected_version = applicable_versions[0].location if (selected_version.verifiable is not None and not selected_version.verifiable): logger.warning( "%s is potentially insecure and unverifiable.", req.name, ) return selected_version def _find_url_name(self, index_url, url_name): """ Finds the true URL name of a package, when the given name isn't quite correct. This is usually used to implement case-insensitivity. """ if not index_url.url.endswith('/'): # Vaguely part of the PyPI API... weird but true. # FIXME: bad to modify this? index_url.url += '/' page = self._get_page(index_url) if page is None: logger.critical('Cannot fetch index base URL %s', index_url) return norm_name = normalize_name(url_name) for link in page.links: base = posixpath.basename(link.path.rstrip('/')) if norm_name == normalize_name(base): logger.debug( 'Real name of requirement %s is %s', url_name, base, ) return base return None def _get_pages(self, locations, project_name): """ Yields (page, page_url) from the given locations, skipping locations that have errors, and adding download/homepage links """ all_locations = list(locations) seen = set() normalized = normalize_name(project_name) while all_locations: location = all_locations.pop(0) if location in seen: continue seen.add(location) page = self._get_page(location) if page is None: continue yield page for link in page.rel_links(): if (normalized not in self.allow_external and not self.allow_all_external): self.need_warn_external = True logger.debug( "Not searching %s for files because external " "urls are disallowed.", link, ) continue if (link.trusted is not None and not link.trusted and normalized not in self.allow_unverified): logger.debug( "Not searching %s for urls, it is an " "untrusted link and cannot produce safe or " "verifiable files.", link, ) self.need_warn_unverified = True continue all_locations.append(link) _py_version_re = re.compile(r'-py([123]\.?[0-9]?)$') def _sort_links(self, links): """ Returns elements of links in order, non-egg links first, egg links second, while eliminating duplicates """ eggs, no_eggs = [], [] seen = set() for link in links: if link not in seen: seen.add(link) if link.egg_fragment: eggs.append(link) else: no_eggs.append(link) return no_eggs + eggs def _package_versions(self, links, search): for link in self._sort_links(links): v = self._link_package_versions(link, search) if v is not None: yield v def _log_skipped_link(self, link, reason): if link not in self.logged_links: logger.debug('Skipping link %s; %s', link, reason) self.logged_links.add(link) def _link_package_versions(self, link, search): """Return an InstallationCandidate or None""" platform = get_platform() version = None if link.egg_fragment: egg_info = link.egg_fragment else: egg_info, ext = link.splitext() if not ext: self._log_skipped_link(link, 'not a file') return if ext not in SUPPORTED_EXTENSIONS: self._log_skipped_link( link, 'unsupported archive format: %s' % ext) return if "binary" not in search.formats and ext == wheel_ext: self._log_skipped_link( link, 'No binaries permitted for %s' % search.supplied) return if "macosx10" in link.path and ext == '.zip': self._log_skipped_link(link, 'macosx10 one') return if ext == wheel_ext: try: wheel = Wheel(link.filename) except InvalidWheelFilename: self._log_skipped_link(link, 'invalid wheel filename') return if (pkg_resources.safe_name(wheel.name).lower() != search.canonical): self._log_skipped_link( link, 'wrong project name (not %s)' % search.supplied) return if not wheel.supported(): self._log_skipped_link( link, 'it is not compatible with this Python') return # This is a dirty hack to prevent installing Binary Wheels from # PyPI unless it is a Windows or Mac Binary Wheel. This is # paired with a change to PyPI disabling uploads for the # same. Once we have a mechanism for enabling support for # binary wheels on linux that deals with the inherent problems # of binary distribution this can be removed. comes_from = getattr(link, "comes_from", None) if ( ( not platform.startswith('win') and not platform.startswith('macosx') and not platform == 'cli' ) and comes_from is not None and urllib_parse.urlparse( comes_from.url ).netloc.endswith(PyPI.netloc)): if not wheel.supported(tags=supported_tags_noarch): self._log_skipped_link( link, "it is a pypi-hosted binary " "Wheel on an unsupported platform", ) return version = wheel.version if not version: version = egg_info_matches(egg_info, search.supplied, link) if version is None: self._log_skipped_link( link, 'wrong project name (not %s)' % search.supplied) return if (link.internal is not None and not link.internal and not normalize_name(search.supplied).lower() in self.allow_external and not self.allow_all_external): # We have a link that we are sure is external, so we should skip # it unless we are allowing externals self._log_skipped_link(link, 'it is externally hosted') self.need_warn_external = True return if (link.verifiable is not None and not link.verifiable and not (normalize_name(search.supplied).lower() in self.allow_unverified)): # We have a link that we are sure we cannot verify its integrity, # so we should skip it unless we are allowing unsafe installs # for this requirement. self._log_skipped_link( link, 'it is an insecure and unverifiable file') self.need_warn_unverified = True return match = self._py_version_re.search(version) if match: version = version[:match.start()] py_version = match.group(1) if py_version != sys.version[:3]: self._log_skipped_link( link, 'Python version is incorrect') return logger.debug('Found link %s, version: %s', link, version) return InstallationCandidate(search.supplied, version, link) def _get_page(self, link): return HTMLPage.get_page(link, session=self.session) def egg_info_matches( egg_info, search_name, link, _egg_info_re=re.compile(r'([a-z0-9_.]+)-([a-z0-9_.!+-]+)', re.I)): """Pull the version part out of a string. :param egg_info: The string to parse. E.g. foo-2.1 :param search_name: The name of the package this belongs to. None to infer the name. Note that this cannot unambiguously parse strings like foo-2-2 which might be foo, 2-2 or foo-2, 2. :param link: The link the string came from, for logging on failure. """ match = _egg_info_re.search(egg_info) if not match: logger.debug('Could not parse version from link: %s', link) return None if search_name is None: full_match = match.group(0) return full_match[full_match.index('-'):] name = match.group(0).lower() # To match the "safe" name that pkg_resources creates: name = name.replace('_', '-') # project name and version must be separated by a dash look_for = search_name.lower() + "-" if name.startswith(look_for): return match.group(0)[len(look_for):] else: return None class HTMLPage(object): """Represents one page, along with its URL""" def __init__(self, content, url, headers=None, trusted=None): # Determine if we have any encoding information in our headers encoding = None if headers and "Content-Type" in headers: content_type, params = cgi.parse_header(headers["Content-Type"]) if "charset" in params: encoding = params['charset'] self.content = content self.parsed = html5lib.parse( self.content, encoding=encoding, namespaceHTMLElements=False, ) self.url = url self.headers = headers self.trusted = trusted def __str__(self): return self.url @classmethod def get_page(cls, link, skip_archives=True, session=None): if session is None: raise TypeError( "get_page() missing 1 required keyword argument: 'session'" ) url = link.url url = url.split('#', 1)[0] # Check for VCS schemes that do not support lookup as web pages. from pip.vcs import VcsSupport for scheme in VcsSupport.schemes: if url.lower().startswith(scheme) and url[len(scheme)] in '+:': logger.debug('Cannot look at %s URL %s', scheme, link) return None try: if skip_archives: filename = link.filename for bad_ext in ARCHIVE_EXTENSIONS: if filename.endswith(bad_ext): content_type = cls._get_content_type( url, session=session, ) if content_type.lower().startswith('text/html'): break else: logger.debug( 'Skipping page %s because of Content-Type: %s', link, content_type, ) return logger.debug('Getting page %s', url) # Tack index.html onto file:// URLs that point to directories (scheme, netloc, path, params, query, fragment) = \ urllib_parse.urlparse(url) if (scheme == 'file' and os.path.isdir(urllib_request.url2pathname(path))): # add trailing slash if not present so urljoin doesn't trim # final segment if not url.endswith('/'): url += '/' url = urllib_parse.urljoin(url, 'index.html') logger.debug(' file: URL is directory, getting %s', url) resp = session.get( url, headers={ "Accept": "text/html", "Cache-Control": "max-age=600", }, ) resp.raise_for_status() # The check for archives above only works if the url ends with # something that looks like an archive. However that is not a # requirement of an url. Unless we issue a HEAD request on every # url we cannot know ahead of time for sure if something is HTML # or not. However we can check after we've downloaded it. content_type = resp.headers.get('Content-Type', 'unknown') if not content_type.lower().startswith("text/html"): logger.debug( 'Skipping page %s because of Content-Type: %s', link, content_type, ) return inst = cls( resp.content, resp.url, resp.headers, trusted=link.trusted, ) except requests.HTTPError as exc: level = 2 if exc.response.status_code == 404 else 1 cls._handle_fail(link, exc, url, level=level) except requests.ConnectionError as exc: cls._handle_fail(link, "connection error: %s" % exc, url) except requests.Timeout: cls._handle_fail(link, "timed out", url) except SSLError as exc: reason = ("There was a problem confirming the ssl certificate: " "%s" % exc) cls._handle_fail(link, reason, url, level=2, meth=logger.info) else: return inst @staticmethod def _handle_fail(link, reason, url, level=1, meth=None): if meth is None: meth = logger.debug meth("Could not fetch URL %s: %s - skipping", link, reason) @staticmethod def _get_content_type(url, session): """Get the Content-Type of the given url, using a HEAD request""" scheme, netloc, path, query, fragment = urllib_parse.urlsplit(url) if scheme not in ('http', 'https'): # FIXME: some warning or something? # assertion error? return '' resp = session.head(url, allow_redirects=True) resp.raise_for_status() return resp.headers.get("Content-Type", "") @cached_property def api_version(self): metas = [ x for x in self.parsed.findall(".//meta") if x.get("name", "").lower() == "api-version" ] if metas: try: return int(metas[0].get("value", None)) except (TypeError, ValueError): pass return None @cached_property def base_url(self): bases = [ x for x in self.parsed.findall(".//base") if x.get("href") is not None ] if bases and bases[0].get("href"): return bases[0].get("href") else: return self.url @property def links(self): """Yields all links in the page""" for anchor in self.parsed.findall(".//a"): if anchor.get("href"): href = anchor.get("href") url = self.clean_link( urllib_parse.urljoin(self.base_url, href) ) # Determine if this link is internal. If that distinction # doesn't make sense in this context, then we don't make # any distinction. internal = None if self.api_version and self.api_version >= 2: # Only api_versions >= 2 have a distinction between # external and internal links internal = bool( anchor.get("rel") and "internal" in anchor.get("rel").split() ) yield Link(url, self, internal=internal) def rel_links(self, rels=('homepage', 'download')): """Yields all links with the given relations""" rels = set(rels) for anchor in self.parsed.findall(".//a"): if anchor.get("rel") and anchor.get("href"): found_rels = set(anchor.get("rel").split()) # Determine the intersection between what rels were found and # what rels were being looked for if found_rels & rels: href = anchor.get("href") url = self.clean_link( urllib_parse.urljoin(self.base_url, href) ) yield Link(url, self, trusted=False) _clean_re = re.compile(r'[^a-z0-9$&+,/:;=?@.#%_\\|-]', re.I) def clean_link(self, url): """Makes sure a link is fully encoded. That is, if a ' ' shows up in the link, it will be rewritten to %20 (while not over-quoting % or other characters).""" return self._clean_re.sub( lambda match: '%%%2x' % ord(match.group(0)), url) class Link(object): def __init__(self, url, comes_from=None, internal=None, trusted=None): # url can be a UNC windows share if url != Inf and url.startswith('\\\\'): url = path_to_url(url) self.url = url self.comes_from = comes_from self.internal = internal self.trusted = trusted def __str__(self): if self.comes_from: return '%s (from %s)' % (self.url, self.comes_from) else: return str(self.url) def __repr__(self): return '' % self def __eq__(self, other): if not isinstance(other, Link): return NotImplemented return self.url == other.url def __ne__(self, other): if not isinstance(other, Link): return NotImplemented return self.url != other.url def __lt__(self, other): if not isinstance(other, Link): return NotImplemented return self.url < other.url def __le__(self, other): if not isinstance(other, Link): return NotImplemented return self.url <= other.url def __gt__(self, other): if not isinstance(other, Link): return NotImplemented return self.url > other.url def __ge__(self, other): if not isinstance(other, Link): return NotImplemented return self.url >= other.url def __hash__(self): return hash(self.url) @property def filename(self): _, netloc, path, _, _ = urllib_parse.urlsplit(self.url) name = posixpath.basename(path.rstrip('/')) or netloc name = urllib_parse.unquote(name) assert name, ('URL %r produced no filename' % self.url) return name @property def scheme(self): return urllib_parse.urlsplit(self.url)[0] @property def netloc(self): return urllib_parse.urlsplit(self.url)[1] @property def path(self): return urllib_parse.unquote(urllib_parse.urlsplit(self.url)[2]) def splitext(self): return splitext(posixpath.basename(self.path.rstrip('/'))) @property def ext(self): return self.splitext()[1] @property def url_without_fragment(self): scheme, netloc, path, query, fragment = urllib_parse.urlsplit(self.url) return urllib_parse.urlunsplit((scheme, netloc, path, query, None)) _egg_fragment_re = re.compile(r'#egg=([^&]*)') @property def egg_fragment(self): match = self._egg_fragment_re.search(self.url) if not match: return None return match.group(1) _hash_re = re.compile( r'(sha1|sha224|sha384|sha256|sha512|md5)=([a-f0-9]+)' ) @property def hash(self): match = self._hash_re.search(self.url) if match: return match.group(2) return None @property def hash_name(self): match = self._hash_re.search(self.url) if match: return match.group(1) return None @property def show_url(self): return posixpath.basename(self.url.split('#', 1)[0].split('?', 1)[0]) @property def verifiable(self): """ Returns True if this link can be verified after download, False if it cannot, and None if we cannot determine. """ trusted = self.trusted or getattr(self.comes_from, "trusted", None) if trusted is not None and trusted: # This link came from a trusted source. It *may* be verifiable but # first we need to see if this page is operating under the new # API version. try: api_version = getattr(self.comes_from, "api_version", None) api_version = int(api_version) except (ValueError, TypeError): api_version = None if api_version is None or api_version <= 1: # This link is either trusted, or it came from a trusted, # however it is not operating under the API version 2 so # we can't make any claims about if it's safe or not return if self.hash: # This link came from a trusted source and it has a hash, so we # can consider it safe. return True else: # This link came from a trusted source, using the new API # version, and it does not have a hash. It is NOT verifiable return False elif trusted is not None: # This link came from an untrusted source and we cannot trust it return False @property def is_wheel(self): return self.ext == wheel_ext # An object to represent the "link" for the installed version of a requirement. # Using Inf as the url makes it sort higher. INSTALLED_VERSION = Link(Inf) Search = namedtuple('Search', 'supplied canonical formats') """Capture key aspects of a search. :attribute user: The user supplied package. :attribute canonical: The canonical package name. :attribute formats: The formats allowed for this package. Should be a set with 'binary' or 'source' or both in it. """