import sys
import shutil
import os
import stat
import re
import posixpath
import zipfile
import tarfile
import subprocess
import textwrap
from pip.exceptions import InstallationError, BadCommand, PipError
from pip.backwardcompat import(WindowsError, string_types, raw_input,
console_to_str, user_site, PermissionError)
from pip.locations import site_packages, running_under_virtualenv, virtualenv_no_global
from pip.log import logger
from pip._vendor import pkg_resources
from pip._vendor.distlib import version
__all__ = ['rmtree', 'display_path', 'backup_dir',
'find_command', 'ask', 'Inf',
'normalize_name', 'splitext',
'format_size', 'is_installable_dir',
'is_svn_page', 'file_contents',
'split_leading_dir', 'has_leading_dir',
'make_path_relative', 'normalize_path',
'renames', 'get_terminal_size', 'get_prog',
'unzip_file', 'untar_file', 'create_download_cache_folder',
'cache_download', 'unpack_file', 'call_subprocess']
def get_prog():
try:
if os.path.basename(sys.argv[0]) in ('__main__.py', '-c'):
return "%s -m pip" % sys.executable
except (AttributeError, TypeError, IndexError):
pass
return 'pip'
def rmtree(dir, ignore_errors=False):
shutil.rmtree(dir, ignore_errors=ignore_errors,
onerror=rmtree_errorhandler)
def rmtree_errorhandler(func, path, exc_info):
"""On Windows, the files in .svn are read-only, so when rmtree() tries to
remove them, an exception is thrown. We catch that here, remove the
read-only attribute, and hopefully continue without problems."""
exctype, value = exc_info[:2]
if not ((exctype is WindowsError and value.args[0] == 5) or #others
(exctype is OSError and value.args[0] == 13) or #python2.4
(exctype is PermissionError and value.args[3] == 5) #python3.3
):
raise
# file type should currently be read only
if ((os.stat(path).st_mode & stat.S_IREAD) != stat.S_IREAD):
raise
# convert to read/write
os.chmod(path, stat.S_IWRITE)
# use the original function to repeat the operation
func(path)
def display_path(path):
"""Gives the display value for a given path, making it relative to cwd
if possible."""
path = os.path.normcase(os.path.abspath(path))
if path.startswith(os.getcwd() + os.path.sep):
path = '.' + path[len(os.getcwd()):]
return path
def backup_dir(dir, ext='.bak'):
"""Figure out the name of a directory to back up the given dir to
(adding .bak, .bak2, etc)"""
n = 1
extension = ext
while os.path.exists(dir + extension):
n += 1
extension = ext + str(n)
return dir + extension
def find_command(cmd, paths=None, pathext=None):
"""Searches the PATH for the given command and returns its path"""
if paths is None:
paths = os.environ.get('PATH', '').split(os.pathsep)
if isinstance(paths, string_types):
paths = [paths]
# check if there are funny path extensions for executables, e.g. Windows
if pathext is None:
pathext = get_pathext()
pathext = [ext for ext in pathext.lower().split(os.pathsep) if len(ext)]
# don't use extensions if the command ends with one of them
if os.path.splitext(cmd)[1].lower() in pathext:
pathext = ['']
# check if we find the command on PATH
for path in paths:
# try without extension first
cmd_path = os.path.join(path, cmd)
for ext in pathext:
# then including the extension
cmd_path_ext = cmd_path + ext
if os.path.isfile(cmd_path_ext):
return cmd_path_ext
if os.path.isfile(cmd_path):
return cmd_path
raise BadCommand('Cannot find command %r' % cmd)
def get_pathext(default_pathext=None):
"""Returns the path extensions from environment or a default"""
if default_pathext is None:
default_pathext = os.pathsep.join(['.COM', '.EXE', '.BAT', '.CMD'])
pathext = os.environ.get('PATHEXT', default_pathext)
return pathext
def ask_path_exists(message, options):
for action in os.environ.get('PIP_EXISTS_ACTION', '').split():
if action in options:
return action
return ask(message, options)
def ask(message, options):
"""Ask the message interactively, with the given possible responses"""
while 1:
if os.environ.get('PIP_NO_INPUT'):
raise Exception('No input was expected ($PIP_NO_INPUT set); question: %s' % message)
response = raw_input(message)
response = response.strip().lower()
if response not in options:
print('Your response (%r) was not one of the expected responses: %s' % (
response, ', '.join(options)))
else:
return response
class _Inf(object):
"""I am bigger than everything!"""
def __eq__(self, other):
if self is other:
return True
else:
return False
def __ne__(self, other):
return not self.__eq__(other)
def __lt__(self, other):
return False
def __le__(self, other):
return False
def __gt__(self, other):
return True
def __ge__(self, other):
return True
def __repr__(self):
return 'Inf'
Inf = _Inf() #this object is not currently used as a sortable in our code
del _Inf
_normalize_re = re.compile(r'[^a-z]', re.I)
def normalize_name(name):
return _normalize_re.sub('-', name.lower())
def format_size(bytes):
if bytes > 1000*1000:
return '%.1fMB' % (bytes/1000.0/1000)
elif bytes > 10*1000:
return '%ikB' % (bytes/1000)
elif bytes > 1000:
return '%.1fkB' % (bytes/1000.0)
else:
return '%ibytes' % bytes
def is_installable_dir(path):
"""Return True if `path` is a directory containing a setup.py file."""
if not os.path.isdir(path):
return False
setup_py = os.path.join(path, 'setup.py')
if os.path.isfile(setup_py):
return True
return False
def is_svn_page(html):
"""Returns true if the page appears to be the index page of an svn repository"""
return (re.search(r'
[^<]*Revision \d+:', html)
and re.search(r'Powered by (?:]*?>)?Subversion', html, re.I))
def file_contents(filename):
fp = open(filename, 'rb')
try:
return fp.read().decode('utf-8')
finally:
fp.close()
def split_leading_dir(path):
path = str(path)
path = path.lstrip('/').lstrip('\\')
if '/' in path and (('\\' in path and path.find('/') < path.find('\\'))
or '\\' not in path):
return path.split('/', 1)
elif '\\' in path:
return path.split('\\', 1)
else:
return path, ''
def has_leading_dir(paths):
"""Returns true if all the paths have the same leading path name
(i.e., everything is in one subdirectory in an archive)"""
common_prefix = None
for path in paths:
prefix, rest = split_leading_dir(path)
if not prefix:
return False
elif common_prefix is None:
common_prefix = prefix
elif prefix != common_prefix:
return False
return True
def make_path_relative(path, rel_to):
"""
Make a filename relative, where the filename path, and it is
relative to rel_to
>>> make_relative_path('/usr/share/something/a-file.pth',
... '/usr/share/another-place/src/Directory')
'../../../something/a-file.pth'
>>> make_relative_path('/usr/share/something/a-file.pth',
... '/home/user/src/Directory')
'../../../usr/share/something/a-file.pth'
>>> make_relative_path('/usr/share/a-file.pth', '/usr/share/')
'a-file.pth'
"""
path_filename = os.path.basename(path)
path = os.path.dirname(path)
path = os.path.normpath(os.path.abspath(path))
rel_to = os.path.normpath(os.path.abspath(rel_to))
path_parts = path.strip(os.path.sep).split(os.path.sep)
rel_to_parts = rel_to.strip(os.path.sep).split(os.path.sep)
while path_parts and rel_to_parts and path_parts[0] == rel_to_parts[0]:
path_parts.pop(0)
rel_to_parts.pop(0)
full_parts = ['..']*len(rel_to_parts) + path_parts + [path_filename]
if full_parts == ['']:
return '.' + os.path.sep
return os.path.sep.join(full_parts)
def normalize_path(path):
"""
Convert a path to its canonical, case-normalized, absolute version.
"""
return os.path.normcase(os.path.realpath(os.path.expanduser(path)))
def splitext(path):
"""Like os.path.splitext, but take off .tar too"""
base, ext = posixpath.splitext(path)
if base.lower().endswith('.tar'):
ext = base[-4:] + ext
base = base[:-4]
return base, ext
def renames(old, new):
"""Like os.renames(), but handles renaming across devices."""
# Implementation borrowed from os.renames().
head, tail = os.path.split(new)
if head and tail and not os.path.exists(head):
os.makedirs(head)
shutil.move(old, new)
head, tail = os.path.split(old)
if head and tail:
try:
os.removedirs(head)
except OSError:
pass
def is_local(path):
"""
Return True if path is within sys.prefix, if we're running in a virtualenv.
If we're not in a virtualenv, all paths are considered "local."
"""
if not running_under_virtualenv():
return True
return normalize_path(path).startswith(normalize_path(sys.prefix))
def dist_is_local(dist):
"""
Return True if given Distribution object is installed locally
(i.e. within current virtualenv).
Always True if we're not in a virtualenv.
"""
return is_local(dist_location(dist))
def dist_in_usersite(dist):
"""
Return True if given Distribution is installed in user site.
"""
if user_site:
return normalize_path(dist_location(dist)).startswith(normalize_path(user_site))
else:
return False
def dist_in_site_packages(dist):
"""
Return True if given Distribution is installed in distutils.sysconfig.get_python_lib().
"""
return normalize_path(dist_location(dist)).startswith(normalize_path(site_packages))
def dist_is_editable(dist):
"""Is distribution an editable install?"""
#TODO: factor out determining editableness out of FrozenRequirement
from pip import FrozenRequirement
req = FrozenRequirement.from_dist(dist, [])
return req.editable
def get_installed_distributions(local_only=True,
skip=('setuptools', 'pip', 'python', 'distribute'),
include_editables=True,
editables_only=False):
"""
Return a list of installed Distribution objects.
If ``local_only`` is True (default), only return installations
local to the current virtualenv, if in a virtualenv.
``skip`` argument is an iterable of lower-case project names to
ignore; defaults to ('setuptools', 'pip', 'python'). [FIXME also
skip virtualenv?]
If ``editables`` is False, don't report editables.
If ``editables_only`` is True , only report editables.
"""
if local_only:
local_test = dist_is_local
else:
local_test = lambda d: True
if include_editables:
editable_test = lambda d: True
else:
editable_test = lambda d: not dist_is_editable(d)
if editables_only:
editables_only_test = lambda d: dist_is_editable(d)
else:
editables_only_test = lambda d: True
return [d for d in pkg_resources.working_set
if local_test(d)
and d.key not in skip
and editable_test(d)
and editables_only_test(d)
]
def egg_link_path(dist):
"""
Return the path for the .egg-link file if it exists, otherwise, None.
There's 3 scenarios:
1) not in a virtualenv
try to find in site.USER_SITE, then site_packages
2) in a no-global virtualenv
try to find in site_packages
3) in a yes-global virtualenv
try to find in site_packages, then site.USER_SITE (don't look in global location)
For #1 and #3, there could be odd cases, where there's an egg-link in 2 locations.
This method will just return the first one found.
"""
sites = []
if running_under_virtualenv():
if virtualenv_no_global():
sites.append(site_packages)
else:
sites.append(site_packages)
if user_site:
sites.append(user_site)
else:
if user_site:
sites.append(user_site)
sites.append(site_packages)
for site in sites:
egglink = os.path.join(site, dist.project_name) + '.egg-link'
if os.path.isfile(egglink):
return egglink
def dist_location(dist):
"""
Get the site-packages location of this distribution. Generally
this is dist.location, except in the case of develop-installed
packages, where dist.location is the source code location, and we
want to know where the egg-link file is.
"""
egg_link = egg_link_path(dist)
if egg_link:
return egg_link
return dist.location
def get_terminal_size():
"""Returns a tuple (x, y) representing the width(x) and the height(x)
in characters of the terminal window."""
def ioctl_GWINSZ(fd):
try:
import fcntl
import termios
import struct
cr = struct.unpack('hh', fcntl.ioctl(fd, termios.TIOCGWINSZ,
'1234'))
except:
return None
if cr == (0, 0):
return None
if cr == (0, 0):
return None
return cr
cr = ioctl_GWINSZ(0) or ioctl_GWINSZ(1) or ioctl_GWINSZ(2)
if not cr:
try:
fd = os.open(os.ctermid(), os.O_RDONLY)
cr = ioctl_GWINSZ(fd)
os.close(fd)
except:
pass
if not cr:
cr = (os.environ.get('LINES', 25), os.environ.get('COLUMNS', 80))
return int(cr[1]), int(cr[0])
def current_umask():
"""Get the current umask which involves having to set it temporarily."""
mask = os.umask(0)
os.umask(mask)
return mask
def unzip_file(filename, location, flatten=True):
"""
Unzip the file (with path `filename`) to the destination `location`. All
files are written based on system defaults and umask (i.e. permissions are
not preserved), except that regular file members with any execute
permissions (user, group, or world) have "chmod +x" applied after being
written. Note that for windows, any execute changes using os.chmod are
no-ops per the python docs.
"""
if not os.path.exists(location):
os.makedirs(location)
zipfp = open(filename, 'rb')
try:
zip = zipfile.ZipFile(zipfp)
leading = has_leading_dir(zip.namelist()) and flatten
for info in zip.infolist():
name = info.filename
data = zip.read(name)
fn = name
if leading:
fn = split_leading_dir(name)[1]
fn = os.path.join(location, fn)
dir = os.path.dirname(fn)
if not os.path.exists(dir):
os.makedirs(dir)
if fn.endswith('/') or fn.endswith('\\'):
# A directory
if not os.path.exists(fn):
os.makedirs(fn)
else:
fp = open(fn, 'wb')
try:
fp.write(data)
finally:
fp.close()
mode = info.external_attr >> 16
# if mode and regular file and any execute permissions for user/group/world?
if mode and stat.S_ISREG(mode) and mode & 0o111:
# make dest file have execute for user/group/world (chmod +x)
# no-op on windows per python docs
os.chmod(fn, (0o777-current_umask() | 0o111))
finally:
zipfp.close()
def untar_file(filename, location):
"""
Untar the file (with path `filename`) to the destination `location`.
All files are written based on system defaults and umask (i.e. permissions
are not preserved), except that regular file members with any execute
permissions (user, group, or world) have "chmod +x" applied after being
written. Note that for windows, any execute changes using os.chmod are
no-ops per the python docs.
"""
if not os.path.exists(location):
os.makedirs(location)
if filename.lower().endswith('.gz') or filename.lower().endswith('.tgz'):
mode = 'r:gz'
elif filename.lower().endswith('.bz2') or filename.lower().endswith('.tbz'):
mode = 'r:bz2'
elif filename.lower().endswith('.tar'):
mode = 'r'
else:
logger.warn('Cannot determine compression type for file %s' % filename)
mode = 'r:*'
tar = tarfile.open(filename, mode)
try:
# note: python<=2.5 doesnt seem to know about pax headers, filter them
leading = has_leading_dir([
member.name for member in tar.getmembers()
if member.name != 'pax_global_header'
])
for member in tar.getmembers():
fn = member.name
if fn == 'pax_global_header':
continue
if leading:
fn = split_leading_dir(fn)[1]
path = os.path.join(location, fn)
if member.isdir():
if not os.path.exists(path):
os.makedirs(path)
elif member.issym():
try:
tar._extract_member(member, path)
except:
e = sys.exc_info()[1]
# Some corrupt tar files seem to produce this
# (specifically bad symlinks)
logger.warn(
'In the tar file %s the member %s is invalid: %s'
% (filename, member.name, e))
continue
else:
try:
fp = tar.extractfile(member)
except (KeyError, AttributeError):
e = sys.exc_info()[1]
# Some corrupt tar files seem to produce this
# (specifically bad symlinks)
logger.warn(
'In the tar file %s the member %s is invalid: %s'
% (filename, member.name, e))
continue
if not os.path.exists(os.path.dirname(path)):
os.makedirs(os.path.dirname(path))
destfp = open(path, 'wb')
try:
shutil.copyfileobj(fp, destfp)
finally:
destfp.close()
fp.close()
# member have any execute permissions for user/group/world?
if member.mode & 0o111:
# make dest file have execute for user/group/world
# no-op on windows per python docs
os.chmod(path, (0o777-current_umask() | 0o111))
finally:
tar.close()
def create_download_cache_folder(folder):
logger.indent -= 2
logger.notify('Creating supposed download cache at %s' % folder)
logger.indent += 2
os.makedirs(folder)
def cache_download(target_file, temp_location, content_type):
logger.notify('Storing download in cache at %s' % display_path(target_file))
shutil.copyfile(temp_location, target_file)
fp = open(target_file+'.content-type', 'w')
fp.write(content_type)
fp.close()
def unpack_file(filename, location, content_type, link):
filename = os.path.realpath(filename)
if (content_type == 'application/zip'
or filename.endswith('.zip')
or filename.endswith('.pybundle')
or filename.endswith('.whl')
or zipfile.is_zipfile(filename)):
unzip_file(filename, location, flatten=not filename.endswith(('.pybundle', '.whl')))
elif (content_type == 'application/x-gzip'
or tarfile.is_tarfile(filename)
or splitext(filename)[1].lower() in ('.tar', '.tar.gz', '.tar.bz2', '.tgz', '.tbz')):
untar_file(filename, location)
elif (content_type and content_type.startswith('text/html')
and is_svn_page(file_contents(filename))):
# We don't really care about this
from pip.vcs.subversion import Subversion
Subversion('svn+' + link.url).unpack(location)
else:
## FIXME: handle?
## FIXME: magic signatures?
logger.fatal('Cannot unpack file %s (downloaded from %s, content-type: %s); cannot detect archive format'
% (filename, location, content_type))
raise InstallationError('Cannot determine archive format of %s' % location)
def call_subprocess(cmd, show_stdout=True,
filter_stdout=None, cwd=None,
raise_on_returncode=True,
command_level=logger.DEBUG, command_desc=None,
extra_environ=None):
if command_desc is None:
cmd_parts = []
for part in cmd:
if ' ' in part or '\n' in part or '"' in part or "'" in part:
part = '"%s"' % part.replace('"', '\\"')
cmd_parts.append(part)
command_desc = ' '.join(cmd_parts)
if show_stdout:
stdout = None
else:
stdout = subprocess.PIPE
logger.log(command_level, "Running command %s" % command_desc)
env = os.environ.copy()
if extra_environ:
env.update(extra_environ)
try:
proc = subprocess.Popen(
cmd, stderr=subprocess.STDOUT, stdin=None, stdout=stdout,
cwd=cwd, env=env)
except Exception:
e = sys.exc_info()[1]
logger.fatal(
"Error %s while executing command %s" % (e, command_desc))
raise
all_output = []
if stdout is not None:
stdout = proc.stdout
while 1:
line = console_to_str(stdout.readline())
if not line:
break
line = line.rstrip()
all_output.append(line + '\n')
if filter_stdout:
level = filter_stdout(line)
if isinstance(level, tuple):
level, line = level
logger.log(level, line)
if not logger.stdout_level_matches(level):
logger.show_progress()
else:
logger.info(line)
else:
returned_stdout, returned_stderr = proc.communicate()
all_output = [returned_stdout or '']
proc.wait()
if proc.returncode:
if raise_on_returncode:
if all_output:
logger.notify('Complete output from command %s:' % command_desc)
logger.notify('\n'.join(all_output) + '\n----------------------------------------')
raise InstallationError(
"Command %s failed with error code %s in %s"
% (command_desc, proc.returncode, cwd))
else:
logger.warn(
"Command %s had error code %s in %s"
% (command_desc, proc.returncode, cwd))
if stdout is not None:
return ''.join(all_output)
def is_prerelease(vers):
"""
Attempt to determine if this is a pre-release using PEP386/PEP426 rules.
Will return True if it is a pre-release and False if not. Versions are
assumed to be a pre-release if they cannot be parsed.
"""
normalized = version._suggest_normalized_version(vers)
if normalized is None:
# Cannot normalize, assume it is a pre-release
return True
parsed = version._normalized_key(normalized)
return any([any([y in set(["a", "b", "c", "rc", "dev"]) for y in x]) for x in parsed])