/usr/lib/python2.7/dist-packages/fs/sftpfs.py is in python-fs 0.5.4-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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fs.sftpfs
=========
**Currently only avaiable on Python2 due to paramiko not being available for Python3**
Filesystem accessing an SFTP server (via paramiko)
"""
import datetime
import stat as statinfo
import threading
import os
import paramiko
from getpass import getuser
import errno
from fs.base import *
from fs.path import *
from fs.errors import *
from fs.utils import isdir, isfile
from fs import iotools
ENOENT = errno.ENOENT
class WrongHostKeyError(RemoteConnectionError):
pass
# SFTPClient appears to not be thread-safe, so we use an instance per thread
if hasattr(threading, "local"):
thread_local = threading.local
#class TL(object):
# pass
#thread_local = TL
else:
class thread_local(object):
def __init__(self):
self._map = {}
def __getattr__(self, attr):
try:
return self._map[(threading.currentThread().ident, attr)]
except KeyError:
raise AttributeError(attr)
def __setattr__(self, attr, value):
self._map[(threading.currentThread().ident, attr)] = value
if not hasattr(paramiko.SFTPFile, "__enter__"):
paramiko.SFTPFile.__enter__ = lambda self: self
paramiko.SFTPFile.__exit__ = lambda self,et,ev,tb: self.close() and False
class SFTPFS(FS):
"""A filesystem stored on a remote SFTP server.
This is basically a compatibility wrapper for the excellent SFTPClient
class in the paramiko module.
"""
_meta = { 'thread_safe' : True,
'virtual': False,
'read_only' : False,
'unicode_paths' : True,
'case_insensitive_paths' : False,
'network' : True,
'atomic.move' : True,
'atomic.copy' : True,
'atomic.makedir' : True,
'atomic.rename' : True,
'atomic.setcontents' : False
}
def __init__(self,
connection,
root_path="/",
encoding=None,
hostkey=None,
username='',
password=None,
pkey=None,
agent_auth=True,
no_auth=False,
look_for_keys=True):
"""SFTPFS constructor.
The only required argument is 'connection', which must be something
from which we can construct a paramiko.SFTPClient object. Possible
values include:
* a hostname string
* a (hostname,port) tuple
* a paramiko.Transport instance
* a paramiko.Channel instance in "sftp" mode
The keyword argument 'root_path' specifies the root directory on the
remote machine - access to files outside this root will be prevented.
:param connection: a connection string
:param root_path: The root path to open
:param encoding: String encoding of paths (defaults to UTF-8)
:param hostkey: the host key expected from the server or None if you don't require server validation
:param username: Name of SFTP user
:param password: Password for SFTP user
:param pkey: Public key
:param agent_auth: attempt to authorize with the user's public keys
:param no_auth: attempt to log in without any kind of authorization
:param look_for_keys: Look for keys in the same locations as ssh,
if other authentication is not succesful
"""
credentials = dict(username=username,
password=password,
pkey=pkey)
self.credentials = credentials
if encoding is None:
encoding = "utf8"
self.encoding = encoding
self.closed = False
self._owns_transport = False
self._credentials = credentials
self._tlocal = thread_local()
self._transport = None
self._client = None
self.hostname = None
if isinstance(connection, basestring):
self.hostname = connection
elif isinstance(connection, tuple):
self.hostname = '%s:%s' % connection
super(SFTPFS, self).__init__()
self.root_path = abspath(normpath(root_path))
if isinstance(connection,paramiko.Channel):
self._transport = None
self._client = paramiko.SFTPClient(connection)
else:
if not isinstance(connection,paramiko.Transport):
connection = paramiko.Transport(connection)
connection.daemon = True
self._owns_transport = True
if hostkey is not None:
key = self.get_remote_server_key()
if hostkey != key:
raise WrongHostKeyError('Host keys do not match')
connection.start_client()
if not connection.is_active():
raise RemoteConnectionError(msg='Unable to connect')
if no_auth:
try:
connection.auth_none('')
except paramiko.SSHException:
pass
elif not connection.is_authenticated():
if not username:
username = getuser()
try:
if pkey:
connection.auth_publickey(username, pkey)
if not connection.is_authenticated() and password:
connection.auth_password(username, password)
if agent_auth and not connection.is_authenticated():
self._agent_auth(connection, username)
if look_for_keys and not connection.is_authenticated():
self._userkeys_auth(connection, username, password)
if not connection.is_authenticated():
try:
connection.auth_none(username)
except paramiko.BadAuthenticationType, e:
self.close()
allowed = ', '.join(e.allowed_types)
raise RemoteConnectionError(msg='no auth - server requires one of the following: %s' % allowed, details=e)
if not connection.is_authenticated():
self.close()
raise RemoteConnectionError(msg='no auth')
except paramiko.SSHException, e:
self.close()
raise RemoteConnectionError(msg='SSH exception (%s)' % str(e), details=e)
self._transport = connection
def __unicode__(self):
return u'<SFTPFS: %s>' % self.desc('/')
@classmethod
def _agent_auth(cls, transport, username):
"""
Attempt to authenticate to the given transport using any of the private
keys available from an SSH agent.
"""
agent = paramiko.Agent()
agent_keys = agent.get_keys()
if not agent_keys:
return None
for key in agent_keys:
try:
transport.auth_publickey(username, key)
return key
except paramiko.SSHException:
pass
return None
@classmethod
def _userkeys_auth(cls, transport, username, password):
"""
Attempt to authenticate to the given transport using any of the private
keys in the users ~/.ssh and ~/ssh dirs
Derived from http://www.lag.net/paramiko/docs/paramiko.client-pysrc.html
"""
keyfiles = []
rsa_key = os.path.expanduser('~/.ssh/id_rsa')
dsa_key = os.path.expanduser('~/.ssh/id_dsa')
if os.path.isfile(rsa_key):
keyfiles.append((paramiko.rsakey.RSAKey, rsa_key))
if os.path.isfile(dsa_key):
keyfiles.append((paramiko.dsskey.DSSKey, dsa_key))
# look in ~/ssh/ for windows users:
rsa_key = os.path.expanduser('~/ssh/id_rsa')
dsa_key = os.path.expanduser('~/ssh/id_dsa')
if os.path.isfile(rsa_key):
keyfiles.append((paramiko.rsakey.RSAKey, rsa_key))
if os.path.isfile(dsa_key):
keyfiles.append((paramiko.dsskey.DSSKey, dsa_key))
for pkey_class, filename in keyfiles:
key = pkey_class.from_private_key_file(filename, password)
try:
transport.auth_publickey(username, key)
return key
except paramiko.SSHException:
pass
return None
def __del__(self):
self.close()
@synchronize
def __getstate__(self):
state = super(SFTPFS,self).__getstate__()
del state["_tlocal"]
if self._owns_transport:
state['_transport'] = self._transport.getpeername()
return state
def __setstate__(self,state):
super(SFTPFS, self).__setstate__(state)
#for (k,v) in state.iteritems():
# self.__dict__[k] = v
#self._lock = threading.RLock()
self._tlocal = thread_local()
if self._owns_transport:
self._transport = paramiko.Transport(self._transport)
self._transport.connect(**self._credentials)
@property
@synchronize
def client(self):
if self.closed:
return None
client = getattr(self._tlocal, 'client', None)
if client is None:
if self._transport is None:
return self._client
client = paramiko.SFTPClient.from_transport(self._transport)
self._tlocal.client = client
return client
# try:
# return self._tlocal.client
# except AttributeError:
# #if self._transport is None:
# # return self._client
# client = paramiko.SFTPClient.from_transport(self._transport)
# self._tlocal.client = client
# return client
@synchronize
def close(self):
"""Close the connection to the remote server."""
if not self.closed:
self._tlocal = None
#if self.client:
# self.client.close()
if self._owns_transport and self._transport and self._transport.is_active:
self._transport.close()
self.closed = True
def _normpath(self, path):
if not isinstance(path, unicode):
path = path.decode(self.encoding)
npath = pathjoin(self.root_path, relpath(normpath(path)))
if not isprefix(self.root_path, npath):
raise PathError(path, msg="Path is outside root: %(path)s")
return npath
def getpathurl(self, path, allow_none=False):
path = self._normpath(path)
if self.hostname is None:
if allow_none:
return None
raise NoPathURLError(path=path)
username = self.credentials.get('username', '') or ''
password = self.credentials.get('password', '') or ''
credentials = ('%s:%s' % (username, password)).rstrip(':')
if credentials:
url = 'sftp://%s@%s%s' % (credentials, self.hostname.rstrip('/'), abspath(path))
else:
url = 'sftp://%s%s' % (self.hostname.rstrip('/'), abspath(path))
return url
@synchronize
@convert_os_errors
@iotools.filelike_to_stream
def open(self, path, mode='r', buffering=-1, encoding=None, errors=None, newline=None, line_buffering=False, bufsize=-1, **kwargs):
npath = self._normpath(path)
if self.isdir(path):
msg = "that's a directory: %(path)s"
raise ResourceInvalidError(path, msg=msg)
# paramiko implements its own buffering and write-back logic,
# so we don't need to use a RemoteFileBuffer here.
f = self.client.open(npath, mode, bufsize)
# Unfortunately it has a broken truncate() method.
# TODO: implement this as a wrapper
old_truncate = f.truncate
def new_truncate(size=None):
if size is None:
size = f.tell()
return old_truncate(size)
f.truncate = new_truncate
return f
@synchronize
def desc(self, path):
npath = self._normpath(path)
if self.hostname:
return u'sftp://%s%s' % (self.hostname, path)
else:
addr, port = self._transport.getpeername()
return u'sftp://%s:%i%s' % (addr, port, self.client.normalize(npath))
@synchronize
@convert_os_errors
def exists(self, path):
if path in ('', '/'):
return True
npath = self._normpath(path)
try:
self.client.stat(npath)
except IOError, e:
if getattr(e,"errno",None) == ENOENT:
return False
raise
return True
@synchronize
@convert_os_errors
def isdir(self,path):
if normpath(path) in ('', '/'):
return True
npath = self._normpath(path)
try:
stat = self.client.stat(npath)
except IOError, e:
if getattr(e,"errno",None) == ENOENT:
return False
raise
return statinfo.S_ISDIR(stat.st_mode) != 0
@synchronize
@convert_os_errors
def isfile(self,path):
npath = self._normpath(path)
try:
stat = self.client.stat(npath)
except IOError, e:
if getattr(e,"errno",None) == ENOENT:
return False
raise
return statinfo.S_ISREG(stat.st_mode) != 0
@synchronize
@convert_os_errors
def listdir(self,path="./",wildcard=None,full=False,absolute=False,dirs_only=False,files_only=False):
npath = self._normpath(path)
try:
attrs_map = None
if dirs_only or files_only:
attrs = self.client.listdir_attr(npath)
attrs_map = dict((a.filename, a) for a in attrs)
paths = list(attrs_map.iterkeys())
else:
paths = self.client.listdir(npath)
except IOError, e:
if getattr(e,"errno",None) == ENOENT:
if self.isfile(path):
raise ResourceInvalidError(path,msg="Can't list directory contents of a file: %(path)s")
raise ResourceNotFoundError(path)
elif self.isfile(path):
raise ResourceInvalidError(path,msg="Can't list directory contents of a file: %(path)s")
raise
if attrs_map:
if dirs_only:
filter_paths = []
for apath, attr in attrs_map.iteritems():
if isdir(self, path, attr.__dict__):
filter_paths.append(apath)
paths = filter_paths
elif files_only:
filter_paths = []
for apath, attr in attrs_map.iteritems():
if isfile(self, apath, attr.__dict__):
filter_paths.append(apath)
paths = filter_paths
for (i,p) in enumerate(paths):
if not isinstance(p,unicode):
paths[i] = p.decode(self.encoding)
return self._listdir_helper(path, paths, wildcard, full, absolute, False, False)
@synchronize
@convert_os_errors
def listdirinfo(self,path="./",wildcard=None,full=False,absolute=False,dirs_only=False,files_only=False):
npath = self._normpath(path)
try:
attrs = self.client.listdir_attr(npath)
attrs_map = dict((a.filename, a) for a in attrs)
paths = attrs_map.keys()
except IOError, e:
if getattr(e,"errno",None) == ENOENT:
if self.isfile(path):
raise ResourceInvalidError(path,msg="Can't list directory contents of a file: %(path)s")
raise ResourceNotFoundError(path)
elif self.isfile(path):
raise ResourceInvalidError(path,msg="Can't list directory contents of a file: %(path)s")
raise
if dirs_only:
filter_paths = []
for path, attr in attrs_map.iteritems():
if isdir(self, path, attr.__dict__):
filter_paths.append(path)
paths = filter_paths
elif files_only:
filter_paths = []
for path, attr in attrs_map.iteritems():
if isfile(self, path, attr.__dict__):
filter_paths.append(path)
paths = filter_paths
for (i, p) in enumerate(paths):
if not isinstance(p, unicode):
paths[i] = p.decode(self.encoding)
def getinfo(p):
resourcename = basename(p)
info = attrs_map.get(resourcename)
if info is None:
return self.getinfo(pathjoin(path, p))
return self._extract_info(info.__dict__)
return [(p, getinfo(p)) for p in
self._listdir_helper(path, paths, wildcard, full, absolute, False, False)]
@synchronize
@convert_os_errors
def makedir(self,path,recursive=False,allow_recreate=False):
npath = self._normpath(path)
try:
self.client.mkdir(npath)
except IOError, _e:
# Error code is unreliable, try to figure out what went wrong
try:
stat = self.client.stat(npath)
except IOError:
if not self.isdir(dirname(path)):
# Parent dir is missing
if not recursive:
raise ParentDirectoryMissingError(path)
self.makedir(dirname(path),recursive=True)
self.makedir(path,allow_recreate=allow_recreate)
else:
# Undetermined error, let the decorator handle it
raise
else:
# Destination exists
if statinfo.S_ISDIR(stat.st_mode):
if not allow_recreate:
raise DestinationExistsError(path,msg="Can't create a directory that already exists (try allow_recreate=True): %(path)s")
else:
raise ResourceInvalidError(path,msg="Can't create directory, there's already a file of that name: %(path)s")
@synchronize
@convert_os_errors
def remove(self,path):
npath = self._normpath(path)
try:
self.client.remove(npath)
except IOError, e:
if getattr(e,"errno",None) == ENOENT:
raise ResourceNotFoundError(path)
elif self.isdir(path):
raise ResourceInvalidError(path,msg="Cannot use remove() on a directory: %(path)s")
raise
@synchronize
@convert_os_errors
def removedir(self,path,recursive=False,force=False):
npath = self._normpath(path)
if normpath(path) in ('', '/'):
raise RemoveRootError(path)
if force:
for path2 in self.listdir(path,absolute=True):
try:
self.remove(path2)
except ResourceInvalidError:
self.removedir(path2,force=True)
if not self.exists(path):
raise ResourceNotFoundError(path)
try:
self.client.rmdir(npath)
except IOError, e:
if getattr(e,"errno",None) == ENOENT:
if self.isfile(path):
raise ResourceInvalidError(path,msg="Can't use removedir() on a file: %(path)s")
raise ResourceNotFoundError(path)
elif self.listdir(path):
raise DirectoryNotEmptyError(path)
raise
if recursive:
try:
if dirname(path) not in ('', '/'):
self.removedir(dirname(path),recursive=True)
except DirectoryNotEmptyError:
pass
@synchronize
@convert_os_errors
def rename(self,src,dst):
nsrc = self._normpath(src)
ndst = self._normpath(dst)
try:
self.client.rename(nsrc,ndst)
except IOError, e:
if getattr(e,"errno",None) == ENOENT:
raise ResourceNotFoundError(src)
if not self.isdir(dirname(dst)):
raise ParentDirectoryMissingError(dst)
raise
@synchronize
@convert_os_errors
def move(self,src,dst,overwrite=False,chunk_size=16384):
nsrc = self._normpath(src)
ndst = self._normpath(dst)
if overwrite and self.isfile(dst):
self.remove(dst)
try:
self.client.rename(nsrc,ndst)
except IOError, e:
if getattr(e,"errno",None) == ENOENT:
raise ResourceNotFoundError(src)
if self.exists(dst):
raise DestinationExistsError(dst)
if not self.isdir(dirname(dst)):
raise ParentDirectoryMissingError(dst,msg="Destination directory does not exist: %(path)s")
raise
@synchronize
@convert_os_errors
def movedir(self,src,dst,overwrite=False,ignore_errors=False,chunk_size=16384):
nsrc = self._normpath(src)
ndst = self._normpath(dst)
if overwrite and self.isdir(dst):
self.removedir(dst)
try:
self.client.rename(nsrc,ndst)
except IOError, e:
if getattr(e,"errno",None) == ENOENT:
raise ResourceNotFoundError(src)
if self.exists(dst):
raise DestinationExistsError(dst)
if not self.isdir(dirname(dst)):
raise ParentDirectoryMissingError(dst,msg="Destination directory does not exist: %(path)s")
raise
_info_vars = frozenset('st_size st_uid st_gid st_mode st_atime st_mtime'.split())
@classmethod
def _extract_info(cls, stats):
fromtimestamp = datetime.datetime.fromtimestamp
info = dict((k, v) for k, v in stats.iteritems() if k in cls._info_vars and not k.startswith('_'))
info['size'] = info['st_size']
ct = info.get('st_ctime')
if ct is not None:
info['created_time'] = fromtimestamp(ct)
at = info.get('st_atime')
if at is not None:
info['accessed_time'] = fromtimestamp(at)
mt = info.get('st_mtime')
if mt is not None:
info['modified_time'] = fromtimestamp(mt)
return info
@synchronize
@convert_os_errors
def getinfo(self, path):
npath = self._normpath(path)
stats = self.client.stat(npath)
info = dict((k, getattr(stats, k)) for k in dir(stats) if not k.startswith('_'))
info['size'] = info['st_size']
ct = info.get('st_ctime', None)
if ct is not None:
info['created_time'] = datetime.datetime.fromtimestamp(ct)
at = info.get('st_atime', None)
if at is not None:
info['accessed_time'] = datetime.datetime.fromtimestamp(at)
mt = info.get('st_mtime', None)
if mt is not None:
info['modified_time'] = datetime.datetime.fromtimestamp(mt)
return info
@synchronize
@convert_os_errors
def getsize(self, path):
npath = self._normpath(path)
stats = self.client.stat(npath)
return stats.st_size
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