/usr/lib/python2.7/dist-packages/fs/s3fs.py is in python-fs 0.4.0-2.
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fs.s3fs
=======
FS subclass accessing files in Amazon S3
This module provides the class 'S3FS', which implements the FS filesystem
interface for objects stored in Amazon Simple Storage Service (S3).
"""
import os
import datetime
import tempfile
from fnmatch import fnmatch
import stat as statinfo
import boto.s3.connection
from boto.s3.prefix import Prefix
from boto.exception import S3ResponseError
from fs.base import *
from fs.path import *
from fs.errors import *
from fs.remote import *
from fs.filelike import LimitBytesFile
# Boto is not thread-safe, so we need to use a per-thread S3 connection.
if hasattr(threading,"local"):
thread_local = threading.local
else:
class thread_local(object):
def __init__(self):
self._map = {}
def __getattr__(self,attr):
try:
return self._map[(threading.currentThread(),attr)]
except KeyError:
raise AttributeError, attr
def __setattr__(self,attr,value):
self._map[(threading.currentThread(),attr)] = value
class S3FS(FS):
"""A filesystem stored in Amazon S3.
This class provides the FS interface for files stored in Amazon's Simple
Storage Service (S3). It should be instantiated with the name of the
S3 bucket to use, and optionally a prefix under which the files should
be stored.
Local temporary files are used when opening files from this filesystem,
and any changes are only pushed back into S3 when the files are closed
or flushed.
"""
_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' : False,
'atomic.setconetns' : True
}
class meta:
PATH_MAX = None
NAME_MAX = None
def __init__(self, bucket, prefix="", aws_access_key=None, aws_secret_key=None, separator="/", thread_synchronize=True, key_sync_timeout=1):
"""Constructor for S3FS objects.
S3FS objects require the name of the S3 bucket in which to store
files, and can optionally be given a prefix under which the files
should be stored. The AWS public and private keys may be specified
as additional arguments; if they are not specified they will be
read from the two environment variables AWS_ACCESS_KEY_ID and
AWS_SECRET_ACCESS_KEY.
The keyword argument 'key_sync_timeout' specifies the maximum
time in seconds that the filesystem will spend trying to confirm
that a newly-uploaded S3 key is available for reading. For no
timeout set it to zero. To disable these checks entirely (and
thus reduce the filesystem's consistency guarantees to those of
S3's "eventual consistency" model) set it to None.
By default the path separator is "/", but this can be overridden
by specifying the keyword 'separator' in the constructor.
"""
self._bucket_name = bucket
self._access_keys = (aws_access_key,aws_secret_key)
self._separator = separator
self._key_sync_timeout = key_sync_timeout
# Normalise prefix to this form: path/to/files/
prefix = normpath(prefix)
while prefix.startswith(separator):
prefix = prefix[1:]
if not prefix.endswith(separator) and prefix != "":
prefix = prefix + separator
if isinstance(prefix,unicode):
prefix = prefix.encode("utf8")
if aws_access_key is None:
if "AWS_ACCESS_KEY_ID" not in os.environ:
raise CreateFailedError("AWS_ACCESS_KEY_ID not set")
if aws_secret_key is None:
if "AWS_SECRET_ACCESS_KEY" not in os.environ:
raise CreateFailedError("AWS_SECRET_ACCESS_KEY not set")
self._prefix = prefix
self._tlocal = thread_local()
super(S3FS, self).__init__(thread_synchronize=thread_synchronize)
# Make _s3conn and _s3bukt properties that are created on demand,
# since they cannot be stored during pickling.
def _s3conn(self):
try:
(c,ctime) = self._tlocal.s3conn
if time.time() - ctime > 60:
raise AttributeError
return c
except AttributeError:
c = boto.s3.connection.S3Connection(*self._access_keys)
self._tlocal.s3conn = (c,time.time())
return c
_s3conn = property(_s3conn)
def _s3bukt(self):
try:
(b,ctime) = self._tlocal.s3bukt
if time.time() - ctime > 60:
raise AttributeError
return b
except AttributeError:
try:
b = self._s3conn.get_bucket(self._bucket_name, validate=True)
except S3ResponseError, e:
if "404 Not Found" not in str(e):
raise
b = self._s3conn.create_bucket(self._bucket_name)
self._tlocal.s3bukt = (b,time.time())
return b
_s3bukt = property(_s3bukt)
def __getstate__(self):
state = super(S3FS,self).__getstate__()
del state['_tlocal']
return state
def __setstate__(self,state):
super(S3FS,self).__setstate__(state)
self._tlocal = thread_local()
def __str__(self):
args = (self.__class__.__name__,self._bucket_name,self._prefix)
return '<%s: %s:%s>' % args
__repr__ = __str__
def _s3path(self,path):
"""Get the absolute path to a file stored in S3."""
path = relpath(normpath(path))
path = self._separator.join(iteratepath(path))
s3path = self._prefix + path
if s3path and s3path[-1] == self._separator:
s3path = s3path[:-1]
if isinstance(s3path,unicode):
s3path = s3path.encode("utf8")
return s3path
def _uns3path(self,s3path,roots3path=None):
"""Get the local path for a file stored in S3.
This is essentially the opposite of self._s3path().
"""
if roots3path is None:
roots3path = self._s3path("")
i = len(roots3path)
return s3path[i:]
def _sync_key(self,k):
"""Synchronise on contents of the given key.
Since S3 only offers "eventual consistency" of data, it is possible
to create a key but be unable to read it back straight away. This
method works around that limitation by polling the key until it reads
back the value expected by the given key.
Note that this could easily fail if the key is modified by another
program, meaning the content will never be as specified in the given
key. This is the reason for the timeout argument to the construtcor.
"""
timeout = self._key_sync_timeout
if timeout is None:
return k
k2 = self._s3bukt.get_key(k.name)
t = time.time()
while k2 is None or k2.etag != k.etag:
if timeout > 0:
if t + timeout < time.time():
break
time.sleep(0.1)
k2 = self._s3bukt.get_key(k.name)
return k2
def _sync_set_contents(self,key,contents):
"""Synchronously set the contents of a key."""
if isinstance(key,basestring):
key = self._s3bukt.new_key(key)
if isinstance(contents,basestring):
key.set_contents_from_string(contents)
elif hasattr(contents,"md5"):
hexmd5 = contents.md5
b64md5 = hexmd5.decode("hex").encode("base64").strip()
key.set_contents_from_file(contents,md5=(hexmd5,b64md5))
else:
try:
contents.seek(0)
except (AttributeError,EnvironmentError):
tf = tempfile.TemporaryFile()
data = contents.read(524288)
while data:
tf.write(data)
data = contents.read(524288)
tf.seek(0)
key.set_contents_from_file(tf)
else:
key.set_contents_from_file(contents)
return self._sync_key(key)
def makepublic(self, path):
"""Mark given path as publicly accessible using HTTP(S)"""
s3path = self._s3path(path)
k = self._s3bukt.get_key(s3path)
k.make_public()
def getpathurl(self, path, allow_none=False, expires=3600):
"""Returns a url that corresponds to the given path."""
s3path = self._s3path(path)
k = self._s3bukt.get_key(s3path)
# Is there AllUsers group with READ permissions?
is_public = True in [grant.permission == 'READ' and \
grant.uri == 'http://acs.amazonaws.com/groups/global/AllUsers'
for grant in k.get_acl().acl.grants ]
url = k.generate_url(expires, force_http=is_public)
if url == None:
if not allow_none:
raise NoPathURLError(path=path)
return None
if is_public:
# Strip time token; it has no sense for public resource
url = url.split('?')[0]
return url
def setcontents(self, path, data, chunk_size=64*1024):
s3path = self._s3path(path)
self._sync_set_contents(s3path, data)
def open(self,path,mode="r"):
"""Open the named file in the given mode.
This method downloads the file contents into a local temporary file
so that it can be worked on efficiently. Any changes made to the
file are only sent back to S3 when the file is flushed or closed.
"""
if self.isdir(path):
raise ResourceInvalidError(path)
s3path = self._s3path(path)
# Truncate the file if requested
if "w" in mode:
k = self._sync_set_contents(s3path,"")
else:
k = self._s3bukt.get_key(s3path)
if k is None:
# Create the file if it's missing
if "w" not in mode and "a" not in mode:
raise ResourceNotFoundError(path)
if not self.isdir(dirname(path)):
raise ParentDirectoryMissingError(path)
k = self._sync_set_contents(s3path,"")
# Make sure nothing tries to read past end of socket data
f = LimitBytesFile(k.size,k,"r")
# For streaming reads, return the key object directly
if mode == "r-":
return f
# For everything else, use a RemoteFileBuffer.
# This will take care of closing the socket when it's done.
return RemoteFileBuffer(self,path,mode,f)
def exists(self,path):
"""Check whether a path exists."""
s3path = self._s3path(path)
s3pathD = s3path + self._separator
# The root directory always exists
if self._prefix.startswith(s3path):
return True
ks = self._s3bukt.list(prefix=s3path,delimiter=self._separator)
for k in ks:
# A regular file
if _eq_utf8(k.name,s3path):
return True
# A directory
if _eq_utf8(k.name,s3pathD):
return True
return False
def isdir(self,path):
"""Check whether a path exists and is a directory."""
s3path = self._s3path(path) + self._separator
# Root is always a directory
if s3path == "/" or s3path == self._prefix:
return True
# Use a list request so that we return true if there are any files
# in that directory. This avoids requiring a special file for the
# the directory itself, which other tools may not create.
ks = self._s3bukt.list(prefix=s3path,delimiter=self._separator)
try:
iter(ks).next()
except StopIteration:
return False
else:
return True
def isfile(self,path):
"""Check whether a path exists and is a regular file."""
s3path = self._s3path(path)
# Root is never a file
if self._prefix.startswith(s3path):
return False
k = self._s3bukt.get_key(s3path)
if k is not None:
return True
return False
def listdir(self,path="./",wildcard=None,full=False,absolute=False,
dirs_only=False,files_only=False):
"""List contents of a directory."""
return list(self.ilistdir(path,wildcard,full,absolute,
dirs_only,files_only))
def listdirinfo(self,path="./",wildcard=None,full=False,absolute=False,
dirs_only=False,files_only=False):
return list(self.ilistdirinfo(path,wildcard,full,absolute,
dirs_only,files_only))
def ilistdir(self,path="./",wildcard=None,full=False,absolute=False,
dirs_only=False,files_only=False):
"""List contents of a directory."""
keys = self._iter_keys(path)
entries = self._filter_keys(path,keys,wildcard,full,absolute,
dirs_only,files_only)
return (nm for (nm,k) in entries)
def ilistdirinfo(self,path="./",wildcard=None,full=False,absolute=False,
dirs_only=False,files_only=False):
keys = self._iter_keys(path)
entries = self._filter_keys(path,keys,wildcard,full,absolute,
dirs_only,files_only)
return ((nm,self._get_key_info(k,nm)) for (nm,k) in entries)
def _iter_keys(self,path):
"""Iterator over keys contained in the given directory.
This generator yields (name,key) pairs for each entry in the given
directory. If the path is not a directory, it raises the approprate
error.
"""
s3path = self._s3path(path) + self._separator
if s3path == "/":
s3path = ""
isDir = False
for k in self._s3bukt.list(prefix=s3path,delimiter=self._separator):
if not isDir:
isDir = True
# Skip over the entry for the directory itself, if it exists
name = self._uns3path(k.name,s3path)
if name != "":
if not isinstance(name,unicode):
name = name.decode("utf8")
if name.endswith(self._separator):
name = name[:-1]
yield (name,k)
if not isDir:
if s3path != self._prefix:
if self.isfile(path):
msg = "that's not a directory: %(path)s"
raise ResourceInvalidError(path,msg=msg)
raise ResourceNotFoundError(path)
def _key_is_dir(self, k):
if isinstance(k,Prefix):
return True
if k.name.endswith(self._separator):
return True
return False
def _filter_keys(self,path,keys,wildcard,full,absolute,
dirs_only,files_only):
"""Filter out keys not matching the given criteria.
Given a (name,key) iterator as returned by _iter_keys, this method
applies the given filtering criteria and returns a filtered iterator.
"""
sep = self._separator
if dirs_only and files_only:
raise ValueError("dirs_only and files_only can not both be True")
if dirs_only:
keys = ((nm,k) for (nm,k) in keys if self._key_is_dir(k))
elif files_only:
keys = ((nm,k) for (nm,k) in keys if not self._key_is_dir(k))
if wildcard is not None:
if callable(wildcard):
keys = ((nm,k) for (nm,k) in keys if wildcard(nm))
else:
keys = ((nm,k) for (nm,k) in keys if fnmatch(nm,wildcard))
if full:
return ((relpath(pathjoin(path, nm)),k) for (nm,k) in keys)
elif absolute:
return ((abspath(pathjoin(path, nm)),k) for (nm,k) in keys)
return keys
def makedir(self,path,recursive=False,allow_recreate=False):
"""Create a directory at the given path.
The 'mode' argument is accepted for compatibility with the standard
FS interface, but is currently ignored.
"""
s3path = self._s3path(path)
s3pathD = s3path + self._separator
if s3pathD == self._prefix:
if allow_recreate:
return
msg = "Can not create a directory that already exists"\
" (try allow_recreate=True): %(path)s"
raise DestinationExistsError(path, msg=msg)
s3pathP = self._s3path(dirname(path))
if s3pathP:
s3pathP = s3pathP + self._separator
# Check various preconditions using list of parent dir
ks = self._s3bukt.list(prefix=s3pathP,delimiter=self._separator)
if s3pathP == self._prefix:
parentExists = True
else:
parentExists = False
for k in ks:
if not parentExists:
parentExists = True
if _eq_utf8(k.name,s3path):
# It's already a file
msg = "Destination exists as a regular file: %(path)s"
raise ResourceInvalidError(path, msg=msg)
if _eq_utf8(k.name,s3pathD):
# It's already a directory
if allow_recreate:
return
msg = "Can not create a directory that already exists"\
" (try allow_recreate=True): %(path)s"
raise DestinationExistsError(path, msg=msg)
# Create parent if required
if not parentExists:
if recursive:
self.makedir(dirname(path),recursive,allow_recreate)
else:
msg = "Parent directory does not exist: %(path)s"
raise ParentDirectoryMissingError(path, msg=msg)
# Create an empty file representing the directory
self._sync_set_contents(s3pathD,"")
def remove(self,path):
"""Remove the file at the given path."""
s3path = self._s3path(path)
ks = self._s3bukt.list(prefix=s3path,delimiter=self._separator)
for k in ks:
if _eq_utf8(k.name,s3path):
break
if _startswith_utf8(k.name,s3path + "/"):
msg = "that's not a file: %(path)s"
raise ResourceInvalidError(path,msg=msg)
else:
raise ResourceNotFoundError(path)
self._s3bukt.delete_key(s3path)
k = self._s3bukt.get_key(s3path)
while k:
k = self._s3bukt.get_key(s3path)
def removedir(self,path,recursive=False,force=False):
"""Remove the directory at the given path."""
s3path = self._s3path(path)
if s3path != self._prefix:
s3path = s3path + self._separator
if force:
# If we will be forcibly removing any directory contents, we
# might as well get the un-delimited list straight away.
ks = self._s3bukt.list(prefix=s3path)
else:
ks = self._s3bukt.list(prefix=s3path,delimiter=self._separator)
# Fail if the directory is not empty, or remove them if forced
found = False
for k in ks:
found = True
if not _eq_utf8(k.name,s3path):
if not force:
raise DirectoryNotEmptyError(path)
self._s3bukt.delete_key(k.name)
if not found:
if self.isfile(path):
msg = "removedir() called on a regular file: %(path)s"
raise ResourceInvalidError(path,msg=msg)
if path not in ("","/"):
raise ResourceNotFoundError(path)
self._s3bukt.delete_key(s3path)
if recursive and path not in ("","/"):
pdir = dirname(path)
try:
self.removedir(pdir,recursive=True,force=False)
except DirectoryNotEmptyError:
pass
def rename(self,src,dst):
"""Rename the file at 'src' to 'dst'."""
# Actually, in S3 'rename' is exactly the same as 'move'
if self.isfile(src):
self.move(src,dst)
else:
self.movedir(src,dst)
def getinfo(self,path):
s3path = self._s3path(path)
if path in ("","/"):
k = Prefix(bucket=self._s3bukt,name="/")
else:
k = self._s3bukt.get_key(s3path)
if k is None:
ks = self._s3bukt.list(prefix=s3path,delimiter=self._separator)
for k in ks:
if isinstance(k,Prefix):
break
else:
raise ResourceNotFoundError(path)
return self._get_key_info(k,path)
def _get_key_info(self,key,name=None):
info = {}
if name is not None:
info["name"] = basename(name)
else:
info["name"] = basename(self._uns3key(k.name))
if self._key_is_dir(key):
info["st_mode"] = 0700 | statinfo.S_IFDIR
else:
info["st_mode"] = 0700 | statinfo.S_IFREG
if hasattr(key,"size"):
info['size'] = int(key.size)
etag = getattr(key,"etag",None)
if etag is not None:
if isinstance(etag,unicode):
etag = etag.encode("utf8")
info['etag'] = etag.strip('"').strip("'")
if hasattr(key,"last_modified"):
# TODO: does S3 use any other formats?
fmt = "%a, %d %b %Y %H:%M:%S %Z"
try:
mtime = datetime.datetime.strptime(key.last_modified,fmt)
info['modified_time'] = mtime
except ValueError:
pass
return info
def desc(self,path):
return "No description available"
def copy(self,src,dst,overwrite=False,chunk_size=16384):
"""Copy a file from 'src' to 'dst'.
src -- The source path
dst -- The destination path
overwrite -- If True, then the destination may be overwritten
(if a file exists at that location). If False then an exception will be
thrown if the destination exists
chunk_size -- Size of chunks to use in copy (ignored by S3)
"""
s3path_dst = self._s3path(dst)
s3path_dstD = s3path_dst + self._separator
# Check for various preconditions.
ks = self._s3bukt.list(prefix=s3path_dst,delimiter=self._separator)
dstOK = False
for k in ks:
# It exists as a regular file
if _eq_utf8(k.name,s3path_dst):
if not overwrite:
raise DestinationExistsError(dst)
dstOK = True
break
# Check if it refers to a directory. If so, we copy *into* it.
# Since S3 lists in lexicographic order, subsequent iterations
# of the loop will check for the existence of the new filename.
if _eq_utf8(k.name,s3path_dstD):
nm = basename(src)
dst = pathjoin(dirname(dst),nm)
s3path_dst = s3path_dstD + nm
dstOK = True
if not dstOK and not self.isdir(dirname(dst)):
msg = "Destination directory does not exist: %(path)s"
raise ParentDirectoryMissingError(dst,msg=msg)
# OK, now we can copy the file.
s3path_src = self._s3path(src)
try:
self._s3bukt.copy_key(s3path_dst,self._bucket_name,s3path_src)
except S3ResponseError, e:
if "404 Not Found" in str(e):
msg = "Source is not a file: %(path)s"
raise ResourceInvalidError(src, msg=msg)
raise e
else:
k = self._s3bukt.get_key(s3path_dst)
while k is None:
k = self._s3bukt.get_key(s3path_dst)
self._sync_key(k)
def move(self,src,dst,overwrite=False,chunk_size=16384):
"""Move a file from one location to another."""
self.copy(src,dst,overwrite=overwrite)
self._s3bukt.delete_key(self._s3path(src))
def walkfiles(self,
path="/",
wildcard=None,
dir_wildcard=None,
search="breadth",
ignore_errors=False ):
if search != "breadth" or dir_wildcard is not None:
args = (wildcard,dir_wildcard,search,ignore_errors)
for item in super(S3FS,self).walkfiles(path,*args):
yield item
else:
prefix = self._s3path(path)
for k in self._s3bukt.list(prefix=prefix):
name = relpath(self._uns3path(k.name,prefix))
if name != "":
if not isinstance(name,unicode):
name = name.decode("utf8")
if not k.name.endswith(self._separator):
if wildcard is not None:
if callable(wildcard):
if not wildcard(basename(name)):
continue
else:
if not fnmatch(basename(name),wildcard):
continue
yield pathjoin(path,name)
def walkinfo(self,
path="/",
wildcard=None,
dir_wildcard=None,
search="breadth",
ignore_errors=False ):
if search != "breadth" or dir_wildcard is not None:
args = (wildcard,dir_wildcard,search,ignore_errors)
for item in super(S3FS,self).walkfiles(path,*args):
yield (item,self.getinfo(item))
else:
prefix = self._s3path(path)
for k in self._s3bukt.list(prefix=prefix):
name = relpath(self._uns3path(k.name,prefix))
if name != "":
if not isinstance(name,unicode):
name = name.decode("utf8")
if wildcard is not None:
if callable(wildcard):
if not wildcard(basename(name)):
continue
else:
if not fnmatch(basename(name),wildcard):
continue
yield (pathjoin(path,name),self._get_key_info(k,name))
def walkfilesinfo(self,
path="/",
wildcard=None,
dir_wildcard=None,
search="breadth",
ignore_errors=False ):
if search != "breadth" or dir_wildcard is not None:
args = (wildcard,dir_wildcard,search,ignore_errors)
for item in super(S3FS,self).walkfiles(path,*args):
yield (item,self.getinfo(item))
else:
prefix = self._s3path(path)
for k in self._s3bukt.list(prefix=prefix):
name = relpath(self._uns3path(k.name,prefix))
if name != "":
if not isinstance(name,unicode):
name = name.decode("utf8")
if not k.name.endswith(self._separator):
if wildcard is not None:
if callable(wildcard):
if not wildcard(basename(name)):
continue
else:
if not fnmatch(basename(name),wildcard):
continue
yield (pathjoin(path,name),self._get_key_info(k,name))
def _eq_utf8(name1,name2):
if isinstance(name1,unicode):
name1 = name1.encode("utf8")
if isinstance(name2,unicode):
name2 = name2.encode("utf8")
return name1 == name2
def _startswith_utf8(name1,name2):
if isinstance(name1,unicode):
name1 = name1.encode("utf8")
if isinstance(name2,unicode):
name2 = name2.encode("utf8")
return name1.startswith(name2)
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