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# Licensed to the Apache Software Foundation (ASF) under one or more
# contributor license agreements. See the NOTICE file distributed with
# this work for additional information regarding copyright ownership.
# The ASF licenses this file to You under the Apache License, Version 2.0
# (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import base64
import hashlib
import hmac
import time
from libcloud.utils.py3 import PY3
from libcloud.utils.py3 import b
from libcloud.utils.py3 import httplib
from libcloud.utils.py3 import next
from libcloud.utils.py3 import urlparse
from libcloud.utils.py3 import urlencode
from libcloud.utils.py3 import urlquote
from libcloud.utils.py3 import urlunquote
if PY3:
from io import FileIO as file
from libcloud.utils.files import read_in_chunks
from libcloud.common.base import ConnectionUserAndKey, XmlResponse
from libcloud.common.types import LibcloudError
from libcloud.storage.base import Object, Container, StorageDriver, CHUNK_SIZE
from libcloud.storage.types import ContainerAlreadyExistsError, \
ContainerDoesNotExistError, ContainerIsNotEmptyError, \
ObjectDoesNotExistError
def collapse(s):
return ' '.join([x for x in s.split(' ') if x])
class AtmosError(LibcloudError):
def __init__(self, code, message, driver=None):
super(AtmosError, self).__init__(value=message, driver=driver)
self.code = code
class AtmosResponse(XmlResponse):
def success(self):
return self.status in (httplib.OK, httplib.CREATED, httplib.NO_CONTENT,
httplib.PARTIAL_CONTENT)
def parse_error(self):
tree = self.parse_body()
if tree is None:
return None
code = int(tree.find('Code').text)
message = tree.find('Message').text
raise AtmosError(code=code, message=message,
driver=self.connection.driver)
class AtmosConnection(ConnectionUserAndKey):
responseCls = AtmosResponse
def add_default_headers(self, headers):
headers['x-emc-uid'] = self.user_id
headers['Date'] = time.strftime('%a, %d %b %Y %H:%M:%S GMT',
time.gmtime())
headers['x-emc-date'] = headers['Date']
if 'Content-Type' not in headers:
headers['Content-Type'] = 'application/octet-stream'
if 'Accept' not in headers:
headers['Accept'] = '*/*'
return headers
def pre_connect_hook(self, params, headers):
headers['x-emc-signature'] = self._calculate_signature(params, headers)
return params, headers
def _calculate_signature(self, params, headers):
pathstring = urlunquote(self.action)
driver_path = self.driver.path # pylint: disable=no-member
if pathstring.startswith(driver_path):
pathstring = pathstring[len(driver_path):]
if params:
if type(params) is dict:
params = list(params.items())
pathstring += '?' + urlencode(params)
pathstring = pathstring.lower()
xhdrs = [(k, v) for k, v in list(headers.items()) if
k.startswith('x-emc-')]
xhdrs.sort(key=lambda x: x[0])
signature = [
self.method,
headers.get('Content-Type', ''),
headers.get('Range', ''),
headers.get('Date', ''),
pathstring,
]
signature.extend([k + ':' + collapse(v) for k, v in xhdrs])
signature = '\n'.join(signature)
key = base64.b64decode(self.key)
signature = hmac.new(b(key), b(signature), hashlib.sha1).digest()
return base64.b64encode(b(signature)).decode('utf-8')
class AtmosDriver(StorageDriver):
connectionCls = AtmosConnection
host = None # type: str
path = None # type: str
api_name = 'atmos'
supports_chunked_encoding = True
website = 'http://atmosonline.com/'
name = 'atmos'
DEFAULT_CDN_TTL = 60 * 60 * 24 * 7 # 1 week
def __init__(self, key, secret=None, secure=True, host=None, port=None):
host = host or self.host
super(AtmosDriver, self).__init__(key, secret, secure, host, port)
def iterate_containers(self):
result = self.connection.request(self._namespace_path(''))
entries = self._list_objects(result.object, object_type='directory')
for entry in entries:
extra = {
'object_id': entry['id']
}
yield Container(entry['name'], extra, self)
def get_container(self, container_name):
path = self._namespace_path(container_name) + '/?metadata/system'
try:
result = self.connection.request(path)
except AtmosError as e:
if e.code != 1003:
raise
raise ContainerDoesNotExistError(e, self, container_name)
meta = self._emc_meta(result)
extra = {
'object_id': meta['objectid']
}
return Container(container_name, extra, self)
def create_container(self, container_name):
path = self._namespace_path(container_name) + '/'
try:
self.connection.request(path, method='POST')
except AtmosError as e:
if e.code != 1016:
raise
raise ContainerAlreadyExistsError(e, self, container_name)
return self.get_container(container_name)
def delete_container(self, container):
try:
self.connection.request(self._namespace_path(container.name) + '/',
method='DELETE')
except AtmosError as e:
if e.code == 1003:
raise ContainerDoesNotExistError(e, self, container.name)
elif e.code == 1023:
raise ContainerIsNotEmptyError(e, self, container.name)
return True
def get_object(self, container_name, object_name):
container = self.get_container(container_name)
object_name_cleaned = self._clean_object_name(object_name)
path = self._namespace_path(container_name) + '/' + object_name_cleaned
try:
result = self.connection.request(path + '?metadata/system')
system_meta = self._emc_meta(result)
result = self.connection.request(path + '?metadata/user')
user_meta = self._emc_meta(result)
except AtmosError as e:
if e.code != 1003:
raise
raise ObjectDoesNotExistError(e, self, object_name)
last_modified = time.strptime(system_meta['mtime'],
'%Y-%m-%dT%H:%M:%SZ')
last_modified = time.strftime('%a, %d %b %Y %H:%M:%S GMT',
last_modified)
extra = {
'object_id': system_meta['objectid'],
'last_modified': last_modified
}
data_hash = user_meta.pop('md5', '')
return Object(object_name, int(system_meta['size']), data_hash, extra,
user_meta, container, self)
def upload_object(self, file_path, container, object_name, extra=None,
verify_hash=True, headers=None):
method = 'PUT'
extra = extra or {}
object_name_cleaned = self._clean_object_name(object_name)
request_path = self._namespace_path(container.name) + '/' +\
object_name_cleaned
content_type = extra.get('content_type', None)
try:
self.connection.request(request_path + '?metadata/system')
except AtmosError as e:
if e.code != 1003:
raise
method = 'POST'
result_dict = self._upload_object(
object_name=object_name,
content_type=content_type,
request_path=request_path,
request_method=method,
headers={}, file_path=file_path)
bytes_transferred = result_dict['bytes_transferred']
if extra is None:
meta_data = {}
else:
meta_data = extra.get('meta_data', {})
meta_data['md5'] = result_dict['data_hash']
user_meta = ', '.join([k + '=' + str(v) for k, v in
list(meta_data.items())])
self.connection.request(request_path + '?metadata/user', method='POST',
headers={'x-emc-meta': user_meta})
result = self.connection.request(request_path + '?metadata/system')
meta = self._emc_meta(result)
del meta_data['md5']
extra = {
'object_id': meta['objectid'],
'meta_data': meta_data,
}
return Object(object_name, bytes_transferred, result_dict['data_hash'],
extra, meta_data, container, self)
def upload_object_via_stream(self, iterator, container, object_name,
extra=None, headers=None):
if isinstance(iterator, file):
iterator = iter(iterator)
extra_headers = headers or {}
data_hash = hashlib.md5()
generator = read_in_chunks(iterator, CHUNK_SIZE, True)
bytes_transferred = 0
try:
chunk = next(generator)
except StopIteration:
chunk = ''
path = self._namespace_path(container.name + '/' + object_name)
method = 'PUT'
if extra is not None:
content_type = extra.get('content_type', None)
else:
content_type = None
content_type = self._determine_content_type(content_type, object_name)
try:
self.connection.request(path + '?metadata/system')
except AtmosError as e:
if e.code != 1003:
raise
method = 'POST'
while True:
end = bytes_transferred + len(chunk) - 1
data_hash.update(b(chunk))
headers = dict(extra_headers)
headers.update({
'x-emc-meta': 'md5=' + data_hash.hexdigest(),
'Content-Type': content_type,
})
if len(chunk) > 0 and bytes_transferred > 0:
headers['Range'] = 'Bytes=%d-%d' % (bytes_transferred, end)
method = 'PUT'
result = self.connection.request(path, method=method, data=chunk,
headers=headers)
bytes_transferred += len(chunk)
try:
chunk = next(generator)
except StopIteration:
break
if len(chunk) == 0:
break
data_hash = data_hash.hexdigest()
if extra is None:
meta_data = {}
else:
meta_data = extra.get('meta_data', {})
meta_data['md5'] = data_hash
user_meta = ', '.join([k + '=' + str(v) for k, v in
list(meta_data.items())])
self.connection.request(path + '?metadata/user', method='POST',
headers={'x-emc-meta': user_meta})
result = self.connection.request(path + '?metadata/system')
meta = self._emc_meta(result)
extra = {
'object_id': meta['objectid'],
'meta_data': meta_data,
}
return Object(object_name, bytes_transferred, data_hash, extra,
meta_data, container, self)
def download_object(self, obj, destination_path, overwrite_existing=False,
delete_on_failure=True):
path = self._namespace_path(obj.container.name + '/' + obj.name)
response = self.connection.request(path, method='GET', raw=True)
return self._get_object(obj=obj, callback=self._save_object,
response=response,
callback_kwargs={
'obj': obj,
'response': response.response,
'destination_path': destination_path,
'overwrite_existing': overwrite_existing,
'delete_on_failure': delete_on_failure
},
success_status_code=httplib.OK)
def download_object_as_stream(self, obj, chunk_size=None):
path = self._namespace_path(obj.container.name + '/' + obj.name)
response = self.connection.request(path, method='GET', raw=True)
return self._get_object(obj=obj, callback=read_in_chunks,
response=response,
callback_kwargs={
'iterator': response.response,
'chunk_size': chunk_size
},
success_status_code=httplib.OK)
def delete_object(self, obj):
path = self._namespace_path(obj.container.name) + '/' +\
self._clean_object_name(obj.name)
try:
self.connection.request(path, method='DELETE')
except AtmosError as e:
if e.code != 1003:
raise
raise ObjectDoesNotExistError(e, self, obj.name)
return True
def enable_object_cdn(self, obj):
return True
def get_object_cdn_url(self, obj, expiry=None, use_object=False):
"""
Return an object CDN URL.
:param obj: Object instance
:type obj: :class:`Object`
:param expiry: Expiry
:type expiry: ``str``
:param use_object: Use object
:type use_object: ``bool``
:rtype: ``str``
"""
if use_object:
path = '/rest/objects' + obj.meta_data['object_id']
else:
path = '/rest/namespace/' + obj.container.name + '/' + obj.name
if self.secure:
protocol = 'https'
else:
protocol = 'http'
expiry = str(expiry or int(time.time()) + self.DEFAULT_CDN_TTL)
params = [
('uid', self.key),
('expires', expiry),
]
params.append(('signature', self._cdn_signature(path, params, expiry)))
params = urlencode(params)
path = self.path + path
return urlparse.urlunparse((protocol, self.host, path, '', params, ''))
def _cdn_signature(self, path, params, expiry):
key = base64.b64decode(self.secret)
signature = '\n'.join(['GET', path.lower(), self.key, expiry])
signature = hmac.new(key, signature, hashlib.sha1).digest()
return base64.b64encode(signature)
def _list_objects(self, tree, object_type=None):
listing = tree.find(self._emc_tag('DirectoryList'))
entries = []
for entry in listing.findall(self._emc_tag('DirectoryEntry')):
file_type = entry.find(self._emc_tag('FileType')).text
if object_type is not None and object_type != file_type:
continue
entries.append({
'id': entry.find(self._emc_tag('ObjectID')).text,
'type': file_type,
'name': entry.find(self._emc_tag('Filename')).text
})
return entries
def _clean_object_name(self, name):
return urlquote(name.encode('ascii'))
def _namespace_path(self, path):
return self.path + '/rest/namespace/' + urlquote(path.encode('ascii'))
def _object_path(self, object_id):
return self.path + '/rest/objects/' + object_id.encode('ascii')
@staticmethod
def _emc_tag(tag):
return '{http://www.emc.com/cos/}' + tag
def _emc_meta(self, response):
meta = response.headers.get('x-emc-meta', '')
if len(meta) == 0:
return {}
meta = meta.split(', ')
return dict([x.split('=', 1) for x in meta])
def _entries_to_objects(self, container, entries):
for entry in entries:
metadata = {'object_id': entry['id']}
yield Object(entry['name'], 0, '', {}, metadata, container, self)
def iterate_container_objects(self, container, prefix=None,
ex_prefix=None):
"""
Return a generator of objects for the given container.
:param container: Container instance
:type container: :class:`Container`
:param prefix: Filter objects starting with a prefix.
Filtering is performed client-side.
:type prefix: ``str``
:param ex_prefix: (Deprecated.) Filter objects starting with a prefix.
Filtering is performed client-side.
:type ex_prefix: ``str``
:return: A generator of Object instances.
:rtype: ``generator`` of :class:`Object`
"""
prefix = self._normalize_prefix_argument(prefix, ex_prefix)
headers = {'x-emc-include-meta': '1'}
path = self._namespace_path(container.name) + '/'
result = self.connection.request(path, headers=headers)
entries = self._list_objects(result.object, object_type='regular')
objects = self._entries_to_objects(container, entries)
return self._filter_listed_container_objects(objects, prefix)