# Copyright (c) 2006-2012 Mitch Garnaat http://garnaat.org/ # Copyright (c) 2011, Nexenta Systems Inc. # Copyright (c) 2012 Amazon.com, Inc. or its affiliates. All Rights Reserved # # Permission is hereby granted, free of charge, to any person obtaining a # copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, dis- # tribute, sublicense, and/or sell copies of the Software, and to permit # persons to whom the Software is furnished to do so, subject to the fol- # lowing conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS # OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABIL- # ITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT # SHALL THE AUTHOR BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, # WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS # IN THE SOFTWARE. import mimetypes import os import re import rfc822 import StringIO import base64 import binascii import math import urllib import boto.utils from boto.exception import BotoClientError from boto.provider import Provider from boto.s3.keyfile import KeyFile from boto.s3.user import User from boto import UserAgent from boto.utils import compute_md5 try: from hashlib import md5 except ImportError: from md5 import md5 class Key(object): """ Represents a key (object) in an S3 bucket. :ivar bucket: The parent :class:`boto.s3.bucket.Bucket`. :ivar name: The name of this Key object. :ivar metadata: A dictionary containing user metadata that you wish to store with the object or that has been retrieved from an existing object. :ivar cache_control: The value of the `Cache-Control` HTTP header. :ivar content_type: The value of the `Content-Type` HTTP header. :ivar content_encoding: The value of the `Content-Encoding` HTTP header. :ivar content_disposition: The value of the `Content-Disposition` HTTP header. :ivar content_language: The value of the `Content-Language` HTTP header. :ivar etag: The `etag` associated with this object. :ivar last_modified: The string timestamp representing the last time this object was modified in S3. :ivar owner: The ID of the owner of this object. :ivar storage_class: The storage class of the object. Currently, one of: STANDARD | REDUCED_REDUNDANCY | GLACIER :ivar md5: The MD5 hash of the contents of the object. :ivar size: The size, in bytes, of the object. :ivar version_id: The version ID of this object, if it is a versioned object. :ivar encrypted: Whether the object is encrypted while at rest on the server. """ DefaultContentType = 'application/octet-stream' RestoreBody = """ %s """ BufferSize = 8192 # The object metadata fields a user can set, other than custom metadata # fields (i.e., those beginning with a provider-specific prefix like # x-amz-meta). base_user_settable_fields = set(["cache-control", "content-disposition", "content-encoding", "content-language", "content-md5", "content-type"]) _underscore_base_user_settable_fields = set() for f in base_user_settable_fields: _underscore_base_user_settable_fields.add(f.replace('-', '_')) def __init__(self, bucket=None, name=None): self.bucket = bucket self.name = name self.metadata = {} self.cache_control = None self.content_type = self.DefaultContentType self.content_encoding = None self.content_disposition = None self.content_language = None self.filename = None self.etag = None self.is_latest = False self.last_modified = None self.owner = None self.storage_class = 'STANDARD' self.md5 = None self.base64md5 = None self.path = None self.resp = None self.mode = None self.size = None self.version_id = None self.source_version_id = None self.delete_marker = False self.encrypted = None # If the object is being restored, this attribute will be set to True. # If the object is restored, it will be set to False. Otherwise this # value will be None. If the restore is completed (ongoing_restore = # False), the expiry_date will be populated with the expiry date of the # restored object. self.ongoing_restore = None self.expiry_date = None def __repr__(self): if self.bucket: return '' % (self.bucket.name, self.name) else: return '' % self.name def __getattr__(self, name): if name == 'key': return self.name else: raise AttributeError def __setattr__(self, name, value): if name == 'key': self.__dict__['name'] = value else: self.__dict__[name] = value def __iter__(self): return self @property def provider(self): provider = None if self.bucket and self.bucket.connection: provider = self.bucket.connection.provider return provider def get_md5_from_hexdigest(self, md5_hexdigest): """ A utility function to create the 2-tuple (md5hexdigest, base64md5) from just having a precalculated md5_hexdigest. """ digest = binascii.unhexlify(md5_hexdigest) base64md5 = base64.encodestring(digest) if base64md5[-1] == '\n': base64md5 = base64md5[0:-1] return (md5_hexdigest, base64md5) def handle_encryption_headers(self, resp): provider = self.bucket.connection.provider if provider.server_side_encryption_header: self.encrypted = resp.getheader(provider.server_side_encryption_header, None) else: self.encrypted = None def handle_version_headers(self, resp, force=False): provider = self.bucket.connection.provider # If the Key object already has a version_id attribute value, it # means that it represents an explicit version and the user is # doing a get_contents_*(version_id=) to retrieve another # version of the Key. In that case, we don't really want to # overwrite the version_id in this Key object. Comprende? if self.version_id is None or force: self.version_id = resp.getheader(provider.version_id, None) self.source_version_id = resp.getheader(provider.copy_source_version_id, None) if resp.getheader(provider.delete_marker, 'false') == 'true': self.delete_marker = True else: self.delete_marker = False def handle_restore_headers(self, response): header = response.getheader('x-amz-restore') if header is None: return parts = header.split(',', 1) for part in parts: key, val = [i.strip() for i in part.split('=')] val = val.replace('"', '') if key == 'ongoing-request': self.ongoing_restore = True if val.lower() == 'true' else False elif key == 'expiry-date': self.expiry_date = val def open_read(self, headers=None, query_args='', override_num_retries=None, response_headers=None): """ Open this key for reading :type headers: dict :param headers: Headers to pass in the web request :type query_args: string :param query_args: Arguments to pass in the query string (ie, 'torrent') :type override_num_retries: int :param override_num_retries: If not None will override configured num_retries parameter for underlying GET. :type response_headers: dict :param response_headers: A dictionary containing HTTP headers/values that will override any headers associated with the stored object in the response. See http://goo.gl/EWOPb for details. """ if self.resp == None: self.mode = 'r' provider = self.bucket.connection.provider self.resp = self.bucket.connection.make_request( 'GET', self.bucket.name, self.name, headers, query_args=query_args, override_num_retries=override_num_retries) if self.resp.status < 199 or self.resp.status > 299: body = self.resp.read() raise provider.storage_response_error(self.resp.status, self.resp.reason, body) response_headers = self.resp.msg self.metadata = boto.utils.get_aws_metadata(response_headers, provider) for name, value in response_headers.items(): # To get correct size for Range GETs, use Content-Range # header if one was returned. If not, use Content-Length # header. if (name.lower() == 'content-length' and 'Content-Range' not in response_headers): self.size = int(value) elif name.lower() == 'content-range': end_range = re.sub('.*/(.*)', '\\1', value) self.size = int(end_range) elif name.lower() == 'etag': self.etag = value elif name.lower() == 'content-type': self.content_type = value elif name.lower() == 'content-encoding': self.content_encoding = value elif name.lower() == 'content-language': self.content_language = value elif name.lower() == 'last-modified': self.last_modified = value elif name.lower() == 'cache-control': self.cache_control = value elif name.lower() == 'content-disposition': self.content_disposition = value self.handle_version_headers(self.resp) self.handle_encryption_headers(self.resp) def open_write(self, headers=None, override_num_retries=None): """ Open this key for writing. Not yet implemented :type headers: dict :param headers: Headers to pass in the write request :type override_num_retries: int :param override_num_retries: If not None will override configured num_retries parameter for underlying PUT. """ raise BotoClientError('Not Implemented') def open(self, mode='r', headers=None, query_args=None, override_num_retries=None): if mode == 'r': self.mode = 'r' self.open_read(headers=headers, query_args=query_args, override_num_retries=override_num_retries) elif mode == 'w': self.mode = 'w' self.open_write(headers=headers, override_num_retries=override_num_retries) else: raise BotoClientError('Invalid mode: %s' % mode) closed = False def close(self, fast=False): """ Close this key. :type fast: bool :param fast: True if you want the connection to be closed without first reading the content. This should only be used in cases where subsequent calls don't need to return the content from the open HTTP connection. Note: As explained at http://docs.python.org/2/library/httplib.html#httplib.HTTPConnection.getresponse, callers must read the whole response before sending a new request to the server. Calling Key.close(fast=True) and making a subsequent request to the server will work because boto will get an httplib exception and close/reopen the connection. """ if self.resp and not fast: self.resp.read() self.resp = None self.mode = None self.closed = True def next(self): """ By providing a next method, the key object supports use as an iterator. For example, you can now say: for bytes in key: write bytes to a file or whatever All of the HTTP connection stuff is handled for you. """ self.open_read() data = self.resp.read(self.BufferSize) if not data: self.close() raise StopIteration return data def read(self, size=0): self.open_read() if size == 0: data = self.resp.read() else: data = self.resp.read(size) if not data: self.close() return data def change_storage_class(self, new_storage_class, dst_bucket=None, validate_dst_bucket=True): """ Change the storage class of an existing key. Depending on whether a different destination bucket is supplied or not, this will either move the item within the bucket, preserving all metadata and ACL info bucket changing the storage class or it will copy the item to the provided destination bucket, also preserving metadata and ACL info. :type new_storage_class: string :param new_storage_class: The new storage class for the Key. Possible values are: * STANDARD * REDUCED_REDUNDANCY :type dst_bucket: string :param dst_bucket: The name of a destination bucket. If not provided the current bucket of the key will be used. :type validate_dst_bucket: bool :param validate_dst_bucket: If True, will validate the dst_bucket by using an extra list request. """ if new_storage_class == 'STANDARD': return self.copy(self.bucket.name, self.name, reduced_redundancy=False, preserve_acl=True, validate_dst_bucket=validate_dst_bucket) elif new_storage_class == 'REDUCED_REDUNDANCY': return self.copy(self.bucket.name, self.name, reduced_redundancy=True, preserve_acl=True, validate_dst_bucket=validate_dst_bucket) else: raise BotoClientError('Invalid storage class: %s' % new_storage_class) def copy(self, dst_bucket, dst_key, metadata=None, reduced_redundancy=False, preserve_acl=False, encrypt_key=False, validate_dst_bucket=True): """ Copy this Key to another bucket. :type dst_bucket: string :param dst_bucket: The name of the destination bucket :type dst_key: string :param dst_key: The name of the destination key :type metadata: dict :param metadata: Metadata to be associated with new key. If metadata is supplied, it will replace the metadata of the source key being copied. If no metadata is supplied, the source key's metadata will be copied to the new key. :type reduced_redundancy: bool :param reduced_redundancy: If True, this will force the storage class of the new Key to be REDUCED_REDUNDANCY regardless of the storage class of the key being copied. The Reduced Redundancy Storage (RRS) feature of S3, provides lower redundancy at lower storage cost. :type preserve_acl: bool :param preserve_acl: If True, the ACL from the source key will be copied to the destination key. If False, the destination key will have the default ACL. Note that preserving the ACL in the new key object will require two additional API calls to S3, one to retrieve the current ACL and one to set that ACL on the new object. If you don't care about the ACL, a value of False will be significantly more efficient. :type encrypt_key: bool :param encrypt_key: If True, the new copy of the object will be encrypted on the server-side by S3 and will be stored in an encrypted form while at rest in S3. :type validate_dst_bucket: bool :param validate_dst_bucket: If True, will validate the dst_bucket by using an extra list request. :rtype: :class:`boto.s3.key.Key` or subclass :returns: An instance of the newly created key object """ dst_bucket = self.bucket.connection.lookup(dst_bucket, validate_dst_bucket) if reduced_redundancy: storage_class = 'REDUCED_REDUNDANCY' else: storage_class = self.storage_class return dst_bucket.copy_key(dst_key, self.bucket.name, self.name, metadata, storage_class=storage_class, preserve_acl=preserve_acl, encrypt_key=encrypt_key) def startElement(self, name, attrs, connection): if name == 'Owner': self.owner = User(self) return self.owner else: return None def endElement(self, name, value, connection): if name == 'Key': self.name = value elif name == 'ETag': self.etag = value elif name == 'IsLatest': if value == 'true': self.is_latest = True else: self.is_latest = False elif name == 'LastModified': self.last_modified = value elif name == 'Size': self.size = int(value) elif name == 'StorageClass': self.storage_class = value elif name == 'Owner': pass elif name == 'VersionId': self.version_id = value else: setattr(self, name, value) def exists(self): """ Returns True if the key exists :rtype: bool :return: Whether the key exists on S3 """ return bool(self.bucket.lookup(self.name)) def delete(self): """ Delete this key from S3 """ return self.bucket.delete_key(self.name, version_id=self.version_id) def get_metadata(self, name): return self.metadata.get(name) def set_metadata(self, name, value): self.metadata[name] = value def update_metadata(self, d): self.metadata.update(d) # convenience methods for setting/getting ACL def set_acl(self, acl_str, headers=None): if self.bucket != None: self.bucket.set_acl(acl_str, self.name, headers=headers) def get_acl(self, headers=None): if self.bucket != None: return self.bucket.get_acl(self.name, headers=headers) def get_xml_acl(self, headers=None): if self.bucket != None: return self.bucket.get_xml_acl(self.name, headers=headers) def set_xml_acl(self, acl_str, headers=None): if self.bucket != None: return self.bucket.set_xml_acl(acl_str, self.name, headers=headers) def set_canned_acl(self, acl_str, headers=None): return self.bucket.set_canned_acl(acl_str, self.name, headers) def get_redirect(self): """Return the redirect location configured for this key. If no redirect is configured (via set_redirect), then None will be returned. """ response = self.bucket.connection.make_request( 'HEAD', self.bucket.name, self.name) if response.status == 200: return response.getheader('x-amz-website-redirect-location') else: raise self.provider.storage_response_error( response.status, response.reason, response.read()) def set_redirect(self, redirect_location): """Configure this key to redirect to another location. When the bucket associated with this key is accessed from the website endpoint, a 301 redirect will be issued to the specified `redirect_location`. :type redirect_location: string :param redirect_location: The location to redirect. """ headers = {'x-amz-website-redirect-location': redirect_location} response = self.bucket.connection.make_request('PUT', self.bucket.name, self.name, headers) if response.status == 200: return True else: raise self.provider.storage_response_error( response.status, response.reason, response.read()) def make_public(self, headers=None): return self.bucket.set_canned_acl('public-read', self.name, headers) def generate_url(self, expires_in, method='GET', headers=None, query_auth=True, force_http=False, response_headers=None, expires_in_absolute=False, version_id=None, policy=None, reduced_redundancy=False, encrypt_key=False): """ Generate a URL to access this key. :type expires_in: int :param expires_in: How long the url is valid for, in seconds :type method: string :param method: The method to use for retrieving the file (default is GET) :type headers: dict :param headers: Any headers to pass along in the request :type query_auth: bool :param query_auth: :type force_http: bool :param force_http: If True, http will be used instead of https. :type response_headers: dict :param response_headers: A dictionary containing HTTP headers/values that will override any headers associated with the stored object in the response. See http://goo.gl/EWOPb for details. :type expires_in_absolute: bool :param expires_in_absolute: :type version_id: string :param version_id: The version_id of the object to GET. If specified this overrides any value in the key. :type policy: :class:`boto.s3.acl.CannedACLStrings` :param policy: A canned ACL policy that will be applied to the new key in S3. :type reduced_redundancy: bool :param reduced_redundancy: If True, this will set the storage class of the new Key to be REDUCED_REDUNDANCY. The Reduced Redundancy Storage (RRS) feature of S3, provides lower redundancy at lower storage cost. :type encrypt_key: bool :param encrypt_key: If True, the new copy of the object will be encrypted on the server-side by S3 and will be stored in an encrypted form while at rest in S3. :rtype: string :return: The URL to access the key """ provider = self.bucket.connection.provider version_id = version_id or self.version_id if headers is None: headers = {} else: headers = headers.copy() # add headers accordingly (usually PUT case) if policy: headers[provider.acl_header] = policy if reduced_redundancy: self.storage_class = 'REDUCED_REDUNDANCY' if provider.storage_class_header: headers[provider.storage_class_header] = self.storage_class if encrypt_key: headers[provider.server_side_encryption_header] = 'AES256' headers = boto.utils.merge_meta(headers, self.metadata, provider) return self.bucket.connection.generate_url(expires_in, method, self.bucket.name, self.name, headers, query_auth, force_http, response_headers, expires_in_absolute, version_id) def send_file(self, fp, headers=None, cb=None, num_cb=10, query_args=None, chunked_transfer=False, size=None): """ Upload a file to a key into a bucket on S3. :type fp: file :param fp: The file pointer to upload. The file pointer must point point at the offset from which you wish to upload. ie. if uploading the full file, it should point at the start of the file. Normally when a file is opened for reading, the fp will point at the first byte. See the bytes parameter below for more info. :type headers: dict :param headers: The headers to pass along with the PUT request :type cb: function :param cb: a callback function that will be called to report progress on the upload. The callback should accept two integer parameters, the first representing the number of bytes that have been successfully transmitted to S3 and the second representing the size of the to be transmitted object. :type num_cb: int :param num_cb: (optional) If a callback is specified with the cb parameter this parameter determines the granularity of the callback by defining the maximum number of times the callback will be called during the file transfer. Providing a negative integer will cause your callback to be called with each buffer read. :type size: int :param size: (optional) The Maximum number of bytes to read from the file pointer (fp). This is useful when uploading a file in multiple parts where you are splitting the file up into different ranges to be uploaded. If not specified, the default behaviour is to read all bytes from the file pointer. Less bytes may be available. """ provider = self.bucket.connection.provider try: spos = fp.tell() except IOError: spos = None self.read_from_stream = False def sender(http_conn, method, path, data, headers): # This function is called repeatedly for temporary retries # so we must be sure the file pointer is pointing at the # start of the data. if spos is not None and spos != fp.tell(): fp.seek(spos) elif spos is None and self.read_from_stream: # if seek is not supported, and we've read from this # stream already, then we need to abort retries to # avoid setting bad data. raise provider.storage_data_error( 'Cannot retry failed request. fp does not support seeking.') http_conn.putrequest(method, path) for key in headers: http_conn.putheader(key, headers[key]) http_conn.endheaders() # Calculate all MD5 checksums on the fly, if not already computed if not self.base64md5: m = md5() else: m = None save_debug = self.bucket.connection.debug self.bucket.connection.debug = 0 # If the debuglevel < 4 we don't want to show connection # payload, so turn off HTTP connection-level debug output (to # be restored below). # Use the getattr approach to allow this to work in AppEngine. if getattr(http_conn, 'debuglevel', 0) < 4: http_conn.set_debuglevel(0) data_len = 0 if cb: if size: cb_size = size elif self.size: cb_size = self.size else: cb_size = 0 if chunked_transfer and cb_size == 0: # For chunked Transfer, we call the cb for every 1MB # of data transferred, except when we know size. cb_count = (1024 * 1024) / self.BufferSize elif num_cb > 1: cb_count = int(math.ceil(cb_size / self.BufferSize / (num_cb - 1.0))) elif num_cb < 0: cb_count = -1 else: cb_count = 0 i = 0 cb(data_len, cb_size) bytes_togo = size if bytes_togo and bytes_togo < self.BufferSize: chunk = fp.read(bytes_togo) else: chunk = fp.read(self.BufferSize) if spos is None: # read at least something from a non-seekable fp. self.read_from_stream = True while chunk: chunk_len = len(chunk) data_len += chunk_len if chunked_transfer: http_conn.send('%x;\r\n' % chunk_len) http_conn.send(chunk) http_conn.send('\r\n') else: http_conn.send(chunk) if m: m.update(chunk) if bytes_togo: bytes_togo -= chunk_len if bytes_togo <= 0: break if cb: i += 1 if i == cb_count or cb_count == -1: cb(data_len, cb_size) i = 0 if bytes_togo and bytes_togo < self.BufferSize: chunk = fp.read(bytes_togo) else: chunk = fp.read(self.BufferSize) self.size = data_len if m: # Use the chunked trailer for the digest hd = m.hexdigest() self.md5, self.base64md5 = self.get_md5_from_hexdigest(hd) if chunked_transfer: http_conn.send('0\r\n') # http_conn.send("Content-MD5: %s\r\n" % self.base64md5) http_conn.send('\r\n') if cb and (cb_count <= 1 or i > 0) and data_len > 0: cb(data_len, cb_size) http_conn.set_debuglevel(save_debug) self.bucket.connection.debug = save_debug response = http_conn.getresponse() body = response.read() if ((response.status == 500 or response.status == 503 or response.getheader('location')) and not chunked_transfer): # we'll try again. return response elif response.status >= 200 and response.status <= 299: self.etag = response.getheader('etag') if self.etag != '"%s"' % self.md5: raise provider.storage_data_error( 'ETag from S3 did not match computed MD5') return response else: raise provider.storage_response_error( response.status, response.reason, body) if not headers: headers = {} else: headers = headers.copy() headers['User-Agent'] = UserAgent if self.storage_class != 'STANDARD': headers[provider.storage_class_header] = self.storage_class if 'Content-Encoding' in headers: self.content_encoding = headers['Content-Encoding'] if 'Content-Language' in headers: self.content_encoding = headers['Content-Language'] if 'Content-Type' in headers: # Some use cases need to suppress sending of the Content-Type # header and depend on the receiving server to set the content # type. This can be achieved by setting headers['Content-Type'] # to None when calling this method. if headers['Content-Type'] is None: # Delete null Content-Type value to skip sending that header. del headers['Content-Type'] else: self.content_type = headers['Content-Type'] elif self.path: self.content_type = mimetypes.guess_type(self.path)[0] if self.content_type == None: self.content_type = self.DefaultContentType headers['Content-Type'] = self.content_type else: headers['Content-Type'] = self.content_type if self.base64md5: headers['Content-MD5'] = self.base64md5 if chunked_transfer: headers['Transfer-Encoding'] = 'chunked' #if not self.base64md5: # headers['Trailer'] = "Content-MD5" else: headers['Content-Length'] = str(self.size) headers['Expect'] = '100-Continue' headers = boto.utils.merge_meta(headers, self.metadata, provider) resp = self.bucket.connection.make_request('PUT', self.bucket.name, self.name, headers, sender=sender, query_args=query_args) self.handle_version_headers(resp, force=True) def compute_md5(self, fp, size=None): """ :type fp: file :param fp: File pointer to the file to MD5 hash. The file pointer will be reset to the same position before the method returns. :type size: int :param size: (optional) The Maximum number of bytes to read from the file pointer (fp). This is useful when uploading a file in multiple parts where the file is being split inplace into different parts. Less bytes may be available. :rtype: tuple :return: A tuple containing the hex digest version of the MD5 hash as the first element and the base64 encoded version of the plain digest as the second element. """ tup = compute_md5(fp, size=size) # Returned values are MD5 hash, base64 encoded MD5 hash, and data size. # The internal implementation of compute_md5() needs to return the # data size but we don't want to return that value to the external # caller because it changes the class interface (i.e. it might # break some code) so we consume the third tuple value here and # return the remainder of the tuple to the caller, thereby preserving # the existing interface. self.size = tup[2] return tup[0:2] def set_contents_from_stream(self, fp, headers=None, replace=True, cb=None, num_cb=10, policy=None, reduced_redundancy=False, query_args=None, size=None): """ Store an object using the name of the Key object as the key in cloud and the contents of the data stream pointed to by 'fp' as the contents. The stream object is not seekable and total size is not known. This has the implication that we can't specify the Content-Size and Content-MD5 in the header. So for huge uploads, the delay in calculating MD5 is avoided but with a penalty of inability to verify the integrity of the uploaded data. :type fp: file :param fp: the file whose contents are to be uploaded :type headers: dict :param headers: additional HTTP headers to be sent with the PUT request. :type replace: bool :param replace: If this parameter is False, the method will first check to see if an object exists in the bucket with the same key. If it does, it won't overwrite it. The default value is True which will overwrite the object. :type cb: function :param cb: a callback function that will be called to report progress on the upload. The callback should accept two integer parameters, the first representing the number of bytes that have been successfully transmitted to GS and the second representing the total number of bytes that need to be transmitted. :type num_cb: int :param num_cb: (optional) If a callback is specified with the cb parameter, this parameter determines the granularity of the callback by defining the maximum number of times the callback will be called during the file transfer. :type policy: :class:`boto.gs.acl.CannedACLStrings` :param policy: A canned ACL policy that will be applied to the new key in GS. :type reduced_redundancy: bool :param reduced_redundancy: If True, this will set the storage class of the new Key to be REDUCED_REDUNDANCY. The Reduced Redundancy Storage (RRS) feature of S3, provides lower redundancy at lower storage cost. :type size: int :param size: (optional) The Maximum number of bytes to read from the file pointer (fp). This is useful when uploading a file in multiple parts where you are splitting the file up into different ranges to be uploaded. If not specified, the default behaviour is to read all bytes from the file pointer. Less bytes may be available. """ provider = self.bucket.connection.provider if not provider.supports_chunked_transfer(): raise BotoClientError('%s does not support chunked transfer' % provider.get_provider_name()) # Name of the Object should be specified explicitly for Streams. if not self.name or self.name == '': raise BotoClientError('Cannot determine the destination ' 'object name for the given stream') if headers is None: headers = {} if policy: headers[provider.acl_header] = policy if reduced_redundancy: self.storage_class = 'REDUCED_REDUNDANCY' if provider.storage_class_header: headers[provider.storage_class_header] = self.storage_class if self.bucket != None: if not replace: if self.bucket.lookup(self.name): return self.send_file(fp, headers, cb, num_cb, query_args, chunked_transfer=True, size=size) def set_contents_from_file(self, fp, headers=None, replace=True, cb=None, num_cb=10, policy=None, md5=None, reduced_redundancy=False, query_args=None, encrypt_key=False, size=None, rewind=False): """ Store an object in S3 using the name of the Key object as the key in S3 and the contents of the file pointed to by 'fp' as the contents. The data is read from 'fp' from its current position until 'size' bytes have been read or EOF. :type fp: file :param fp: the file whose contents to upload :type headers: dict :param headers: Additional HTTP headers that will be sent with the PUT request. :type replace: bool :param replace: If this parameter is False, the method will first check to see if an object exists in the bucket with the same key. If it does, it won't overwrite it. The default value is True which will overwrite the object. :type cb: function :param cb: a callback function that will be called to report progress on the upload. The callback should accept two integer parameters, the first representing the number of bytes that have been successfully transmitted to S3 and the second representing the size of the to be transmitted object. :type cb: int :param num_cb: (optional) If a callback is specified with the cb parameter this parameter determines the granularity of the callback by defining the maximum number of times the callback will be called during the file transfer. :type policy: :class:`boto.s3.acl.CannedACLStrings` :param policy: A canned ACL policy that will be applied to the new key in S3. :type md5: A tuple containing the hexdigest version of the MD5 checksum of the file as the first element and the Base64-encoded version of the plain checksum as the second element. This is the same format returned by the compute_md5 method. :param md5: If you need to compute the MD5 for any reason prior to upload, it's silly to have to do it twice so this param, if present, will be used as the MD5 values of the file. Otherwise, the checksum will be computed. :type reduced_redundancy: bool :param reduced_redundancy: If True, this will set the storage class of the new Key to be REDUCED_REDUNDANCY. The Reduced Redundancy Storage (RRS) feature of S3, provides lower redundancy at lower storage cost. :type encrypt_key: bool :param encrypt_key: If True, the new copy of the object will be encrypted on the server-side by S3 and will be stored in an encrypted form while at rest in S3. :type size: int :param size: (optional) The Maximum number of bytes to read from the file pointer (fp). This is useful when uploading a file in multiple parts where you are splitting the file up into different ranges to be uploaded. If not specified, the default behaviour is to read all bytes from the file pointer. Less bytes may be available. :type rewind: bool :param rewind: (optional) If True, the file pointer (fp) will be rewound to the start before any bytes are read from it. The default behaviour is False which reads from the current position of the file pointer (fp). :rtype: int :return: The number of bytes written to the key. """ provider = self.bucket.connection.provider headers = headers or {} if policy: headers[provider.acl_header] = policy if encrypt_key: headers[provider.server_side_encryption_header] = 'AES256' if rewind: # caller requests reading from beginning of fp. fp.seek(0, os.SEEK_SET) else: # The following seek/tell/seek logic is intended # to detect applications using the older interface to # set_contents_from_file(), which automatically rewound the # file each time the Key was reused. This changed with commit # 14ee2d03f4665fe20d19a85286f78d39d924237e, to support uploads # split into multiple parts and uploaded in parallel, and at # the time of that commit this check was added because otherwise # older programs would get a success status and upload an empty # object. Unfortuantely, it's very inefficient for fp's implemented # by KeyFile (used, for example, by gsutil when copying between # providers). So, we skip the check for the KeyFile case. # TODO: At some point consider removing this seek/tell/seek # logic, after enough time has passed that it's unlikely any # programs remain that assume the older auto-rewind interface. if not isinstance(fp, KeyFile): spos = fp.tell() fp.seek(0, os.SEEK_END) if fp.tell() == spos: fp.seek(0, os.SEEK_SET) if fp.tell() != spos: # Raise an exception as this is likely a programming # error whereby there is data before the fp but nothing # after it. fp.seek(spos) raise AttributeError('fp is at EOF. Use rewind option ' 'or seek() to data start.') # seek back to the correct position. fp.seek(spos) if reduced_redundancy: self.storage_class = 'REDUCED_REDUNDANCY' if provider.storage_class_header: headers[provider.storage_class_header] = self.storage_class # TODO - What if provider doesn't support reduced reduncancy? # What if different providers provide different classes? if hasattr(fp, 'name'): self.path = fp.name if self.bucket != None: if not md5 and provider.supports_chunked_transfer(): # defer md5 calculation to on the fly and # we don't know anything about size yet. chunked_transfer = True self.size = None else: chunked_transfer = False if isinstance(fp, KeyFile): # Avoid EOF seek for KeyFile case as it's very inefficient. key = fp.getkey() size = key.size - fp.tell() self.size = size # At present both GCS and S3 use MD5 for the etag for # non-multipart-uploaded objects. If the etag is 32 hex # chars use it as an MD5, to avoid having to read the file # twice while transferring. if (re.match('^"[a-fA-F0-9]{32}"$', key.etag)): etag = key.etag.strip('"') md5 = (etag, base64.b64encode(binascii.unhexlify(etag))) if not md5: # compute_md5() and also set self.size to actual # size of the bytes read computing the md5. md5 = self.compute_md5(fp, size) # adjust size if required size = self.size elif size: self.size = size else: # If md5 is provided, still need to size so # calculate based on bytes to end of content spos = fp.tell() fp.seek(0, os.SEEK_END) self.size = fp.tell() - spos fp.seek(spos) size = self.size self.md5 = md5[0] self.base64md5 = md5[1] if self.name == None: self.name = self.md5 if not replace: if self.bucket.lookup(self.name): return self.send_file(fp, headers=headers, cb=cb, num_cb=num_cb, query_args=query_args, chunked_transfer=chunked_transfer, size=size) # return number of bytes written. return self.size def set_contents_from_filename(self, filename, headers=None, replace=True, cb=None, num_cb=10, policy=None, md5=None, reduced_redundancy=False, encrypt_key=False): """ Store an object in S3 using the name of the Key object as the key in S3 and the contents of the file named by 'filename'. See set_contents_from_file method for details about the parameters. :type filename: string :param filename: The name of the file that you want to put onto S3 :type headers: dict :param headers: Additional headers to pass along with the request to AWS. :type replace: bool :param replace: If True, replaces the contents of the file if it already exists. :type cb: function :param cb: a callback function that will be called to report progress on the upload. The callback should accept two integer parameters, the first representing the number of bytes that have been successfully transmitted to S3 and the second representing the size of the to be transmitted object. :type cb: int :param num_cb: (optional) If a callback is specified with the cb parameter this parameter determines the granularity of the callback by defining the maximum number of times the callback will be called during the file transfer. :type policy: :class:`boto.s3.acl.CannedACLStrings` :param policy: A canned ACL policy that will be applied to the new key in S3. :type md5: A tuple containing the hexdigest version of the MD5 checksum of the file as the first element and the Base64-encoded version of the plain checksum as the second element. This is the same format returned by the compute_md5 method. :param md5: If you need to compute the MD5 for any reason prior to upload, it's silly to have to do it twice so this param, if present, will be used as the MD5 values of the file. Otherwise, the checksum will be computed. :type reduced_redundancy: bool :param reduced_redundancy: If True, this will set the storage class of the new Key to be REDUCED_REDUNDANCY. The Reduced Redundancy Storage (RRS) feature of S3, provides lower redundancy at lower storage cost. :type encrypt_key: bool :param encrypt_key: If True, the new copy of the object will be encrypted on the server-side by S3 and will be stored in an encrypted form while at rest in S3. """ fp = open(filename, 'rb') try: self.set_contents_from_file(fp, headers, replace, cb, num_cb, policy, md5, reduced_redundancy, encrypt_key=encrypt_key) finally: fp.close() def set_contents_from_string(self, s, headers=None, replace=True, cb=None, num_cb=10, policy=None, md5=None, reduced_redundancy=False, encrypt_key=False): """ Store an object in S3 using the name of the Key object as the key in S3 and the string 's' as the contents. See set_contents_from_file method for details about the parameters. :type headers: dict :param headers: Additional headers to pass along with the request to AWS. :type replace: bool :param replace: If True, replaces the contents of the file if it already exists. :type cb: function :param cb: a callback function that will be called to report progress on the upload. The callback should accept two integer parameters, the first representing the number of bytes that have been successfully transmitted to S3 and the second representing the size of the to be transmitted object. :type cb: int :param num_cb: (optional) If a callback is specified with the cb parameter this parameter determines the granularity of the callback by defining the maximum number of times the callback will be called during the file transfer. :type policy: :class:`boto.s3.acl.CannedACLStrings` :param policy: A canned ACL policy that will be applied to the new key in S3. :type md5: A tuple containing the hexdigest version of the MD5 checksum of the file as the first element and the Base64-encoded version of the plain checksum as the second element. This is the same format returned by the compute_md5 method. :param md5: If you need to compute the MD5 for any reason prior to upload, it's silly to have to do it twice so this param, if present, will be used as the MD5 values of the file. Otherwise, the checksum will be computed. :type reduced_redundancy: bool :param reduced_redundancy: If True, this will set the storage class of the new Key to be REDUCED_REDUNDANCY. The Reduced Redundancy Storage (RRS) feature of S3, provides lower redundancy at lower storage cost. :type encrypt_key: bool :param encrypt_key: If True, the new copy of the object will be encrypted on the server-side by S3 and will be stored in an encrypted form while at rest in S3. """ if isinstance(s, unicode): s = s.encode("utf-8") fp = StringIO.StringIO(s) r = self.set_contents_from_file(fp, headers, replace, cb, num_cb, policy, md5, reduced_redundancy, encrypt_key=encrypt_key) fp.close() return r def get_file(self, fp, headers=None, cb=None, num_cb=10, torrent=False, version_id=None, override_num_retries=None, response_headers=None): """ Retrieves a file from an S3 Key :type fp: file :param fp: File pointer to put the data into :type headers: string :param: headers to send when retrieving the files :type cb: function :param cb: a callback function that will be called to report progress on the upload. The callback should accept two integer parameters, the first representing the number of bytes that have been successfully transmitted to S3 and the second representing the size of the to be transmitted object. :type cb: int :param num_cb: (optional) If a callback is specified with the cb parameter this parameter determines the granularity of the callback by defining the maximum number of times the callback will be called during the file transfer. :type torrent: bool :param torrent: Flag for whether to get a torrent for the file :type override_num_retries: int :param override_num_retries: If not None will override configured num_retries parameter for underlying GET. :type response_headers: dict :param response_headers: A dictionary containing HTTP headers/values that will override any headers associated with the stored object in the response. See http://goo.gl/EWOPb for details. """ self._get_file_internal(fp, headers=headers, cb=cb, num_cb=num_cb, torrent=torrent, version_id=version_id, override_num_retries=override_num_retries, response_headers=response_headers, query_args=None) def _get_file_internal(self, fp, headers=None, cb=None, num_cb=10, torrent=False, version_id=None, override_num_retries=None, response_headers=None, query_args=None): if headers is None: headers = {} save_debug = self.bucket.connection.debug if self.bucket.connection.debug == 1: self.bucket.connection.debug = 0 query_args = query_args or [] if torrent: query_args.append('torrent') m = None else: m = md5() # If a version_id is passed in, use that. If not, check to see # if the Key object has an explicit version_id and, if so, use that. # Otherwise, don't pass a version_id query param. if version_id is None: version_id = self.version_id if version_id: query_args.append('versionId=%s' % version_id) if response_headers: for key in response_headers: query_args.append('%s=%s' % (key, urllib.quote(response_headers[key]))) query_args = '&'.join(query_args) self.open('r', headers, query_args=query_args, override_num_retries=override_num_retries) data_len = 0 if cb: if self.size is None: cb_size = 0 else: cb_size = self.size if self.size is None and num_cb != -1: # If size is not available due to chunked transfer for example, # we'll call the cb for every 1MB of data transferred. cb_count = (1024 * 1024) / self.BufferSize elif num_cb > 1: cb_count = int(math.ceil(cb_size/self.BufferSize/(num_cb-1.0))) elif num_cb < 0: cb_count = -1 else: cb_count = 0 i = 0 cb(data_len, cb_size) for bytes in self: fp.write(bytes) data_len += len(bytes) if m: m.update(bytes) if cb: if cb_size > 0 and data_len >= cb_size: break i += 1 if i == cb_count or cb_count == -1: cb(data_len, cb_size) i = 0 if cb and (cb_count <= 1 or i > 0) and data_len > 0: cb(data_len, cb_size) if m: self.md5 = m.hexdigest() if self.size is None and not torrent and "Range" not in headers: self.size = data_len self.close() self.bucket.connection.debug = save_debug def get_torrent_file(self, fp, headers=None, cb=None, num_cb=10): """ Get a torrent file (see to get_file) :type fp: file :param fp: The file pointer of where to put the torrent :type headers: dict :param headers: Headers to be passed :type cb: function :param cb: a callback function that will be called to report progress on the upload. The callback should accept two integer parameters, the first representing the number of bytes that have been successfully transmitted to S3 and the second representing the size of the to be transmitted object. :type cb: int :param num_cb: (optional) If a callback is specified with the cb parameter this parameter determines the granularity of the callback by defining the maximum number of times the callback will be called during the file transfer. """ return self.get_file(fp, headers, cb, num_cb, torrent=True) def get_contents_to_file(self, fp, headers=None, cb=None, num_cb=10, torrent=False, version_id=None, res_download_handler=None, response_headers=None): """ Retrieve an object from S3 using the name of the Key object as the key in S3. Write the contents of the object to the file pointed to by 'fp'. :type fp: File -like object :param fp: :type headers: dict :param headers: additional HTTP headers that will be sent with the GET request. :type cb: function :param cb: a callback function that will be called to report progress on the upload. The callback should accept two integer parameters, the first representing the number of bytes that have been successfully transmitted to S3 and the second representing the size of the to be transmitted object. :type cb: int :param num_cb: (optional) If a callback is specified with the cb parameter this parameter determines the granularity of the callback by defining the maximum number of times the callback will be called during the file transfer. :type torrent: bool :param torrent: If True, returns the contents of a torrent file as a string. :type res_upload_handler: ResumableDownloadHandler :param res_download_handler: If provided, this handler will perform the download. :type response_headers: dict :param response_headers: A dictionary containing HTTP headers/values that will override any headers associated with the stored object in the response. See http://goo.gl/EWOPb for details. """ if self.bucket != None: if res_download_handler: res_download_handler.get_file(self, fp, headers, cb, num_cb, torrent=torrent, version_id=version_id) else: self.get_file(fp, headers, cb, num_cb, torrent=torrent, version_id=version_id, response_headers=response_headers) def get_contents_to_filename(self, filename, headers=None, cb=None, num_cb=10, torrent=False, version_id=None, res_download_handler=None, response_headers=None): """ Retrieve an object from S3 using the name of the Key object as the key in S3. Store contents of the object to a file named by 'filename'. See get_contents_to_file method for details about the parameters. :type filename: string :param filename: The filename of where to put the file contents :type headers: dict :param headers: Any additional headers to send in the request :type cb: function :param cb: a callback function that will be called to report progress on the upload. The callback should accept two integer parameters, the first representing the number of bytes that have been successfully transmitted to S3 and the second representing the size of the to be transmitted object. :type cb: int :param num_cb: (optional) If a callback is specified with the cb parameter this parameter determines the granularity of the callback by defining the maximum number of times the callback will be called during the file transfer. :type torrent: bool :param torrent: If True, returns the contents of a torrent file as a string. :type res_upload_handler: ResumableDownloadHandler :param res_download_handler: If provided, this handler will perform the download. :type response_headers: dict :param response_headers: A dictionary containing HTTP headers/values that will override any headers associated with the stored object in the response. See http://goo.gl/EWOPb for details. """ fp = open(filename, 'wb') try: self.get_contents_to_file(fp, headers, cb, num_cb, torrent=torrent, version_id=version_id, res_download_handler=res_download_handler, response_headers=response_headers) except Exception: os.remove(filename) raise finally: fp.close() # if last_modified date was sent from s3, try to set file's timestamp if self.last_modified != None: try: modified_tuple = rfc822.parsedate_tz(self.last_modified) modified_stamp = int(rfc822.mktime_tz(modified_tuple)) os.utime(fp.name, (modified_stamp, modified_stamp)) except Exception: pass def get_contents_as_string(self, headers=None, cb=None, num_cb=10, torrent=False, version_id=None, response_headers=None): """ Retrieve an object from S3 using the name of the Key object as the key in S3. Return the contents of the object as a string. See get_contents_to_file method for details about the parameters. :type headers: dict :param headers: Any additional headers to send in the request :type cb: function :param cb: a callback function that will be called to report progress on the upload. The callback should accept two integer parameters, the first representing the number of bytes that have been successfully transmitted to S3 and the second representing the size of the to be transmitted object. :type cb: int :param num_cb: (optional) If a callback is specified with the cb parameter this parameter determines the granularity of the callback by defining the maximum number of times the callback will be called during the file transfer. :type torrent: bool :param torrent: If True, returns the contents of a torrent file as a string. :type response_headers: dict :param response_headers: A dictionary containing HTTP headers/values that will override any headers associated with the stored object in the response. See http://goo.gl/EWOPb for details. :rtype: string :returns: The contents of the file as a string """ fp = StringIO.StringIO() self.get_contents_to_file(fp, headers, cb, num_cb, torrent=torrent, version_id=version_id, response_headers=response_headers) return fp.getvalue() def add_email_grant(self, permission, email_address, headers=None): """ Convenience method that provides a quick way to add an email grant to a key. This method retrieves the current ACL, creates a new grant based on the parameters passed in, adds that grant to the ACL and then PUT's the new ACL back to S3. :type permission: string :param permission: The permission being granted. Should be one of: (READ, WRITE, READ_ACP, WRITE_ACP, FULL_CONTROL). :type email_address: string :param email_address: The email address associated with the AWS account your are granting the permission to. :type recursive: boolean :param recursive: A boolean value to controls whether the command will apply the grant to all keys within the bucket or not. The default value is False. By passing a True value, the call will iterate through all keys in the bucket and apply the same grant to each key. CAUTION: If you have a lot of keys, this could take a long time! """ policy = self.get_acl(headers=headers) policy.acl.add_email_grant(permission, email_address) self.set_acl(policy, headers=headers) def add_user_grant(self, permission, user_id, headers=None, display_name=None): """ Convenience method that provides a quick way to add a canonical user grant to a key. This method retrieves the current ACL, creates a new grant based on the parameters passed in, adds that grant to the ACL and then PUT's the new ACL back to S3. :type permission: string :param permission: The permission being granted. Should be one of: (READ, WRITE, READ_ACP, WRITE_ACP, FULL_CONTROL). :type user_id: string :param user_id: The canonical user id associated with the AWS account your are granting the permission to. :type display_name: string :param display_name: An option string containing the user's Display Name. Only required on Walrus. """ policy = self.get_acl(headers=headers) policy.acl.add_user_grant(permission, user_id, display_name=display_name) self.set_acl(policy, headers=headers) def _normalize_metadata(self, metadata): if type(metadata) == set: norm_metadata = set() for k in metadata: norm_metadata.add(k.lower()) else: norm_metadata = {} for k in metadata: norm_metadata[k.lower()] = metadata[k] return norm_metadata def _get_remote_metadata(self, headers=None): """ Extracts metadata from existing URI into a dict, so we can overwrite/delete from it to form the new set of metadata to apply to a key. """ metadata = {} for underscore_name in self._underscore_base_user_settable_fields: if hasattr(self, underscore_name): value = getattr(self, underscore_name) if value: # Generate HTTP field name corresponding to "_" named field. field_name = underscore_name.replace('_', '-') metadata[field_name.lower()] = value # self.metadata contains custom metadata, which are all user-settable. prefix = self.provider.metadata_prefix for underscore_name in self.metadata: field_name = underscore_name.replace('_', '-') metadata['%s%s' % (prefix, field_name.lower())] = ( self.metadata[underscore_name]) return metadata def set_remote_metadata(self, metadata_plus, metadata_minus, preserve_acl, headers=None): metadata_plus = self._normalize_metadata(metadata_plus) metadata_minus = self._normalize_metadata(metadata_minus) metadata = self._get_remote_metadata() metadata.update(metadata_plus) for h in metadata_minus: if h in metadata: del metadata[h] src_bucket = self.bucket # Boto prepends the meta prefix when adding headers, so strip prefix in # metadata before sending back in to copy_key() call. rewritten_metadata = {} for h in metadata: if (h.startswith('x-goog-meta-') or h.startswith('x-amz-meta-')): rewritten_h = (h.replace('x-goog-meta-', '') .replace('x-amz-meta-', '')) else: rewritten_h = h rewritten_metadata[rewritten_h] = metadata[h] metadata = rewritten_metadata src_bucket.copy_key(self.name, self.bucket.name, self.name, metadata=metadata, preserve_acl=preserve_acl, headers=headers) def restore(self, days, headers=None): """Restore an object from an archive. :type days: int :param days: The lifetime of the restored object (must be at least 1 day). If the object is already restored then this parameter can be used to readjust the lifetime of the restored object. In this case, the days param is with respect to the initial time of the request. If the object has not been restored, this param is with respect to the completion time of the request. """ response = self.bucket.connection.make_request( 'POST', self.bucket.name, self.name, data=self.RestoreBody % days, headers=headers, query_args='restore') if response.status not in (200, 202): provider = self.bucket.connection.provider raise provider.storage_response_error(response.status, response.reason, response.read())