import six import binascii from collections import defaultdict import json import logging from twisted.internet import threads, defer from lbrynet.core.cryptoutils import get_lbry_hash_obj from lbrynet.core.client.StandaloneBlobDownloader import StandaloneBlobDownloader from lbrynet.core.Error import UnknownStreamTypeError, InvalidStreamDescriptorError from lbrynet.core.HTTPBlobDownloader import HTTPBlobDownloader log = logging.getLogger(__name__) class StreamDescriptorReader(object): """Classes which derive from this class read a stream descriptor file return a dictionary containing the fields in the file""" def __init__(self): pass def _get_raw_data(self): """This method must be overridden by subclasses. It should return a deferred which fires with the raw data in the stream descriptor""" pass def get_info(self): """Return the fields contained in the file""" d = self._get_raw_data() d.addCallback(json.loads) return d class PlainStreamDescriptorReader(StreamDescriptorReader): """Read a stream descriptor file which is not a blob but a regular file""" def __init__(self, stream_descriptor_filename): StreamDescriptorReader.__init__(self) self.stream_descriptor_filename = stream_descriptor_filename def _get_raw_data(self): def get_data(): with open(self.stream_descriptor_filename) as file_handle: raw_data = file_handle.read() return raw_data return threads.deferToThread(get_data) class BlobStreamDescriptorReader(StreamDescriptorReader): """Read a stream descriptor file which is a blob""" def __init__(self, blob): StreamDescriptorReader.__init__(self) self.blob = blob def _get_raw_data(self): def get_data(): f = self.blob.open_for_reading() if f is not None: raw_data = f.read() f.close() return raw_data else: raise ValueError("Could not open the blob for reading") return threads.deferToThread(get_data) def bytes2unicode(value): if isinstance(value, bytes): return value.decode() elif isinstance(value, (list, tuple)): return [bytes2unicode(v) for v in value] elif isinstance(value, dict): return {key: bytes2unicode(v) for key, v in value.items()} return value class StreamDescriptorWriter(object): """Classes which derive from this class write fields from a dictionary of fields to a stream descriptor""" def __init__(self): pass def create_descriptor(self, sd_info): return self._write_stream_descriptor(json.dumps(bytes2unicode(sd_info), sort_keys=True)) def _write_stream_descriptor(self, raw_data): """This method must be overridden by subclasses to write raw data to the stream descriptor """ pass class PlainStreamDescriptorWriter(StreamDescriptorWriter): def __init__(self, sd_file_name): StreamDescriptorWriter.__init__(self) self.sd_file_name = sd_file_name def _write_stream_descriptor(self, raw_data): def write_file(): log.info("Writing the sd file to disk") with open(self.sd_file_name, 'w') as sd_file: sd_file.write(raw_data) return self.sd_file_name return threads.deferToThread(write_file) class BlobStreamDescriptorWriter(StreamDescriptorWriter): def __init__(self, blob_manager): StreamDescriptorWriter.__init__(self) self.blob_manager = blob_manager @defer.inlineCallbacks def _write_stream_descriptor(self, raw_data): log.debug("Creating the new blob for the stream descriptor") blob_creator = self.blob_manager.get_blob_creator() blob_creator.write(raw_data) log.debug("Wrote the data to the new blob") sd_hash = yield blob_creator.close() yield self.blob_manager.creator_finished(blob_creator, should_announce=True) defer.returnValue(sd_hash) class StreamMetadata(object): FROM_BLOB = 1 FROM_PLAIN = 2 def __init__(self, validator, options, factories): self.validator = validator self.options = options self.factories = factories self.metadata_source = None self.source_blob_hash = None self.source_file = None class StreamDescriptorIdentifier(object): """Tries to determine the type of stream described by the stream descriptor using the 'stream_type' field. Keeps a list of StreamDescriptorValidators and StreamDownloaderFactorys and returns the appropriate ones based on the type of the stream descriptor given """ def __init__(self): # {stream_type: IStreamDescriptorValidator} self._sd_info_validators = {} # {stream_type: IStreamOptions self._stream_options = {} # {stream_type: [IStreamDownloaderFactory]} self._stream_downloader_factories = defaultdict(list) def add_stream_type(self, stream_type, sd_info_validator, stream_options): """This is how the StreamDescriptorIdentifier learns about new types of stream descriptors. There can only be one StreamDescriptorValidator for each type of stream. @param stream_type: A string representing the type of stream descriptor. This must be unique to this stream descriptor. @param sd_info_validator: A class implementing the IStreamDescriptorValidator interface. This class's constructor will be passed the raw metadata in the stream descriptor file and its 'validate' method will then be called. If the validation step fails, an exception will be thrown, preventing the stream descriptor from being further processed. @param stream_options: A class implementing the IStreamOptions interface. This class's constructor will be passed the sd_info_validator object containing the raw metadata from the stream descriptor file. @return: None """ self._sd_info_validators[stream_type] = sd_info_validator self._stream_options[stream_type] = stream_options def add_stream_downloader_factory(self, stream_type, factory): """Register a stream downloader factory with the StreamDescriptorIdentifier. This is how the StreamDescriptorIdentifier determines what factories may be used to process different stream descriptor files. There must be at least one factory for each type of stream added via "add_stream_info_validator". @param stream_type: A string representing the type of stream descriptor which the factory knows how to process. @param factory: An object implementing the IStreamDownloaderFactory interface. @return: None """ self._stream_downloader_factories[stream_type].append(factory) def _return_metadata(self, options_validator_factories, source_type, source): validator, options, factories = options_validator_factories m = StreamMetadata(validator, options, factories) m.metadata_source = source_type if source_type == StreamMetadata.FROM_BLOB: m.source_blob_hash = source if source_type == StreamMetadata.FROM_PLAIN: m.source_file = source return m def get_metadata_for_sd_file(self, sd_path): sd_reader = PlainStreamDescriptorReader(sd_path) d = sd_reader.get_info() d.addCallback(self._return_options_and_validator_and_factories) d.addCallback(self._return_metadata, StreamMetadata.FROM_PLAIN, sd_path) return d def get_metadata_for_sd_blob(self, sd_blob): sd_reader = BlobStreamDescriptorReader(sd_blob) d = sd_reader.get_info() d.addCallback(self._return_options_and_validator_and_factories) d.addCallback(self._return_metadata, StreamMetadata.FROM_BLOB, sd_blob.blob_hash) return d def _get_factories(self, stream_type): if not stream_type in self._stream_downloader_factories: raise UnknownStreamTypeError(stream_type) return self._stream_downloader_factories[stream_type] def _get_validator(self, stream_type): if not stream_type in self._sd_info_validators: raise UnknownStreamTypeError(stream_type) return self._sd_info_validators[stream_type] def _get_options(self, stream_type): if not stream_type in self._stream_downloader_factories: raise UnknownStreamTypeError(stream_type) return self._stream_options[stream_type] def _return_options_and_validator_and_factories(self, sd_info): if not 'stream_type' in sd_info: raise InvalidStreamDescriptorError('No stream_type parameter in stream descriptor.') stream_type = sd_info['stream_type'] validator = self._get_validator(stream_type)(sd_info) factories = [f for f in self._get_factories(stream_type) if f.can_download(validator)] d = validator.validate() def get_options(): options = self._get_options(stream_type) return validator, options, factories d.addCallback(lambda _: get_options()) return d EncryptedFileStreamType = "lbryfile" @defer.inlineCallbacks def save_sd_info(blob_manager, sd_hash, sd_info): if not blob_manager.blobs.get(sd_hash) or not blob_manager.blobs[sd_hash].get_is_verified(): descriptor_writer = BlobStreamDescriptorWriter(blob_manager) calculated_sd_hash = yield descriptor_writer.create_descriptor(sd_info) if calculated_sd_hash != sd_hash: raise InvalidStreamDescriptorError("%s does not match calculated %s" % (sd_hash, calculated_sd_hash)) stream_hash = yield blob_manager.storage.get_stream_hash_for_sd_hash(sd_hash) if not stream_hash: log.debug("Saving info for %s", sd_info['stream_name'].decode('hex')) stream_name = sd_info['stream_name'] key = sd_info['key'] stream_hash = sd_info['stream_hash'] stream_blobs = sd_info['blobs'] suggested_file_name = sd_info['suggested_file_name'] yield blob_manager.storage.add_known_blobs(stream_blobs) yield blob_manager.storage.store_stream( stream_hash, sd_hash, stream_name, key, suggested_file_name, stream_blobs ) defer.returnValue(stream_hash) def format_blobs(crypt_blob_infos): formatted_blobs = [] for blob_info in crypt_blob_infos: blob = {} if blob_info.length != 0: blob['blob_hash'] = str(blob_info.blob_hash) blob['blob_num'] = blob_info.blob_num blob['iv'] = str(blob_info.iv) blob['length'] = blob_info.length formatted_blobs.append(blob) return formatted_blobs def format_sd_info(stream_type, stream_name, key, suggested_file_name, stream_hash, blobs): return { "stream_type": stream_type, "stream_name": stream_name, "key": key, "suggested_file_name": suggested_file_name, "stream_hash": stream_hash, "blobs": blobs } @defer.inlineCallbacks def get_sd_info(storage, stream_hash, include_blobs): """ Get an sd info dictionary from storage :param storage: (SQLiteStorage) storage instance :param stream_hash: (str) stream hash :param include_blobs: (bool) include stream blob infos :return: { "stream_type": "lbryfile", "stream_name": , "key": , "suggested_file_name": , "stream_hash": , "blobs": [ { "blob_hash": , "blob_num": 0, "iv": , "length": }, ... { "blob_num": , "iv": , "length": 0 } ] } """ stream_info = yield storage.get_stream_info(stream_hash) blobs = [] if include_blobs: blobs = yield storage.get_blobs_for_stream(stream_hash) defer.returnValue( format_sd_info( EncryptedFileStreamType, stream_info[0], stream_info[1], stream_info[2], stream_hash, format_blobs(blobs) ) ) def get_blob_hashsum(b): length = b['length'] if length != 0: blob_hash = b['blob_hash'] else: blob_hash = None blob_num = b['blob_num'] iv = b['iv'] blob_hashsum = get_lbry_hash_obj() if length != 0: blob_hashsum.update(blob_hash) blob_hashsum.update(str(blob_num).encode()) blob_hashsum.update(iv) blob_hashsum.update(str(length).encode()) return blob_hashsum.digest() def get_stream_hash(hex_stream_name, key, hex_suggested_file_name, blob_infos): h = get_lbry_hash_obj() h.update(hex_stream_name) h.update(key) h.update(hex_suggested_file_name) blobs_hashsum = get_lbry_hash_obj() for blob in blob_infos: blobs_hashsum.update(get_blob_hashsum(blob)) h.update(blobs_hashsum.digest()) return h.hexdigest() def verify_hex(text, field_name): for c in text: if c not in b'0123456789abcdef': raise InvalidStreamDescriptorError("%s is not a hex-encoded string" % field_name) def validate_descriptor(stream_info): try: hex_stream_name = stream_info['stream_name'] key = stream_info['key'] hex_suggested_file_name = stream_info['suggested_file_name'] stream_hash = stream_info['stream_hash'] blobs = stream_info['blobs'] except KeyError as e: raise InvalidStreamDescriptorError("Missing '%s'" % (e.args[0])) if stream_info['blobs'][-1]['length'] != 0: raise InvalidStreamDescriptorError("Does not end with a zero-length blob.") if any([False if blob_info['length'] > 0 else True for blob_info in stream_info['blobs'][:-1]]): raise InvalidStreamDescriptorError("Contains zero-length data blob") if 'blob_hash' in stream_info['blobs'][-1]: raise InvalidStreamDescriptorError("Stream terminator blob should not have a hash") verify_hex(key, "key") verify_hex(hex_suggested_file_name, "suggested file name") verify_hex(stream_hash, "stream_hash") calculated_stream_hash = get_stream_hash( hex_stream_name, key, hex_suggested_file_name, blobs ).encode() if calculated_stream_hash != stream_hash: raise InvalidStreamDescriptorError("Stream hash does not match stream metadata") return True class EncryptedFileStreamDescriptorValidator(object): def __init__(self, raw_info): self.raw_info = raw_info def validate(self): return defer.succeed(validate_descriptor(self.raw_info)) def info_to_show(self): info = [] info.append(("stream_name", binascii.unhexlify(self.raw_info.get("stream_name")))) size_so_far = 0 for blob_info in self.raw_info.get("blobs", []): size_so_far += int(blob_info['length']) info.append(("stream_size", str(self.get_length_of_stream()))) suggested_file_name = self.raw_info.get("suggested_file_name", None) if suggested_file_name is not None: suggested_file_name = binascii.unhexlify(suggested_file_name) info.append(("suggested_file_name", suggested_file_name)) return info def get_length_of_stream(self): size_so_far = 0 for blob_info in self.raw_info.get("blobs", []): size_so_far += int(blob_info['length']) return size_so_far @defer.inlineCallbacks def download_sd_blob(blob_hash, blob_manager, peer_finder, rate_limiter, payment_rate_manager, wallet, timeout=None, download_mirrors=None): """ Downloads a single blob from the network @param session: @param blob_hash: @param payment_rate_manager: @return: An object of type HashBlob """ downloader = StandaloneBlobDownloader(blob_hash, blob_manager, peer_finder, rate_limiter, payment_rate_manager, wallet, timeout) mirror = HTTPBlobDownloader(blob_manager, [blob_hash], download_mirrors or [], sd_hashes=[blob_hash], retry=False) mirror.start() sd_blob = yield downloader.download() mirror.stop() sd_reader = BlobStreamDescriptorReader(sd_blob) sd_info = yield sd_reader.get_info() try: validate_descriptor(sd_info) except InvalidStreamDescriptorError as err: yield blob_manager.delete_blobs([blob_hash]) raise err raw_sd = yield sd_reader._get_raw_data() yield blob_manager.storage.add_known_blob(blob_hash, len(raw_sd)) yield save_sd_info(blob_manager, sd_blob.blob_hash, sd_info) defer.returnValue(sd_blob)