import logging from zope.interface import implements from lbrynet.core.StreamDescriptor import PlainStreamDescriptorWriter, BlobStreamDescriptorWriter from lbrynet.core.PaymentRateManager import PaymentRateManager from lbrynet.lbryfilemanager.LBRYFileCreator import create_lbry_file from lbrynet.lbryfilemanager.LBRYFileDownloader import ManagedLBRYFileDownloader from lbrynet.lbryfile.StreamDescriptor import get_sd_info from lbrynet.lbrynet_console.interfaces import IControlHandler, IControlHandlerFactory from lbrynet.core.StreamDescriptor import download_sd_blob, BlobStreamDescriptorReader from lbrynet.core.Error import UnknownNameError, InvalidBlobHashError, InsufficientFundsError from lbrynet.core.Error import InvalidStreamInfoError from twisted.internet import defer, threads import os log = logging.getLogger(__name__) class InvalidChoiceError(Exception): pass class InvalidValueError(Exception): pass class ControlHandlerFactory(object): implements(IControlHandlerFactory) control_handler_class = None def get_prompt_description(self): return self.control_handler_class.prompt_description def __init__(self, *args): self.args = args def get_handler(self): args = self.args return self.control_handler_class(*args) class ControlHandler(object): implements(IControlHandler) prompt_description = None class RecursiveControlHandler(ControlHandler): def __init__(self, exit_after_one_done=False, reset_after_each_done=False): self.current_handler = None self.exit_after_one_done = exit_after_one_done self.reset_after_each_done = reset_after_each_done self._set_control_handlers() def _get_control_handler_factories(self): raise NotImplementedError() def _set_control_handlers(self): self.control_handlers = {i + 1: handler for i, handler in enumerate(self._get_control_handler_factories())} def handle_line(self, line): if self.current_handler is None: if line is None: num = None else: try: num = int(line) except ValueError: num = None if num == 0: return True, None if num in self.control_handlers: self.current_handler = self.control_handlers[num].get_handler() line = None ds = [] if self.current_handler is not None: r = self.current_handler.handle_line(line) done, ds = r[0], list(r[1:]) if done is True: self.current_handler = None if self.exit_after_one_done is True: return r if self.reset_after_each_done: self._set_control_handlers() if self.current_handler is None: ds += [self.get_prompt()] return (False,) + tuple(ds) def get_prompt(self): prompt_string = "Options:\n" prompt_string += "[0] Exit this menu\n" for num, handler in self.control_handlers.iteritems(): prompt_string += "[" + str(num) + "] " + handler.get_prompt_description() + "\n" return defer.succeed(prompt_string) class ModifyPaymentRate(ControlHandler): def __init__(self): self._prompt_choices = {'cancel': (self._cancel, "Don't change anything")} def handle_line(self, line): if line is None: return False, defer.succeed(self._get_prompt_string()) elif line.lower() in self._prompt_choices: return self._prompt_choices[line.lower()][0]() else: try: rate = float(line) except ValueError: return True, defer.succeed("Rate must be a number") d = self._set_rate(rate) d.addCallback(lambda _: "Successfully set the rate") return True, d def _cancel(self): return True, defer.succeed("No change was made") def _set_rate(self, rate): pass def _get_current_status(self): pass def _get_prompt_string(self): prompt_string = self._get_current_status() + "\n" for prompt_choice, (func, help_string) in self._prompt_choices.iteritems(): prompt_string += prompt_choice + ": " + help_string + "\n" prompt_string += "To change the current rate, enter the desired rate\n" prompt_string += "Then hit enter\n" return prompt_string class ApplicationStatus(ControlHandler): prompt_description = "Application Status" def __init__(self, rate_limiter, dht_node): self.rate_limiter = rate_limiter self.dht_node = dht_node def handle_line(self, line): assert line is None, "Application status should not be passed any arguments" status = "Total bytes uploaded: " + str(self.rate_limiter.total_ul_bytes) + "\n" status += "Total bytes downloaded: " + str(self.rate_limiter.total_dl_bytes) + "\n" if self.dht_node is not None: status += "Approximate number of nodes in DHT: " + str(self.dht_node.getApproximateTotalDHTNodes()) + "\n" status += "Approximate number of blobs in DHT: " + str(self.dht_node.getApproximateTotalHashes()) + "\n" return True, defer.succeed(status) class ApplicationStatusFactory(ControlHandlerFactory): control_handler_class = ApplicationStatus class GetWalletBalances(ControlHandler): prompt_description = "Show wallet point balances" def __init__(self, wallet): self.wallet = wallet def handle_line(self, line): assert line is None, "Show wallet balances should not be passed any arguments" return True, self._get_wallet_balances() def _get_wallet_balances(self): d = self.wallet.get_balance() def format_balance(balance): if balance == 0: balance = 0 balance_string = "balance: " + str(balance) + " LBC\n" return balance_string d.addCallback(format_balance) return d class GetWalletBalancesFactory(ControlHandlerFactory): control_handler_class = GetWalletBalances class GetNewWalletAddress(ControlHandler): prompt_description = "Get a new LBRYcrd address" def __init__(self, wallet): self.wallet = wallet def handle_line(self, line): assert line is None, "Get new LBRYcrd address should not be passed any arguments" d = self.wallet.get_new_address() d.addCallback(lambda address: str(address)) return True, d class GetNewWalletAddressFactory(ControlHandlerFactory): control_handler_class = GetNewWalletAddress class ShutDown(ControlHandler): prompt_description = "Shut down" def __init__(self, lbry_service): self.lbry_service = lbry_service def handle_line(self, line): assert line is None, "Shut down should not be passed any arguments" return True, self._shut_down() def _shut_down(self): d = self.lbry_service.shut_down() def stop_reactor(): from twisted.internet import reactor reactor.stop() d.addBoth(lambda _: stop_reactor()) d.addCallback(lambda _: "Shut down successfully") return d class ShutDownFactory(ControlHandlerFactory): control_handler_class = ShutDown class LBRYFileStatus(ControlHandler): prompt_description = "Print status information for all LBRY Files" def __init__(self, lbry_file_manager): self.lbry_file_manager = lbry_file_manager def handle_line(self, line): assert line is None, "print status should not be passed any arguments" d = self.lbry_file_manager.get_lbry_file_status_reports() d.addCallback(self.format_statuses) return True, d def format_statuses(self, status_reports): status_strings = [] for status_report in status_reports: s = status_report.name + " status: " + status_report.running_status + "\n" s += str(status_report.num_completed) + " completed out of " + str(status_report.num_known) + "\n" status_strings.append(s) return ''.join(status_strings) class LBRYFileStatusFactory(ControlHandlerFactory): control_handler_class = LBRYFileStatus class AddStream(ControlHandler): prompt_description = None line_prompt = None cancel_prompt = "Trying to locate the stream's metadata. Type \"cancel\" to cancel..." canceled_message = "Canceled locating the stream's metadata." line_prompt2 = "Modify options? (y/n)" line_prompt3 = "Start download? (y/n)" def __init__(self, sd_identifier, base_payment_rate_manager): self.sd_identifier = sd_identifier self.loading_metadata_deferred = None self.metadata = None self.factory = None self.options_left = [] self.options_chosen = [] self.current_option = None self.current_choice = None self.downloader = None self.got_options_response = False self.loading_failed = False self.payment_rate_manager = PaymentRateManager(base_payment_rate_manager) def handle_line(self, line): if line is None: return False, defer.succeed(self.line_prompt) if self.loading_failed is True: return True, None if self.loading_metadata_deferred is not None: if line.lower() == "cancel": self.loading_metadata_deferred.cancel() self.loading_metadata_deferred = None return True, None else: return False, defer.succeed(self.cancel_prompt) if self.metadata is None: self.loading_metadata_deferred = self._load_metadata(line) cancel_prompt_d = defer.succeed(self.cancel_prompt) self.loading_metadata_deferred.addCallback(self._choose_factory) self.loading_metadata_deferred.addErrback(self._handle_load_canceled) self.loading_metadata_deferred.addErrback(self._handle_load_failed) return False, cancel_prompt_d, self.loading_metadata_deferred if self.factory is None: try: choice = int(line) except ValueError: return False, defer.succeed(self._show_factory_choices()) if choice in xrange(len(self.metadata.factories)): self.factory = self.metadata.factories[choice] return False, defer.succeed(self._show_info_and_options()) else: return False, defer.succeed(self._show_factory_choices()) if self.got_options_response is False: self.got_options_response = True if line == 'y' or line == 'Y' and self.options_left: return False, defer.succeed(self._get_next_option_prompt()) else: self.options_chosen = [option.default_value for option in self.options_left] self.options_left = [] return False, defer.succeed(self.line_prompt3) if self.current_option is not None: if self.current_choice is None: try: self.current_choice = self._get_choice_from_input(line) except InvalidChoiceError: return False, defer.succeed(self._get_next_option_prompt(invalid_choice=True)) choice = self.current_option.option_types[self.current_choice] if choice.value == float or choice.value == bool: return False, defer.succeed(self._get_choice_value_prompt()) else: value = choice.value else: try: value = self._get_value_for_choice(line) except InvalidValueError: return False, defer.succeed(self._get_choice_value_prompt(invalid_value=True)) self.options_chosen.append(value) self.current_choice = None self.current_option = None self.options_left = self.options_left[1:] if self.options_left: return False, defer.succeed(self._get_next_option_prompt()) else: self.current_option = None return False, defer.succeed(self.line_prompt3) if line == 'y' or line == 'Y': d = self._start_download() else: d = defer.succeed("Download cancelled") return True, d def _get_choice_from_input(self, line): try: choice_num = int(line) except ValueError: raise InvalidChoiceError() if 0 <= choice_num < len(self.current_option.option_types): return choice_num raise InvalidChoiceError() def _load_metadata(self, sd_file): return defer.fail(NotImplementedError()) def _handle_load_canceled(self, err): err.trap(defer.CancelledError) return defer.succeed(self.canceled_message) def _handle_load_failed(self, err): self.loading_failed = True log.error("An exception occurred attempting to load the stream descriptor: %s", err.getTraceback()) return defer.succeed("An unexpected error occurred attempting to load the stream's metadata.\n" "See console.log for further details.\n\n" "Press enter to continue") def _choose_factory(self, metadata): self.loading_metadata_deferred = None self.metadata = metadata if len(self.metadata.factories) == 1: self.factory = self.metadata.factories[0] return self._show_info_and_options() return self._show_factory_choices() def _show_factory_choices(self): prompt = "Choose what to do with the file:\n" for i, factory in enumerate(self.metadata.factories): prompt += "[" + str(i) + "] " + factory.get_description() + '\n' return str(prompt) def _show_info_and_options(self): self.options_left = self.metadata.options.get_downloader_options(self.metadata.validator, self.payment_rate_manager) prompt = "Stream info:\n" for info_line in self._get_info_to_show(): prompt += info_line[0] + ": " + info_line[1] + "\n" prompt += "\nOptions:\n" for option in self.options_left: prompt += option.long_description + ": " + str(option.default_value_description) + "\n" prompt += "\nModify options? (y/n)" return str(prompt) def _get_info_to_show(self): return self.metadata.validator.info_to_show() def _get_list_of_option_types(self): options_string = "" for i, option_type in enumerate(self.current_option.option_types): options_string += "[%s] %s\n" % (str(i), option_type.long_description) options_string += "Enter choice:" return options_string def _get_choice_value_prompt(self, invalid_value=False): choice = self.current_option.option_types[self.current_choice] choice_string = "" if invalid_value is True: "Invalid value entered. Try again.\n" if choice.short_description is not None: choice_string += choice.short_description + "\n" if choice.value == float: choice_string += "Enter floating point number (e.g. 1.0):" elif choice.value == bool: true_string = "Yes" false_string = "No" if choice.bool_options_description is not None: true_string, false_string = choice.bool_options_description choice_string += "[0] %s\n[1] %s\nEnter choice:" % (true_string, false_string) else: NotImplementedError() return choice_string def _get_value_for_choice(self, input): choice = self.current_option.option_types[self.current_choice] if choice.value == float: try: return float(input) except ValueError: raise InvalidValueError() elif choice.value == bool: if input == "0": return True elif input == "1": return False raise InvalidValueError() raise NotImplementedError() def _get_next_option_prompt(self, invalid_choice=False): assert len(self.options_left), "Something went wrong. There were no options left" self.current_option = self.options_left[0] choice_string = "" if invalid_choice is True: choice_string += "Invalid response entered. Try again.\n" choice_string += self.current_option.long_description + "\n" if len(self.current_option.option_types) > 1: choice_string += self._get_list_of_option_types() elif len(self.current_option.option_types) == 1: self.current_choice = 0 choice_string += self._get_choice_value_prompt() return choice_string def _start_download(self): d = self._make_downloader() d.addCallback(lambda stream_downloader: stream_downloader.start()) d.addErrback(self._handle_download_error) return d def _handle_download_error(self, err): if err.check(InsufficientFundsError): return "Download stopped due to insufficient funds." else: log.error("An unexpected error has caused the download to stop: %s" % err.getTraceback()) return "An unexpected error has caused the download to stop. See console.log for details." def _make_downloader(self): return self.factory.make_downloader(self.metadata, self.options_chosen, self.payment_rate_manager) class AddStreamFromSD(AddStream): prompt_description = "Add a stream from a stream descriptor file" line_prompt = "Stream descriptor file name:" def _load_metadata(self, sd_file): return self.sd_identifier.get_metadata_for_sd_file(sd_file) class AddStreamFromSDFactory(ControlHandlerFactory): control_handler_class = AddStreamFromSD class AddStreamFromHash(AddStream): prompt_description = "Add a stream from a hash" line_prompt = "Stream descriptor hash:" def __init__(self, sd_identifier, session): AddStream.__init__(self, sd_identifier, session.base_payment_rate_manager) self.session = session def _load_metadata(self, sd_hash): d = download_sd_blob(self.session, sd_hash, self.payment_rate_manager) d.addCallback(self.sd_identifier.get_metadata_for_sd_blob) return d def _handle_load_failed(self, err): self.loading_failed = True if err.check(InvalidBlobHashError): return defer.succeed("The hash you entered is invalid. It must be 96 characters long and " "contain only hex characters.\n\nPress enter to continue") if err.check(InsufficientFundsError): return defer.succeed("Insufficient funds to download the metadata blob.\n\nPress enter to continue") return AddStream._handle_load_failed(self, err) class AddStreamFromHashFactory(ControlHandlerFactory): control_handler_class = AddStreamFromHash class AddStreamFromLBRYcrdName(AddStreamFromHash): prompt_description = "Add a stream from a short name" line_prompt = "Short name:" def __init__(self, sd_identifier, session, wallet): AddStreamFromHash.__init__(self, sd_identifier, session) self.wallet = wallet self.resolved_name = None self.description = None self.key_fee = None self.key_fee_address = None def _load_metadata(self, name): d = self._resolve_name(name) d.addCallback(lambda stream_hash: AddStreamFromHash._load_metadata(self, stream_hash)) return d def _resolve_name(self, name): def get_name_from_info(stream_info): if 'stream_hash' not in stream_info: raise InvalidStreamInfoError(name) self.resolved_name = stream_info.get('name', None) self.description = stream_info.get('description', None) try: if 'key_fee' in stream_info: self.key_fee = float(stream_info['key_fee']) except ValueError: self.key_fee = None self.key_fee_address = stream_info.get('key_fee_address', None) return stream_info['stream_hash'] d = self.wallet.get_stream_info_for_name(name) d.addCallback(get_name_from_info) return d def _handle_load_failed(self, err): self.loading_failed = True if err.check(UnknownNameError): return defer.succeed("The name %s could not be found.\n\n" "Press enter to continue" % err.getErrorMessage()) elif err.check(InvalidBlobHashError): return defer.succeed("The metadata for this name is invalid. The stream cannot be downloaded.\n\n" + "Press enter to continue") return AddStreamFromHash._handle_load_failed(self, err) def _start_download(self): d = self._pay_key_fee() d.addCallback(lambda _: AddStream._start_download(self)) return d def _pay_key_fee(self): if self.key_fee is not None and self.key_fee_address is not None: reserved_points = self.wallet.reserve_points(self.key_fee_address, self.key_fee) if reserved_points is None: return defer.fail(InsufficientFundsError()) return self.wallet.send_points_to_address(reserved_points, self.key_fee) return defer.succeed(True) def _get_info_to_show(self): i = AddStream._get_info_to_show(self) if self.description is not None: i.append(("description", self.description)) if self.key_fee is None or self.key_fee_address is None: i.append(("decryption key fee", "Free")) else: i.append(("decription key fee", str(self.key_fee))) i.append(("address to pay key fee", str(self.key_fee_address))) return i class AddStreamFromLBRYcrdNameFactory(ControlHandlerFactory): control_handler_class = AddStreamFromLBRYcrdName class LBRYFileChooser(RecursiveControlHandler): def __init__(self, lbry_file_manager, factory_class, *args, **kwargs): """ @param lbry_file_manager: @param factory_class: @param args: all arguments that will be passed to the factory @param kwargs: all arguments that will be passed to the superclass' __init__ @return: """ self.lbry_file_manager = lbry_file_manager self.factory_class = factory_class self.args = args RecursiveControlHandler.__init__(self, **kwargs) def _get_control_handler_factories(self): control_handler_factories = [] for lbry_file in self.lbry_file_manager.lbry_files: control_handler_factories.append(self.factory_class(lbry_file, *self.args)) return control_handler_factories class LBRYFileChooserFactory(ControlHandlerFactory): def get_prompt_description(self): lbry_file = self.args[0] return lbry_file.file_name class DeleteLBRYFileChooser(LBRYFileChooser): prompt_description = "Delete LBRY File" def __init__(self, stream_info_manager, blob_manager, lbry_file_manager): LBRYFileChooser.__init__(self, lbry_file_manager, DeleteLBRYFileFactory, stream_info_manager, blob_manager, lbry_file_manager, exit_after_one_done=True) class DeleteLBRYFileChooserFactory(ControlHandlerFactory): control_handler_class = DeleteLBRYFileChooser class DeleteLBRYFile(ControlHandler): prompt_description = "Delete LBRY File" line_prompt = "Also delete data? (y/n):" def __init__(self, lbry_file, stream_info_manager, blob_manager, lbry_file_manager): self.lbry_file = lbry_file self.stream_info_manager = stream_info_manager self.blob_manager = blob_manager self.lbry_file_manager = lbry_file_manager def handle_line(self, line): if line is None: return False, defer.succeed(self.line_prompt) delete_data = False if line == 'y' or line == 'Y': delete_data = True d = self._delete_lbry_file(delete_data) d.addCallback(lambda _: "Successfully deleted " + str(self.lbry_file.stream_name)) return True, d def _delete_lbry_file(self, delete_data): d = self.lbry_file_manager.delete_lbry_file(self.lbry_file.stream_hash) def finish_deletion(): if delete_data is True: d = self._delete_data() else: d = defer.succeed(True) d.addCallback(lambda _: self._delete_stream_data()) return d d.addCallback(lambda _: finish_deletion()) return d def _delete_data(self): d1 = self.stream_info_manager.get_blobs_for_stream(self.lbry_file.stream_hash) def get_blob_hashes(blob_infos): return [b[0] for b in blob_infos if b[0] is not None] d1.addCallback(get_blob_hashes) d2 = self.stream_info_manager.get_sd_blob_hashes_for_stream(self.lbry_file.stream_hash) def combine_blob_hashes(results): blob_hashes = [] for success, result in results: if success is True: blob_hashes.extend(result) return blob_hashes def delete_blobs(blob_hashes): self.blob_manager.delete_blobs(blob_hashes) return True dl = defer.DeferredList([d1, d2], fireOnOneErrback=True) dl.addCallback(combine_blob_hashes) dl.addCallback(delete_blobs) return dl def _delete_stream_data(self): return self.stream_info_manager.delete_stream(self.lbry_file.stream_hash) class DeleteLBRYFileFactory(LBRYFileChooserFactory): control_handler_class = DeleteLBRYFile class ToggleLBRYFileRunningChooser(LBRYFileChooser): prompt_description = "Toggle whether an LBRY File is running" def __init__(self, lbry_file_manager): LBRYFileChooser.__init__(self, lbry_file_manager, ToggleLBRYFileRunningFactory, lbry_file_manager, exit_after_one_done=True) class ToggleLBRYFileRunningChooserFactory(ControlHandlerFactory): control_handler_class = ToggleLBRYFileRunningChooser class ToggleLBRYFileRunning(ControlHandler): prompt_description = "Toggle whether an LBRY File is running" def __init__(self, lbry_file, lbry_file_manager): self.lbry_file = lbry_file self.lbry_file_manager = lbry_file_manager def handle_line(self, line): d = self.lbry_file_manager.toggle_lbry_file_running(self.lbry_file.stream_hash) d.addErrback(self._handle_download_error) return True, d def _handle_download_error(self, err): if err.check(InsufficientFundsError): return "Download stopped due to insufficient funds." else: log.error("An unexpected error occurred due to toggling an LBRY file running. %s", err.getTraceback()) return "An unexpected error occurred. See console.log for details." class ToggleLBRYFileRunningFactory(LBRYFileChooserFactory): control_handler_class = ToggleLBRYFileRunning class CreateLBRYFile(ControlHandler): prompt_description = "Create an LBRY File from file" line_prompt = "File name: " def __init__(self, session, lbry_file_manager): self.session = session self.lbry_file_manager = lbry_file_manager def handle_line(self, line): if line is None: return False, defer.succeed(self.line_prompt) else: d = create_lbry_file(self.session, self.lbry_file_manager, line, open(line)) d.addCallback(self.add_to_lbry_files) d.addCallback(lambda _: "Successfully created " + str(line)) return True, d def add_to_lbry_files(self, stream_hash): prm = PaymentRateManager(self.session.base_payment_rate_manager) d = self.lbry_file_manager.add_lbry_file(stream_hash, prm) d.addCallback(self.set_status, stream_hash) return d def set_status(self, lbry_file_downloader, stream_hash): d = self.lbry_file_manager.change_lbry_file_status(stream_hash, ManagedLBRYFileDownloader.STATUS_FINISHED) d.addCallback(lambda _: lbry_file_downloader.restore()) return d class CreateLBRYFileFactory(ControlHandlerFactory): control_handler_class = CreateLBRYFile class PublishStreamDescriptorChooser(LBRYFileChooser): prompt_description = "Publish a stream descriptor file to the DHT for an LBRY File" def __init__(self, stream_info_manager, blob_manager, lbry_file_manager): LBRYFileChooser.__init__(self, lbry_file_manager, PublishStreamDescriptorFactory, stream_info_manager, blob_manager, lbry_file_manager, exit_after_one_done=True) class PublishStreamDescriptorChooserFactory(ControlHandlerFactory): control_handler_class = PublishStreamDescriptorChooser class PublishStreamDescriptor(ControlHandler): prompt_description = "Publish a stream descriptor file to the DHT for an LBRY File" def __init__(self, lbry_file, stream_info_manager, blob_manager, lbry_file_manager): self.lbry_file = lbry_file self.stream_info_manager = stream_info_manager self.blob_manager = blob_manager self.lbry_file_manager = lbry_file_manager def handle_line(self, line): return True, self._publish_sd_blob() def _publish_sd_blob(self): descriptor_writer = BlobStreamDescriptorWriter(self.blob_manager) d = get_sd_info(self.lbry_file_manager.stream_info_manager, self.lbry_file.stream_hash, True) d.addCallback(descriptor_writer.create_descriptor) def add_sd_blob_to_stream(sd_blob_hash): d = self.stream_info_manager.save_sd_blob_hash_to_stream(self.lbry_file.stream_hash, sd_blob_hash) d.addCallback(lambda _: sd_blob_hash) return d d.addCallback(add_sd_blob_to_stream) return d class PublishStreamDescriptorFactory(LBRYFileChooserFactory): control_handler_class = PublishStreamDescriptor class ShowPublishedSDHashesChooser(LBRYFileChooser): prompt_description = "Show published stream descriptors for an LBRY File" def __init__(self, stream_info_manager, lbry_file_manager): LBRYFileChooser.__init__(self, lbry_file_manager, ShowPublishedSDHashesFactory, stream_info_manager, lbry_file_manager) class ShowPublishedSDHashesChooserFactory(ControlHandlerFactory): control_handler_class = ShowPublishedSDHashesChooser class ShowPublishedSDHashes(ControlHandler): prompt_description = "Show published stream descriptors for an LBRY File" def __init__(self, lbry_file, stream_info_manager, lbry_file_manager): self.lbry_file = lbry_file self.stream_info_manager = stream_info_manager self.lbry_file_manager = lbry_file_manager def handle_line(self, line): return True, self._show_sd_hashes() def _show_sd_hashes(self): d = self.stream_info_manager.get_sd_blob_hashes_for_stream(self.lbry_file.stream_hash) def format_blob_hashes(sd_blob_hashes): return "\n".join([str(b) for b in sd_blob_hashes]) d.addCallback(format_blob_hashes) return d class ShowPublishedSDHashesFactory(LBRYFileChooserFactory): control_handler_class = ShowPublishedSDHashes class CreatePlainStreamDescriptorChooser(LBRYFileChooser): prompt_description = "Create a plain stream descriptor file for an LBRY File" def __init__(self, lbry_file_manager): LBRYFileChooser.__init__(self, lbry_file_manager, CreatePlainStreamDescriptorFactory, lbry_file_manager, exit_after_one_done=True) class CreatePlainStreamDescriptorChooserFactory(ControlHandlerFactory): control_handler_class = CreatePlainStreamDescriptorChooser class CreatePlainStreamDescriptor(ControlHandler): prompt_description = "Create a plain stream descriptor file for an LBRY File" def __init__(self, lbry_file, lbry_file_manager): self.lbry_file = lbry_file self.lbry_file_manager = lbry_file_manager self.sd_file_name = None def handle_line(self, line): if line is None: return False, self._get_file_name_prompt() self.sd_file_name = line d = threads.deferToThread(self._get_file_name) d.addCallback(self._create_sd) return True, d def _get_file_name_prompt(self): file_name = self.lbry_file.file_name if not file_name: file_name = "_" file_name += ".cryptsd" return defer.succeed("Stream Descriptor file name (blank for default, %s):" % file_name) def _get_file_name(self): if self.sd_file_name: file_name = self.sd_file_name else: file_name = self.lbry_file.file_name if not file_name: file_name = "_" file_name += ".cryptsd" if os.path.exists(file_name): ext_num = 1 while os.path.exists(file_name + "_" + str(ext_num)): ext_num += 1 file_name = file_name + "_" + str(ext_num) return file_name def _create_sd(self, file_name): descriptor_writer = PlainStreamDescriptorWriter(file_name) d = get_sd_info(self.lbry_file_manager.stream_info_manager, self.lbry_file.stream_hash, True) d.addCallback(descriptor_writer.create_descriptor) d.addCallback(lambda sd_file_name: "Wrote stream metadata to " + sd_file_name) return d class CreatePlainStreamDescriptorFactory(LBRYFileChooserFactory): control_handler_class = CreatePlainStreamDescriptor class ShowLBRYFileStreamHashChooser(LBRYFileChooser): prompt_description = "Show an LBRY File's stream hash (not usually what you want)" def __init__(self, lbry_file_manager): LBRYFileChooser.__init__(self, lbry_file_manager, ShowLBRYFileStreamHashFactory) class ShowLBRYFileStreamHashChooserFactory(ControlHandlerFactory): control_handler_class = ShowLBRYFileStreamHashChooser class ShowLBRYFileStreamHash(ControlHandler): prompt_description = "Show an LBRY File's stream hash (not usually what you want)" def __init__(self, lbry_file): self.lbry_file = lbry_file def handle_line(self, line): return True, defer.succeed(str(self.lbry_file.stream_hash)) class ShowLBRYFileStreamHashFactory(LBRYFileChooserFactory): control_handler_class = ShowLBRYFileStreamHash class ModifyLBRYFileDataPaymentRate(ModifyPaymentRate): prompt_description = "Modify LBRY File data payment rate" def __init__(self, lbry_file, lbry_file_manager): ModifyPaymentRate.__init__(self) self._prompt_choices['unset'] = (self._unset, "Use the default LBRY file data rate") self.lbry_file = lbry_file self.lbry_file_manager = lbry_file_manager self.payment_rate_manager = lbry_file.payment_rate_manager def _unset(self): d = self._set_rate(None) d.addCallback(lambda _: "Using the default LBRY file data rate") return True, d def _set_rate(self, rate): self.payment_rate_manager.min_blob_data_payment_rate = rate return self.lbry_file_manager.set_lbry_file_data_payment_rate(self.lbry_file.stream_hash, rate) def _get_current_status(self): status = "The LBRY file's current data payment rate is " effective_rate = self.payment_rate_manager.get_effective_min_blob_data_payment_rate() if self.payment_rate_manager.min_blob_data_payment_rate is None: status += "set to use the default LBRY file data payment rate, " status += str(effective_rate) return status class ModifyLBRYFileDataPaymentRateFactory(ControlHandlerFactory): control_handler_class = ModifyLBRYFileDataPaymentRate class ModifyLBRYFileOptionsChooser(LBRYFileChooser): prompt_description = "Modify an LBRY File's options" def __init__(self, lbry_file_manager): LBRYFileChooser.__init__(self, lbry_file_manager, ModifyLBRYFileOptionsFactory, lbry_file_manager) class ModifyLBRYFileOptionsChooserFactory(ControlHandlerFactory): control_handler_class = ModifyLBRYFileOptionsChooser class ModifyLBRYFileOptions(RecursiveControlHandler): prompt_description = "Modify an LBRY File's options" def __init__(self, lbry_file, lbry_file_manager): self.lbry_file = lbry_file self.lbry_file_manager = lbry_file_manager RecursiveControlHandler.__init__(self) def _get_control_handler_factories(self): factories = [] factories.append(ModifyLBRYFileDataPaymentRateFactory(self.lbry_file, self.lbry_file_manager)) return factories class ModifyLBRYFileOptionsFactory(LBRYFileChooserFactory): control_handler_class = ModifyLBRYFileOptions class ClaimName(ControlHandler): prompt_description = "Publish to an lbry:// address" other_hash_prompt = "Enter the hash you would like to publish:" short_desc_prompt = "Enter a short description:" sd_failure_message = "Unable to find a stream descriptor for that file.\n\nPress enter to continue" requested_price_prompt = "Enter the fee others should pay for the decryption key for this stream. Leave blank for no fee:" lbrycrd_address_prompt = "Enter the LBRYcrd address to which the key fee should be sent. If left blank a new address will be used from the wallet:" bid_amount_prompt = "Enter the number of credits you wish to use to support your bid for the name:" choose_name_prompt = "Enter the name to which you would like to publish:" def __init__(self, wallet, lbry_file_manager, blob_manager, sd_identifier): self.wallet = wallet self.lbry_file_manager = lbry_file_manager self.blob_manager = blob_manager self.sd_identifier = sd_identifier self.file_type_options = [] self.file_type_chosen = None self.lbry_file_list = [] self.sd_hash = None self.key_fee = None self.key_fee_chosen = False self.need_address = True self.chosen_address = None self.bid_amount = None self.chosen_name = None self.failed = False self.short_description = None self.verified = False def handle_line(self, line): if line is None: return False, defer.succeed(self._get_file_type_options()) if self.failed is True: return True, defer.succeed(None) if self.file_type_chosen is None: try: choice = int(line) except ValueError: choice = -1 if choice < 0 or choice >= len(self.file_type_options): return False, defer.succeed("You must enter a valid number.\n\n%s" % self._get_file_type_options()) if self.file_type_options[choice][0] is None: return True, defer.succeed("Publishing canceled.") self.file_type_chosen = self.file_type_options[choice][0] if self.file_type_chosen == "hash": return False, defer.succeed(self.other_hash_prompt) else: return False, self._set_sd_hash_and_get_desc_prompt() if self.sd_hash is None: self.sd_hash = line return False, defer.succeed(self.short_desc_prompt) if self.short_description is None: self.short_description = line return False, defer.succeed(self.requested_price_prompt) if self.key_fee_chosen is False: if line: try: self.key_fee = float(line) except ValueError: return False, defer.succeed("Leave blank or enter a floating point number.\n\n%s" % self.requested_price_prompt) self.key_fee_chosen = True if self.key_fee is None or self.key_fee <= 0: self.need_address = False return False, defer.succeed(self.bid_amount_prompt) return False, defer.succeed(self.lbrycrd_address_prompt) if self.need_address is True: if line: self.chosen_address = line d = defer.succeed(None) else: d = self._get_new_address() self.need_address = False d.addCallback(lambda _: self.bid_amount_prompt) return False, d if self.bid_amount is None: try: self.bid_amount = float(line) except ValueError: return False, defer.succeed("Must be a floating point number.\n\n%s" % self.bid_amount_prompt) return False, defer.succeed(self.choose_name_prompt) if self.chosen_name is None: self.chosen_name = line return False, defer.succeed(self._get_verification_prompt()) if self.verified is False: if line.lower() == "yes": return True, self._claim_name() else: return True, defer.succeed("Claim canceled") def _get_file_type_options(self): options = [] pattern = "[%d] %s\n" prompt_string = "What would you like to publish?\n" prompt_string += "LBRY Files:\n" i = 0 for lbry_file in self.lbry_file_manager.lbry_files: options.append((lbry_file, lbry_file.file_name)) prompt_string += pattern % (i, lbry_file.file_name) i += 1 prompt_string += "Other:\n" options.append(("hash", "Enter a hash")) prompt_string += pattern % (i, "Enter a hash") i += 1 options.append((None, "Cancel")) prompt_string += pattern % (i, "Cancel") self.file_type_options = options return prompt_string def _choose_sd(self, sd_blob_hashes): if not sd_blob_hashes: self.failed = True return defer.succeed(False) self.sd_hash = sd_blob_hashes[0] return defer.succeed(True) def _set_sd_hash_and_get_desc_prompt(self): d = self.lbry_file_manager.stream_info_manager.get_sd_blob_hashes_for_stream(self.file_type_chosen.stream_hash) d.addCallback(self._choose_sd) d.addCallback(lambda success: self.short_desc_prompt if success else self.sd_failure_message) return d def _get_new_address(self): d = self.wallet.get_new_address() def set_address(address): self.chosen_address = address d.addCallback(set_address) return d def _get_verification_prompt(self): v_string = "Ensure the following details are correct:\n" if self.file_type_chosen != "hash": v_string += "File name: %s\n" % str(self.file_type_chosen.file_name) v_string += "Hash: %s\n" % str(self.sd_hash) v_string += "Description: %s\n" % str(self.short_description) v_string += "Key fee: %s\n" % str(self.key_fee) if self.chosen_address is not None: v_string += "Key fee address: %s\n" % str(self.chosen_address) v_string += "Bid amount: %s\n" % str(self.bid_amount) v_string += "Name: %s\n" % str(self.chosen_name) v_string += "\nIf this is correct, type 'yes'. Otherwise, type 'no' and the bid will be aborted:" return v_string def _claim_name(self): d = self.wallet.claim_name(self.chosen_name, self.sd_hash, float(self.bid_amount), description=self.short_description, key_fee=self.key_fee, key_fee_address=self.chosen_address) d.addCallback(lambda response: str(response)) return d class ClaimNameFactory(ControlHandlerFactory): control_handler_class = ClaimName class ModifyDefaultDataPaymentRate(ModifyPaymentRate): prompt_description = "Modify default data payment rate" def __init__(self, payment_rate_manager, settings): ModifyPaymentRate.__init__(self) self.settings = settings self.payment_rate_manager = payment_rate_manager def _set_rate(self, rate): self.payment_rate_manager.min_blob_data_payment_rate = rate return self.settings.save_default_data_payment_rate(rate) def _get_current_status(self): status = "The current default data payment rate is " status += str(self.payment_rate_manager.min_blob_data_payment_rate) return status class ModifyDefaultDataPaymentRateFactory(ControlHandlerFactory): control_handler_class = ModifyDefaultDataPaymentRate class ForceCheckBlobFileConsistency(ControlHandler): prompt_description = "Verify consistency of stored blobs" def __init__(self, blob_manager): self.blob_manager = blob_manager def handle_line(self, line): assert line is None, "Check consistency should not be passed any arguments" return True, self._check_consistency() def _check_consistency(self): d = self.blob_manager.check_consistency() d.addCallback(lambda _: "Finished checking stored blobs") return d class ForceCheckBlobFileConsistencyFactory(ControlHandlerFactory): control_handler_class = ForceCheckBlobFileConsistency class ModifyApplicationDefaults(RecursiveControlHandler): prompt_description = "Modify application settings" def __init__(self, lbry_service): self.lbry_service = lbry_service RecursiveControlHandler.__init__(self) def _get_control_handler_factories(self): return [ModifyDefaultDataPaymentRateFactory(self.lbry_service.session.base_payment_rate_manager, self.lbry_service.settings), ForceCheckBlobFileConsistencyFactory(self.lbry_service.session.blob_manager)] class ModifyApplicationDefaultsFactory(ControlHandlerFactory): control_handler_class = ModifyApplicationDefaults class ShowServerStatus(ControlHandler): prompt_description = "Show the status of the server" def __init__(self, lbry_service): self.lbry_service = lbry_service def handle_line(self, line): assert line is None, "Show server status should not be passed any arguments" return True, self._get_status() def _get_status(self): status_string = "Server status:\n" status_string += "Port: " + str(self.lbry_service.peer_port) + "\n" status_string += "Running: " + str(self.lbry_service.lbry_server_port is not None) + "\n" if self.lbry_service.blob_request_payment_rate_manager is not None: rate = self.lbry_service.blob_request_payment_rate_manager.get_effective_min_blob_data_payment_rate() status_string += "Min blob data payment rate: " if self.lbry_service.blob_request_payment_rate_manager.min_blob_data_payment_rate is None: status_string += "Using application default (" + str(rate) + ")\n" else: status_string += str(rate) status_string += "\n" #status_string += "Min crypt info payment rate: " #status_string += str(self.lbry_service._server_payment_rate_manager.get_min_live_blob_info_payment_rate()) #status_string += "\n" return defer.succeed(status_string) class ShowServerStatusFactory(ControlHandlerFactory): control_handler_class = ShowServerStatus class StartServer(ControlHandler): prompt_description = "Start the server" def __init__(self, lbry_service): self.lbry_service = lbry_service def handle_line(self, line): assert line is None, "Start server should not be passed any arguments" d = self.lbry_service.start_server() d.addCallback(lambda _: self.lbry_service.settings.save_server_running_status(running=True)) d.addCallback(lambda _: "Successfully started the server") return True, d class StartServerFactory(ControlHandlerFactory): control_handler_class = StartServer class StopServer(ControlHandler): prompt_description = "Stop the server" def __init__(self, lbry_service): self.lbry_service = lbry_service def handle_line(self, line): assert line is None, "Stop server should not be passed any arguments" d = self.lbry_service.stop_server() d.addCallback(lambda _: self.lbry_service.settings.save_server_running_status(running=False)) d.addCallback(lambda _: "Successfully stopped the server") return True, d class StopServerFactory(ControlHandlerFactory): control_handler_class = StopServer class ModifyServerDataPaymentRate(ModifyPaymentRate): prompt_description = "Modify server data payment rate" def __init__(self, payment_rate_manager, settings): ModifyPaymentRate.__init__(self) self._prompt_choices['unset'] = (self._unset, "Use the application default data rate") self.settings = settings self.payment_rate_manager = payment_rate_manager def _unset(self): d = self._set_rate(None) d.addCallback(lambda _: "Using the application default data rate") return True, d def _set_rate(self, rate): self.payment_rate_manager.min_blob_data_payment_rate = rate return self.settings.save_server_data_payment_rate(rate) def _get_current_status(self): effective_rate = self.payment_rate_manager.get_effective_min_blob_data_payment_rate() status = "The current server data payment rate is " if self.payment_rate_manager.min_blob_data_payment_rate is None: status += "set to use the application default, " status += str(effective_rate) return status class ModifyServerDataPaymentRateFactory(ControlHandlerFactory): control_handler_class = ModifyServerDataPaymentRate # class ModifyServerCryptInfoPaymentRate(ModifyPaymentRate): # prompt_description = "Modify server live stream metadata payment rate" # # def __init__(self, payment_rate_manager, settings): # ModifyPaymentRate.__init__(self) # self._prompt_choices['unset'] = (self._unset, # "Use the application default live stream metadata rate") # self.settings = settings # self.payment_rate_manager = payment_rate_manager # # def _unset(self): # d = self._set_rate(None) # d.addCallback(lambda _: "Using the application default live stream metadata rate") # return True, d # # def _set_rate(self, rate): # self.payment_rate_manager.min_live_blob_info_payment_rate = rate # return self.settings.save_server_crypt_info_payment_rate(rate) # # def _get_current_status(self): # effective_rate = self.payment_rate_manager.get_effective_min_live_blob_info_payment_rate() # status = "The current server live stream metadata payment rate is " # if self.payment_rate_manager.get_min_blob_data_payment_rate() is None: # status += "set to use the application default, " # status += str(effective_rate) # else: # status += str(effective_rate) # return status # # # class ModifyServerCryptInfoPaymentRateFactory(ControlHandlerFactory): # control_handler_class = ModifyServerCryptInfoPaymentRate class DisableQueryHandler(ControlHandler): def __init__(self, query_handlers, query_handler, settings): self.query_handlers = query_handlers self.query_handler = query_handler self.settings = settings def handle_line(self, line): assert line is None, "DisableQueryHandler should not be passed any arguments" self.query_handlers[self.query_handler] = False d = self.settings.disable_query_handler(self.query_handler.get_primary_query_identifier()) d.addCallback(lambda _: "Disabled the query handler") return True, d class DisableQueryHandlerFactory(ControlHandlerFactory): control_handler_class = DisableQueryHandler def get_prompt_description(self): query_handler = self.args[1] return "Disable " + str(query_handler.get_description()) class EnableQueryHandler(ControlHandler): def __init__(self, query_handlers, query_handler, settings): self.query_handlers = query_handlers self.query_handler = query_handler self.settings = settings def handle_line(self, line): assert line is None, "EnableQueryHandler should not be passed any arguments" self.query_handlers[self.query_handler] = True d = self.settings.enable_query_handler(self.query_handler.get_primary_query_identifier()) d.addCallback(lambda _: "Enabled the query handler") return True, d class EnableQueryHandlerFactory(ControlHandlerFactory): control_handler_class = EnableQueryHandler def get_prompt_description(self): query_handler = self.args[1] return "Enable " + str(query_handler.get_description()) class ModifyServerEnabledQueries(RecursiveControlHandler): prompt_description = "Modify which queries the server will respond to" def __init__(self, query_handlers, settings): self.query_handlers = query_handlers self.settings = settings RecursiveControlHandler.__init__(self, reset_after_each_done=True) def _get_control_handler_factories(self): factories = [] for query_handler, enabled in self.query_handlers.iteritems(): if enabled: factories.append(DisableQueryHandlerFactory(self.query_handlers, query_handler, self.settings)) else: factories.append(EnableQueryHandlerFactory(self.query_handlers, query_handler, self.settings)) return factories class ModifyServerEnabledQueriesFactory(ControlHandlerFactory): control_handler_class = ModifyServerEnabledQueries class ImmediateAnnounceAllBlobs(ControlHandler): prompt_description = "Immediately announce all blob hashes to the DHT" def __init__(self, blob_manager): self.blob_manager = blob_manager def handle_line(self, line): assert line is None, "Immediate Announce should not be passed any arguments" d = self.blob_manager.immediate_announce_all_blobs() d.addCallback(lambda _: "Done announcing") return True, d class ImmediateAnnounceAllBlobsFactory(ControlHandlerFactory): control_handler_class = ImmediateAnnounceAllBlobs class ModifyServerSettings(RecursiveControlHandler): prompt_description = "Modify server settings" def __init__(self, lbry_service): self.lbry_service = lbry_service RecursiveControlHandler.__init__(self, reset_after_each_done=True) def _get_control_handler_factories(self): factories = [] if self.lbry_service.lbry_server_port is not None: factories.append(StopServerFactory(self.lbry_service)) else: factories.append(StartServerFactory(self.lbry_service)) factories.append( ModifyServerDataPaymentRateFactory( self.lbry_service.blob_request_payment_rate_manager, self.lbry_service.settings ) ) #factories.append(ModifyServerCryptInfoPaymentRateFactory(self.lbry_service._server_payment_rate_manager, # self.lbry_service.settings)) factories.append(ModifyServerEnabledQueriesFactory(self.lbry_service.query_handlers, self.lbry_service.settings)) factories.append(ImmediateAnnounceAllBlobsFactory(self.lbry_service.session.blob_manager)) return factories class ModifyServerSettingsFactory(ControlHandlerFactory): control_handler_class = ModifyServerSettings class PeerChooser(RecursiveControlHandler): def __init__(self, peer_manager, factory_class, *args, **kwargs): """ @param peer_manager: @param factory_class: @param args: all arguments that will be passed to the factory @param kwargs: all arguments that will be passed to the superclass' __init__ @return: """ self.peer_manager = peer_manager self.factory_class = factory_class self.args = args RecursiveControlHandler.__init__(self, **kwargs) def _get_control_handler_factories(self): control_handler_factories = [] for peer in self.peer_manager.peers: control_handler_factories.append(self.factory_class(peer, *self.args)) return control_handler_factories class PeerChooserFactory(ControlHandlerFactory): def get_prompt_description(self): peer = self.args[0] return str(peer) class ShowPeerStats(ControlHandler): prompt_description = "Show the peer's stats" def __init__(self, peer): self.peer = peer def handle_line(self, line): return True, defer.succeed(self._get_peer_stats_string()) def _get_peer_stats_string(self): stats = "Statistics for " + str(self.peer) + '\n' stats += " current_score: " + str(self.peer.score) + '\n' stats += " is_available: " + str(self.peer.is_available()) + '\n' for stat_type, amount in self.peer.stats.iteritems(): stats += " " + stat_type + ": " + str(amount) + "\n" return stats class ShowPeerStatsFactory(ControlHandlerFactory): control_handler_class = ShowPeerStats class PeerStatsAndSettings(RecursiveControlHandler): def __init__(self, peer): self.peer = peer RecursiveControlHandler.__init__(self, reset_after_each_done=True) def _get_control_handler_factories(self): factories = [] factories.append(ShowPeerStatsFactory(self.peer)) return factories class PeerStatsAndSettingsFactory(PeerChooserFactory): control_handler_class = PeerStatsAndSettings class PeerStatsAndSettingsChooser(PeerChooser): prompt_description = "View peer stats and modify peer settings" def __init__(self, peer_manager): PeerChooser.__init__(self, peer_manager, PeerStatsAndSettingsFactory) class PeerStatsAndSettingsChooserFactory(ControlHandlerFactory): control_handler_class = PeerStatsAndSettingsChooser