# Copyright (c) 2022, Dell Inc. or its subsidiaries. All rights reserved. # SPDX-License-Identifier: Apache-2.0 # See the LICENSE file for details. # # This file is part of NVMe STorage Appliance Services (nvme-stas). # # Authors: Martin Belanger # '''This module defines the base Controller object from which the Dc (Discovery Controller) and Ioc (I/O Controller) objects are derived.''' import time import inspect import logging from gi.repository import GLib from libnvme import nvme from staslib import conf, defs, gutil, trid, udev, stas DLP_CHANGED = ( (nvme.NVME_LOG_LID_DISCOVER << 16) | (nvme.NVME_AER_NOTICE_DISC_CHANGED << 8) | nvme.NVME_AER_NOTICE ) # 0x70f002 def get_eflags(dlpe): '''@brief Return eflags field of dlpe''' return int(dlpe.get('eflags', 0)) if dlpe else 0 def get_ncc(eflags: int): '''@brief Return True if Not Connected to CDC bit is asserted, False otherwise''' return eflags & nvme.NVMF_DISC_EFLAGS_NCC != 0 def dlp_supp_opts_as_string(dlp_supp_opts: int): '''@brief Return the list of options supported by the Get discovery log page command. ''' data = { nvme.NVMF_LOG_DISC_LID_EXTDLPES: "EXTDLPES", nvme.NVMF_LOG_DISC_LID_PLEOS: "PLEOS", nvme.NVMF_LOG_DISC_LID_ALLSUBES: "ALLSUBES", } return [txt for msk, txt in data.items() if dlp_supp_opts & msk] # ****************************************************************************** class Controller(stas.ControllerABC): # pylint: disable=too-many-instance-attributes '''@brief Base class used to manage the connection to a controller.''' def __init__(self, tid: trid.TID, service, discovery_ctrl: bool = False): sysconf = conf.SysConf() self._nvme_options = conf.NvmeOptions() self._root = nvme.root() self._host = nvme.host( self._root, hostnqn=sysconf.hostnqn, hostid=sysconf.hostid, hostsymname=sysconf.hostsymname ) self._host.dhchap_key = sysconf.hostkey if self._nvme_options.dhchap_hostkey_supp else None self._udev = udev.UDEV self._device = None # Refers to the nvme device (e.g. /dev/nvme[n]) self._ctrl = None # libnvme's nvme.ctrl object self._connect_op = None super().__init__(tid, service, discovery_ctrl) def _release_resources(self): logging.debug('Controller._release_resources() - %s | %s', self.id, self.device) if self._udev: self._udev.unregister_for_device_events(self._on_udev_notification) self._kill_ops() super()._release_resources() self._ctrl = None self._udev = None self._host = None self._root = None self._nvme_options = None @property def device(self) -> str: '''@brief return the Linux nvme device id (e.g. nvme3) or empty string if no device is associated with this controller''' if not self._device and self._ctrl and self._ctrl.name: self._device = self._ctrl.name return self._device or 'nvme?' def all_ops_completed(self) -> bool: '''@brief Returns True if all operations have completed. False otherwise.''' return self._connect_op is None or self._connect_op.completed() def connected(self): '''@brief Return whether a connection is established''' return self._ctrl and self._ctrl.connected() def controller_id_dict(self) -> dict: '''@brief return the controller ID as a dict.''' cid = super().controller_id_dict() cid['device'] = self.device return cid def details(self) -> dict: '''@brief return detailed debug info about this controller''' details = super().details() details.update( self._udev.get_attributes(self.device, ('hostid', 'hostnqn', 'model', 'serial', 'dctype', 'cntrltype')) ) details['connected'] = str(self.connected()) return details def info(self) -> dict: '''@brief Get the controller info for this object''' info = super().info() if self._connect_op: info['connect operation'] = str(self._connect_op.as_dict()) return info def cancel(self): '''@brief Used to cancel pending operations.''' super().cancel() if self._connect_op: self._connect_op.cancel() def _kill_ops(self): if self._connect_op: self._connect_op.kill() self._connect_op = None def set_level_from_tron(self, tron): '''Set log level based on TRON''' if self._root: self._root.log_level("debug" if tron else "err") def _on_udev_notification(self, udev_obj): if self._alive(): if udev_obj.action == 'change': nvme_aen = udev_obj.get('NVME_AEN') nvme_event = udev_obj.get('NVME_EVENT') if isinstance(nvme_aen, str): logging.info('%s | %s - Received AEN: %s', self.id, udev_obj.sys_name, nvme_aen) self._on_aen(int(nvme_aen, 16)) if isinstance(nvme_event, str): self._on_nvme_event(nvme_event) elif udev_obj.action == 'remove': logging.info('%s | %s - Received "remove" event', self.id, udev_obj.sys_name) self._on_ctrl_removed(udev_obj) else: logging.debug( 'Controller._on_udev_notification() - %s | %s: Received "%s" event', self.id, udev_obj.sys_name, udev_obj.action, ) else: logging.debug( 'Controller._on_udev_notification() - %s | %s: Received event on dead object. udev_obj %s: %s', self.id, self.device, udev_obj.action, udev_obj.sys_name, ) def _on_ctrl_removed(self, udev_obj): # pylint: disable=unused-argument if self._udev: self._udev.unregister_for_device_events(self._on_udev_notification) self._kill_ops() # Kill all pending operations self._ctrl = None # Defer removal of this object to the next main loop's idle period. GLib.idle_add(self._serv.remove_controller, self, True) def _get_cfg(self): '''Get configuration parameters. These may either come from the [Global] section or from a "controller" entry in the configuration file. A definition found in a "controller" entry overrides the same definition found in the [Global] section. ''' cfg = {} service_conf = conf.SvcConf() for option, keyword in ( ('kato', 'keep_alive_tmo'), ('queue-size', 'queue_size'), ('hdr-digest', 'hdr_digest'), ('data-digest', 'data_digest'), ('nr-io-queues', 'nr_io_queues'), ('ctrl-loss-tmo', 'ctrl_loss_tmo'), ('disable-sqflow', 'disable_sqflow'), ('nr-poll-queues', 'nr_poll_queues'), ('nr-write-queues', 'nr_write_queues'), ('reconnect-delay', 'reconnect_delay'), ): # Check if the value is defined as a "controller" entry (i.e. override) ovrd_val = self.tid.cfg.get(option, None) if ovrd_val is not None: cfg[keyword] = ovrd_val else: # Check if the value is found in the [Global] section. glob_val = service_conf.get_option('Global', option) if glob_val is not None: cfg[keyword] = glob_val return cfg def _do_connect(self): service_conf = conf.SvcConf() host_iface = ( self.tid.host_iface if (self.tid.host_iface and not service_conf.ignore_iface and self._nvme_options.host_iface_supp) else None ) self._ctrl = nvme.ctrl( self._root, subsysnqn=self.tid.subsysnqn, transport=self.tid.transport, traddr=self.tid.traddr, trsvcid=self.tid.trsvcid if self.tid.trsvcid else None, host_traddr=self.tid.host_traddr if self.tid.host_traddr else None, host_iface=host_iface, ) self._ctrl.discovery_ctrl_set(self._discovery_ctrl) # Set the DHCHAP key on the controller # NOTE that this will eventually have to # change once we have support for AVE (TP8019) ctrl_dhchap_key = self.tid.cfg.get('dhchap-ctrl-secret') if ctrl_dhchap_key and self._nvme_options.dhchap_ctrlkey_supp: has_dhchap_key = hasattr(self._ctrl, 'dhchap_key') if not has_dhchap_key: logging.warning( '%s | %s - libnvme-%s does not allow setting the controller DHCHAP key. Please upgrade libnvme.', self.id, self.device, defs.LIBNVME_VERSION, ) else: self._ctrl.dhchap_key = ctrl_dhchap_key # Audit existing nvme devices. If we find a match, then # we'll just borrow that device instead of creating a new one. udev_obj = self._find_existing_connection() if udev_obj is not None: # A device already exists. self._device = udev_obj.sys_name logging.debug( 'Controller._do_connect() - %s Found existing control device: %s', self.id, udev_obj.sys_name ) self._connect_op = gutil.AsyncTask( self._on_connect_success, self._on_connect_fail, self._ctrl.init, self._host, int(udev_obj.sys_number) ) else: cfg = self._get_cfg() logging.debug( 'Controller._do_connect() - %s Connecting to nvme control with cfg=%s', self.id, cfg ) self._connect_op = gutil.AsyncTask( self._on_connect_success, self._on_connect_fail, self._ctrl.connect, self._host, cfg ) self._connect_op.run_async() # -------------------------------------------------------------------------- def _on_connect_success(self, op_obj: gutil.AsyncTask, data): '''@brief Function called when we successfully connect to the Controller. ''' op_obj.kill() self._connect_op = None if self._alive(): self._device = self._ctrl.name logging.info('%s | %s - Connection established!', self.id, self.device) self._connect_attempts = 0 self._udev.register_for_device_events(self._device, self._on_udev_notification) else: logging.debug( 'Controller._on_connect_success() - %s | %s: Received event on dead object. data=%s', self.id, self.device, data, ) def _on_connect_fail(self, op_obj: gutil.AsyncTask, err, fail_cnt): # pylint: disable=unused-argument '''@brief Function called when we fail to connect to the Controller.''' op_obj.kill() self._connect_op = None if self._alive(): if self._connect_attempts == 1: # Do a fast re-try on the first failure. self._retry_connect_tmr.set_timeout(self.FAST_CONNECT_RETRY_PERIOD_SEC) elif self._connect_attempts == 2: # If the fast connect re-try fails, then we can print a message to # indicate the failure, and start a slow re-try period. self._retry_connect_tmr.set_timeout(self.CONNECT_RETRY_PERIOD_SEC) logging.error('%s Failed to connect to controller. %s %s', self.id, err.domain, err.message) if self._should_try_to_reconnect(): logging.debug( 'Controller._on_connect_fail() - %s %s. Retry in %s sec.', self.id, err, self._retry_connect_tmr.get_timeout(), ) self._retry_connect_tmr.start() else: logging.debug( 'Controller._on_connect_fail() - %s Received event on dead object. %s %s', self.id, err.domain, err.message, ) def disconnect(self, disconnected_cb, keep_connection): '''@brief Issue an asynchronous disconnect command to a Controller. Once the async command has completed, the callback 'disconnected_cb' will be invoked. If a controller is already disconnected, then the callback will be added to the main loop's next idle slot to be executed ASAP. @param disconnected_cb: Callback to be called when disconnect has completed. the callback must have this signature: def cback(controller: Controller, success: bool) @param keep_connection: Whether the underlying connection should remain in the kernel. ''' logging.debug( 'Controller.disconnect() - %s | %s: keep_connection=%s', self.id, self.device, keep_connection ) if self._ctrl and self._ctrl.connected() and not keep_connection: logging.info('%s | %s - Disconnect initiated', self.id, self.device) op = gutil.AsyncTask(self._on_disconn_success, self._on_disconn_fail, self._ctrl.disconnect) op.run_async(disconnected_cb) else: # Defer callback to the next main loop's idle period. The callback # cannot be called directly as the current Controller object is in the # process of being disconnected and the callback will in fact delete # the object. This would invariably lead to unpredictable outcome. GLib.idle_add(disconnected_cb, self, True) def _on_disconn_success(self, op_obj: gutil.AsyncTask, data, disconnected_cb): # pylint: disable=unused-argument logging.debug('Controller._on_disconn_success() - %s | %s', self.id, self.device) op_obj.kill() # Defer callback to the next main loop's idle period. The callback # cannot be called directly as the current Controller object is in the # process of being disconnected and the callback will in fact delete # the object. This would invariably lead to unpredictable outcome. GLib.idle_add(disconnected_cb, self, True) def _on_disconn_fail( self, op_obj: gutil.AsyncTask, err, fail_cnt, disconnected_cb ): # pylint: disable=unused-argument logging.debug('Controller._on_disconn_fail() - %s | %s: %s', self.id, self.device, err) op_obj.kill() # Defer callback to the next main loop's idle period. The callback # cannot be called directly as the current Controller object is in the # process of being disconnected and the callback will in fact delete # the object. This would invariably lead to unpredictable outcome. GLib.idle_add(disconnected_cb, self, False) # ****************************************************************************** class Dc(Controller): '''@brief This object establishes a connection to one Discover Controller (DC). It retrieves the discovery log pages and caches them. It also monitors udev events associated with that DC and updates the cached discovery log pages accordingly. ''' GET_LOG_PAGE_RETRY_RERIOD_SEC = 20 REGISTRATION_RETRY_RERIOD_SEC = 5 GET_SUPPORTED_RETRY_RERIOD_SEC = 5 def __init__(self, staf, tid: trid.TID, log_pages=None, origin=None): super().__init__(tid, staf, discovery_ctrl=True) self._register_op = None self._get_supported_op = None self._get_log_op = None self._origin = origin self._log_pages = log_pages if log_pages else list() # Log pages cache # For Avahi-discovered DCs that later become unresponsive, monitor how # long the controller remains unresponsive and if it does not return for # a configurable soak period (_ctrl_unresponsive_tmr), remove that # controller. Only Avahi-discovered controllers need this timeout-based # cleanup. self._ctrl_unresponsive_time = None # The time at which connectivity was lost self._ctrl_unresponsive_tmr = gutil.GTimer(0, self._serv.controller_unresponsive, self.tid) def _release_resources(self): logging.debug('Dc._release_resources() - %s | %s', self.id, self.device) super()._release_resources() if self._ctrl_unresponsive_tmr is not None: self._ctrl_unresponsive_tmr.kill() self._log_pages = list() self._ctrl_unresponsive_tmr = None def _kill_ops(self): super()._kill_ops() if self._get_log_op: self._get_log_op.kill() self._get_log_op = None if self._register_op: self._register_op.kill() self._register_op = None if self._get_supported_op: self._get_supported_op.kill() self._get_supported_op = None def all_ops_completed(self) -> bool: '''@brief Returns True if all operations have completed. False otherwise.''' return ( super().all_ops_completed() and (self._get_log_op is None or self._get_log_op.completed()) and (self._register_op is None or self._register_op.completed()) and (self._get_supported_op is None or self._get_supported_op.completed()) ) @property def origin(self): '''@brief Return how this controller came into existance. Was it "discovered" through mDNS service discovery (TP8009), was it manually "configured" in stafd.conf, or was it a "referral". ''' return self._origin @origin.setter def origin(self, value): '''@brief Set the origin of this controller.''' if value in ('discovered', 'configured', 'referral'): self._origin = value self._handle_lost_controller() else: logging.error('%s | %s - Trying to set invalid origin to %s', self.id, self.device, value) def reload_hdlr(self): '''@brief This is called when a "reload" signal is received.''' logging.debug('Dc.reload_hdlr() - %s | %s', self.id, self.device) self._handle_lost_controller() self._resync_with_controller() def info(self) -> dict: '''@brief Get the controller info for this object''' timeout = conf.SvcConf().zeroconf_persistence_sec unresponsive_time = ( time.asctime(self._ctrl_unresponsive_time) if self._ctrl_unresponsive_time is not None else '---' ) info = super().info() info['origin'] = self.origin if self.origin == 'discovered': # The code that handles "unresponsive" DCs only applies to # discovered DCs. So, let's only print that info when it's relevant. info['unresponsive timer'] = str(self._ctrl_unresponsive_tmr) info['unresponsive timeout'] = f'{timeout} sec' if timeout >= 0 else 'forever' info['unresponsive time'] = unresponsive_time if self._get_log_op: info['get log page operation'] = str(self._get_log_op.as_dict()) if self._register_op: info['register operation'] = str(self._register_op.as_dict()) if self._get_supported_op: info['get supported log page operation'] = str(self._get_supported_op.as_dict()) return info def cancel(self): '''@brief Used to cancel pending operations.''' super().cancel() if self._get_log_op: self._get_log_op.cancel() if self._register_op: self._register_op.cancel() if self._get_supported_op: self._get_supported_op.cancel() def log_pages(self) -> list: '''@brief Get the cached log pages for this object''' return self._log_pages def referrals(self) -> list: '''@brief Return the list of referrals''' return [page for page in self._log_pages if page['subtype'] == 'referral'] def _is_ddc(self): return self._ctrl and self._ctrl.dctype != 'cdc' def _on_aen(self, aen: int): if aen == DLP_CHANGED and self._get_log_op: self._get_log_op.run_async() def _handle_lost_controller(self): if self.origin == 'discovered': # Only apply to mDNS-discovered DCs if not self._serv.is_avahi_reported(self.tid) and not self.connected(): timeout = conf.SvcConf().zeroconf_persistence_sec if timeout >= 0: if self._ctrl_unresponsive_time is None: self._ctrl_unresponsive_time = time.localtime() self._ctrl_unresponsive_tmr.start(timeout) logging.info( '%s | %s - Controller is not responding. Will be removed by %s unless restored', self.id, self.device, time.ctime(time.mktime(self._ctrl_unresponsive_time) + timeout), ) return logging.info( '%s | %s - Controller not responding. Retrying...', self.id, self.device, ) self._ctrl_unresponsive_time = None self._ctrl_unresponsive_tmr.stop() self._ctrl_unresponsive_tmr.set_timeout(0) def is_unresponsive(self): '''@brief For "discovered" DC, return True if DC is unresponsive, False otherwise. ''' return ( self.origin == 'discovered' and not self._serv.is_avahi_reported(self.tid) and not self.connected() and self._ctrl_unresponsive_time is not None and self._ctrl_unresponsive_tmr.time_remaining() <= 0 ) def _resync_with_controller(self): '''Communicate with DC to resync the states''' if self._register_op: self._register_op.run_async() elif self._get_supported_op: self._get_supported_op.run_async() elif self._get_log_op: self._get_log_op.run_async() def _on_nvme_event(self, nvme_event: str): if nvme_event in ('connected', 'rediscover'): # This event indicates that the kernel # driver re-connected to the DC. logging.debug( 'Dc._on_nvme_event() - %s | %s: Received "%s" event', self.id, self.device, nvme_event, ) self._resync_with_controller() def _find_existing_connection(self): return self._udev.find_nvme_dc_device(self.tid) def _post_registration_actions(self): # Need to check that supported_log_pages() is available (introduced in libnvme 1.2) has_supported_log_pages = hasattr(self._ctrl, 'supported_log_pages') if not has_supported_log_pages: logging.warning( '%s | %s - libnvme-%s does not support "Get supported log pages". Please upgrade libnvme.', self.id, self.device, defs.LIBNVME_VERSION, ) if conf.SvcConf().pleo_enabled and self._is_ddc() and has_supported_log_pages: self._get_supported_op = gutil.AsyncTask( self._on_get_supported_success, self._on_get_supported_fail, self._ctrl.supported_log_pages ) self._get_supported_op.run_async() else: self._get_log_op = gutil.AsyncTask(self._on_get_log_success, self._on_get_log_fail, self._ctrl.discover) self._get_log_op.run_async() # -------------------------------------------------------------------------- def _on_connect_success(self, op_obj: gutil.AsyncTask, data): '''@brief Function called when we successfully connect to the Discovery Controller. ''' super()._on_connect_success(op_obj, data) if self._alive(): self._ctrl_unresponsive_time = None self._ctrl_unresponsive_tmr.stop() self._ctrl_unresponsive_tmr.set_timeout(0) if self._ctrl.is_registration_supported(): self._register_op = gutil.AsyncTask( self._on_registration_success, self._on_registration_fail, self._ctrl.registration_ctlr, nvme.NVMF_DIM_TAS_REGISTER, ) self._register_op.run_async() else: self._post_registration_actions() def _on_connect_fail(self, op_obj: gutil.AsyncTask, err, fail_cnt): '''@brief Function called when we fail to connect to the Controller.''' super()._on_connect_fail(op_obj, err, fail_cnt) if self._alive(): self._handle_lost_controller() # -------------------------------------------------------------------------- def _on_registration_success(self, op_obj: gutil.AsyncTask, data): # pylint: disable=unused-argument '''@brief Function called when we successfully register with the Discovery Controller. See self._register_op object for details. NOTE: The name _on_registration_success() may be misleading. "success" refers to the fact that a successful exchange was made with the DC. It doesn't mean that the registration itself succeeded. ''' if self._alive(): if data is not None: logging.warning('%s | %s - Registration error. %s.', self.id, self.device, data) else: logging.debug('Dc._on_registration_success() - %s | %s', self.id, self.device) self._post_registration_actions() else: logging.debug( 'Dc._on_registration_success() - %s | %s: Received event on dead object.', self.id, self.device ) def _on_registration_fail(self, op_obj: gutil.AsyncTask, err, fail_cnt): '''@brief Function called when we fail to register with the Discovery Controller. See self._register_op object for details. ''' if self._alive(): logging.debug( 'Dc._on_registration_fail() - %s | %s: %s. Retry in %s sec', self.id, self.device, err, Dc.REGISTRATION_RETRY_RERIOD_SEC, ) if fail_cnt == 1: # Throttle the logs. Only print the first time the command fails logging.error('%s | %s - Failed to register with Discovery Controller. %s', self.id, self.device, err) op_obj.retry(Dc.REGISTRATION_RETRY_RERIOD_SEC) else: logging.debug( 'Dc._on_registration_fail() - %s | %s: Received event on dead object. %s', self.id, self.device, err, ) op_obj.kill() # -------------------------------------------------------------------------- def _on_get_supported_success(self, op_obj: gutil.AsyncTask, data): # pylint: disable=unused-argument '''@brief Function called when we successfully retrieved the supported log pages from the Discovery Controller. See self._get_supported_op object for details. NOTE: The name _on_get_supported_success() may be misleading. "success" refers to the fact that a successful exchange was made with the DC. It doesn't mean that the Get Supported Log Page itself succeeded. ''' if self._alive(): try: dlp_supp_opts = data[nvme.NVME_LOG_LID_DISCOVER] >> 16 except (TypeError, IndexError): dlp_supp_opts = 0 logging.debug( 'Dc._on_get_supported_success() - %s | %s: supported options = 0x%04X = %s', self.id, self.device, dlp_supp_opts, dlp_supp_opts_as_string(dlp_supp_opts), ) if 'lsp' in inspect.signature(self._ctrl.discover).parameters: lsp = nvme.NVMF_LOG_DISC_LSP_PLEO if dlp_supp_opts & nvme.NVMF_LOG_DISC_LID_PLEOS else 0 self._get_log_op = gutil.AsyncTask( self._on_get_log_success, self._on_get_log_fail, self._ctrl.discover, lsp ) else: logging.warning( '%s | %s - libnvme-%s does not support setting PLEO bit. Please upgrade.', self.id, self.device, defs.LIBNVME_VERSION, ) self._get_log_op = gutil.AsyncTask(self._on_get_log_success, self._on_get_log_fail, self._ctrl.discover) self._get_log_op.run_async() else: logging.debug( 'Dc._on_get_supported_success() - %s | %s: Received event on dead object.', self.id, self.device ) def _on_get_supported_fail(self, op_obj: gutil.AsyncTask, err, fail_cnt): '''@brief Function called when we fail to retrieve the supported log page from the Discovery Controller. See self._get_supported_op object for details. ''' if self._alive(): logging.debug( 'Dc._on_get_supported_fail() - %s | %s: %s. Retry in %s sec', self.id, self.device, err, Dc.GET_SUPPORTED_RETRY_RERIOD_SEC, ) if fail_cnt == 1: # Throttle the logs. Only print the first time the command fails logging.error( '%s | %s - Failed to Get supported log pages from Discovery Controller. %s', self.id, self.device, err, ) op_obj.retry(Dc.GET_SUPPORTED_RETRY_RERIOD_SEC) else: logging.debug( 'Dc._on_get_supported_fail() - %s | %s: Received event on dead object. %s', self.id, self.device, err, ) op_obj.kill() # -------------------------------------------------------------------------- def _on_get_log_success(self, op_obj: gutil.AsyncTask, data): # pylint: disable=unused-argument '''@brief Function called when we successfully retrieve the log pages from the Discovery Controller. See self._get_log_op object for details. ''' if self._alive(): # Note that for historical reasons too long to explain, the CDC may # return invalid addresses ('0.0.0.0', '::', or ''). Those need to # be filtered out. referrals_before = self.referrals() self._log_pages = ( [ {k.strip(): str(v).strip() for k, v in dictionary.items()} for dictionary in data if dictionary.get('traddr', '').strip() not in ('0.0.0.0', '::', '') ] if data else list() ) logging.info( '%s | %s - Received discovery log pages (num records=%s).', self.id, self.device, len(self._log_pages) ) referrals_after = self.referrals() self._serv.log_pages_changed(self, self.device) if referrals_after != referrals_before: logging.debug( 'Dc._on_get_log_success() - %s | %s: Referrals before = %s', self.id, self.device, referrals_before, ) logging.debug( 'Dc._on_get_log_success() - %s | %s: Referrals after = %s', self.id, self.device, referrals_after, ) self._serv.referrals_changed() else: logging.debug( 'Dc._on_get_log_success() - %s | %s: Received event on dead object.', self.id, self.device ) def _on_get_log_fail(self, op_obj: gutil.AsyncTask, err, fail_cnt): '''@brief Function called when we fail to retrieve the log pages from the Discovery Controller. See self._get_log_op object for details. ''' if self._alive(): logging.debug( 'Dc._on_get_log_fail() - %s | %s: %s. Retry in %s sec', self.id, self.device, err, Dc.GET_LOG_PAGE_RETRY_RERIOD_SEC, ) if fail_cnt == 1: # Throttle the logs. Only print the first time the command fails logging.error('%s | %s - Failed to retrieve log pages. %s', self.id, self.device, err) op_obj.retry(Dc.GET_LOG_PAGE_RETRY_RERIOD_SEC) else: logging.debug( 'Dc._on_get_log_fail() - %s | %s: Received event on dead object. %s', self.id, self.device, err, ) op_obj.kill() # ****************************************************************************** class Ioc(Controller): '''@brief This object establishes a connection to one I/O Controller.''' def __init__(self, stac, tid: trid.TID): self._dlpe = None super().__init__(tid, stac) def _find_existing_connection(self): return self._udev.find_nvme_ioc_device(self.tid) def _on_aen(self, aen: int): pass def _on_nvme_event(self, nvme_event): pass def reload_hdlr(self): '''@brief This is called when a "reload" signal is received.''' if not self.connected() and self._retry_connect_tmr.time_remaining() == 0: self._try_to_connect_deferred.schedule() @property def eflags(self): '''@brief Return the eflag field of the DLPE''' return get_eflags(self._dlpe) @property def ncc(self): '''@brief Return Not Connected to CDC status''' return get_ncc(self.eflags) def details(self) -> dict: '''@brief return detailed debug info about this controller''' details = super().details() details['dlpe'] = str(self._dlpe) details['dlpe.eflags.ncc'] = str(self.ncc) return details def update_dlpe(self, dlpe): '''@brief This method is called when a new DLPE associated with this controller is received.''' new_ncc = get_ncc(get_eflags(dlpe)) old_ncc = self.ncc self._dlpe = dlpe if old_ncc and not new_ncc: # NCC bit cleared? if not self.connected(): self._connect_attempts = 0 self._try_to_connect_deferred.schedule() def _should_try_to_reconnect(self): '''@brief This is used to determine when it's time to stop trying toi connect''' max_connect_attempts = conf.SvcConf().connect_attempts_on_ncc if self.ncc else 0 return max_connect_attempts == 0 or self._connect_attempts < max_connect_attempts