def render(self, session, logger, hostname, manager, interface, mac, comments, **arguments): dbhost = hostname_to_host(session, hostname) dbmachine = dbhost.machine oldinfo = DSDBRunner.snapshot_hw(dbmachine) if not manager: manager = "%sr.%s" % (dbmachine.primary_name.fqdn.name, dbmachine.primary_name.fqdn.dns_domain.name) dbinterface = get_or_create_interface(session, dbmachine, name=interface, mac=mac, interface_type='management') addrs = ", ".join(["%s [%s]" % (addr.logical_name, addr.ip) for addr in dbinterface.assignments]) if addrs: raise ArgumentError("{0} already has the following addresses: " "{1}.".format(dbinterface, addrs)) audit_results = [] ip = generate_ip(session, logger, dbinterface, compel=True, audit_results=audit_results, **arguments) dbdns_rec, newly_created = grab_address(session, manager, ip, comments=comments, preclude=True) assign_address(dbinterface, ip, dbdns_rec.network) session.flush() plenary_info = PlenaryMachineInfo(dbmachine, logger=logger) key = plenary_info.get_write_key() try: lock_queue.acquire(key) plenary_info.write(locked=True) dsdb_runner = DSDBRunner(logger=logger) dsdb_runner.update_host(dbmachine, oldinfo) dsdb_runner.commit_or_rollback("Could not add host to DSDB") except: plenary_info.restore_stash() raise finally: lock_queue.release(key) if dbmachine.host: # XXX: Host needs to be reconfigured. pass for name, value in audit_results: self.audit_result(session, name, value, **arguments) return
def render(self, session, logger, auxiliary, **arguments): dbmachine = None with DeleteKey("system", logger=logger): # Check dependencies, translate into user-friendly message dbauxiliary = ARecord.get_unique(session, fqdn=auxiliary, compel=True) is_aux = True if not dbauxiliary.assignments or len(dbauxiliary.assignments) > 1: is_aux = False else: assignment = dbauxiliary.assignments[0] dbmachine = assignment.interface.hardware_entity if assignment.ip == dbmachine.primary_ip: is_aux = False if assignment.interface.interface_type == 'management': is_aux = False if not is_aux: raise ArgumentError( "{0:a} is not an auxiliary.".format(dbauxiliary)) # FIXME: Look for dependencies... oldinfo = DSDBRunner.snapshot_hw(dbmachine) session.delete(assignment) delete_dns_record(dbauxiliary) session.flush() session.expire(dbmachine) dsdb_runner = DSDBRunner(logger=logger) dsdb_runner.update_host(dbmachine, oldinfo) dsdb_runner.commit_or_rollback( "Could not remove host %s from DSDB" % auxiliary) # Past the point of no return here (DSDB has been updated)... # probably not much of an issue if writing the plenary failed. # Commit the session so that we can free the delete lock. session.commit() if dbmachine: plenary_info = PlenaryMachineInfo(dbmachine, logger=logger) # This may create a new lock, so we free first above. plenary_info.write() if dbmachine.host: # FIXME: Reconfigure pass return
def render(self, session, logger, auxiliary, **arguments): dbmachine = None with DeleteKey("system", logger=logger): # Check dependencies, translate into user-friendly message dbauxiliary = ARecord.get_unique(session, fqdn=auxiliary, compel=True) is_aux = True if not dbauxiliary.assignments or len(dbauxiliary.assignments) > 1: is_aux = False else: assignment = dbauxiliary.assignments[0] dbmachine = assignment.interface.hardware_entity if assignment.ip == dbmachine.primary_ip: is_aux = False if assignment.interface.interface_type == "management": is_aux = False if not is_aux: raise ArgumentError("{0:a} is not an auxiliary.".format(dbauxiliary)) # FIXME: Look for dependencies... oldinfo = DSDBRunner.snapshot_hw(dbmachine) session.delete(assignment) delete_dns_record(dbauxiliary) session.flush() session.expire(dbmachine) dsdb_runner = DSDBRunner(logger=logger) dsdb_runner.update_host(dbmachine, oldinfo) dsdb_runner.commit_or_rollback("Could not remove host %s from DSDB" % auxiliary) # Past the point of no return here (DSDB has been updated)... # probably not much of an issue if writing the plenary failed. # Commit the session so that we can free the delete lock. session.commit() if dbmachine: plenary_info = PlenaryMachineInfo(dbmachine, logger=logger) # This may create a new lock, so we free first above. plenary_info.write() if dbmachine.host: # FIXME: Reconfigure pass return
def render(self, session, logger, interface, machine, switch, chassis, mac, user, **arguments): if not (machine or switch or chassis or mac): raise ArgumentError("Please specify at least one of --chassis, " "--machine, --switch or --mac.") if machine: dbhw_ent = Machine.get_unique(session, machine, compel=True) elif switch: dbhw_ent = Switch.get_unique(session, switch, compel=True) elif chassis: dbhw_ent = Chassis.get_unique(session, chassis, compel=True) else: dbhw_ent = None dbinterface = Interface.get_unique(session, hardware_entity=dbhw_ent, name=interface, mac=mac, compel=True) if not dbhw_ent: dbhw_ent = dbinterface.hardware_entity if dbinterface.vlans: vlans = ", ".join([iface.name for iface in dbinterface.vlans.values()]) raise ArgumentError("{0} is the parent of the following VLAN " "interfaces, delete them first: " "{1}.".format(dbinterface, vlans)) if dbinterface.slaves: slaves = ", ".join([iface.name for iface in dbinterface.slaves]) raise ArgumentError("{0} is the master of the following slave " "interfaces, delete them first: " "{1}.".format(dbinterface, slaves)) try: for addr in dbinterface.assignments: if addr.ip != dbhw_ent.primary_ip: continue # Special handling: if this interface was created automatically, # and there is exactly one other interface with no IP address, # then re-assign the primary address to that interface if not dbinterface.mac and dbinterface.comments is not None and \ dbinterface.comments.startswith("Created automatically") and \ len(dbhw_ent.interfaces) == 2: if dbinterface == dbhw_ent.interfaces[0]: other = dbhw_ent.interfaces[1] else: other = dbhw_ent.interfaces[0] if len(other.assignments) == 0: assign_address(other, dbhw_ent.primary_ip, dbhw_ent.primary_name.network) dbinterface.addresses.remove(dbhw_ent.primary_ip) raise _Goto # If this is a machine, it is possible to delete the host to get rid # of the primary name if dbhw_ent.hardware_type == "machine": msg = " You should delete the host first." else: msg = "" raise ArgumentError("{0} holds the primary address of the {1:cl}, " "therefore it cannot be deleted." "{2}".format(dbinterface, dbhw_ent, msg)) except _Goto: pass addrs = ", ".join(["%s: %s" % (addr.logical_name, addr.ip) for addr in dbinterface.assignments]) if addrs: raise ArgumentError("{0} still has the following addresses " "configured, delete them first: " "{1}.".format(dbinterface, addrs)) dbhw_ent.interfaces.remove(dbinterface) session.flush() if dbhw_ent.hardware_type == 'machine': plenary_info = PlenaryMachineInfo(dbhw_ent, logger=logger) plenary_info.write() return
def render( self, session, logger, interface, machine, mac, model, vendor, boot, pg, autopg, comments, master, clear_master, default_route, rename_to, **arguments ): """This command expects to locate an interface based only on name and machine - all other fields, if specified, are meant as updates. If the machine has a host, dsdb may need to be updated. The boot flag can *only* be set to true. This is mostly technical, as at this point in the interface it is difficult to tell if the flag was unset or set to false. However, it also vastly simplifies the dsdb logic - we never have to worry about a user trying to remove the boot flag from a host in dsdb. """ audit_results = [] dbhw_ent = Machine.get_unique(session, machine, compel=True) dbinterface = Interface.get_unique(session, hardware_entity=dbhw_ent, name=interface, compel=True) oldinfo = DSDBRunner.snapshot_hw(dbhw_ent) if arguments.get("hostname", None): # Hack to set an intial interface for an aurora host... dbhost = dbhw_ent.host if dbhost.archetype.name == "aurora" and dbhw_ent.primary_ip and not dbinterface.addresses: assign_address(dbinterface, dbhw_ent.primary_ip, dbhw_ent.primary_name.network) # We may need extra IP verification (or an autoip option)... # This may also throw spurious errors if attempting to set the # port_group to a value it already has. if pg is not None and dbinterface.port_group != pg.lower().strip(): dbinterface.port_group = verify_port_group(dbinterface.hardware_entity, pg) elif autopg: dbinterface.port_group = choose_port_group(session, logger, dbinterface.hardware_entity) audit_results.append(("pg", dbinterface.port_group)) if master: if dbinterface.addresses: # FIXME: as a special case, if the only address is the # primary IP, then we could just move it to the master # interface. However this can be worked around by bonding # the interface before calling "add host", so don't bother # for now. raise ArgumentError("Can not enslave {0:l} because it has " "addresses.".format(dbinterface)) dbmaster = Interface.get_unique(session, hardware_entity=dbhw_ent, name=master, compel=True) if dbmaster in dbinterface.all_slaves(): raise ArgumentError( "Enslaving {0:l} would create a circle, " "which is not allowed.".format(dbinterface) ) dbinterface.master = dbmaster if clear_master: if not dbinterface.master: raise ArgumentError("{0} is not a slave.".format(dbinterface)) dbinterface.master = None if comments: dbinterface.comments = comments if boot: # Should we also transfer the primary IP to the new boot interface? # That could get tricky if the new interface already has an IP # address... for i in dbhw_ent.interfaces: if i == dbinterface: i.bootable = True i.default_route = True else: i.bootable = False i.default_route = False if default_route is not None: dbinterface.default_route = default_route if not first_of(dbhw_ent.interfaces, lambda x: x.default_route): logger.client_info("Warning: {0:l} has no default route, hope " "that's ok.".format(dbhw_ent)) # Set this mac address last so that you can update to a bootable # interface *before* adding a mac address. This is so the validation # that takes place in the interface class doesn't have to be worried # about the order of update to bootable=True and mac address if mac: q = session.query(Interface).filter_by(mac=mac) other = q.first() if other and other != dbinterface: raise ArgumentError("MAC address {0} is already in use by " "{1:l}.".format(mac, other)) dbinterface.mac = mac if model or vendor: if not dbinterface.model_allowed: raise ArgumentError("Model/vendor can not be set for a {0:lc}.".format(dbinterface)) dbmodel = Model.get_unique(session, name=model, vendor=vendor, machine_type="nic", compel=True) dbinterface.model = dbmodel if rename_to: rename_interface(session, dbinterface, rename_to) session.flush() session.refresh(dbhw_ent) plenary_info = PlenaryMachineInfo(dbhw_ent, logger=logger) key = plenary_info.get_write_key() try: lock_queue.acquire(key) plenary_info.write(locked=True) if dbhw_ent.host and dbhw_ent.host.archetype.name != "aurora": dsdb_runner = DSDBRunner(logger=logger) dsdb_runner.update_host(dbhw_ent, oldinfo) dsdb_runner.commit_or_rollback() except AquilonError, err: plenary_info.restore_stash() raise ArgumentError(err)
def render(self, session, logger, hostname, machine, auxiliary, interface, mac, comments, **arguments): if machine: dbmachine = Machine.get_unique(session, machine, compel=True) if hostname: dbhost = hostname_to_host(session, hostname) if machine and dbhost.machine != dbmachine: raise ArgumentError("Use either --hostname or --machine to " "uniquely identify a system.") dbmachine = dbhost.machine oldinfo = DSDBRunner.snapshot_hw(dbmachine) dbinterface = get_or_create_interface(session, dbmachine, name=interface, mac=mac, interface_type='public', bootable=False) # Multiple addresses will only be allowed with the "add interface # address" command addrs = ", ".join(["%s [%s]" % (addr.logical_name, addr.ip) for addr in dbinterface.assignments]) if addrs: raise ArgumentError("{0} already has the following addresses: " "{1}.".format(dbinterface, addrs)) audit_results = [] ip = generate_ip(session, logger, dbinterface, compel=True, audit_results=audit_results, **arguments) dbdns_rec, newly_created = grab_address(session, auxiliary, ip, comments=comments, preclude=True) if dbmachine.primary_name: # This command cannot use a non-default DNS environment, so no extra # checks are necessary dbdns_rec.reverse_ptr = dbmachine.primary_name.fqdn assign_address(dbinterface, ip, dbdns_rec.network) session.flush() plenary_info = PlenaryMachineInfo(dbmachine, logger=logger) key = plenary_info.get_write_key() try: lock_queue.acquire(key) plenary_info.write(locked=True) dsdb_runner = DSDBRunner(logger=logger) dsdb_runner.update_host(dbmachine, oldinfo) dsdb_runner.commit_or_rollback("Could not add host to DSDB") except: plenary_info.restore_stash() raise finally: lock_queue.release(key) if dbmachine.host: # XXX: Host needs to be reconfigured. pass for name, value in audit_results: self.audit_result(session, name, value, **arguments) return
def render(self, session, logger, hostname, manager, interface, mac, comments, **arguments): dbhost = hostname_to_host(session, hostname) dbmachine = dbhost.machine oldinfo = DSDBRunner.snapshot_hw(dbmachine) if not manager: manager = "%sr.%s" % (dbmachine.primary_name.fqdn.name, dbmachine.primary_name.fqdn.dns_domain.name) dbinterface = get_or_create_interface(session, dbmachine, name=interface, mac=mac, interface_type='management') addrs = ", ".join([ "%s [%s]" % (addr.logical_name, addr.ip) for addr in dbinterface.assignments ]) if addrs: raise ArgumentError("{0} already has the following addresses: " "{1}.".format(dbinterface, addrs)) audit_results = [] ip = generate_ip(session, logger, dbinterface, compel=True, audit_results=audit_results, **arguments) dbdns_rec, newly_created = grab_address(session, manager, ip, comments=comments, preclude=True) assign_address(dbinterface, ip, dbdns_rec.network) session.flush() plenary_info = PlenaryMachineInfo(dbmachine, logger=logger) key = plenary_info.get_write_key() try: lock_queue.acquire(key) plenary_info.write(locked=True) dsdb_runner = DSDBRunner(logger=logger) dsdb_runner.update_host(dbmachine, oldinfo) dsdb_runner.commit_or_rollback("Could not add host to DSDB") except: plenary_info.restore_stash() raise finally: lock_queue.release(key) if dbmachine.host: # XXX: Host needs to be reconfigured. pass for name, value in audit_results: self.audit_result(session, name, value, **arguments) return
def _write_plenary_info(self, dbmachine, logger): """write template files""" plenary_info = PlenaryMachineInfo(dbmachine, logger=logger) plenary_info.write()
def render(self, session, logger, interface, machine, mac, model, vendor, boot, pg, autopg, comments, master, clear_master, default_route, rename_to, **arguments): """This command expects to locate an interface based only on name and machine - all other fields, if specified, are meant as updates. If the machine has a host, dsdb may need to be updated. The boot flag can *only* be set to true. This is mostly technical, as at this point in the interface it is difficult to tell if the flag was unset or set to false. However, it also vastly simplifies the dsdb logic - we never have to worry about a user trying to remove the boot flag from a host in dsdb. """ audit_results = [] dbhw_ent = Machine.get_unique(session, machine, compel=True) dbinterface = Interface.get_unique(session, hardware_entity=dbhw_ent, name=interface, compel=True) oldinfo = DSDBRunner.snapshot_hw(dbhw_ent) if arguments.get('hostname', None): # Hack to set an intial interface for an aurora host... dbhost = dbhw_ent.host if dbhost.archetype.name == 'aurora' and \ dbhw_ent.primary_ip and not dbinterface.addresses: assign_address(dbinterface, dbhw_ent.primary_ip, dbhw_ent.primary_name.network) # We may need extra IP verification (or an autoip option)... # This may also throw spurious errors if attempting to set the # port_group to a value it already has. if pg is not None and dbinterface.port_group != pg.lower().strip(): dbinterface.port_group = verify_port_group( dbinterface.hardware_entity, pg) elif autopg: dbinterface.port_group = choose_port_group( session, logger, dbinterface.hardware_entity) audit_results.append(('pg', dbinterface.port_group)) if master: if dbinterface.addresses: # FIXME: as a special case, if the only address is the # primary IP, then we could just move it to the master # interface. However this can be worked around by bonding # the interface before calling "add host", so don't bother # for now. raise ArgumentError("Can not enslave {0:l} because it has " "addresses.".format(dbinterface)) dbmaster = Interface.get_unique(session, hardware_entity=dbhw_ent, name=master, compel=True) if dbmaster in dbinterface.all_slaves(): raise ArgumentError( "Enslaving {0:l} would create a circle, " "which is not allowed.".format(dbinterface)) dbinterface.master = dbmaster if clear_master: if not dbinterface.master: raise ArgumentError("{0} is not a slave.".format(dbinterface)) dbinterface.master = None if comments: dbinterface.comments = comments if boot: # Should we also transfer the primary IP to the new boot interface? # That could get tricky if the new interface already has an IP # address... for i in dbhw_ent.interfaces: if i == dbinterface: i.bootable = True i.default_route = True else: i.bootable = False i.default_route = False if default_route is not None: dbinterface.default_route = default_route if not first_of(dbhw_ent.interfaces, lambda x: x.default_route): logger.client_info("Warning: {0:l} has no default route, hope " "that's ok.".format(dbhw_ent)) #Set this mac address last so that you can update to a bootable #interface *before* adding a mac address. This is so the validation #that takes place in the interface class doesn't have to be worried #about the order of update to bootable=True and mac address if mac: q = session.query(Interface).filter_by(mac=mac) other = q.first() if other and other != dbinterface: raise ArgumentError("MAC address {0} is already in use by " "{1:l}.".format(mac, other)) dbinterface.mac = mac if model or vendor: if not dbinterface.model_allowed: raise ArgumentError( "Model/vendor can not be set for a {0:lc}.".format( dbinterface)) dbmodel = Model.get_unique(session, name=model, vendor=vendor, machine_type='nic', compel=True) dbinterface.model = dbmodel if rename_to: rename_interface(session, dbinterface, rename_to) session.flush() session.refresh(dbhw_ent) plenary_info = PlenaryMachineInfo(dbhw_ent, logger=logger) key = plenary_info.get_write_key() try: lock_queue.acquire(key) plenary_info.write(locked=True) if dbhw_ent.host and dbhw_ent.host.archetype.name != "aurora": dsdb_runner = DSDBRunner(logger=logger) dsdb_runner.update_host(dbhw_ent, oldinfo) dsdb_runner.commit_or_rollback() except AquilonError, err: plenary_info.restore_stash() raise ArgumentError(err)