# -*- coding: utf-8 eval: (blacken-mode 1) -*- # SPDX-License-Identifier: GPL-2.0-or-later # # July 24 2021, Christian Hopps # # Copyright 2021, LabN Consulting, L.L.C. # """A module that implements a CLI.""" import argparse import asyncio import functools import logging import multiprocessing import os import pty import re import readline import select import shlex import socket import subprocess import sys import tempfile import termios import tty try: from . import linux from .config import list_to_dict_with_key except ImportError: # We cannot use relative imports and still run this module directly as a script, and # there are some use cases where we want to run this file as a script. sys.path.append(os.path.dirname(os.path.realpath(__file__))) import linux from config import list_to_dict_with_key ENDMARKER = b"\x00END\x00" logger = logging.getLogger(__name__) def lineiter(sock): s = "" while True: sb = sock.recv(256) if not sb: return s += sb.decode("utf-8") i = s.find("\n") if i != -1: yield s[:i] s = s[i + 1 :] # Would be nice to convert to async, but really not needed as used def spawn(unet, host, cmd, iow, ns_only): if sys.stdin.isatty(): old_tty = termios.tcgetattr(sys.stdin) tty.setraw(sys.stdin.fileno()) try: master_fd, slave_fd = pty.openpty() ns = unet.hosts[host] if host and host != unet else unet popenf = ns.popen_nsonly if ns_only else ns.popen # use os.setsid() make it run in a new process group, or bash job # control will not be enabled p = popenf( cmd, # _common_prologue, later in call chain, only does this for use_pty == False preexec_fn=os.setsid, stdin=slave_fd, stdout=slave_fd, stderr=slave_fd, universal_newlines=True, use_pty=True, # XXX this is actually implementing "run on host" for real # skip_pre_cmd=ns_only, ) iow.write("\r") iow.flush() while p.poll() is None: r, _, _ = select.select([sys.stdin, master_fd], [], [], 0.25) if sys.stdin in r: d = os.read(sys.stdin.fileno(), 10240) os.write(master_fd, d) elif master_fd in r: o = os.read(master_fd, 10240) if o: iow.write(o.decode("utf-8", "ignore")) iow.flush() finally: # restore tty settings back if sys.stdin.isatty(): termios.tcsetattr(sys.stdin, termios.TCSADRAIN, old_tty) def is_host_regex(restr): return len(restr) > 2 and restr[0] == "/" and restr[-1] == "/" def get_host_regex(restr): if len(restr) < 3 or restr[0] != "/" or restr[-1] != "/": return None return re.compile(restr[1:-1]) def host_in(restr, names): """Determine if matcher is a regex that matches one of names.""" if not (regexp := get_host_regex(restr)): return restr in names for name in names: if regexp.fullmatch(name): return True return False def expand_host(restr, names): """Expand name or regexp into list of hosts.""" hosts = [] regexp = get_host_regex(restr) if not regexp: assert restr in names hosts.append(restr) else: for name in names: if regexp.fullmatch(name): hosts.append(name) return sorted(hosts) def expand_hosts(restrs, names): """Expand list of host names or regex into list of hosts.""" hosts = [] for restr in restrs: hosts += expand_host(restr, names) return sorted(hosts) def host_cmd_split(unet, line, toplevel): all_hosts = set(unet.hosts) csplit = line.split() i = 0 banner = False for i, e in enumerate(csplit): if is_re := is_host_regex(e): banner = True if not host_in(e, all_hosts): if not is_re: break else: i += 1 if i == 0 and csplit and csplit[0] == "*": hosts = sorted(all_hosts) csplit = csplit[1:] banner = True elif i == 0 and csplit and csplit[0] == ".": hosts = [unet] csplit = csplit[1:] else: hosts = expand_hosts(csplit[:i], all_hosts) csplit = csplit[i:] if not hosts and not csplit[:i]: if toplevel: hosts = [unet] else: hosts = sorted(all_hosts) banner = True if not csplit: return hosts, "", "", True i = line.index(csplit[0]) i += len(csplit[0]) return hosts, csplit[0], line[i:].strip(), banner def win_cmd_host_split(unet, cmd, kinds, defall): if kinds: all_hosts = { x for x in unet.hosts if unet.hosts[x].config.get("kind", "") in kinds } else: all_hosts = set(unet.hosts) csplit = cmd.split() i = 0 for i, e in enumerate(csplit): if not host_in(e, all_hosts): if not is_host_regex(e): break else: i += 1 if i == 0 and csplit and csplit[0] == "*": hosts = sorted(all_hosts) csplit = csplit[1:] elif i == 0 and csplit and csplit[0] == ".": hosts = [unet] csplit = csplit[1:] else: hosts = expand_hosts(csplit[:i], all_hosts) if not hosts and defall and not csplit[:i]: hosts = sorted(all_hosts) # Filter hosts based on cmd cmd = " ".join(csplit[i:]) return hosts, cmd def proc_readline(fd, prompt, histfile): """Read a line of input from user while running in a sub-process.""" # How do we change the command though, that's what's displayed in ps normally linux.set_process_name("Munet CLI") try: # For some reason sys.stdin is fileno == 16 and useless sys.stdin = os.fdopen(0) histfile = init_history(None, histfile) line = input(prompt) readline.write_history_file(histfile) if line is None: os.write(fd, b"\n") os.write(fd, bytes(f":{str(line)}\n", encoding="utf-8")) except EOFError: os.write(fd, b"\n") except KeyboardInterrupt: os.write(fd, b"I\n") except Exception as error: os.write(fd, bytes(f"E{str(error)}\n", encoding="utf-8")) async def async_input_reader(rfd): """Read a line of input from the user input sub-process pipe.""" rpipe = os.fdopen(rfd, mode="r") reader = asyncio.StreamReader() def protocol_factory(): return asyncio.StreamReaderProtocol(reader) loop = asyncio.get_event_loop() transport, _ = await loop.connect_read_pipe(protocol_factory, rpipe) o = await reader.readline() transport.close() o = o.decode("utf-8").strip() if not o: return None if o[0] == "I": raise KeyboardInterrupt() if o[0] == "E": raise Exception(o[1:]) assert o[0] == ":" return o[1:] # # A lot of work to add async `input` handling without creating a thread. We cannot use # threads when unshare_inline is used with pid namespace per kernel clone(2) # restriction. # async def async_input(prompt, histfile): """Asynchronously read a line from the user.""" rfd, wfd = os.pipe() p = multiprocessing.Process(target=proc_readline, args=(wfd, prompt, histfile)) p.start() logging.debug("started async_input input process: %s", p) try: return await async_input_reader(rfd) finally: logging.debug("joining async_input input process") p.join() def make_help_str(unet): w = sorted([x if x else "" for x in unet.cli_in_window_cmds]) ww = unet.cli_in_window_cmds u = sorted([x if x else "" for x in unet.cli_run_cmds]) uu = unet.cli_run_cmds s = ( """ Basic Commands: cli :: open a secondary CLI window help :: this help hosts :: list hosts quit :: quit the cli HOST can be a host or one of the following: - '*' for all hosts - '.' for the parent munet - a regex specified between '/' (e.g., '/rtr.*/') New Window Commands:\n""" + "\n".join([f" {ww[v][0]}\t:: {ww[v][1]}" for v in w]) + """\nInline Commands:\n""" + "\n".join([f" {uu[v][0]}\t:: {uu[v][1]}" for v in u]) + "\n" ) return s def get_shcmd(unet, host, kinds, execfmt, ucmd): if host is None: h = None kind = None elif host is unet or host == "": h = unet kind = "" else: h = unet.hosts[host] kind = h.config.get("kind", "") if kinds and kind not in kinds: return "" if not isinstance(execfmt, str): execfmt = execfmt.get(kind, {}).get("exec", "") if not execfmt: return "" # Do substitutions for {} and {N} in string numfmt = len(re.findall(r"{\d*}", execfmt)) if numfmt > 1: ucmd = execfmt.format(*shlex.split(ucmd)) elif numfmt: ucmd = execfmt.format(ucmd) # look for any pair of {}s but do not count escaped {{ or }} elif len(re.findall(r"{[^}]+}", execfmt.replace("{{", "").replace("}}", ""))): if execfmt.endswith('"'): fstring = "f'''" + execfmt + "'''" else: fstring = 'f"""' + execfmt + '"""' ucmd = eval( # pylint: disable=W0123 fstring, globals(), {"host": h, "unet": unet, "user_input": ucmd}, ) else: # No variable or usercmd substitution at all. ucmd = execfmt # Do substitution for munet variables ucmd = ucmd.replace("%CONFIGDIR%", str(unet.config_dirname)) if host is None or host is unet: ucmd = ucmd.replace("%RUNDIR%", str(unet.rundir)) return ucmd.replace("%NAME%", ".") ucmd = ucmd.replace("%RUNDIR%", str(os.path.join(unet.rundir, host))) if h.mgmt_ip: ucmd = ucmd.replace("%IPADDR%", str(h.mgmt_ip)) elif h.mgmt_ip6: ucmd = ucmd.replace("%IPADDR%", str(h.mgmt_ip6)) if h.mgmt_ip6: ucmd = ucmd.replace("%IP6ADDR%", str(h.mgmt_ip6)) return ucmd.replace("%NAME%", str(host)) async def run_command( unet, outf, line, execfmt, banner, hosts, toplevel, kinds, ns_only=False, interactive=False, ): """Runs a command on a set of hosts. Runs `execfmt`. Prior to executing the string the following transformations are performed on it. `execfmt` may also be a dictionary of dicitonaries keyed on kind with `exec` holding the kind's execfmt string. - if `{}` is present then `str.format` is called to replace `{}` with any extra input values after the command and hosts are removed from the input. - else if any `{digits}` are present then `str.format` is called to replace `{digits}` with positional args obtained from the addittional user input first passed to `shlex.split`. - else f-string style interpolation is performed on the string with the local variables `host` (the current node object or None), `unet` (the Munet object), and `user_input` (the additional command input) defined. The output is sent to `outf`. If `ns_only` is True then the `execfmt` is run using `Commander.cmd_status_nsonly` otherwise it is run with `Commander.cmd_status`. """ if kinds: logging.info("Filtering hosts to kinds: %s", kinds) hosts = [x for x in hosts if unet.hosts[x].config.get("kind", "") in kinds] logging.info("Filtered hosts: %s", hosts) if not hosts: if not toplevel: return hosts = [unet] # if unknowns := [x for x in hosts if x not in unet.hosts]: # outf.write("%% Unknown host[s]: %s\n" % ", ".join(unknowns)) # return # if sys.stdin.isatty() and interactive: if interactive: for host in hosts: shcmd = get_shcmd(unet, host, kinds, execfmt, line) if not shcmd: continue if len(hosts) > 1 or banner: outf.write(f"------ Host: {host} ------\n") spawn(unet, host if not toplevel else unet, shcmd, outf, ns_only) if len(hosts) > 1 or banner: outf.write(f"------- End: {host} ------\n") outf.write("\n") return aws = [] for host in hosts: shcmd = get_shcmd(unet, host, kinds, execfmt, line) if not shcmd: continue if toplevel: ns = unet else: ns = unet.hosts[host] if host and host != unet else unet if ns_only: cmdf = ns.async_cmd_status_nsonly else: cmdf = ns.async_cmd_status aws.append(cmdf(shcmd, warn=False, stderr=subprocess.STDOUT)) results = await asyncio.gather(*aws, return_exceptions=True) for host, result in zip(hosts, results): if isinstance(result, Exception): o = str(result) + "\n" rc = -1 else: rc, o, _ = result if len(hosts) > 1 or banner: outf.write(f"------ Host: {host} ------\n") if rc: outf.write(f"*** non-zero exit status: {rc}\n") outf.write(o) if len(hosts) > 1 or banner: outf.write(f"------- End: {host} ------\n") cli_builtins = ["cli", "help", "hosts", "quit"] class Completer: """A completer class for the CLI.""" def __init__(self, unet): self.unet = unet def complete(self, text, state): line = readline.get_line_buffer() tokens = line.split() # print(f"\nXXX: tokens: {tokens} text: '{text}' state: {state}'\n") first_token = not tokens or (text and len(tokens) == 1) # If we have already have a builtin command we are done if tokens and tokens[0] in cli_builtins: return [None] cli_run_cmds = set(self.unet.cli_run_cmds.keys()) top_run_cmds = {x for x in cli_run_cmds if self.unet.cli_run_cmds[x][3]} cli_run_cmds -= top_run_cmds cli_win_cmds = set(self.unet.cli_in_window_cmds.keys()) hosts = set(self.unet.hosts.keys()) is_window_cmd = bool(tokens) and tokens[0] in cli_win_cmds done_set = set() if bool(tokens): if text: done_set = set(tokens[:-1]) else: done_set = set(tokens) # Determine the domain for completions if not tokens or first_token: all_cmds = ( set(cli_builtins) | hosts | cli_run_cmds | cli_win_cmds | top_run_cmds ) elif is_window_cmd: all_cmds = hosts elif tokens and tokens[0] in top_run_cmds: # nothing to complete if a top level command pass elif not bool(done_set & cli_run_cmds): all_cmds = hosts | cli_run_cmds if not text: completes = all_cmds else: # print(f"\nXXX: all_cmds: {all_cmds} text: '{text}'\n") completes = {x + " " for x in all_cmds if x.startswith(text)} # print(f"\nXXX: completes: {completes} text: '{text}' state: {state}'\n") # remove any completions already present completes -= done_set completes = sorted(completes) + [None] return completes[state] async def doline( unet, line, outf, background=False, notty=False ): # pylint: disable=R0911 line = line.strip() m = re.fullmatch(r"^(\S+)(?:\s+(.*))?$", line) if not m: return True cmd = m.group(1) nline = m.group(2) if m.group(2) else "" if cmd in ("q", "quit"): return False if cmd == "help": outf.write(make_help_str(unet)) return True if cmd in ("h", "hosts"): outf.write(f"% Hosts:\t{' '.join(sorted(unet.hosts.keys()))}\n") return True if cmd == "cli": await remote_cli( unet, "secondary> ", "Secondary CLI", background, ) return True # # In window commands # if cmd in unet.cli_in_window_cmds: execfmt, toplevel, kinds, kwargs = unet.cli_in_window_cmds[cmd][2:] # if toplevel: # ucmd = " ".join(nline.split()) # else: hosts, ucmd = win_cmd_host_split(unet, nline, kinds, False) if not hosts: if not toplevel: return True hosts = [unet] if isinstance(execfmt, str): found_brace = "{}" in execfmt else: found_brace = False for d in execfmt.values(): if "{}" in d["exec"]: found_brace = True break if not found_brace and ucmd and not toplevel: # CLI command does not expect user command so treat as hosts of which some # must be unknown unknowns = [x for x in ucmd.split() if x not in unet.hosts] outf.write(f"% Unknown host[s]: {' '.join(unknowns)}\n") return True try: if not hosts and toplevel: hosts = [unet] for host in hosts: shcmd = get_shcmd(unet, host, kinds, execfmt, ucmd) if toplevel or host == unet: unet.run_in_window(shcmd, **kwargs) else: unet.hosts[host].run_in_window(shcmd, **kwargs) except Exception as error: outf.write(f"% Error: {error}\n") return True # # Inline commands # toplevel = unet.cli_run_cmds[cmd][3] if cmd in unet.cli_run_cmds else False # if toplevel: # logging.debug("top-level: cmd: '%s' nline: '%s'", cmd, nline) # hosts = None # banner = False # else: hosts, cmd, nline, banner = host_cmd_split(unet, line, toplevel) hoststr = "munet" if hosts == [unet] else f"{hosts}" logging.debug("hosts: '%s' cmd: '%s' nline: '%s'", hoststr, cmd, nline) if cmd in unet.cli_run_cmds: pass elif "" in unet.cli_run_cmds: nline = f"{cmd} {nline}" cmd = "" else: outf.write(f"% Unknown command: {cmd} {nline}\n") return True execfmt, toplevel, kinds, ns_only, interactive = unet.cli_run_cmds[cmd][2:] if interactive and notty: outf.write("% Error: interactive command must be run from primary CLI\n") return True await run_command( unet, outf, nline, execfmt, banner, hosts, toplevel, kinds, ns_only, interactive, ) return True async def cli_client(sockpath, prompt="munet> "): """Implement the user-facing CLI for a remote munet reached by a socket.""" sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM) sock.settimeout(10) sock.connect(sockpath) # Go into full non-blocking mode now sock.settimeout(None) print("\n--- Munet CLI Starting ---\n\n") while True: line = input(prompt) if line is None: return # Need to put \n back line += "\n" # Send the CLI command sock.send(line.encode("utf-8")) def bendswith(b, sentinel): slen = len(sentinel) return len(b) >= slen and b[-slen:] == sentinel # Collect the output rb = b"" while not bendswith(rb, ENDMARKER): lb = sock.recv(4096) if not lb: return rb += lb # Remove the marker rb = rb[: -len(ENDMARKER)] # Write the output sys.stdout.write(rb.decode("utf-8", "ignore")) async def local_cli(unet, outf, prompt, histfile, background): """Implement the user-side CLI for local munet.""" assert unet is not None completer = Completer(unet) readline.parse_and_bind("tab: complete") readline.set_completer(completer.complete) print("\n--- Munet CLI Starting ---\n\n") while True: try: line = await async_input(prompt, histfile) if line is None: return if not await doline(unet, line, outf, background): return except KeyboardInterrupt: outf.write("%% Caught KeyboardInterrupt\nUse ^D or 'quit' to exit") def init_history(unet, histfile): try: if histfile is None: histfile = os.path.expanduser("~/.munet-history.txt") if not os.path.exists(histfile): if unet: unet.cmd("touch " + histfile) else: subprocess.run("touch " + histfile, shell=True, check=True) if histfile: readline.read_history_file(histfile) return histfile except Exception as error: logging.warning("init_history failed: %s", error) return None async def cli_client_connected(unet, background, reader, writer): """Handle CLI commands inside the munet process from a socket.""" # # Go into full non-blocking mode now # client.settimeout(None) logging.debug("cli client connected") while True: line = await reader.readline() if not line: logging.debug("client closed cli connection") break line = line.decode("utf-8").strip() class EncodingFile: """Wrap a writer to encode in utf-8.""" def __init__(self, writer): self.writer = writer def write(self, x): self.writer.write(x.encode("utf-8", "ignore")) def flush(self): self.writer.flush() if not await doline(unet, line, EncodingFile(writer), background, notty=True): logging.debug("server closing cli connection") return writer.write(ENDMARKER) await writer.drain() async def remote_cli(unet, prompt, title, background): """Open a CLI in a new window.""" try: if not unet.cli_sockpath: sockpath = os.path.join(tempfile.mkdtemp("-sockdir", "pty-"), "cli.sock") ccfunc = functools.partial(cli_client_connected, unet, background) s = await asyncio.start_unix_server(ccfunc, path=sockpath) unet.cli_server = asyncio.create_task(s.serve_forever(), name="cli-task") unet.cli_sockpath = sockpath logging.info("server created on :\n%s\n", sockpath) # Open a new window with a new CLI python_path = await unet.async_get_exec_path(["python3", "python"]) us = os.path.realpath(__file__) cmd = f"{python_path} {us}" if unet.cli_histfile: cmd += " --histfile=" + unet.cli_histfile if prompt: cmd += f" --prompt='{prompt}'" cmd += " " + unet.cli_sockpath unet.run_in_window(cmd, title=title, background=False) except Exception as error: logging.error("cli server: unexpected exception: %s", error) def add_cli_in_window_cmd( unet, name, helpfmt, helptxt, execfmt, toplevel, kinds, **kwargs ): """Adds a CLI command to the CLI. The command `cmd` is added to the commands executable by the user from the CLI. See `base.Commander.run_in_window` for the arguments that can be passed in `args` and `kwargs` to this function. Args: unet: unet object name: command string (no spaces) helpfmt: format of command to display in help (left side) helptxt: help string for command (right side) execfmt: interpreter `cmd` to pass to `host.run_in_window()`, if {} present then allow for user commands to be entered and inserted. May also be a dict of dict keyed on kind with sub-key of "exec" providing the `execfmt` string for that kind. toplevel: run command in common top-level namespaec not inside hosts kinds: limit CLI command to nodes which match list of kinds. **kwargs: keyword args to pass to `host.run_in_window()` """ unet.cli_in_window_cmds[name] = (helpfmt, helptxt, execfmt, toplevel, kinds, kwargs) def add_cli_run_cmd( unet, name, helpfmt, helptxt, execfmt, toplevel, kinds, ns_only=False, interactive=False, ): """Adds a CLI command to the CLI. The command `cmd` is added to the commands executable by the user from the CLI. See `run_command` above in the `doline` function and for the arguments that can be passed in to this function. Args: unet: unet object name: command string (no spaces) helpfmt: format of command to display in help (left side) helptxt: help string for command (right side) execfmt: format string to insert user cmds into for execution. May also be a dict of dict keyed on kind with sub-key of "exec" providing the `execfmt` string for that kind. toplevel: run command in common top-level namespaec not inside hosts kinds: limit CLI command to nodes which match list of kinds. ns_only: Should execute the command on the host vs in the node namespace. interactive: Should execute the command inside an allocated pty (interactive) """ unet.cli_run_cmds[name] = ( helpfmt, helptxt, execfmt, toplevel, kinds, ns_only, interactive, ) def add_cli_config(unet, config): """Adds CLI commands based on config. All exec strings will have %CONFIGDIR%, %NAME% and %RUNDIR% replaced with the corresponding config directory and the current nodes `name` and `rundir`. Additionally, the exec string will have f-string style interpolation performed with the local variables `host` (node object or None), `unet` (Munet object) and `user_input` (if provided to the CLI command) defined. The format of the config dictionary can be seen in the following example. The first list entry represents the default command because it has no `name` key. commands: - help: "run the given FRR command using vtysh" format: "[HOST ...] FRR-CLI-COMMAND" exec: "vtysh -c {}" ns-only: false # the default interactive: false # the default - name: "vtysh" help: "Open a FRR CLI inside new terminal[s] on the given HOST[s]" format: "vtysh HOST [HOST ...]" exec: "vtysh" new-window: true - name: "capture" help: "Capture packets on a given network" format: "pcap NETWORK" exec: "tshark -s 9200 -i {0} -w /tmp/capture-{0}.pcap" new-window: true top-level: true # run in top-level container namespace, above hosts The `new_window` key can also be a dictionary which will be passed as keyward arguments to the `Commander.run_in_window()` function. Args: unet: unet object config: dictionary of cli config """ for cli_cmd in config.get("commands", []): name = cli_cmd.get("name", None) helpfmt = cli_cmd.get("format", "") helptxt = cli_cmd.get("help", "") execfmt = list_to_dict_with_key(cli_cmd.get("exec-kind"), "kind") if not execfmt: execfmt = cli_cmd.get("exec", "bash -c '{}'") toplevel = cli_cmd.get("top-level", False) kinds = cli_cmd.get("kinds", []) stdargs = (unet, name, helpfmt, helptxt, execfmt, toplevel, kinds) new_window = cli_cmd.get("new-window", None) if isinstance(new_window, dict): add_cli_in_window_cmd(*stdargs, **new_window) elif bool(new_window): add_cli_in_window_cmd(*stdargs) else: # on-host is deprecated it really implemented "ns-only" add_cli_run_cmd( *stdargs, cli_cmd.get("ns-only", cli_cmd.get("on-host")), cli_cmd.get("interactive", False), ) def cli( unet, histfile=None, sockpath=None, force_window=False, title=None, prompt=None, background=True, ): asyncio.run( async_cli(unet, histfile, sockpath, force_window, title, prompt, background) ) async def async_cli( unet, histfile=None, sockpath=None, force_window=False, title=None, prompt=None, background=True, ): if prompt is None: prompt = "munet> " if force_window or not sys.stdin.isatty(): await remote_cli(unet, prompt, title, background) if not unet: logger.debug("client-cli using sockpath %s", sockpath) try: if sockpath: await cli_client(sockpath, prompt) else: await local_cli(unet, sys.stdout, prompt, histfile, background) except KeyboardInterrupt: print("\n...^C exiting CLI") except EOFError: pass except Exception as ex: logger.critical("cli: got exception: %s", ex, exc_info=True) raise if __name__ == "__main__": # logging.basicConfig(level=logging.DEBUG, filename="/tmp/topotests/cli-client.log") logging.basicConfig(level=logging.DEBUG) logger = logging.getLogger("cli-client") logger.info("Start logging cli-client") parser = argparse.ArgumentParser() parser.add_argument("--histfile", help="file to user for history") parser.add_argument("--prompt", help="prompt string to use") parser.add_argument("socket", help="path to pair of sockets to communicate over") cli_args = parser.parse_args() cli_prompt = cli_args.prompt if cli_args.prompt else "munet> " asyncio.run( async_cli( None, cli_args.histfile, cli_args.socket, prompt=cli_prompt, background=False, ) )