# Parse gcode commands
#
# Copyright (C) 2016-2020 Kevin O'Connor <kevin@koconnor.net>
#
# This file may be distributed under the terms of the GNU GPLv3 license.
import os, re, logging, collections, shlex
import homing
class GCodeCommand:
error = homing.CommandError
def __init__(self, gcode, command, commandline, params, need_ack):
self._command = command
self._commandline = commandline
self._params = params
self._need_ack = need_ack
# Method wrappers
self.respond_info = gcode.respond_info
self.respond_raw = gcode.respond_raw
def get_command(self):
return self._command
def get_commandline(self):
return self._commandline
def get_command_parameters(self):
return self._params
def ack(self, msg=None):
if not self._need_ack:
return False
ok_msg = "ok"
if msg:
ok_msg = "ok %s" % (msg,)
self.respond_raw(ok_msg)
self._need_ack = False
return True
# Parameter parsing helpers
class sentinel: pass
def get(self, name, default=sentinel, parser=str, minval=None, maxval=None,
above=None, below=None):
value = self._params.get(name)
if value is None:
if default is self.sentinel:
raise self.error("Error on '%s': missing %s"
% (self._commandline, name))
return default
try:
value = parser(value)
except:
raise self.error("Error on '%s': unable to parse %s"
% (self._commandline, value))
if minval is not None and value < minval:
raise self.error("Error on '%s': %s must have minimum of %s"
% (self._commandline, name, minval))
if maxval is not None and value > maxval:
raise self.error("Error on '%s': %s must have maximum of %s"
% (self._commandline, name, maxval))
if above is not None and value <= above:
raise self.error("Error on '%s': %s must be above %s"
% (self._commandline, name, above))
if below is not None and value >= below:
raise self.error("Error on '%s': %s must be below %s"
% (self._commandline, name, below))
return value
def get_int(self, name, default=sentinel, minval=None, maxval=None):
return self.get(name, default, parser=int, minval=minval, maxval=maxval)
def get_float(self, name, default=sentinel, minval=None, maxval=None,
above=None, below=None):
return self.get(name, default, parser=float, minval=minval,
maxval=maxval, above=above, below=below)
# Parse and dispatch G-Code commands
class GCodeDispatch:
error = homing.CommandError
def __init__(self, printer):
self.printer = printer
self.is_fileinput = not not printer.get_start_args().get("debuginput")
printer.register_event_handler("klippy:ready", self._handle_ready)
printer.register_event_handler("klippy:shutdown", self._handle_shutdown)
printer.register_event_handler("klippy:disconnect",
self._handle_disconnect)
# Command handling
self.is_printer_ready = False
self.mutex = printer.get_reactor().mutex()
self.output_callbacks = []
self.base_gcode_handlers = self.gcode_handlers = {}
self.ready_gcode_handlers = {}
self.mux_commands = {}
self.gcode_help = {}
# Register commands needed before config file is loaded
handlers = ['M110', 'M112', 'M115',
'RESTART', 'FIRMWARE_RESTART', 'ECHO', 'STATUS', 'HELP']
for cmd in handlers:
func = getattr(self, 'cmd_' + cmd)
desc = getattr(self, 'cmd_' + cmd + '_help', None)
self.register_command(cmd, func, True, desc)
def is_traditional_gcode(self, cmd):
# A "traditional" g-code command is a letter and followed by a number
try:
cmd = cmd.upper().split()[0]
val = float(cmd[1:])
return cmd[0].isupper() and cmd[1].isdigit()
except:
return False
def register_command(self, cmd, func, when_not_ready=False, desc=None):
if func is None:
old_cmd = self.ready_gcode_handlers.get(cmd)
if cmd in self.ready_gcode_handlers:
del self.ready_gcode_handlers[cmd]
if cmd in self.base_gcode_handlers:
del self.base_gcode_handlers[cmd]
return old_cmd
if cmd in self.ready_gcode_handlers:
raise self.printer.config_error(
"gcode command %s already registered" % (cmd,))
if not self.is_traditional_gcode(cmd):
origfunc = func
func = lambda params: origfunc(self._get_extended_params(params))
self.ready_gcode_handlers[cmd] = func
if when_not_ready:
self.base_gcode_handlers[cmd] = func
if desc is not None:
self.gcode_help[cmd] = desc
def register_mux_command(self, cmd, key, value, func, desc=None):
prev = self.mux_commands.get(cmd)
if prev is None:
self.register_command(cmd, self._cmd_mux, desc=desc)
self.mux_commands[cmd] = prev = (key, {})
prev_key, prev_values = prev
if prev_key != key:
raise self.printer.config_error(
"mux command %s %s %s may have only one key (%s)" % (
cmd, key, value, prev_key))
if value in prev_values:
raise self.printer.config_error(
"mux command %s %s %s already registered (%s)" % (
cmd, key, value, prev_values))
prev_values[value] = func
def get_command_help(self):
return dict(self.gcode_help)
def register_output_handler(self, cb):
self.output_callbacks.append(cb)
def _handle_shutdown(self):
if not self.is_printer_ready:
return
self.is_printer_ready = False
self.gcode_handlers = self.base_gcode_handlers
self._respond_state("Shutdown")
def _handle_disconnect(self):
self._respond_state("Disconnect")
def _handle_ready(self):
self.is_printer_ready = True
self.gcode_handlers = self.ready_gcode_handlers
self._respond_state("Ready")
# Parse input into commands
args_r = re.compile('([A-Z_]+|[A-Z*/])')
def _process_commands(self, commands, need_ack=True):
for line in commands:
# Ignore comments and leading/trailing spaces
line = origline = line.strip()
cpos = line.find(';')
if cpos >= 0:
line = line[:cpos]
# Break line into parts and determine command
parts = self.args_r.split(line.upper())
numparts = len(parts)
cmd = ""
if numparts >= 3 and parts[1] != 'N':
cmd = parts[1] + parts[2].strip()
elif numparts >= 5 and parts[1] == 'N':
# Skip line number at start of command
cmd = parts[3] + parts[4].strip()
# Build gcode "params" dictionary
params = { parts[i]: parts[i+1].strip()
for i in range(1, numparts, 2) }
gcmd = GCodeCommand(self, cmd, origline, params, need_ack)
# Invoke handler for command
handler = self.gcode_handlers.get(cmd, self.cmd_default)
try:
handler(gcmd)
except self.error as e:
self._respond_error(str(e))
self.printer.send_event("gcode:command_error")
if not need_ack:
raise
except:
msg = 'Internal error on command:"%s"' % (cmd,)
logging.exception(msg)
self.printer.invoke_shutdown(msg)
self._respond_error(msg)
if not need_ack:
raise
gcmd.ack()
def run_script_from_command(self, script):
self._process_commands(script.split('\n'), need_ack=False)
def run_script(self, script):
with self.mutex:
self._process_commands(script.split('\n'), need_ack=False)
def get_mutex(self):
return self.mutex
def create_gcode_command(self, command, commandline, params):
return GCodeCommand(self, command, commandline, params, False)
# Response handling
def respond_raw(self, msg):
for cb in self.output_callbacks:
cb(msg)
def respond_info(self, msg, log=True):
if log:
logging.info(msg)
lines = [l.strip() for l in msg.strip().split('\n')]
self.respond_raw("// " + "\n// ".join(lines))
def _respond_error(self, msg):
logging.warning(msg)
lines = msg.strip().split('\n')
if len(lines) > 1:
self.respond_info("\n".join(lines), log=False)
self.respond_raw('!! %s' % (lines[0].strip(),))
if self.is_fileinput:
self.printer.request_exit('error_exit')
def _respond_state(self, state):
self.respond_info("Klipper state: %s" % (state,), log=False)
# Parameter parsing helpers
extended_r = re.compile(
r'^\s*(?:N[0-9]+\s*)?'
r'(?P<cmd>[a-zA-Z_][a-zA-Z0-9_]+)(?:\s+|$)'
r'(?P<args>[^#*;]*?)'
r'\s*(?:[#*;].*)?$')
def _get_extended_params(self, gcmd):
m = self.extended_r.match(gcmd.get_commandline())
if m is None:
raise self.error("Malformed command '%s'"
% (gcmd.get_commandline(),))
eargs = m.group('args')
try:
eparams = [earg.split('=', 1) for earg in shlex.split(eargs)]
eparams = { k.upper(): v for k, v in eparams }
gcmd._params.clear()
gcmd._params.update(eparams)
return gcmd
except ValueError as e:
raise self.error("Malformed command '%s'"
% (gcmd.get_commandline(),))
# G-Code special command handlers
def cmd_default(self, gcmd):
cmd = gcmd.get_command()
if cmd == 'M105':
# Don't warn about temperature requests when not ready
gcmd.ack("T:0")
return
if cmd == 'M21':
# Don't warn about sd card init when not ready
return
if not self.is_printer_ready:
raise gcmd.error(self.printer.get_state_message()[0])
return
if not cmd:
logging.debug(gcmd.get_commandline())
return
if cmd.startswith("M117 "):
# Handle M117 gcode with numeric and special characters
handler = self.gcode_handlers.get("M117", None)
if handler is not None:
handler(gcmd)
return
elif cmd in ['M140', 'M104'] and not gcmd.get_float('S', 0.):
# Don't warn about requests to turn off heaters when not present
return
elif cmd == 'M107' or (cmd == 'M106' and (
not gcmd.get_float('S', 1.) or self.is_fileinput)):
# Don't warn about requests to turn off fan when fan not present
return
gcmd.respond_info('Unknown command:"%s"' % (cmd,))
def _cmd_mux(self, gcmd):
key, values = self.mux_commands[gcmd.get_command()]
if None in values:
key_param = gcmd.get(key, None)
else:
key_param = gcmd.get(key)
if key_param not in values:
raise gcmd.error("The value '%s' is not valid for %s"
% (key_param, key))
values[key_param](gcmd)
# Low-level G-Code commands that are needed before the config file is loaded
def cmd_M110(self, gcmd):
# Set Current Line Number
pass
def cmd_M112(self, gcmd):
# Emergency Stop
self.printer.invoke_shutdown("Shutdown due to M112 command")
def cmd_M115(self, gcmd):
# Get Firmware Version and Capabilities
software_version = self.printer.get_start_args().get('software_version')
kw = {"FIRMWARE_NAME": "Klipper", "FIRMWARE_VERSION": software_version}
gcmd.ack(" ".join(["%s:%s" % (k, v) for k, v in kw.items()]))
def request_restart(self, result):
if self.is_printer_ready:
toolhead = self.printer.lookup_object('toolhead')
print_time = toolhead.get_last_move_time()
if result == 'exit':
logging.info("Exiting (print time %.3fs)" % (print_time,))
self.printer.send_event("gcode:request_restart", print_time)
toolhead.dwell(0.500)
toolhead.wait_moves()
self.printer.request_exit(result)
cmd_RESTART_help = "Reload config file and restart host software"
def cmd_RESTART(self, gcmd):
self.request_restart('restart')
cmd_FIRMWARE_RESTART_help = "Restart firmware, host, and reload config"
def cmd_FIRMWARE_RESTART(self, gcmd):
self.request_restart('firmware_restart')
def cmd_ECHO(self, gcmd):
gcmd.respond_info(gcmd.get_commandline(), log=False)
cmd_STATUS_help = "Report the printer status"
def cmd_STATUS(self, gcmd):
if self.is_printer_ready:
self._respond_state("Ready")
return
msg = self.printer.get_state_message()[0]
msg = msg.rstrip() + "\nKlipper state: Not ready"
raise gcmd.error(msg)
def cmd_HELP(self, gcmd):
cmdhelp = []
if not self.is_printer_ready:
cmdhelp.append("Printer is not ready - not all commands available.")
cmdhelp.append("Available extended commands:")
for cmd in sorted(self.gcode_handlers):
if cmd in self.gcode_help:
cmdhelp.append("%-10s: %s" % (cmd, self.gcode_help[cmd]))
gcmd.respond_info("\n".join(cmdhelp), log=False)
# Support reading gcode from a pseudo-tty interface
class GCodeIO:
def __init__(self, printer):
self.printer = printer
printer.register_event_handler("klippy:ready", self._handle_ready)
printer.register_event_handler("klippy:shutdown", self._handle_shutdown)
self.gcode = printer.lookup_object('gcode')
self.gcode_mutex = self.gcode.get_mutex()
self.fd = printer.get_start_args().get("gcode_fd")
self.reactor = printer.get_reactor()
self.is_printer_ready = False
self.is_processing_data = False
self.is_fileinput = not not printer.get_start_args().get("debuginput")
self.pipe_is_active = True
self.fd_handle = None
if not self.is_fileinput:
self.gcode.register_output_handler(self._respond_raw)
self.fd_handle = self.reactor.register_fd(self.fd,
self._process_data)
self.partial_input = ""
self.pending_commands = []
self.bytes_read = 0
self.input_log = collections.deque([], 50)
def _handle_ready(self):
self.is_printer_ready = True
if self.is_fileinput and self.fd_handle is None:
self.fd_handle = self.reactor.register_fd(self.fd,
self._process_data)
def _dump_debug(self):
out = []
out.append("Dumping gcode input %d blocks" % (len(self.input_log),))
for eventtime, data in self.input_log:
out.append("Read %f: %s" % (eventtime, repr(data)))
logging.info("\n".join(out))
def _handle_shutdown(self):
if not self.is_printer_ready:
return
self.is_printer_ready = False
self._dump_debug()
if self.is_fileinput:
self.printer.request_exit('error_exit')
m112_r = re.compile('^(?:[nN][0-9]+)?\s*[mM]112(?:\s|$)')
def _process_data(self, eventtime):
# Read input, separate by newline, and add to pending_commands
try:
data = os.read(self.fd, 4096)
except os.error:
logging.exception("Read g-code")
return
self.input_log.append((eventtime, data))
self.bytes_read += len(data)
lines = data.split('\n')
lines[0] = self.partial_input + lines[0]
self.partial_input = lines.pop()
pending_commands = self.pending_commands
pending_commands.extend(lines)
self.pipe_is_active = True
# Special handling for debug file input EOF
if not data and self.is_fileinput:
if not self.is_processing_data:
self.reactor.unregister_fd(self.fd_handle)
self.fd_handle = None
self.gcode.request_restart('exit')
pending_commands.append("")
# Handle case where multiple commands pending
if self.is_processing_data or len(pending_commands) > 1:
if len(pending_commands) < 20:
# Check for M112 out-of-order
for line in lines:
if self.m112_r.match(line) is not None:
self.gcode.cmd_M112(None)
if self.is_processing_data:
if len(pending_commands) >= 20:
# Stop reading input
self.reactor.unregister_fd(self.fd_handle)
self.fd_handle = None
return
# Process commands
self.is_processing_data = True
while pending_commands:
self.pending_commands = []
with self.gcode_mutex:
self.gcode._process_commands(pending_commands)
pending_commands = self.pending_commands
self.is_processing_data = False
if self.fd_handle is None:
self.fd_handle = self.reactor.register_fd(self.fd,
self._process_data)
def _respond_raw(self, msg):
if self.pipe_is_active:
try:
os.write(self.fd, msg+"\n")
except os.error:
logging.exception("Write g-code response")
self.pipe_is_active = False
def stats(self, eventtime):
return False, "gcodein=%d" % (self.bytes_read,)
def add_early_printer_objects(printer):
printer.add_object('gcode', GCodeDispatch(printer))
printer.add_object('gcode_io', GCodeIO(printer))