Provided by: linuxcnc-uspace_2.9.0~pre1+git20230208.f1270d6ed7-1_amd64 bug

NAME

       xhc-whb04b-6 - Userspace jog dial HAL component for the wireless XHC WHB04B-6 USB device.

SYNOPSIS

       xhc-whb04b-6 [-h] | [-H] [OPTIONS]

DESCRIPTION

       The xhc-whb04b-6 HAL component supports the XHC WHB04B-6, a 6-axis wireless USB pendant.
       It provides a number of push-buttons, a jogwheel, two rotary buttons for axis and speed /
       step selection and an ordinary LCD display.

       The LCD display, having a very simple firmware interface, indicates the following listed
       information only. No other information, such as custom data, can be printed.

       •   Activated axis (X, Y, Z, A, B or C)

       •   Current axis position of X, Y, Z and separately of A, B, C.

       •   Whether machine (X, Y, Z, A, B or C) or relative (X1, Y1, Z1, A1, B1 or C1)
           coordinates are displayed.

       •   Step size or velocity depending on the operating mode (MPG or Step or Continuous).

       •   Feedrate override

       •   Spindle Feedrate override

       •   Machine state such as reset.

       •   Battery level

       •   Wireless signal strength

       The pendant display, its rotary selector switch, and the component pin names use
       designators x, y, z, a, b and c. While this arrangement presumes a machine configured as
       X, Y, Z, A, B an C, the pins can be assigned independently as required in a HAL
       configuration.

OPTIONS

       -h, --help Prints the synopsis and the most commonly used commands.

       -H Run xhc-whb04b-6 in HAL-mode instead of interactive mode. When in HAL mode commands
       from device will be exposed to HAL’s shred memory. Interactive mode is useful for testing
       device connectivity and debugging.

       -s Lead + jogwheel changes the spindle override speed. Each tick will increase/decrease
       the spindle override.

       -f MPG + jogwheel changes the feed override. Each tick will increment/decrement the feed
       override.

       -B Add 5 mm and 10 mm to Step feedrate output

       -t Wait with timeout for USB device then proceed, exit otherwise. Without -t the timeout
       is implicitly infinite.

       -u, -U Show received data from device. With -U received and transmitted data will be
       printed. Output is prefixed with "usb".

       -p Show HAL pins and HAL related messages. Output is prefixed with "hal".

       -e Show captured events such as button pressed/released, jog dial, axis rotary button, and
       feed rotary button event. Output is prefixed with "event".

       -a Enable all logging facilities without explicitly specifying each.

       -c Enable checksum output which is necessary for debugging the checksum generator
       function. Do not rely on this feature since it will be removed once the generator is
       implemented.

       -n Force being silent and not printing any output except of errors. This will also inhibit
       messages prefixed with "init".

UDEV

       The xhc-whb04b-6 executable needs permission for reading the pendant’s USB device. There
       may be the need for additional udev rules. If so, this file
       /etc/udev/rules.d/99-xhc-whb04b-6.rules should be created with the single line
       ATTR{idProduct}=="eb93", ATTR{idVendor}=="10ce", MODE="0666", OWNER="root",
       GROUP="plugdev".

STANDALONE USAGE

       The xhc-whb04b-6 program can be run from the command line without LinuxCNC to test a
       pendant. This standalone mode is used to identify the button codes produced for each
       button press and debug transmitted USB data.

   EXAMPLES
       xhc-whb04b-6 -ue
           Start in userspace mode (simulation) and prints incoming USB data transfer and
           generated key pressed/released events.

       xhc-whb04b-6 -p
           Start in userspace mode (simulation) and prints HAL pin names and events distributed
           to HAL memory.

       xhc-whb04b-6 -H
           Start in HAL mode (Normal mode for real machine use).

       xhc-whb04b-6 -HsfB
           Start in HAL mode + Spindle Override + Feedrate Override + Big step 5/10 mm).

HAL USAGE

       Use the -H option to specify HAL mode and other options as required: loadusr -W
       xhc-whb04b-6 -HsfB

   Input/Output Signals
       Note: For each button an output pin is provided even if no functionality is realized with
       that signal. For example, to stop a running program the Stop button pin may be directly
       connected to halui.program.stop. However, to start/pause/resume a program, the
       corresponding button toggles besides whb.button.start-pause also the
       ``whb.halui.program.``{run,pause,resume} signals accordingly.

       Note: The Spindle+/Spindle- buttons do manipulate the spindle override. The spindle speed
       is set with the respective combos Fn + Spindle- and FN + Spindle+.

       The following tables list all in-/output pins and state which signals they are meant to be
       connected to.

       Axis and Stepgen
           Signals utilized for moving axis.

           <N> ... denotes the axis number, which is of {x, y, z, a, b, c}.

           whb.halui.home-all (bit,out)
               connect to halui.home-all, driven by M-Home. Pin for requesting all axis to home.
               See also whb.button.m-home.

           whb.halui.axis._<N>_.select (bit,out)
               connect to halui.axis._<N>_.select. Pin to select axis.

           whb.axis._<N>_.jog-counts (s32,out)
               connect to axis._<N>_.jog-counts. The count pin of the jogwheel.

           whb.axis._<N>_.jog-enable (bit,out)
               connect to axis._<N>_.jog-enable. If true (and in manual mode), any change to
               "jog-counts" will result in motion. If false, "jog-counts" is ignored.

           whb.axis._<N>_.jog-scale (float,out)
               connect to axis.`__<N>__.jog-scale`. The distance to move for each count on
               "jog-counts", in machine units.

           whb.axis._<N>_.jog-vel-mode (bit,out)
               connect to axis.`__<N>__.jog-jog-vel-mode`. If false the jogwheel operates in
               position mode. The axis will move exactly jog-scale units for each count,
               regardless of how long that might take. If true, the jogwheel operates in velocity
               mode - motion stops when the wheel stops, even if that means the commanded motion
               is not completed.

           whb.halui.max-velocity.value (float,in)
               connect to halui.max-velocity.value. The maximum allowable velocity, in units per
               second (<N> is two digit 0-padded).

           whb.halui.feed-override.scale (float,in)
               connect to halui.feed-override.scale. The scaling for feed override value.

           whb.halui.axis.`__<N>__.pos-feedback` (float,in)
               connect to halui.axis.`__<N>__.pos-feedback`. Feedback axis position in machine
               coordinates to be displayed.

           whb.halui.axis._<N>_.pos-relative (float,in)
               connect to halui.axis.`__<N>__.pos-relative`. Commanded axis position in relative
               coordinates to be displayed.

       Machine
           Signals utilized for toggling machine status.

           whb.halui.machine.on (bit,out)
               connect to halui.machine.on. Pin for requesting machine on.

           whb.halui.machine.is-on (bit,in)
               connect to halui.machine.is-on. Pin that indicates machine is on.

           whb.halui.machine.off (bit,out)
               connect to halui.machine.off. Pin for requesting machine off.

       Spindle
           Signals utilized for operating a spindle.

           whb.halui.spindle.start (bit,out)
               connect to halui.spindle.0.start. Pin to start the spindle.

           whb.halui.spindle.is-on (bit,in)
               connect to halui.spindle.0.on. Pin to indicate spindle is on (either direction).

           whb.halui.spindle.stop (bit,out)
               connect to halui.spindle.0.stop. Pin to stop the spindle.

           whb.halui.spindle.forward (bit,out)
               connect to halui.spindle.0.forward. Pin to make the spindle go forward.

           whb.halui.spindle.reverse (bit,out)
               connect to halui.spindle.0.reverse. Pin to make the spindle go reverse.

           whb.halui.spindle.decrease (bit,out)
               connect to halui.spindle.0.decrease. Pin to decrease the spindle speed.

           whb.halui.spindle.increase (bit,out)
               connect to halui.spindle.0.increase. Pin to increase the spindle speed.

           whb.halui.spindle-override.increase (bit,out)
               connect to halui.spindle.0.override.increase. Pin for increasing the spindle
               override by the amount of scale.

           whb.halui.spindle-override.decrease (bit,out)
               connect to halui.spindle.0.override.decrease. Pin for decreasing the spindle
               override by the amount of scale.

           whb.halui.spindle-override.value (float,in)
               connect to halui.spindle.0.override.value. The current spindle override value.

           whb.halui.spindle-override.scale (float,in)
               connect to halui.spindle.0.override.scale. The current spindle scaling override
               value.

       Feed
           Signals utilized for operating spindle and feed override. The feed rotary button can
           serve in

           •   Continuous move x% from max velocity

           •   Step move x mm

           •   MPG override feed/spindle

           •   The special position Lead.

               Continuous: In this mode jogging is performed at the selected feed rate. As long
               the jogwheel turns, the selected axis moves.

               Step: In this mode the machine moves steps * wheel_counts at the currently
               selected step size and the current set feed rate in machine units. If the
               commanded position is not reached the machine keeps moving even the jogwheel is
               not turning.

               Lead: Manipulates the spindle override.

               MPG: Manipulates the feedrate override.

           Note: As a consequence of 3 modes from manufacturer, switching the feed rotary button
           back from Lead revert to MPG mode, MPG mode is default mode at startup. Depending on
           the mode before turning the rotary button, the feed override results in different
           values. In MPG/CON the feed rate will change to 100%, 60%, ... and so forth. In Step
           mode the feed rate is specified in mm.

           whb.halui.feed-override.value (float,in)
               connect to halui.feed-override.value. The current feed override value.

           whb.halui.feed-override.decrease (bit,out)
               connect to halui.feed-override.decrease. Pin for decreasing the feed override by
               amount of scale.

           whb.halui.feed-override.increase (bit,out)
               connect to halui.feed-override.increase. Pin for increasing the feed override by
               amount of scale.

           whb.halui.feed-override.scale (float,out)
               connect to halui.feed-override.scale. Pin for setting the scale on changing the
               feed override.

           whb.halui.max-velocity.value (float,out)
               connect to halui.max-velocity.value.

       Program
           Signals for operating program and MDI mode.

           whb.halui.program.run (bit,out)
               connect to halui.program.run in for running a program.

           whb.halui.program.is-running (bit,in)
               connect to halui.program.is-running in indicating a program is running.

           whb.halui.program.pause (bit,out)
               connect to halui.program.pause. Pin for pausing a program.

           whb.halui.program.is-paused (bit,in)
               connect to halui.program.is-paused. Pin indicating a program is pausing.

           whb.halui.program.resume (bit,out)
               connect to halui.program.resume. Pin for resuming a program.

           whb.halui.program.stop (bit,out)
               connect to program.stop. Pin for stopping a program.

           whb.halui.program.is-idle (bit,in)
               connect to halui.program.is-idle. Pin indicating no program is running.

           whb.halui.mode.auto (bit,out)
               connect to halui.mode.auto. Pin for requesting auto mode.

           whb.halui.mode.is-auto (bit,in)
               connect to halui.mode.is-auto. Pin for indicating auto mode is on.

           whb.halui.mode.joint (bit,out)
               connect to halui.mode.joint Pin for requesting joint by joint mode.

           whb.halui.mode.is-joint (bit,in)
               connect to halui.mode.is-joint. Pin indicating joint by joint mode is on.

           whb.halui.mode.manual (bit,out)
               connect to halui.mode.manual. Pin for requesting manual mode.

           whb.halui.mode.is-manual (bit,in)
               connect to halui.mode.is-manual. Pin indicating manual mode is on.

           whb.halui.mode.mdi (bit,out)
               connect to halui.mode.mdi. Pin for requesting MDI mode.

           whb.halui.mode.is-mdi (bit,in)
               connect to halui.mode.is-mdi. Pin indicating MDI mode is on.

           whb.halui.mode.teleop (bit,out)
               connect to halui.mode.teleop. Pin for requesting axis by axis mode.

           whb.halui.mode.is-teleop (bit,in)
               connect to halui.mode.is-teleop. Pin indicating axis by axis mode is on.

       Buttons
           For flexibility reasons each button provides an output pin even if no functionality is
           realized directly with that signal. The Fn button can be combined with each other
           push-button. This includes also RESET, Stop, Start/Pause, Macro-10, and
           Step|Continuous. By default the more frequent used orange buttons are executed,
           whereas blue ones (whb.button.macro-<M>) by combining them with Fn (press Fn first
           then button).

           Button macro needs to be added to your INI and needs to be edited for your own use:

               [HALUI]
               MDI_COMMAND=(debug,macro0)  # this one is for numbering but not used by pendant (need 1 to 16)
               MDI_COMMAND=(debug,macro1)
               MDI_COMMAND=(debug,macro2)
               MDI_COMMAND=(debug,macro3)
               MDI_COMMAND=(debug,macro4)
               MDI_COMMAND=(debug,macro5)
               MDI_COMMAND=(debug,macro6)
               MDI_COMMAND=(debug,macro7)
               MDI_COMMAND=(debug,macro8)
               MDI_COMMAND=(debug,macro9)
               MDI_COMMAND=(debug,macro10)
               MDI_COMMAND=(debug,macro11)
               MDI_COMMAND=(debug,macro12)
               MDI_COMMAND=(debug,macro13)
               MDI_COMMAND=(debug,macro14)
               MDI_COMMAND=(debug,macro15)
               MDI_COMMAND=(debug,macro16)

           <M> ... denotes an arbitrary macro number which is of {1, 2, ..., 16}

           whb.button.reset (bit,out)
               see whb.halui.estop.{activate, reset} True one Reset button down, false otherwise.
               For toggling E-stop use whb.halui.estop .active and .reset.

           whb.button.stop (bit,out)
               see whb.halui.program.stop. True on Stop button down, false otherwise. For
               stopping a program use whb.halui.program.stop.

           whb.button.start-pause (bit,out)
               see whb.halui.program.{run, pause, resume}. True on Start-Pause button down, false
               otherwise. For toggling start-pause use `whb.halui.program.run, .pause, and
               .resume.

           whb.button.feed-plus (bit,out)
               True on Feed+ button down, false otherwise.

           whb.button.feed-minus (bit,out)
               True on Feed- button down, false otherwise.

           whb.button.spindle-plus (bit,out)
               see halui.spindle.0.override.increase. True on Spindle+ button down, false
               otherwise. This button is meant to manipulate the spindle override. For increasing
               the spindle override use halui.spindle.0.override.increase.

           whb.button.spindle-minus (bit,out)
               see halui.spindle.0.override.decrease. True on Spindle- button down, false
               otherwise. This button is meant to manipulate the spindle override. For decreasing
               the spindle override use halui.spindle.0.override.decrease.

           whb.button.m-home (bit,out)
               connect to halui.home-all. True on M-Home button down, false otherwise. Requests
               MDI mode before button pin is set. See also whb.halui.mode.mdi.

           whb.button.safe-z (bit,out)
               connect to halui.mdi-command-`__<M>__ True on Safe-Z button down, false otherwise.
               Requests MDI mode before button pin is set. See also `whb.halui.mode.mdi.

           whb.button.w-home (bit,out)
               connect to halui.mdi-command-`__<M>__ True on W-Home button down, false otherwise.
               Requests MDI mode before button pin is set. See also `whb.halui.mode.mdi.

           whb.button.s-on-off (bit,out)
               see ``whb.halui.spindle.``{``start``, ``stop``} True on S-ON/OFF button down,
               false otherwise. For toggling spindle on-off use halui.spindle.0.start. For
               toggling spindle on-off use halui.spindle.0.stop.

           whb.button.fn (bit,out)
               True on Fn button down, false otherwise.

           whb.button.probe-z (bit,out)
               connect to halui.mdi-command-`__<M>__ True on Probe-Z button down, false
               otherwise. Requests MDI mode before button pin is set. See also
               `whb.halui.mode.mdi.

           whb.button.macro-1 (bit,out)
               connect to halui.mdi-command-<M> True on Macro-1 button (Fn + Feed+) down, false
               otherwise.

           whb.button.macro-2 (bit,out)
               connect to halui.mdi-command-<M> True on Macro-2 button (Fn + Feed-) down, false
               otherwise.

           whb.button.macro-3 (bit,out)
               see whb.halui.spindle.increase True on Macro-3 button (Fn + Spindle+) down, false
               otherwise. This button is meant to manipulate the spindle speed. For decreasing
               the spindle speed use whb.halui.spindle.increase.

           whb.button.macro-4 (bit,out)
               see whb.halui.spindle.decrease True on Macro-4 button down (Fn + Spindle-), false
               otherwise. This button is meant to manipulate the spindle speed. For decreasing
               the spindle speed use whb.halui.spindle.decrease.

           whb.button.macro-5 (bit,out)
               connect to halui.mdi-command-<M> True on Macro-5 button down (Fn + M-HOME), false
               otherwise.

           whb.button.macro-6 (bit,out)
               connect to halui.mdi-command-<M> True on Macro-6 button down (Fn + Safe-Z), false
               otherwise.

           whb.button.macro-7 (bit,out)
               connect to halui.mdi-command-<M> True on Macro-7 button down (Fn + W-HOME), false
               otherwise.

           whb.button.macro-8 (bit,out)
               reserved for Spindle Direction True on Macro-8 button down (Fn + S-ON/OFF), false
               otherwise.

           whb.button.macro-9 (bit,out)
               connect to halui.mdi-command-<M> True on Macro-9 button down (Fn + Probe-Z), false
               otherwise.

           whb.button.macro-10 (bit,out)
               reserved for toggle DRO Abs/rel. True on Macro-10 button down, false otherwise.
               Switches the display coordinates to relative coordinates. On display the axis are
               denoted then as X1, Y1, Z1, A1, B1 and C1. See also
               whb.halui.axis.`__<N>__.pos-relative`.

           whb.button.macro-11 (bit,out)
               connect to halui.mdi-command-<M> True on Macro-11 button down (Fn + RESET), false
               otherwise.

           whb.button.macro-12 (bit,out)
               connect to halui.mdi-command-<M> True on Macro-12 button (Fn + Stop) down, false
               otherwise.

           whb.button.macro-13 (bit,out)
               connect to halui.mdi-command-<M> True on Macro-13 button (Fn + Start/Pause) down,
               false otherwise.

           whb.button.macro-14 (bit,out)
               connect to halui.mdi-command-<M> True on Macro-14 button (Fn + Macro-10) down,
               false otherwise.

           whb.button.macro-15 (bit,out)
               connect to halui.mdi-command-<M> True on Macro-15 button down (Fn + MPG), false
               otherwise.

           whb.button.macro-16 (bit,out)
               connect to halui.mdi-command-<M> True on Macro-16 button (Fn + Step) down, false
               otherwise.

           whb.button.mode-continuous (bit,out)
               True on Continuous mode button down, false otherwise.

           whb.button.mode-step (bit,out)
               True on Step mode button down, false otherwise.

       Pendant
           whb.pendant.is-sleeping (bit,out)
               True as long pendant is in sleep mode (usually a few seconds after turned off),
               false otherwise.

           whb.pendant.is-connected (bit,out)
               True as long pendant is not in sleep mode (turned on), false otherwise.

HAL CONFIGURATION EXAMPLE

       Exercise caution if using copy and paste of this example code from the online web docs.
       Certain characters are incompatibly encoded by the web site (minus becomes em-dash). It is
       safer to copy and paste from
       https://raw.githubusercontent.com/LinuxCNC/linuxcnc/2.8/src/hal/user_comps/xhc-whb04b-6/example-configuration.md.

           #
           ### Hal File xhc_whb04b_6.hal Example
           #
           # ######################################################################
           # load pendant components
           # ######################################################################

           loadusr -W xhc-whb04b-6 -HsfB

           # ######################################################################
           # pendant signal configuration
           # ######################################################################

           # On/Off signals
           net machine.is-on                         halui.machine.is-on                   whb.halui.machine.is-on
           net pdnt.machine.on                       whb.halui.machine.on                  halui.machine.on
           net pdnt.machine.off                      whb.halui.machine.off                 halui.machine.off

           # program related signals
           net pdnt.program.is-idle                  whb.halui.program.is-idle             halui.program.is-idle
           net pdnt.program.is-paused                whb.halui.program.is-paused           halui.program.is-paused
           net pdnt.program-is-running               whb.halui.program.is-running          halui.program.is-running
           net pdnt.program.resume                   whb.halui.program.resume              halui.program.resume
           net pdnt.program.pause                    whb.halui.program.pause               halui.program.pause
           net pdnt.program.run                      whb.halui.program.run                 halui.program.run
           net pdnt.program.stop                     whb.halui.program.stop                halui.program.stop

           # machine mode related signals
           net pdnt.mode.auto                        whb.halui.mode.auto                   halui.mode.auto
           net pdnt.mode.manual                      whb.halui.mode.manual                 halui.mode.manual
           net pdnt.mode.mdi                         whb.halui.mode.mdi                    halui.mode.mdi
           net pdnt.mode.joint                       whb.halui.mode.joint                  halui.mode.joint
           net pdnt.mode.teleop                      whb.halui.mode.teleop                 halui.mode.teleop
           net pdnt.mode.is-auto                     halui.mode.is-auto                    whb.halui.mode.is-auto
           net pdnt.mode.is-manual                   halui.mode.is-manual                  whb.halui.mode.is-manual
           net pdnt.mode.is-mdi                      halui.mode.is-mdi                     whb.halui.mode.is-mdi
           net pdnt.mode.is-joint                    halui.mode.is-joint                   whb.halui.mode.is-joint
           net pdnt.mode.is-teleop                   halui.mode.is-teleop                  whb.halui.mode.is-teleop

           # "is-homed" axis signal for allowing pendant when machine is not homed
           net pdnt.axis.X.is-homed                  halui.joint.0.is-homed                whb.halui.joint.x.is-homed
           net pdnt.axis.Y.is-homed                  halui.joint.1.is-homed                whb.halui.joint.y.is-homed
           net pdnt.axis.Z.is-homed                  halui.joint.2.is-homed                whb.halui.joint.z.is-homed

           # "selected axis" signals
           net pdnt.axis.X.select                    whb.halui.axis.x.select               halui.axis.x.select
           net pdnt.axis.y.select                    whb.halui.axis.y.select               halui.axis.y.select
           net pdnt.axis.Z.select                    whb.halui.axis.z.select               halui.axis.z.select

           net pdnt.axis.x.jog-scale                 whb.axis.x.jog-scale                  axis.x.jog-scale
           net pdnt.axis.y.jog-scale                 whb.axis.y.jog-scale                  axis.y.jog-scale
           net pdnt.axis.z.jog-scale                 whb.axis.z.jog-scale                  axis.z.jog-scale

           net pdnt.axis.x.jog-counts                whb.axis.x.jog-counts                 axis.x.jog-counts
           net pdnt.axis.y.jog-counts                whb.axis.y.jog-counts                 axis.y.jog-counts
           net pdnt.axis.z.jog-counts                whb.axis.z.jog-counts                 axis.z.jog-counts

           net pdnt.axis.x.jog-enable                whb.axis.x.jog-enable                 axis.x.jog-enable
           net pdnt.axis.y.jog-enable                whb.axis.y.jog-enable                 axis.y.jog-enable
           net pdnt.axis.z.jog-enable                whb.axis.z.jog-enable                 axis.z.jog-enable

           net pdnt.axis.x.jog-vel-mode              whb.axis.x.jog-vel-mode               axis.x.jog-vel-mode
           net pdnt.axis.y.jog-vel-mode              whb.axis.y.jog-vel-mode               axis.y.jog-vel-mode
           net pdnt.axis.z.jog-vel-mode              whb.axis.z.jog-vel-mode               axis.z.jog-vel-mode

           # macro buttons to MDI commands
           net pdnt.macro-1                          whb.button.macro-1                    halui.mdi-command-01             # use MDI command from main.ini
           net pdnt.macro-2                          whb.button.macro-2                    halui.mdi-command-02             # use MDI command from main.ini or used for Hardcoded lube on/off
           net pdnt.reserved.for.spindle+            whb.button.macro-3                                                     # Hardcoded for spindle+ whb.halui.spindle.increase
           net pdnt.reserved.for.spindle-            whb.button.macro-4                                                     # Hardcoded for spindle- whb.halui.spindle.decrease
           net pdnt.macro-5                          whb.button.macro-5                    halui.mdi-command-05             # use MDI command from main.ini
           net pdnt.macro-6                          whb.button.macro-6                    halui.mdi-command-06             # use MDI command from main.ini
           net pdnt.macro-7                          whb.button.macro-7                    halui.mdi-command-07             # use MDI command from main.ini
           net pdnt.reserved.for.spindle.dir         whb.button.macro-8                                                     # Hardcoded for spindle direction inside pendant
           net pdnt.macro-9                          whb.button.macro-9                    halui.mdi-command-09             # use MDI command from main.ini
           net pdnt.reserved.for.ABS-REL             whb.button.macro-10                                                    # Hardcoded for swap Dro  Relative/Absolute
           net pdnt.macro-14                         whb.button.macro-14                   halui.mdi-command-14             # use MDI command from main.ini
           net pdnt.reserved.for.flood               whb.button.macro-15                                                    # Hardcoded for halui.flood on/off
           net pdnt.reserved.for.mist                whb.button.macro-16                                                    # Hardcoded for halui.mist on/off

           net pdnt.macro.11                         whb.button.macro-11                   halui.mdi-command-11             # use MDI command from main.ini
           net pdnt.macro.12                         whb.button.macro-12                   halui.mdi-command-12             # use MDI command from main.ini
           net pdnt.macro.13                         whb.button.macro-13                   halui.mdi-command-13             # use MDI command from main.ini

           # flood and mist toggle signals
           net  pdnt.flood.is-on                     whb.halui.flood.is-on                 halui.flood.is-on                #return signal is on or off
           net  pdnt.flood.off                       whb.halui.flood.off                   halui.flood.off                  #reserved whb.button.macro-15
           net  pdnt.flood.on                        whb.halui.flood.on                    halui.flood.on                   #reserved whb.button.macro-15

           net  pdnt.mist.is-on                      whb.halui.mist.is-on                  halui.mist.is-on                 #return signal is on or off
           net  pdnt.mist.off                        whb.halui.mist.off                    halui.mist.off                   #reserved whb.button.macro-16
           net  pdnt.mist.on                         whb.halui.mist.on                     halui.mist.on                    #reserved whb.button.macro-16

           #net  pdnt.lube.is-on                      whb.halui.lube.is-on                  halui.lube.is-on                 #return signal is on or off
           #net  pdnt.lube.off                        whb.halui.lube.off                    halui.lube.off                   #reserved whb.button.macro-2
           #net  pdnt.lube.on                         whb.halui.lube.on                     halui.lube.on                    #reserved whb.button.macro-2

           # default function button signals
           net pdnt.button.m-home                    whb.button.m-home                     halui.home-all                   # Homeing use built-in halui home all
           net pdnt.button.safe-z                    whb.button.safe-z                     halui.mdi-command-03             # Safe-z  use MDI command from main.ini
           net pdnt.button.w-home                    whb.button.w-home                     halui.mdi-command-04             # Unpark  use MDI command from main.ini
           net pdnt.button.probe-z                   whb.button.probe-z                    halui.mdi-command-08             # Probe-Z use MDI command from main.ini

           # unused, just exposes pendant internal status or as basic button
           #net pdnt.mode-lead                        whb.halui.feed.selected-lead
           #net pdnt.mode-mpg-feed                    whb.halui.feed.selected-mpg-feed
           #net pdnt.mode-continuous                  whb.halui.feed.selected-continuous
           #net pdnt.mode-step                        whb.halui.feed.selected-step

           #net pdnt.button.mode-mpg                  whb.button.mode-continuous
           #net pdnt.button.mode-step                 whb.button.mode-step
           #net pdnt.button.fn                        whb.button.fn
           #net pdnt.button.reset                     whb.button.reset
           #net pdnt.button.stop                      whb.button.stop
           #net pdnt.button.start-pause               whb.button.start-pause
           #net pdnt.button.s-on-off                  whb.button.s-on-off
           #net pdnt.button.spindle-plus              whb.button.spindle-plus
           #net pdnt.button.spindle-minus             whb.button.spindle-minus
           #net pdnt.button.feed-plus                 whb.button.feed-plus
           #net pdnt.button.feed-minus                whb.button.feed-minus

           # spindle related signals
           net pdnt.spindle.is-on                    whb.halui.spindle.is-on               spindle.0.on
           net pdnt.spindle.start                    whb.halui.spindle.start               halui.spindle.0.start
           net pdnt.spindle.stop                     whb.halui.spindle.stop                halui.spindle.0.stop
           net pdnt.spindle.forward                  whb.halui.spindle.forward             halui.spindle.0.forward
           net pdnt.spindle.reverse                  whb.halui.spindle.reverse             halui.spindle.0.reverse
           net pdnt.spindle.increase                 whb.halui.spindle.increase            halui.spindle.0.increase         # reserved whb.button.macro-3
           net pdnt.spindle.decrease                 whb.halui.spindle.decrease            halui.spindle.0.decrease         # reserved whb.button.macro-4
           net pdnt.spindle-speed-abs                whb.halui.spindle-speed-cmd           spindle.0.speed-out-abs          # speed cmd from motion in rpm absolute

           # spindle speed override signals
           net pdnt.spindle-override.scale           whb.halui.spindle-override.scale      halui.spindle.0.override.scale   # needed for both spindle+/- and spindleoverride+/- button
           net pdnt.spindle.override.value           halui.spindle.0.override.value        whb.halui.spindle-override.value # GUI feed rate related signals
           net pdnt.spindle.override.increase        whb.halui.spindle-override.increase   halui.spindle.0.override.increase
           net pdnt.spindle.override.decrease        whb.halui.spindle-override.decrease   halui.spindle.0.override.decrease

           # GUI feed rate related signals can be used when program is running moving GUI slider
           net pdnt.feed-override.scale              whb.halui.feed-override.scale         halui.feed-override.scale        # needed for both FeedOverride+/- and rotary knob button
           net pdnt.max-velocity.value               whb.halui.max-velocity.value          halui.max-velocity.value         # needed for Mpg mode : button feed position% * max-velocity = Mpg feedrate

           # take feed override min/max values from/to the GUI
           net pdnt.feed-override.value              halui.feed-override.value             whb.halui.feed-override.value    # GUI feed rate related signals
           net pdnt.feed-override.increase           whb.halui.feed-override.increase      halui.feed-override.increase
           net pdnt.feed-override.decrease           whb.halui.feed-override.decrease      halui.feed-override.decrease

           # axis position related signals feedback
           net pdnt.axis.x.pos-feedback              halui.axis.x.pos-feedback             whb.halui.axis.x.pos-feedback
           net pdnt.axis.y.pos-feedback              halui.axis.y.pos-feedback             whb.halui.axis.y.pos-feedback
           net pdnt.axis.z.pos-feedback              halui.axis.z.pos-feedback             whb.halui.axis.z.pos-feedback

           # axis position related signals relative
           net pdnt.axis.x.pos-relative              halui.axis.x.pos-relative             whb.halui.axis.x.pos-relative
           net pdnt.axis.y.pos-relative              halui.axis.y.pos-relative             whb.halui.axis.y.pos-relative
           net pdnt.axis.z.pos-relative              halui.axis.z.pos-relative             whb.halui.axis.z.pos-relative

SEE ALSO

       xhc-whb04b-6 developer documentation on GitHub

NOTES

       The CRC code function is not disclosed by the manufacturer. Thus the CRC value transmitted
       with each package is not checked yet. Feel free to help us enhance the component.

AUTHORS

       This component was started by Raoul Rubien based on predecessor device component
       xhc-hb04.cc. https://github.com/machinekit/machinekit/graphs/contributors gives you a more
       complete list of contributors.

HISTORY

       The component was developed accidentally as leisure project. The development started with
       the xhc-whb04 (4-axis wireless pendant) implementation as reference. 73 & many thanks to
       the developers who delivered provided an excellent preparatory work!

COPYRIGHT

       Copyright © 2018 Raoul Rubien (github.com/rubienr) Updated for Linuxcnc 2020 by
       alkabal_free.fr. This is free software; see the source for copying conditions. There is NO
       warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.