1
0
Fork 0
fgdata/Nasal/FailureMgr/private.nas

362 lines
9.3 KiB
Text
Raw Permalink Normal View History

# Failure Manager implementation
#
# Monitors trigger conditions periodically and fires failure modes when those
# conditions are met. It also provides a central access point for publishing
# failure modes to the user interface and the property tree.
#
# Copyright (C) 2014 Anton Gomez Alvedro
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License as
# published by the Free Software Foundation; either version 2 of the
# License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
##
# Represents one way things can go wrong, for example "a blown tire".
var FailureMode = {
##
# id: Unique identifier for this failure mode.
# eg: "engine/carburetor-ice"
#
# description: Short text description, suitable for printing to the user.
# eg: "Ice in the carburetor"
#
# actuator: Object implementing the FailureActuator interface.
# Used by the failure manager to apply a certain level of
# failure to the failure mode.
new: func(id, description, actuator) {
return {
parents: [FailureMode],
id: id,
description: description,
actuator: actuator,
_path: nil
};
},
##
# Applies a certain level of failure to this failure mode.
# level: Floating point number in the range [0, 1] zero being no failure
# and 1 total failure.
set_failure_level: func(level) {
assert(me._path != nil, "FailureMode.set_failure_level: unbound mode");
setprop(me._path ~ me.id ~ "/failure-level", level);
},
##
# Internal version that actually does the job.
_set_failure_level: func(level) {
me.actuator.set_failure_level(level);
_failmgr.log(sprintf("%s condition %d%%", me.description, (1-level)*100));
},
##
# Returns the level of failure currently being simulated.
get_failure_level: func me.actuator.get_failure_level(),
##
# Creates an interface for this failure mode in the property tree at the
# given location. Currently the interface is just:
#
# path/failure-level (double, rw)
bind: func(path) {
assert(me._path == nil, "FailureMode.bind: mode already bound");
var prop = path ~ me.id ~ "/failure-level";
props.globals.initNode(prop, me.actuator.get_failure_level(), "DOUBLE");
setlistener(prop, func (p) me._set_failure_level(p.getValue()), 0, 0);
me._path = path;
},
##
# Remove bound properties from the property tree.
unbind: func {
me._path != nil and props.globals.getNode(me._path ~ me.id).remove();
me._path = nil;
},
};
##
# Implements the FailureMgr functionality.
#
# It is wrapped into an object to leave the door open to several evolution
# approaches, for example moving the implementation down to the C++ engine.
# Additionally, it also serves to isolate implementation details into its own
# namespace.
var _failmgr = {
pollable_trigger_count: 0,
enable_after_teleport: 0,
timer: nil,
update_period: 10, # 0.1 Hz
failure_modes: {},
logbuf: events.LogBuffer.new(echo: 1),
init: func {
me.timer = maketimer(me.update_period, func me._update());
setlistener("sim/signals/reinit", func(n) me._on_teleport(n));
setlistener("sim/signals/fdm-initialized", func(n) me._on_teleport(n));
props.globals.initNode(proproot ~ "display-on-screen", 1, "BOOL");
props.globals.initNode(proproot ~ "enabled", 1, "BOOL");
setlistener(proproot ~ "enabled",
func (n) { n.getValue() ? me._enable() : me._disable() });
},
add_failure_mode: func(mode) {
contains(me.failure_modes, mode.id) and
die("add_failure_mode: failure mode already exists: " ~ mode.id);
me.failure_modes[mode.id] = { mode: mode, trigger: nil };
mode.bind(proproot);
},
get_failure_modes: func {
var modes = [];
foreach (var k; keys(me.failure_modes)) {
var m = me.failure_modes[k];
append(modes, {
id: k,
description: m.mode.description });
}
return modes;
},
remove_failure_mode: func(id) {
contains(me.failure_modes, id) or
die("remove_failure_mode: failure mode does not exist: " ~ id);
var trigger = me.failure_modes[id].trigger;
if (trigger != nil)
me._discard_trigger(trigger);
me.failure_modes[id].mode.unbind();
delete(me.failure_modes, id);
},
remove_all: func {
foreach(var id; keys(me.failure_modes))
me.remove_failure_mode(id);
},
repair_all: func {
foreach(var id; keys(me.failure_modes))
me.failure_modes[id].mode.set_failure_level(0);
},
set_trigger: func(mode_id, trigger) {
contains(me.failure_modes, mode_id) or
die("set_trigger: failure mode does not exist: " ~ mode_id);
var mode = me.failure_modes[mode_id];
if (mode.trigger != nil)
me._discard_trigger(mode.trigger);
mode.trigger = trigger;
if (trigger == nil) return;
trigger.bind(proproot ~ mode_id);
trigger.on_fire = func _failmgr.on_trigger_activated(trigger);
if (trigger.requires_polling) {
me.pollable_trigger_count += 1;
if (me.enabled() and !me.timer.isRunning)
me.timer.start();
}
if (me.enabled())
trigger.enable();
},
get_trigger: func(mode_id) {
contains(me.failure_modes, mode_id) or
die("get_trigger: failure mode does not exist: " ~ mode_id);
return me.failure_modes[mode_id].trigger;
},
##
# Observer interface. Called from asynchronous triggers when they fire.
# trigger: Reference to the firing trigger.
on_trigger_activated: func(trigger) {
assert(me.enabled(), "A " ~ trigger.type ~ " trigger fired while the FailureMgr was disabled");
var found = 0;
foreach (var id; keys(me.failure_modes)) {
if (me.failure_modes[id].trigger == trigger) {
found = 1;
me.failure_modes[id].mode.set_failure_level(1);
trigger.disarm();
FailureMgr.events["trigger-fired"].notify(
{ mode_id: id, trigger: trigger });
break;
}
}
assert(found, "FailureMgr.on_trigger_activated: trigger not found");
},
##
# Enable the failure manager. Starts the trigger poll timer and enables
# all triggers.
#
# Called from /sim/failure-manager/enabled and during a teleport if the
# FM was enabled when the teleport was initiated.
_enable: func {
foreach(var id; keys(me.failure_modes)) {
var trigger = me.failure_modes[id].trigger;
trigger != nil and trigger.enable();
}
if (me.pollable_trigger_count > 0)
me.timer.start();
},
##
# Suspends failure manager activity. Pollable triggers will not be updated
# and all triggers will be disabled.
# Called from /sim/failure-manager/enabled and during a teleport.
_disable: func {
me.timer.stop();
foreach(var id; keys(me.failure_modes)) {
var trigger = me.failure_modes[id].trigger;
trigger != nil and trigger.disable();
}
},
enabled: func {
getprop(proproot ~ "enabled");
},
log: func(message) {
me.logbuf.push(message);
if (getprop(proproot ~ "/display-on-screen"))
screen.log.write(message, 1.0, 0.0, 0.0);
},
##
# Poll loop. Updates pollable triggers and applies a failure level
# when they fire.
_update: func {
foreach (var id; keys(me.failure_modes)) {
var failure = me.failure_modes[id];
var trigger = failure.trigger;
if (trigger == nil or !trigger.requires_polling or !trigger.armed)
continue;
var level = trigger.update();
if (level == 0) continue;
if (level != failure.mode.get_failure_level())
failure.mode.set_failure_level(level);
trigger.disarm();
FailureMgr.events["trigger-fired"].notify(
{ mode_id: id, trigger: trigger });
}
},
_discard_trigger: func(trigger) {
trigger.disable();
trigger.unbind();
if (trigger.requires_polling) {
me.pollable_trigger_count -= 1;
me.pollable_trigger_count == 0 and me.timer.stop();
}
},
##
# Teleport listener. During repositioning, all triggers are disabled to
# avoid them firing in a possibly inconsistent state.
_on_teleport: func(pnode) {
if (pnode.getName() == "fdm-initialized") {
if (me.enable_after_teleport) {
me._enable();
me.enable_after_teleport = 0;
}
}
else {
# then, it's /sim/signals/reinit
# only react when the signal raises to true.
if (pnode.getValue() == 1) {
me.enable_after_teleport = me.enabled();
me._disable();
}
}
},
dump_status: func(mode_ids=nil) {
if (mode_ids == nil)
mode_ids = keys(me.failure_modes);
print("\nFailureMgr Status\n----------------------------------------");
foreach(var id; mode_ids) {
var mode = me.failure_modes[id].mode;
var trigger = me.failure_modes[id].trigger;
print(id, ": failure level ", mode.get_failure_level());
if (trigger == nil) {
print(" no trigger");
}
else {
print(" ", trigger.type, " trigger (",
trigger.enabled? "enabled, " : "disabled, ",
trigger.armed? "armed)" : "disarmed)");
}
}
}
};
##
# Module initialization
var _init = func {
removelistener(lsnr);
_failmgr.init();
# Load legacy failure modes for backwards compatibility
io.load_nasal(getprop("/sim/fg-root") ~
"/Aircraft/Generic/Systems/compat_failure_modes.nas");
}
var lsnr = setlistener("/nasal/FailureMgr/loaded", _init);