Added battery signal. Now using acpi_listen, instead of ambiguous timer

3 years ago · 5f421cc024
5 changed files with 227 additions and 51 deletions
--- a/themes/gruvbox/js/battery.js
+++ b/themes/gruvbox/js/battery.js
@ -6,7 +6,6 @@ class Battery {
  }

  _updateData() {
-    lightdm.batteryUpdate()
    this._info = lightdm.batteryData
    var level = this._info.level
    var state = this._info.state
--- a/themes/gruvbox/js/index.js
+++ b/themes/gruvbox/js/index.js
@ -28,6 +28,8 @@ async function initGreeter() {

  lightdm.brightness_update?.connect(() => brightness._updateData())

+  lightdm.battery_update?.connect(() => battery._updateData())
+
  accounts = new Accounts()

  sessions = new Sessions()
--- a/web-greeter/bridge/Greeter.py
+++ b/web-greeter/bridge/Greeter.py
@ -43,7 +43,6 @@ from PyQt5.QtCore import QTimer

 # This Application
 from . import (
-    Battery,
    language_to_dict,
    layout_to_dict,
    session_to_dict,
@ -52,6 +51,8 @@ from . import (
    logger
 )

+import utils.battery as battery
+
 LightDMGreeter = LightDM.Greeter()
 LightDMUsers = LightDM.UserList()

@ -81,21 +82,6 @@ def getBrightness(self):
        logger.error("Brightness: {}".format(err))
        return -1

-
-def updateBattery(self):
-    if self._config.features.battery != True:
-        return
-    try:
-        acpi = subprocess.run(["acpi", "-b"], stdout=subprocess.PIPE,
-                              stderr=subprocess.PIPE, text=True, check=True)
-
-        self._battery.update(acpi.stdout)
-    except Exception as err:
-        logger.error("Battery: {}".format(err))
-    else:
-        self.property_changed.emit()
-
-
 class Greeter(BridgeObject):

    # LightDM.Greeter Signals
@ -107,11 +93,12 @@ class Greeter(BridgeObject):
    show_prompt = bridge.signal(str, LightDM.PromptType, arguments=('text', 'type'))

    brightness_update = bridge.signal()
+    battery_update = bridge.signal()

    noop_signal = bridge.signal()
    property_changed = bridge.signal()

-    _battery = Battery()
+    _battery = None

    def __init__(self, config, *args, **kwargs):
        super().__init__(name='LightDMGreeter', *args, **kwargs)
@ -120,6 +107,9 @@ class Greeter(BridgeObject):
        self._shared_data_directory = ''
        self._themes_directory = config.themes_dir

+        if self._config.features.battery == True:
+            self._battery = battery.Battery()
+
        LightDMGreeter.connect_to_daemon_sync()

        self._connect_signals()
@ -152,6 +142,9 @@ class Greeter(BridgeObject):
            lambda greeter, msg, mtype: self._emit_signal(self.show_prompt, msg, mtype)
        )

+        if self._battery:
+            self._battery.connect(lambda: self.battery_update.emit())
+
    def _emit_signal(self, _signal, *args):
        self.property_changed.emit()
        QTimer().singleShot(300, lambda: _signal.emit(*args))
@ -172,7 +165,7 @@ class Greeter(BridgeObject):
    def autologin_user(self):
        return LightDMGreeter.get_autologin_user_hint()

-    @bridge.prop(Variant, notify=property_changed)
+    @bridge.prop(Variant, notify=battery_update)
    def batteryData(self):
        return battery_to_dict(self._battery)

@ -311,10 +304,6 @@ class Greeter(BridgeObject):
        LightDMGreeter.authenticate_as_guest()
        self.property_changed.emit()

-    @bridge.method()
-    def batteryUpdate(self):
-        return updateBattery(self)
-
    @bridge.method(int)
    def brightnessSet(self, quantity):
        thread = threading.Thread(target=changeBrightness,
--- a/web-greeter/bridge/init.py
+++ b/web-greeter/bridge/init.py
@ -66,33 +66,6 @@ class setInterval:
            self.action()


-class Battery:
-    _name = ""
-    _level = -1
-    _state = ""
-
-    def __init__(self):
-        pass
-
-    def update(self, acpi: str):
-        formatted = re.sub("%|,|\n", "", acpi)
-        colon = formatted.split(": ")
-        splitted = colon[1].split(" ")
-
-        self._name = colon[0]
-        self._level = int(splitted[1])
-        self._state = splitted[0]
-
-    def get_name(self):
-        return self._name
-
-    def get_level(self):
-        return self._level
-
-    def get_state(self):
-        return self._state
-
-
 def language_to_dict(lang):
    if (not lang):
        return dict()
@ -141,7 +114,10 @@ def battery_to_dict(battery):
    return dict(
        name = battery.get_name(),
        level = battery.get_level(),
-        state = battery.get_state()
+        state = battery.get_state(),
+        capacity = battery.get_capacity(),
+        time = battery.get_time(),
+        watt = battery.get_watt()
    )


--- a/web-greeter/utils/battery.py
+++ b/web-greeter/utils/battery.py
@ -0,0 +1,210 @@
+import os
+import subprocess
+import shlex
+import re
+import math
+from threading import Thread
+import time
+
+running = False
+
+class Battery:
+
+    _batteries = []
+    ac = "AC0"
+    pspath = "/sys/class/power_supply/"
+    perc = -1
+    status = "N/A"
+    capacity = 0
+    time = ""
+    watt = 0
+
+    callbacks = []
+
+    def __init__(self):
+        if self._batteries.__len__() == 0:
+            scandir_line(self.pspath, self._update_batteries)
+        start_timer(self.full_update)
+        self.full_update()
+
+    def connect(self, callback):
+        self.callbacks.append(callback)
+
+    def disconnect(self, callback):
+        self.callbacks.remove(callback)
+
+    def _update_batteries(self, line):
+        bstr = re.match(r"BAT\w+", line)
+        if bstr:
+            self._batteries.append(dict(
+                name = bstr.group(),
+                status = "N/A",
+                perc = 0,
+                capacity = 0,
+            ))
+        else:
+            self.ac = re.match(r"A\w+", line).group() or self.ac
+
+    # Based on "bat" widget from "lain" awesome-wm library
+	# * (c) 2013,      Luca CPZ
+	# * (c) 2010-2012, Peter Hofmann
+    # @see https://github.com/lcpz/lain/blob/master/widget/bat.lua
+    def full_update(self):
+        global running
+        if running:
+            return
+        running = True
+
+        sum_rate_current = 0
+        sum_rate_voltage = 0
+        sum_rate_power = 0
+        sum_rate_energy = 0
+        sum_energy_now = 0
+        sum_energy_full = 0
+        sum_charge_full = 0
+        sum_charge_design = 0
+
+        for i in range(len(self._batteries)):
+            battery = self._batteries[i]
+            bstr = self.pspath + battery["name"]
+            present = read_first_line(bstr + "/present")
+
+            if tonumber(present) == 1:
+                rate_current = tonumber(read_first_line(bstr + "/current_now"))
+                rate_voltage = tonumber(read_first_line(bstr + "/voltage_now"))
+                rate_power = tonumber(read_first_line((bstr + "/power_now")))
+                charge_full = tonumber(read_first_line(bstr + "/charge_full"))
+                charge_design = tonumber(read_first_line(bstr + "/charge_full_design"))
+
+                energy_now = tonumber(read_first_line(bstr + "/energy_now")
+                                 or read_first_line(bstr + "/charge_now"))
+                energy_full = tonumber(read_first_line(bstr + "/energy_full") or charge_full)
+                energy_percentage = tonumber(read_first_line(bstr + "/capacity")
+                                 or math.floor(energy_now / energy_full * 100))
+
+                self._batteries[i]["status"] = read_first_line(bstr + "/status") or "N/A"
+                self._batteries[i]["perc"] = energy_percentage or self._batteries[i].perc
+
+                if not charge_design or charge_design == 0:
+                    self._batteries[i]["capacity"] = 0
+                else:
+                    self._batteries[i]["capacity"] = math.floor(
+                        charge_full / charge_design * 100)
+
+                sum_rate_current  = sum_rate_current + (rate_current or 0)
+                sum_rate_voltage  = sum_rate_voltage + (rate_voltage or 0)
+                sum_rate_power    = sum_rate_power + (rate_power or 0)
+                sum_rate_energy   = sum_rate_energy + (rate_power or (((rate_voltage or 0) * (rate_current or 0)) / 1e6))
+                sum_energy_now    = sum_energy_now + (energy_now or 0)
+                sum_energy_full   = sum_energy_full + (energy_full or 0)
+                sum_charge_full   = sum_charge_full + (charge_full or 0)
+                sum_charge_design = sum_charge_design + (charge_design or 0)
+
+        self.capacity = math.floor(min(100, sum_charge_full / sum_charge_design * 100))
+        self.status = len(self._batteries) > 0 and self._batteries[0]["status"] or "N/A"
+
+        for i in range(len(self._batteries)):
+            battery = self._batteries[i]
+            if battery["status"] == "Discharging" or battery["status"] == "Charging":
+                self.status = battery["status"]
+
+        self.ac_status = tonumber(read_first_line(self.pspath + self.ac + "/online")) or "N/A"
+
+        if self.status != "N/A":
+            if self.status != "Full" and sum_rate_power == 0 and self.ac_status == 1:
+                self.perc = math.floor(min(100,
+                            sum_energy_now / sum_energy_full * 100 + 0.5))
+                self.time = "00:00"
+                self.watt = 0
+            elif self.status != "Full":
+                rate_time = 0
+            if (sum_rate_power > 0 or sum_rate_current > 0):
+                div = (sum_rate_power > 0 and sum_rate_power) or sum_rate_current
+
+                if self.status == "Charging":
+                    rate_time = (sum_energy_full - sum_energy_now) / div
+                else:
+                    rate_time = sum_energy_now / div
+
+                if 0 < rate_time and rate_time < 0.01:
+                    rate_time_magnitude = tonumber(abs(math.floor(math.log10(rate_time))))
+                    rate_time = rate_time * 10 ^ (rate_time_magnitude - 2)
+
+                hours   = math.floor(rate_time)
+                minutes = math.floor((rate_time - hours) * 60)
+                self.perc  = math.floor(min(100, (sum_energy_now / sum_energy_full) * 100) + 0.5)
+                self.time = "{:02d}:{:02d}".format(hours, minutes)
+                self.watt = "{:.2f}".format(sum_rate_energy / 1e6)
+
+        self.perc = self.perc == None and 0 or self.perc
+
+        for cb in self.callbacks:
+            cb()
+
+        time.sleep(0.1)
+
+        running = False
+
+    def get_name(self):
+        return self._batteries[0]["name"]
+
+    def get_level(self):
+        return self.perc
+
+    def get_state(self):
+        return self.status
+
+    def get_capacity(self):
+        return self.capacity
+
+    def get_time(self):
+        return self.time
+
+    def get_watt(self):
+        return self.watt
+
+def acpi_listen(callback):
+    main = subprocess.Popen(shlex.split("acpi_listen"), stdout=subprocess.PIPE, text=True)
+    awky = subprocess.Popen(shlex.split("grep --line-buffered -E 'battery|ac_adapter'"),
+                            stdout=subprocess.PIPE, stdin=main.stdout, text=True)
+    while True:
+        output = awky.stdout.readline()
+        if output == "" and awky.poll() != None:
+            break
+        if output:
+            callback()
+    rc = main.poll()
+    return rc
+
+def scandir_line(path, callback):
+    main = subprocess.Popen(shlex.split("ls -1 {}".format(path)),
+                            stdout=subprocess.PIPE, text=True)
+    while True:
+        line = main.stdout.readline()
+        if line == "" and main.poll() != None:
+            break
+        if line:
+            callback(line)
+
+def read_first_line(path):
+    try:
+        file = open(path, "r")
+        first = None
+        if file:
+            first = file.readline()
+            first = first.replace("\n", "")
+            file.close()
+        return first
+    except Exception:
+        return None
+
+def tonumber(asa):
+    try:
+        return int(asa)
+    except Exception:
+        return None
+
+def start_timer(callback):
+    thread = Thread(target = acpi_listen, args=(callback,))
+    thread.daemon = True
+    thread.start()