FW_LED_System_Monitor/monitors.py

# Built In Dependencies
import time
import psutil
import os

if os.name == 'nt':
    import wmi

class DiskMonitor:
    def __init__(self, hysterisis_time = 20):
        self.read_usage_history = [0]
        self.write_usage_history = [0]
        self.history_times = [0]
        self.highest_read_rate = 0.00001
        self.highest_write_rate = 0.00001
        self.max_history_size = hysterisis_time

    def get(self):
        try:
            disk_io = psutil.disk_io_counters()
            read_usage = disk_io.read_bytes
            write_usage = disk_io.write_bytes
            self.read_usage_history.append(read_usage)
            self.write_usage_history.append(write_usage)
            self.history_times.append(time.time())
            if len(self.read_usage_history) > self.max_history_size:
                self.read_usage_history = self.read_usage_history[-self.max_history_size:]
                self.write_usage_history = self.write_usage_history[-self.max_history_size:]
                self.history_times = self.history_times[-self.max_history_size:]

            read_diff = self.read_usage_history[-1] - self.read_usage_history[0]
            write_diff = self.write_usage_history[-1] - self.write_usage_history[0]
            time_diff = self.history_times[-1] - self.history_times[0]
            read_rate = read_diff / time_diff
            write_rate = write_diff / time_diff
            self.highest_read_rate = max(self.highest_read_rate, read_rate)
            self.highest_write_rate = max(self.highest_write_rate, write_rate)
            read_percent = min(1.0, read_rate / self.highest_read_rate)
            write_percent = min(1.0, write_rate / self.highest_write_rate)
            return read_percent, write_percent
        except Exception as e:
            print(f"Error in DiskMonitor.get(): {e}")
            return 0, 0

class NetworkMonitor:
    def __init__(self, hysterisis_time = 20):
        self.sent_usage_history = [0]
        self.recv_usage_history = [0]
        self.history_times = [0]
        self.highest_sent_rate = 0.00001
        self.highest_recv_rate = 0.00001
        self.max_history_size = hysterisis_time

    def get(self):
        try:
            net_io = psutil.net_io_counters()
            sent_usage = net_io.bytes_sent
            recv_usage = net_io.bytes_recv
            self.sent_usage_history.append(sent_usage)
            self.recv_usage_history.append(recv_usage)
            self.history_times.append(time.time())
            if len(self.sent_usage_history) > self.max_history_size:
                self.sent_usage_history = self.sent_usage_history[-self.max_history_size:]
                self.recv_usage_history = self.recv_usage_history[-self.max_history_size:]
                self.history_times = self.history_times[-self.max_history_size:]

            sent_diff = self.sent_usage_history[-1] - self.sent_usage_history[0]
            recv_diff = self.recv_usage_history[-1] - self.recv_usage_history[0]
            time_diff = self.history_times[-1] - self.history_times[0]
            sent_rate = sent_diff / time_diff
            recv_rate = recv_diff / time_diff
            self.highest_sent_rate = max(self.highest_sent_rate, sent_rate)
            self.highest_recv_rate = max(self.highest_recv_rate, recv_rate)
            sent_percent = min(1.0, sent_rate / self.highest_sent_rate)
            recv_percent = min(1.0, recv_rate / self.highest_recv_rate)
            return sent_percent, recv_percent
        except Exception as e:
            print(f"Error in NetworkMonitor.get(): {e}")
            return 0, 0

class CPUMonitor:
    def __init__(self, hysterisis_time = 10):
        self.cpu_count = psutil.cpu_count() // 2 # 2 logical cores per physical core
        self.cpu_usage_history = [[] for _ in range(self.cpu_count)]
        self.history_times = []
        self.max_history_size = hysterisis_time

    def get(self):
        try:
            cpu_usage = psutil.cpu_percent(percpu=True)
            for i in range(self.cpu_count):
                useage = 2 * max(cpu_usage[2*i], cpu_usage[2*i+1]) # Combine logical cores
                if useage > 100:
                    useage = 100
                self.cpu_usage_history[i].append(useage / 100.0)
            self.history_times.append(time.time())
            if len(self.cpu_usage_history[0]) > self.max_history_size:
                for i in range(self.cpu_count):
                    self.cpu_usage_history[i] = self.cpu_usage_history[i][-self.max_history_size:]
                    self.history_times = self.history_times[-self.max_history_size:]
            cpu_percentages = [sum(core_history) / self.max_history_size for core_history in self.cpu_usage_history]
            # Somehow cpu_percentages can have values greater than 1 so we clamp them
            return cpu_percentages
        except Exception as e:
            print(f"Error in CPUMonitor.get(): {e}")
            return [0] * self.cpu_count

class MemoryMonitor:
    @staticmethod
    def get():
        return psutil.virtual_memory().percent / 100.0
    

class BatteryMonitor:
    @staticmethod
    def get():
        battery = psutil.sensors_battery()
        if battery is not None:
            battery_percentage = battery.percent / 100.0
            if os.name == "nt":
                battery_plugged = battery.power_plugged
            else:
                battery_plugged = int(open('/sys/class/power_supply/BAT1/current_now', 'r').read()) < 100000
            return battery_percentage, battery_plugged
        

def get_monitor_brightness():
    try:
        if os.name == 'nt':
            return wmi.WMI(namespace='wmi').WmiMonitorBrightness()[0].CurrentBrightness / 100.0
        else:
            try: # First try the dGPU brightness
                return int(open('/sys/class/backlight/amdgpu_bl2/brightness', 'r').read()) / 255.0
            except: # If that doesn't work, try the iGPU brightness
                return int(open('/sys/class/backlight/amdgpu_bl1/brightness', 'r').read()) / 255.0
    except Exception as e:
        return 1.0

if __name__ == "__main__":
    print(get_monitor_brightness())
Added linux support 2024-08-17 20:49:21 +00:00			`# Built In Dependencies`
			`import time`
			`import psutil`
			`import os`

			`if os.name == 'nt':`
			`import wmi`

			`class DiskMonitor:`
			`def __init__(self, hysterisis_time = 20):`
			`self.read_usage_history = [0]`
			`self.write_usage_history = [0]`
			`self.history_times = [0]`
			`self.highest_read_rate = 0.00001`
			`self.highest_write_rate = 0.00001`
			`self.max_history_size = hysterisis_time`

			`def get(self):`
			`try:`
			`disk_io = psutil.disk_io_counters()`
			`read_usage = disk_io.read_bytes`
			`write_usage = disk_io.write_bytes`
			`self.read_usage_history.append(read_usage)`
			`self.write_usage_history.append(write_usage)`
			`self.history_times.append(time.time())`
			`if len(self.read_usage_history) > self.max_history_size:`
			`self.read_usage_history = self.read_usage_history[-self.max_history_size:]`
			`self.write_usage_history = self.write_usage_history[-self.max_history_size:]`
			`self.history_times = self.history_times[-self.max_history_size:]`

			`read_diff = self.read_usage_history[-1] - self.read_usage_history[0]`
			`write_diff = self.write_usage_history[-1] - self.write_usage_history[0]`
			`time_diff = self.history_times[-1] - self.history_times[0]`
			`read_rate = read_diff / time_diff`
			`write_rate = write_diff / time_diff`
			`self.highest_read_rate = max(self.highest_read_rate, read_rate)`
			`self.highest_write_rate = max(self.highest_write_rate, write_rate)`
			`read_percent = min(1.0, read_rate / self.highest_read_rate)`
			`write_percent = min(1.0, write_rate / self.highest_write_rate)`
			`return read_percent, write_percent`
			`except Exception as e:`
			`print(f"Error in DiskMonitor.get(): {e}")`
			`return 0, 0`

			`class NetworkMonitor:`
			`def __init__(self, hysterisis_time = 20):`
			`self.sent_usage_history = [0]`
			`self.recv_usage_history = [0]`
			`self.history_times = [0]`
			`self.highest_sent_rate = 0.00001`
			`self.highest_recv_rate = 0.00001`
			`self.max_history_size = hysterisis_time`

			`def get(self):`
			`try:`
			`net_io = psutil.net_io_counters()`
			`sent_usage = net_io.bytes_sent`
			`recv_usage = net_io.bytes_recv`
			`self.sent_usage_history.append(sent_usage)`
			`self.recv_usage_history.append(recv_usage)`
			`self.history_times.append(time.time())`
			`if len(self.sent_usage_history) > self.max_history_size:`
			`self.sent_usage_history = self.sent_usage_history[-self.max_history_size:]`
			`self.recv_usage_history = self.recv_usage_history[-self.max_history_size:]`
			`self.history_times = self.history_times[-self.max_history_size:]`

			`sent_diff = self.sent_usage_history[-1] - self.sent_usage_history[0]`
			`recv_diff = self.recv_usage_history[-1] - self.recv_usage_history[0]`
			`time_diff = self.history_times[-1] - self.history_times[0]`
			`sent_rate = sent_diff / time_diff`
			`recv_rate = recv_diff / time_diff`
			`self.highest_sent_rate = max(self.highest_sent_rate, sent_rate)`
			`self.highest_recv_rate = max(self.highest_recv_rate, recv_rate)`
			`sent_percent = min(1.0, sent_rate / self.highest_sent_rate)`
			`recv_percent = min(1.0, recv_rate / self.highest_recv_rate)`
			`return sent_percent, recv_percent`
			`except Exception as e:`
			`print(f"Error in NetworkMonitor.get(): {e}")`
			`return 0, 0`

			`class CPUMonitor:`
			`def __init__(self, hysterisis_time = 10):`
			`self.cpu_count = psutil.cpu_count() // 2 # 2 logical cores per physical core`
			`self.cpu_usage_history = [[] for _ in range(self.cpu_count)]`
			`self.history_times = []`
			`self.max_history_size = hysterisis_time`

			`def get(self):`
			`try:`
			`cpu_usage = psutil.cpu_percent(percpu=True)`
			`for i in range(self.cpu_count):`
			`useage = 2 * max(cpu_usage[2i], cpu_usage[2i+1]) # Combine logical cores`
			`if useage > 100:`
			`useage = 100`
			`self.cpu_usage_history[i].append(useage / 100.0)`
			`self.history_times.append(time.time())`
			`if len(self.cpu_usage_history[0]) > self.max_history_size:`
			`for i in range(self.cpu_count):`
			`self.cpu_usage_history[i] = self.cpu_usage_history[i][-self.max_history_size:]`
			`self.history_times = self.history_times[-self.max_history_size:]`
			`cpu_percentages = [sum(core_history) / self.max_history_size for core_history in self.cpu_usage_history]`
			`# Somehow cpu_percentages can have values greater than 1 so we clamp them`
			`return cpu_percentages`
			`except Exception as e:`
			`print(f"Error in CPUMonitor.get(): {e}")`
			`return [0] * self.cpu_count`

			`class MemoryMonitor:`
			`@staticmethod`
			`def get():`
			`return psutil.virtual_memory().percent / 100.0`


			`class BatteryMonitor:`
			`@staticmethod`
			`def get():`
			`battery = psutil.sensors_battery()`
			`if battery is not None:`
			`battery_percentage = battery.percent / 100.0`
Fixed linux power_plugged status 2024-08-17 21:48:53 +00:00			`if os.name == "nt":`
			`battery_plugged = battery.power_plugged`
			`else:`
			`battery_plugged = int(open('/sys/class/power_supply/BAT1/current_now', 'r').read()) < 100000`
Added linux support 2024-08-17 20:49:21 +00:00			`return battery_percentage, battery_plugged`


			`def get_monitor_brightness():`
			`try:`
			`if os.name == 'nt':`
			`return wmi.WMI(namespace='wmi').WmiMonitorBrightness()[0].CurrentBrightness / 100.0`
			`else:`
improved multi-gpu screen brightness measurement 2024-09-24 04:54:06 +00:00			`try: # First try the dGPU brightness`
			`return int(open('/sys/class/backlight/amdgpu_bl2/brightness', 'r').read()) / 255.0`
			`except: # If that doesn't work, try the iGPU brightness`
			`return int(open('/sys/class/backlight/amdgpu_bl1/brightness', 'r').read()) / 255.0`
Added linux support 2024-08-17 20:49:21 +00:00			`except Exception as e:`
			`return 1.0`
improved multi-gpu screen brightness measurement 2024-09-24 04:54:06 +00:00
			`if __name__ == "__main__":`
			`print(get_monitor_brightness())`