FW_LED_System_Monitor/monitors.py

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import time
import psutil
import threading
import time
import queue
class DiskMonitorThread(threading.Thread):
def __init__(self, output_queue, hysterisis_time = 5, update_interval = 0.25):
super().__init__()
self.daemon = True
self.read_usage_history = []
self.write_usage_history = []
self.history_times = []
self.highest_read_rate = 0.00001
self.highest_write_rate = 0.00001
self.max_history_size = int(round(hysterisis_time / update_interval))
self.update_interval = update_interval
self.output_queue = output_queue
def run(self):
while True:
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if not self.output_queue.full():
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:]
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if len(self.read_usage_history) == 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)
self.output_queue.put((read_percent, write_percent))
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time.sleep(self.update_interval)
class NetworkMonitorThread(threading.Thread):
def __init__(self, output_queue, hysterisis_time = 5, update_interval = 0.25):
super().__init__()
self.daemon = True
self.sent_usage_history = []
self.recv_usage_history = []
self.history_times = []
self.highest_sent_rate = 0.00001
self.highest_recv_rate = 0.00001
self.max_history_size = int(round(hysterisis_time / update_interval))
self.update_interval = update_interval
self.output_queue = output_queue
def run(self):
while True:
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if not self.output_queue.full():
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:]
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if len(self.sent_usage_history) == 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)
self.output_queue.put((sent_percent, recv_percent))
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time.sleep(self.update_interval)
class CPUMonitorThread(threading.Thread):
def __init__(self, output_queue, hysterisis_time = 5, update_interval = 0.25):
super().__init__()
self.daemon = True
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 = int(round(hysterisis_time / update_interval))
self.update_interval = update_interval
self.output_queue = output_queue
def run(self):
while True:
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if not self.output_queue.full():
cpu_usage = psutil.cpu_percent(percpu=True)
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for i in range(self.cpu_count):
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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:]
if len(self.cpu_usage_history[0]) == self.max_history_size:
cpu_percentages = [sum(core_history) / self.max_history_size for core_history in self.cpu_usage_history]
self.output_queue.put(cpu_percentages)
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time.sleep(self.update_interval)
class MemoryMonitorThread(threading.Thread):
def __init__(self, output_queue, hysterisis_time = 5, update_interval = 0.25):
super().__init__()
self.daemon = True
self.memory_usage_history = []
self.history_times = []
self.max_history_size = int(round(hysterisis_time / update_interval))
self.update_interval = update_interval
self.output_queue = output_queue
def run(self):
while True:
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if not self.output_queue.full():
memory_usage = psutil.virtual_memory().percent / 100.0
self.memory_usage_history.append(memory_usage)
self.history_times.append(time.time())
if len(self.memory_usage_history) > self.max_history_size:
self.memory_usage_history = self.memory_usage_history[-self.max_history_size:]
self.history_times = self.history_times[-self.max_history_size:]
if len(self.memory_usage_history) == self.max_history_size:
avg_memory_usage = sum(self.memory_usage_history) / self.max_history_size
self.output_queue.put(avg_memory_usage)
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time.sleep(self.update_interval)
if __name__ == "__main__":
disk_queue = queue.Queue()
network_queue = queue.Queue()
cpu_queue = queue.Queue()
memory_queue = queue.Queue()
disk_monitor = DiskMonitorThread(disk_queue)
network_monitor = NetworkMonitorThread(network_queue)
cpu_monitor = CPUMonitorThread(cpu_queue)
memory_monitor = MemoryMonitorThread(memory_queue)
disk_monitor.start()
network_monitor.start()
cpu_monitor.start()
memory_monitor.start()
while True:
if not disk_queue.empty():
read_percent, write_percent = disk_queue.get()
print(f"Disk Usage: Read {read_percent:.2%}, Write {write_percent:.2%}")
if not network_queue.empty():
sent_percent, recv_percent = network_queue.get()
print(f"Network Usage: Sent {sent_percent:.2%}, Received {recv_percent:.2%}")
if not cpu_queue.empty():
cpu_percentages = cpu_queue.get()
print(f"CPU Usage: {cpu_percentages}")
if not memory_queue.empty():
memory_usage = memory_queue.get()
print(f"Memory Usage: {memory_usage:.2%}")
time.sleep(0.5)