no api

get_latest_from_db.txt

@@ -0,0 +1,12 @@
+# Retrieve the last value for building_total
+sqlite3 power_data.db "SELECT * FROM building_totals ORDER BY timestamp DESC LIMIT 1;"
+
+# Retrieve the last value for each individual record in room_breakdown
+sqlite3 power_data.db "
+SELECT r1.*
+FROM room_breakdown r1
+INNER JOIN (
+    SELECT room_number, MAX(timestamp) AS max_timestamp
+    FROM room_breakdown
+    GROUP BY room_number
+) r2 ON r1.room_number = r2.room_number AND r1.timestamp = r2.max_timestamp;"

not-tested/dash_power_room_n_customer.py

@@ -0,0 +1,205 @@
+import dash
+from dash import dcc, html, Input, Output, callback_context
+import plotly.express as px
+import pandas as pd
+import sqlite3
+from datetime import datetime, timedelta
+
+# Initialize the Dash app
+app = dash.Dash(__name__)
+
+# Connect to the SQLite database
+def get_db_connection():
+    conn = sqlite3.connect('power_data.db')
+    return conn
+
+# Function to fetch data from the database
+def fetch_data(time_range):
+    conn = get_db_connection()
+    query = f"""
+    SELECT * FROM building_totals
+    WHERE timestamp >= datetime('now', '-{time_range} hours')
+    """
+    df = pd.read_sql_query(query, conn)
+    conn.close()
+    return df
+
+# Function to calculate kWh and round timestamps for building totals
+def calculate_building_kwh(df):
+    df['timestamp'] = pd.to_datetime(df['timestamp'])
+    df['timestamp'] = df['timestamp'].dt.round('5min')  # Round to 5-minute intervals
+    df = df.set_index('timestamp')
+    df['kWh'] = df['total_power'] * (5 / 60)  # Convert power to kWh for 5-minute intervals
+    return df
+
+# Function to calculate kWh and round timestamps for room and customer breakdowns
+def calculate_breakdown_kwh(df):
+    df['timestamp'] = pd.to_datetime(df['timestamp'])
+    df['timestamp'] = df['timestamp'].dt.round('5min')  # Round to 5-minute intervals
+    df = df.set_index('timestamp')
+    df['kWh'] = df['power'] * (5 / 60)  # Convert power to kWh for 5-minute intervals
+    return df
+
+# Define the layout of the dashboard
+app.layout = html.Div([
+    html.H1("Power Usage Overview", style={'textAlign': 'center'}),
+
+    dcc.Dropdown(
+        id='time-range',
+        options=[
+            {'label': '6 Hours', 'value': '6'},
+            {'label': '12 Hours', 'value': '12'},
+            {'label': '24 Hours', 'value': '24'},
+            {'label': '1 Week', 'value': '168'},
+            {'label': '2 Weeks', 'value': '336'},
+            {'label': '1 Month', 'value': '720'},
+            {'label': '2 Months', 'value': '1440'},
+            {'label': '1 Year', 'value': '8760'},
+        ],
+        value='6',
+        style={'width': '200px', 'margin': '0 auto'}
+    ),
+
+    dcc.Graph(id='building-graph', style={'width': '100%', 'height': '400px'}),
+
+    dcc.Tabs(id='tabs', value='room-breakdown', children=[
+        dcc.Tab(label='Room Breakdown', value='room-breakdown'),
+        dcc.Tab(label='Customer Breakdown', value='customer-breakdown'),
+    ]),
+
+    html.Div([
+        dcc.Dropdown(id='drill-down', multi=False, style={'width': '200px', 'margin': '0 auto'}),
+        dcc.Graph(id='breakdown-graph', style={'width': '100%', 'height': '400px'}),
+    ])
+])
+
+# Combined callback to update the building total graph and handle zoom events
+@app.callback(
+    Output('building-graph', 'figure'),
+    [Input('time-range', 'value'),
+     Input('building-graph', 'relayoutData')],
+    [dash.dependencies.State('building-graph', 'figure')]
+)
+def update_building_graph(time_range, relayoutData, figure):
+    ctx = callback_context
+
+    if not ctx.triggered:
+        return dash.no_update
+
+    df = fetch_data(time_range)
+    df = calculate_building_kwh(df)
+
+    # Initialize fig
+    fig = px.line(df, x=df.index, y=['total_current', 'total_power', 'kWh'],
+                  labels={'value': 'Value', 'variable': 'Metric'},
+                  title='Building Total Metrics')
+    fig.update_layout(legend_title_text='Metrics', yaxis_type="log")  # Use logarithmic scale
+
+    if 'time-range' in ctx.triggered[0]['prop_id']:
+        pass  # fig is already initialized
+
+    elif relayoutData and 'xaxis.range[0]' in relayoutData and 'xaxis.range[1]' in relayoutData:
+        start = pd.to_datetime(relayoutData['xaxis.range[0]'])
+        end = pd.to_datetime(relayoutData['xaxis.range[1]'])
+        df = df.loc[start:end]
+        fig = px.line(df, x=df.index, y=['total_current', 'total_power', 'kWh'],
+                      labels={'value': 'Value', 'variable': 'Metric'},
+                      title='Building Total Metrics')
+        fig.update_layout(legend_title_text='Metrics', yaxis_type="log")  # Use logarithmic scale
+
+    # Update legend to show total values
+    for trace in fig.data:
+        if trace.name == 'kWh':
+            trace.name = f"{trace.name}: {df['kWh'].sum():.2f}"
+        else:
+            trace.name = f"{trace.name}: {df[trace.name].iloc[-1]:.2f}"
+
+    return fig
+
+# Callback to update the drill-down dropdown
+@app.callback(
+    Output('drill-down', 'options'),
+    [Input('tabs', 'value')]
+)
+def update_drill_down_options(tab):
+    conn = get_db_connection()
+    if tab == 'room-breakdown':
+        query = "SELECT DISTINCT room_number FROM room_breakdown"
+    else:
+        query = "SELECT DISTINCT customer_name FROM customer_breakdown"
+    df = pd.read_sql_query(query, conn)
+    conn.close()
+    return [{'label': i, 'value': i} for i in df.iloc[:, 0]]
+
+# Callback to set the default value for the drill-down dropdown
+@app.callback(
+    Output('drill-down', 'value'),
+    [Input('drill-down', 'options')]
+)
+def set_drill_down_value(options):
+    if options:
+        return options[0]['value']
+    return None
+
+# Callback to update the breakdown graph and handle zoom events
+@app.callback(
+    Output('breakdown-graph', 'figure'),
+    [Input('tabs', 'value'),
+     Input('drill-down', 'value'),
+     Input('time-range', 'value'),
+     Input('breakdown-graph', 'relayoutData')],
+    [dash.dependencies.State('breakdown-graph', 'figure')]
+)
+def update_breakdown_graph(tab, drill_down, time_range, relayoutData, figure):
+    ctx = callback_context
+
+    if not ctx.triggered:
+        return dash.no_update
+
+    conn = get_db_connection()
+    if tab == 'room-breakdown':
+        query = f"""
+        SELECT * FROM room_breakdown
+        WHERE room_number = '{drill_down}'
+        AND timestamp >= datetime('now', '-{time_range} hours')
+        """
+    else:
+        query = f"""
+        SELECT * FROM customer_breakdown
+        WHERE customer_name = '{drill_down}'
+        AND timestamp >= datetime('now', '-{time_range} hours')
+        """
+    df = pd.read_sql_query(query, conn)
+    conn.close()
+    df = calculate_breakdown_kwh(df)
+
+    # Initialize fig
+    fig = px.line(df, x=df.index, y=['current', 'power', 'kWh'],
+                  labels={'value': 'Value', 'variable': 'Metric'},
+                  title=f'{tab.replace("-", " ").title()} Metrics')
+    fig.update_layout(legend_title_text='Metrics', yaxis_type="log")  # Use logarithmic scale
+
+    if 'time-range' in ctx.triggered[0]['prop_id'] or 'drill-down' in ctx.triggered[0]['prop_id']:
+        pass  # fig is already initialized
+
+    elif relayoutData and 'xaxis.range[0]' in relayoutData and 'xaxis.range[1]' in relayoutData:
+        start = pd.to_datetime(relayoutData['xaxis.range[0]'])
+        end = pd.to_datetime(relayoutData['xaxis.range[1]'])
+        df = df.loc[start:end]
+        fig = px.line(df, x=df.index, y=['current', 'power', 'kWh'],
+                      labels={'value': 'Value', 'variable': 'Metric'},
+                      title=f'{tab.replace("-", " ").title()} Metrics')
+        fig.update_layout(legend_title_text='Metrics', yaxis_type="log")  # Use logarithmic scale
+
+    # Update legend to show total values
+    for trace in fig.data:
+        if trace.name == 'kWh':
+            trace.name = f"{trace.name}: {df['kWh'].sum():.2f}"
+        else:
+            trace.name = f"{trace.name}: {df[trace.name].iloc[-1]:.2f}"
+
+    return fig
+
+# Run the app
+if __name__ == '__main__':
+    app.run(host='0.0.0.0', port=8050, debug=True)

not-tested/get_power_room_n_customer.py

@@ -0,0 +1,310 @@
+import concurrent.futures
+import requests
+from collections import defaultdict
+import argparse
+import sqlite3
+from datetime import datetime, timedelta
+import time
+
+# Configuration
+API_KEY = ''
+LIBRENMS_IP = ''
+HEADERS = {'X-Auth-Token': API_KEY}
+
+def create_db_connection(db_file):
+    """Create a database connection to a SQLite database."""
+    conn = None
+    try:
+        conn = sqlite3.connect(db_file)
+        return conn
+    except sqlite3.Error as e:
+        print(e)
+    return conn
+
+def create_tables(conn):
+    """Create tables for storing the data."""
+    try:
+        cursor = conn.cursor()
+        cursor.execute('''
+            CREATE TABLE IF NOT EXISTS building_totals (
+                id INTEGER PRIMARY KEY AUTOINCREMENT,
+                total_current REAL,
+                total_power REAL,
+                timestamp TEXT
+            )
+        ''')
+        cursor.execute('''
+            CREATE TABLE IF NOT EXISTS room_breakdown (
+                id INTEGER PRIMARY KEY AUTOINCREMENT,
+                room_number TEXT,
+                current REAL,
+                power REAL,
+                timestamp TEXT
+            )
+        ''')
+        cursor.execute('''
+            CREATE TABLE IF NOT EXISTS customer_breakdown (
+                id INTEGER PRIMARY KEY AUTOINCREMENT,
+                customer_name TEXT,
+                current REAL,
+                power REAL,
+                timestamp TEXT
+            )
+        ''')
+        conn.commit()
+    except sqlite3.Error as e:
+        print(e)
+
+def round_to_nearest_5_minutes(dt):
+    """Round a datetime object to the nearest 5-minute interval."""
+    # Calculate the number of seconds since the last 5-minute interval
+    seconds_since_last_interval = dt.minute % 5 * 60 + dt.second + dt.microsecond / 1e6
+
+    # Round to the nearest 5-minute interval
+    if seconds_since_last_interval < 150:  # 150 seconds = 2.5 minutes
+        rounded_dt = dt - timedelta(seconds=seconds_since_last_interval)
+    else:
+        rounded_dt = dt + timedelta(seconds=300 - seconds_since_last_interval)  # 300 seconds = 5 minutes
+
+    # Set seconds and microseconds to zero
+    rounded_dt = rounded_dt.replace(second=0, microsecond=0)
+
+    return rounded_dt
+
+def insert_building_total(conn, total_current, total_power):
+    """Insert building total data into the database."""
+    try:
+        cursor = conn.cursor()
+        rounded_timestamp = round_to_nearest_5_minutes(datetime.now())
+        cursor.execute('''
+            INSERT INTO building_totals (total_current, total_power, timestamp)
+            VALUES (?, ?, ?)
+        ''', (round(total_current, 3), round(total_power, 3), rounded_timestamp.isoformat()))
+        conn.commit()
+    except sqlite3.Error as e:
+        print(e)
+
+def insert_room_breakdown(conn, room_number, current, power):
+    """Insert room breakdown data into the database."""
+    try:
+        cursor = conn.cursor()
+        rounded_timestamp = round_to_nearest_5_minutes(datetime.now())
+        cursor.execute('''
+            INSERT INTO room_breakdown (room_number, current, power, timestamp)
+            VALUES (?, ?, ?, ?)
+        ''', (room_number, round(current, 3), round(power, 3), rounded_timestamp.isoformat()))
+        conn.commit()
+    except sqlite3.Error as e:
+        print(e)
+
+def insert_customer_breakdown(conn, customer_name, current, power):
+    """Insert customer breakdown data into the database."""
+    try:
+        cursor = conn.cursor()
+        rounded_timestamp = round_to_nearest_5_minutes(datetime.now())
+        cursor.execute('''
+            INSERT INTO customer_breakdown (customer_name, current, power, timestamp)
+            VALUES (?, ?, ?, ?)
+        ''', (customer_name, round(current, 3), round(power, 3), rounded_timestamp.isoformat()))
+        conn.commit()
+    except sqlite3.Error as e:
+        print(e)
+
+
+def get_device_ids(debug=False):
+    """Fetch all device IDs from the LibreNMS API."""
+    response = requests.get(f'http://{LIBRENMS_IP}/api/v0/devices', headers=HEADERS, verify=False)
+    if response.status_code == 200:
+        devices = response.json().get('devices', [])
+        if debug:
+            print(f"Devices: {devices}")  # Debugging statement
+        power_devices = [device['device_id'] for device in devices if device.get('type') == 'power']
+        return power_devices
+    else:
+        raise Exception(f"Failed to fetch devices: {response.status_code}")
+
+def get_device_location(device_id, debug=False):
+    """Fetch the location for a given device ID."""
+    response = requests.get(f'http://{LIBRENMS_IP}/api/v0/devices/{device_id}', headers=HEADERS, verify=False)
+    if response.status_code == 200:
+        location = response.json().get('devices', [{}])[0].get('location', '')
+        if debug:
+            print(f"Location for device {device_id}: {location}")  # Debugging statement
+        # Extract room number from location
+        room_number = location.split(',')[-1].strip() if ',' in location else 'Unknown'
+        return room_number
+    else:
+        raise Exception(f"Failed to fetch location for device {device_id}: {response.status_code}")
+
+def get_customer_name(device_id, debug=False):
+    """Fetch the customer name for a given device ID."""
+    response = requests.get(f'http://{LIBRENMS_IP}/api/v0/devices/{device_id}', headers=HEADERS, verify=False)
+    if response.status_code == 200:
+        hostname = response.json().get('devices', [{}])[0].get('hostname', '')
+        if debug:
+            print(f"Hostname for device {device_id}: {hostname}")
+        customer_name = hostname.split('-')[0] if '-' in hostname else 'Unknown'
+        return customer_name
+    else:
+        raise Exception(f"Failed to fetch hostname for device {device_id}: {response.status_code}")
+
+def get_sensor_ids(device_id, sensor_group, debug=False):
+    """Fetch sensor IDs for a given device ID and sensor group."""
+    response = requests.get(f'http://{LIBRENMS_IP}/api/v0/devices/{device_id}/health/{sensor_group}', headers=HEADERS, verify=False)
+    if response.status_code == 200:
+        graphs = response.json().get('graphs', [])
+        if debug:
+            print(f"Graphs for device {device_id}: {graphs}")  # Debugging statement
+        # Filter sensors based on descriptions
+        if sensor_group == 'device_current':
+            relevant_sensors = [
+                sensor['sensor_id'] for sensor in graphs
+                if sensor['desc'] in ["Input Phase 1.1", "Input Phase 1.2", "Input Phase 1.3", "Phase 1"]
+            ]
+        elif sensor_group == 'device_power':
+            relevant_sensors = [
+                sensor['sensor_id'] for sensor in graphs
+                if sensor['desc'] in ["Active power #1", "Total power", "Power, Total"]
+            ]
+        return relevant_sensors
+    else:
+        raise Exception(f"Failed to fetch sensors for device {device_id}: {response.status_code}")
+
+def fetch_sensor_data(device_id, sensor_id, sensor_group, debug=False):
+    """Fetch the current value for a given sensor ID and sensor group."""
+    response = requests.get(
+        f'http://{LIBRENMS_IP}/api/v0/devices/{device_id}/health/{sensor_group}/{sensor_id}',
+        headers=HEADERS,
+        verify=False
+    )
+    if response.status_code == 200:
+        sensor_data = response.json()
+        if debug:
+            print(f"Sensor data for device {device_id}, sensor {sensor_id}: {sensor_data}")
+        sensor_value = sensor_data['graphs'][0].get('sensor_current', 0)
+        sensor_desc = sensor_data['graphs'][0].get('sensor_descr', '')
+
+        # Divide by 100 if the sensor is from an nLogic PDU and is a current sensor
+        if sensor_group == 'device_current' and sensor_desc in ["Input Phase 1.1", "Input Phase 1.2", "Input Phase 1.3"]:
+            sensor_value /= 100
+
+        return sensor_value
+    else:
+        raise Exception(f"Failed to fetch sensor value for sensor {sensor_id}: {response.status_code}")
+
+def fetch_device_data(device_id, debug=False):
+    """Fetch data for a given device ID."""
+    response = requests.get(
+        f'http://{LIBRENMS_IP}/api/v0/devices/{device_id}',
+        headers=HEADERS,
+        verify=False
+    )
+    if response.status_code == 200:
+        data = response.json().get('devices', [{}])[0]
+        if debug:
+            print(f"Data for device {device_id}: {data}")
+        return data
+    else:
+        raise Exception(f"Failed to fetch data for device {device_id}: {response.status_code}")
+
+def main(debug=False, update_db=True, concurrency_level=5):
+    try:
+        device_ids = get_device_ids(debug)
+        total_current = 0
+        total_power_watts = 0
+        room_current = defaultdict(float)
+        room_power = defaultdict(float)
+        customer_data = defaultdict(lambda: {'current': 0, 'power_watts': 0})
+
+        # Create a SQLite database connection if update_db is True
+        if update_db:
+            db_file = 'power_data.db'
+            conn = create_db_connection(db_file)
+            create_tables(conn)
+        else:
+            conn = None
+
+        with concurrent.futures.ThreadPoolExecutor(max_workers=concurrency_level) as executor:
+            # Submit tasks to the executor for each device
+            future_to_device = {
+                executor.submit(fetch_device_data, device_id, debug): device_id for device_id in device_ids
+            }
+
+            # Retrieve results as they complete
+            for future in concurrent.futures.as_completed(future_to_device):
+                device_id = future_to_device[future]
+                try:
+                    data = future.result()
+                    # Process the data as needed
+                    room_number = data.get('location', 'Unknown').split(',')[-1].strip()
+                    customer_name = data.get('hostname', 'Unknown').split('-')[0]
+
+                    # Fetch and sum current values
+                    current_sensor_ids = get_sensor_ids(device_id, 'device_current', debug)
+                    for sensor_id in current_sensor_ids:
+                        sensor_value = fetch_sensor_data(device_id, sensor_id, 'device_current', debug)
+                        total_current += sensor_value
+                        room_current[room_number] += sensor_value
+                        customer_data[customer_name]['current'] += sensor_value
+
+                    # Fetch and sum power values
+                    power_sensor_ids = get_sensor_ids(device_id, 'device_power', debug)
+                    for sensor_id in power_sensor_ids:
+                        sensor_value = fetch_sensor_data(device_id, sensor_id, 'device_power', debug)
+                        total_power_watts += sensor_value
+                        room_power[room_number] += sensor_value
+                        customer_data[customer_name]['power_watts'] += sensor_value
+
+                except Exception as e:
+                    print(f"Error fetching data for device {device_id}: {e}")
+
+        total_power_kw = total_power_watts / 1000  # Convert watts to kilowatts
+        print(f"\n\nTotal Current: {round(total_current, 3)} A")
+        print(f"Total Power: {round(total_power_kw, 3)} kW")
+
+        # Insert building total data into the database if update_db is True
+        if update_db:
+            insert_building_total(conn, total_current, total_power_kw)
+
+        print("\n\nBreakdown by Room:\n")
+        for room, current in room_current.items():
+            power_kw = room_power[room] / 1000  # Convert watts to kilowatts
+            print(f"Room {room}: Current = {round(current, 3)} A, Power = {round(power_kw, 3)} kW")
+
+            # Insert room breakdown data into the database if update_db is True
+            if update_db:
+                insert_room_breakdown(conn, room, current, power_kw)
+
+        print("\n\nCustomer Breakdown:\n")
+        for customer_name, data in customer_data.items():
+            power_kw = data['power_watts'] / 1000  # Convert watts to kilowatts
+            print(f"Customer {customer_name} - Current: {round(data['current'], 3)} A, Power: {round(power_kw, 3)} kW")
+
+            # Insert customer breakdown data into the database if update_db is True
+            if update_db:
+                insert_customer_breakdown(conn, customer_name, data['current'], power_kw)
+
+        # Close the database connection if it was opened
+        if update_db:
+            conn.close()
+    except Exception as e:
+        print(str(e))
+
+if __name__ == '__main__':
+    parser = argparse.ArgumentParser(description='Fetch and display power and current data from LibreNMS.')
+    parser.add_argument('--debug', action='store_true', help='Enable debug output')
+    parser.add_argument('--runs', type=int, default=None, help='Limit the number of runs')
+    parser.add_argument('--no-db-update', action='store_true', help='Disable updates to the database')
+    parser.add_argument('--concurrency-level', type=int, default=5, help='Set the concurrency level for API requests')
+    args = parser.parse_args()
+
+    runs = 0
+    while True:
+        if args.runs is not None and runs >= args.runs:
+            break
+
+        main(debug=args.debug, update_db=not args.no_db_update, concurrency_level=args.concurrency_level)
+        runs += 1
+        if args.runs is None:
+            time.sleep(250)  # Wait for 5 minutes before the next run
+