248 lines
6.1 KiB
Markdown
248 lines
6.1 KiB
Markdown
# python-broadlink
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A Python module and CLI for controlling Broadlink devices locally. The following devices are supported:
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- **Universal remotes**: RM home, RM mini 3, RM plus, RM pro, RM pro+, RM4 mini, RM4 pro, RM4C mini, RM4S, RM4 TV mate
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- **Smart plugs**: SP mini, SP mini 3, SP mini+, SP1, SP2, SP2-BR, SP2-CL, SP2-IN, SP2-UK, SP3, SP3-EU, SP3S-EU, SP3S-US, SP4L-AU, SP4L-EU, SP4L-UK, SP4M, SP4M-US, Ankuoo NEO, Ankuoo NEO PRO, Efergy Ego, BG AHC/U-01
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- **Switches**: MCB1, SC1, SCB1E, SCB2
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- **Outlets**: BG 800, BG 900
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- **Power strips**: MP1-1K3S2U, MP1-1K4S, MP2
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- **Environment sensors**: A1
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- **Alarm kits**: S1C, S2KIT
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- **Light bulbs**: LB1, LB26 R1, LB27 R1, SB800TD
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- **Curtain motors**: Dooya DT360E-45/20
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- **Thermostats**: Hysen HY02B05H
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- **Hubs**: S3
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## Installation
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Use pip3 to install the latest version of this module.
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```
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pip3 install broadlink
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```
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## Basic functions
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First, open Python 3 and import this module.
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```
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python3
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```
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```python3
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import broadlink
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```
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Now let's try some functions...
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### Setup
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In order to control the device, you need to connect it to your local network. If you have already configured the device with the Broadlink app, this step is not necessary.
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1. Put the device into AP Mode.
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- Long press the reset button until the blue LED is blinking quickly.
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- Long press again until blue LED is blinking slowly.
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- Manually connect to the WiFi SSID named BroadlinkProv.
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2. Connect the device to your local network with the setup function.
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```python3
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broadlink.setup('myssid', 'mynetworkpass', 3)
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```
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Security mode options are (0 = none, 1 = WEP, 2 = WPA1, 3 = WPA2, 4 = WPA1/2)
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#### Advanced options
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You may need to specify a broadcast address if setup is not working.
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```python3
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broadlink.setup('myssid', 'mynetworkpass', 3, ip_address='192.168.0.255')
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```
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### Discovery
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Use this function to discover devices:
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```python3
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devices = broadlink.discover()
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```
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#### Advanced options
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You may need to specify `local_ip_address` or `discover_ip_address` if discovery does not return any devices.
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Using the IP address of your local machine:
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```python3
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devices = broadlink.discover(local_ip_address='192.168.0.100')
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```
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Using the broadcast address of your subnet:
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```python3
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devices = broadlink.discover(discover_ip_address='192.168.0.255')
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```
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If the device is locked, it may not be discoverable with broadcast. In such cases, you can use the unicast version `broadlink.hello()` for direct discovery:
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```python3
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device = broadlink.hello('192.168.0.16')
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```
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If you are a perfomance freak, use `broadlink.xdiscover()` to create devices instantly:
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```python3
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for device in broadlink.xdiscover():
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print(device) # Example action. Do whatever you want here.
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```
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### Authentication
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After discovering the device, call the `auth()` method to obtain the authentication key required for further communication:
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```python3
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device.auth()
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```
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The next steps depend on the type of device you want to control.
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## Universal remotes
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### Learning IR codes
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Learning IR codes takes place in three steps.
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1. Enter learning mode:
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```python3
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device.enter_learning()
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```
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2. When the LED blinks, point the remote at the Broadlink device and press the button you want to learn.
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3. Get the IR packet.
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```python3
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packet = device.check_data()
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```
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### Learning RF codes
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Learning RF codes takes place in six steps.
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1. Sweep the frequency:
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```python3
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device.sweep_frequency()
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```
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2. When the LED blinks, point the remote at the Broadlink device for the first time and long press the button you want to learn.
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3. Check if the frequency was successfully identified:
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```python3
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ok = device.check_frequency()
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if ok:
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print('Frequency found!')
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```
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4. Enter learning mode:
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```python3
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device.find_rf_packet()
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```
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5. When the LED blinks, point the remote at the Broadlink device for the second time and short press the button you want to learn.
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6. Get the RF packet:
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```python3
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packet = device.check_data()
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```
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#### Notes
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Universal remotes with product id 0x2712 use the same method for learning IR and RF codes. They don't need to sweep frequency. Just call `device.enter_learning()` and `device.check_data()`.
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### Canceling learning
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You can exit the learning mode in the middle of the process by calling this method:
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```python3
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device.cancel_sweep_frequency()
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```
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### Sending IR/RF packets
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```python3
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device.send_data(packet)
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```
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### Fetching sensor data
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```python3
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data = device.check_sensors()
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```
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## Switches
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### Setting power state
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```python3
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device.set_power(True)
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device.set_power(False)
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```
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### Checking power state
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```python3
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state = device.check_power()
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```
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### Checking energy consumption
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```python3
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state = device.get_energy()
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```
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## Power strips
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### Setting power state
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```python3
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device.set_power(1, True) # Example socket. It could be 2 or 3.
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device.set_power(1, False)
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```
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### Checking power state
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```python3
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state = device.check_power()
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```
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## Light bulbs
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### Fetching data
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```python3
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state = device.get_state()
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```
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### Setting state attributes
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```python3
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devices[0].set_state(pwr=0)
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devices[0].set_state(pwr=1)
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devices[0].set_state(brightness=75)
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devices[0].set_state(bulb_colormode=0)
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devices[0].set_state(blue=255)
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devices[0].set_state(red=0)
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devices[0].set_state(green=128)
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devices[0].set_state(bulb_colormode=1)
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```
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## Environment sensors
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### Fetching sensor data
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```python3
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data = device.check_sensors()
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```
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## Hubs
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### Discovering subdevices
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```python3
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device.get_subdevices()
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```
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### Fetching data
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Use the DID obtained from get_subdevices() for the input parameter to query specific sub-device.
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```python3
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device.get_state(did="00000000000000000000a043b0d06963")
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```
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### Setting state attributes
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The parameters depend on the type of subdevice that is being controlled. In this example, we are controlling LC-1 switches:
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#### Turn on
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```python3
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device.set_state(did="00000000000000000000a043b0d0783a", pwr=1)
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device.set_state(did="00000000000000000000a043b0d0783a", pwr1=1)
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device.set_state(did="00000000000000000000a043b0d0783a", pwr2=1)
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```
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#### Turn off
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```python3
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device.set_state(did="00000000000000000000a043b0d0783a", pwr=0)
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device.set_state(did="00000000000000000000a043b0d0783a", pwr1=0)
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device.set_state(did="00000000000000000000a043b0d0783a", pwr2=0)
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```
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