Add ability to RF scan a specific frequency (#613)

* Add ability to RF scan a specific frequency This adds an optional parameter to find_rf_packet(), along with a corresponding --rflearn parameter (defaulting to 433.92) to broadlink_cli that specifies the frequency to tune to, rather than requiring the frequency be found via sweeping. This is almost mandatory for certain types of remotes that do not repeat their signals while the button is held, and saves significant time when the frequency is known in advance or when many buttons are to be captured in a row. Additionally: - A get_frequency() API is added to return the current frequency the device is tuned to. - A check_frequency_ex() API is added to perform functions of both check_frequency() and get_frequency() in a single call. - broadlink_cli --rfscanlearn will now report the current frequency at 1 second intervals during sweeping, and will report the frequency it finally locks on to. * Clean up remote.py * Clean up broadlink_cli * Update conditional * Fix message --------- Co-authored-by: Felipe Martins Diel <41558831+felipediel@users.noreply.github.com>
2024-11-21 22:51:41 +01:00 · 2024-04-10 04:40:00 +10:00 · 2024-04-10 04:40:00 +10:00 · 634370d878
commit 634370d878
parent abcc9aaeed
2 changed files with 36 additions and 24 deletions
--- a/broadlink/remote.py
+++ b/broadlink/remote.py
@ -1,5 +1,6 @@
 """Support for universal remotes."""
 import struct
+import typing as t

 from . import exceptions as e
 from .device import Device
@ -46,14 +47,19 @@ class rmpro(rmmini):
        """Sweep frequency."""
        self._send(0x19)

-    def check_frequency(self) -> bool:
+    def check_frequency(self) -> t.Tuple[bool, float]:
        """Return True if the frequency was identified successfully."""
        resp = self._send(0x1A)
-        return resp[0] == 1
+        is_found = bool(resp[0])
+        frequency = struct.unpack("<I", resp[1:5])[0] / 1000.0
+        return is_found, frequency

-    def find_rf_packet(self) -> None:
+    def find_rf_packet(self, frequency: float = None) -> None:
        """Enter radiofrequency learning mode."""
-        self._send(0x1B)
+        payload = bytearray()
+        if frequency:
+            payload += struct.pack("<I", int(frequency * 1000))
+        self._send(0x1B, payload)

    def cancel_sweep_frequency(self) -> None:
        """Cancel sweep frequency."""
--- a/cli/broadlink_cli
+++ b/cli/broadlink_cli
@ -83,7 +83,8 @@ parser.add_argument("--switch", action="store_true", help="switch state from on
 parser.add_argument("--send", action="store_true", help="send command")
 parser.add_argument("--sensors", action="store_true", help="check all sensors")
 parser.add_argument("--learn", action="store_true", help="learn command")
-parser.add_argument("--rfscanlearn", action="store_true", help="rf scan learning")
+parser.add_argument("--rflearn", action="store_true", help="rf scan learning")
+parser.add_argument("--frequency", type=float, help="specify radiofrequency for learning")
 parser.add_argument("--learnfile", help="save learned command to a specified file")
 parser.add_argument("--durations", action="store_true",
                    help="use durations in micro seconds instead of the Broadlink format")
@ -127,7 +128,7 @@ if args.send:
    data = durations_to_broadlink(parse_durations(' '.join(args.data))) \
        if args.durations else bytearray.fromhex(''.join(args.data))
    dev.send_data(data)
-if args.learn or (args.learnfile and not args.rfscanlearn):
+if args.learn or (args.learnfile and not args.rflearn):
    dev.enter_learning()
    print("Learning...")
    start = time.time()
@ -195,28 +196,33 @@ if args.switch:
    else:
        dev.set_power(True)
        print('* Switch to ON *')
-if args.rfscanlearn:
-    dev.sweep_frequency()
-    print("Learning RF Frequency, press and hold the button to learn...")
-
-    start = time.time()
-    while time.time() - start < TIMEOUT:
-        time.sleep(1)
-        if dev.check_frequency():
-            break
+if args.rflearn:
+    if args.frequency:
+        frequency = args.frequency
+        print("Press the button you want to learn, a short press...")
    else:
-        print("RF Frequency not found")
-        dev.cancel_sweep_frequency()
-        exit(1)
+        dev.sweep_frequency()
+        print("Detecting radiofrequency, press and hold the button to learn...")

-    print("Found RF Frequency - 1 of 2!")
-    print("You can now let go of the button")
+        start = time.time()
+        while time.time() - start < TIMEOUT:
+            time.sleep(1)
+            locked, frequency = dev.check_frequency()
+            if locked:
+                break
+        else:
+            print("Radiofrequency not found")
+            dev.cancel_sweep_frequency()
+            exit(1)

-    input("Press enter to continue...")
+        print("Radiofrequency detected: {}MHz".format(frequency))
+        print("You can now let go of the button")

-    print("To complete learning, single press the button you want to learn")
+        input("Press enter to continue...")

-    dev.find_rf_packet()
+        print("Press the button again, now a short press.")
+
+    dev.find_rf_packet(frequency)

    start = time.time()
    while time.time() - start < TIMEOUT:
@ -231,7 +237,7 @@ if args.rfscanlearn:
        print("No data received...")
        exit(1)

-    print("Found RF Frequency - 2 of 2!")
+    print("Packet found!")
    learned = format_durations(to_microseconds(bytearray(data))) \
        if args.durations \
        else ''.join(format(x, '02x') for x in bytearray(data))