Moved bytepatterns into constants.py, tweaked random vibration intensity

bytepatterns.py

@@ -1,50 +0,0 @@
-
-class miband4():
-
-        class bytepatterns():
-            vibration = 'ff{:02x}00000001'
-            vibration_stop = 'ff0000000000'
-
-            gyro_start = '01{:02x}19'
-            start = '0100'
-            stop = '0000'
-            heart_measure_keepalive = '16'
-            stop_heart_measure_continues = '150100'
-            start_heart_measure_continues = '150101'
-            stop_heart_measure_manual = '150200'
-            fetch_begin = '100101'
-            fetch_error = '100104'
-            fetch_continue = '100201'
-            fetch_complete = '100204'
-            auth_ok = '100301'
-            request_random_number = '0200'
-            auth_key_prefix = '0300'
-
-        def vibration(duration):
-            if duration == 0:
-                byte_pattern = miband4.bytepatterns.vibration_stop
-            else:
-                byte_pattern = miband4.bytepatterns.vibration
-            return bytes.fromhex(byte_pattern.format(duration))
-
-        def gyro_start(sensitivity):
-            byte_pattern = miband4.bytepatterns.gyro_start
-            return bytes.fromhex(byte_pattern.format(sensitivity))
-
-        start = bytes.fromhex(bytepatterns.start)
-        stop = bytes.fromhex(bytepatterns.stop)
-
-        heart_measure_keepalive = bytes.fromhex(bytepatterns.heart_measure_keepalive)
-        stop_heart_measure_continues = bytes.fromhex(bytepatterns.stop_heart_measure_continues)
-        start_heart_measure_continues = bytes.fromhex(bytepatterns.start_heart_measure_continues)
-        stop_heart_measure_manual = bytes.fromhex(bytepatterns.stop_heart_measure_manual)
-
-        fetch_begin = bytes.fromhex(bytepatterns.fetch_begin)
-        fetch_error = bytes.fromhex(bytepatterns.fetch_error)
-        fetch_continue = bytes.fromhex(bytepatterns.fetch_continue)
-        fetch_complete = bytes.fromhex(bytepatterns.fetch_complete)
-
-        auth_ok = bytes.fromhex(bytepatterns.auth_ok)
-        request_random_number = bytes.fromhex(bytepatterns.request_random_number)
-        auth_key_prefix = bytes.fromhex(bytepatterns.auth_key_prefix)
-        

constants.py

@@ -89,4 +89,59 @@ class QUEUE_TYPES(object):
     RAW_ACCEL = 'raw_accel'
     RAW_HEART = 'raw_heart'
     RAW_GYRO = 'raw_gyro'
-    AVG_GYRO = 'avg_gyro'
+    AVG_GYRO = 'avg_gyro'
+
+
+class BYTEPATTERNS():
+
+    __metaclass__ = Immutable
+
+    vibration_hex = 'ff{:02x}00000001'
+    vibration_stop_hex = 'ff0000000000'
+
+    gyro_start_hex = '01{:02x}19'
+    start_hex = '0100'
+    stop_hex = '0000'
+
+    heart_measure_keepalive_hex = '16'
+    stop_heart_measure_continues_hex = '150100'
+    start_heart_measure_continues_hex = '150101'
+    stop_heart_measure_manual_hex = '150200'
+
+    fetch_begin_hex = '100101'
+    fetch_error_hex = '100104'
+    fetch_continue_hex = '100201'
+    fetch_complete_hex = '100204'
+
+    auth_ok_hex = '100301'
+    request_random_number_hex = '0200'
+    auth_key_prefix_hex = '0300'
+
+    def vibration(duration):
+        if duration == 0:
+            byte_pattern = BYTEPATTERNS.vibration_stop_hex
+        else:
+            byte_pattern = BYTEPATTERNS.vibration_hex
+        return bytes.fromhex(byte_pattern.format(duration))
+
+    def gyro_start(sensitivity):
+        #sensitivity should be from 1 to 3
+        byte_pattern = BYTEPATTERNS.gyro_start_hex
+        return bytes.fromhex(byte_pattern.format(sensitivity))
+
+    start = bytes.fromhex(start_hex)
+    stop = bytes.fromhex(stop_hex)
+
+    heart_measure_keepalive = bytes.fromhex(heart_measure_keepalive_hex)
+    stop_heart_measure_continues = bytes.fromhex(stop_heart_measure_continues_hex)
+    start_heart_measure_continues = bytes.fromhex(start_heart_measure_continues_hex)
+    stop_heart_measure_manual = bytes.fromhex(stop_heart_measure_manual_hex)
+
+    fetch_begin = bytes.fromhex(fetch_begin_hex)
+    fetch_error = bytes.fromhex(fetch_error_hex)
+    fetch_continue = bytes.fromhex(fetch_continue_hex)
+    fetch_complete = bytes.fromhex(fetch_complete_hex)
+
+    auth_ok = bytes.fromhex(auth_ok_hex)
+    request_random_number = bytes.fromhex(request_random_number_hex)
+    auth_key_prefix = bytes.fromhex(auth_key_prefix_hex)

miband.py

@@ -2,8 +2,6 @@ import sys, os, time
 import logging
 import struct
 
-from bytepatterns import miband4 as bytepattern
-
 from bluepy.btle import (
     Peripheral, DefaultDelegate, 
     ADDR_TYPE_RANDOM, ADDR_TYPE_PUBLIC,
@@ -14,7 +12,7 @@ from Crypto.Cipher import AES
 from datetime import datetime
 
 from constants import (
-    UUIDS, AUTH_STATES, ALERT_TYPES, QUEUE_TYPES, MUSICSTATE
+    UUIDS, AUTH_STATES, QUEUE_TYPES, BYTEPATTERNS
 )
 
 from queue import Queue, Empty
@@ -29,16 +27,16 @@ class Delegate(DefaultDelegate):
 
     def handleNotification(self, hnd, data):
         if hnd == self.device._char_auth.getHandle():
-            if data[:3] == bytepattern.fetch_begin:
+            if data[:3] == BYTEPATTERNS.fetch_begin:
                 self.device._req_rdn()
-            elif data[:3] == bytepattern.fetch_error:
+            elif data[:3] == BYTEPATTERNS.fetch_error:
                 self.device.state = AUTH_STATES.KEY_SENDING_FAILED
-            elif data[:3] == bytepattern.fetch_continue:
+            elif data[:3] == BYTEPATTERNS.fetch_continue:
                 random_nr = data[3:]
                 self.device._send_enc_rdn(random_nr)
-            elif data[:3] == bytepattern.fetch_complete:
+            elif data[:3] == BYTEPATTERNS.fetch_complete:
                 self.device.state = AUTH_STATES.REQUEST_RN_ERROR
-            elif data[:3] == bytepattern.auth_ok:
+            elif data[:3] == BYTEPATTERNS.auth_ok:
                 self.device.state = AUTH_STATES.AUTH_OK
             else:
                 self.device.state = AUTH_STATES.AUTH_FAILED
@@ -53,7 +51,7 @@ class Delegate(DefaultDelegate):
                 print("Unhandled data on handle 0x38: {}".format(data))
         elif hnd == self.device._char_hz.getHandle():
             if len(data) == 20 and struct.unpack('b', data[0:1])[0] == 1:
-                self.device.queue.put((QUEUE_TYPES.RAW_ACCEL, data))
+                self.device.queue.put((QUEUE_TYPES.RAW_GYRO, data))
             elif len(data) == 11:
                 #print("Unknown data: {}".format(bytes.hex(data, " ")))
                 #print(struct.unpack('BBBBBBBBBB', data[1:]))
@@ -136,10 +134,10 @@ class miband(Peripheral):
     def _auth_notif(self, enabled):
         if enabled:
             self._log.info("Enabling Auth Service notifications status...")
-            self._desc_auth.write(bytepattern.start, True)
+            self._desc_auth.write(BYTEPATTERNS.start, True)
         elif not enabled:
             self._log.info("Disabling Auth Service notifications status...")
-            self._desc_auth.write(bytepattern.stop, True)
+            self._desc_auth.write(BYTEPATTERNS.stop, True)
         else:
             self._log.error("Something went wrong while changing the Auth Service notifications status...")
 
@@ -147,15 +145,15 @@ class miband(Peripheral):
     def _auth_previews_data_notif(self, enabled):
         if enabled:
             self._log.info("Enabling Fetch Char notifications status...")
-            self._desc_fetch.write(bytepattern.start, True)
+            self._desc_fetch.write(BYTEPATTERNS.start, True)
             self._log.info("Enabling Activity Char notifications status...")
-            self._desc_activity.write(bytepattern.start, True)
+            self._desc_activity.write(BYTEPATTERNS.start, True)
             self.activity_notif_enabled = True
         else:
             self._log.info("Disabling Fetch Char notifications status...")
-            self._desc_fetch.write(bytepattern.stop, True)
+            self._desc_fetch.write(BYTEPATTERNS.stop, True)
             self._log.info("Disabling Activity Char notifications status...")
-            self._desc_activity.write(bytepattern.stop, True)
+            self._desc_activity.write(BYTEPATTERNS.stop, True)
             self.activity_notif_enabled = False
 
 
@@ -176,13 +174,13 @@ class miband(Peripheral):
 
     def _req_rdn(self):
         self._log.info("Requesting random number...")
-        self._char_auth.write(bytepattern.request_random_number)
+        self._char_auth.write(BYTEPATTERNS.request_random_number)
         self.waitForNotifications(self.timeout)
 
 
     def _send_enc_rdn(self, data):
         self._log.info("Sending encrypted random number")
-        cmd = bytepattern.auth_key_prefix + self._encrypt(data)
+        cmd = BYTEPATTERNS.auth_key_prefix + self._encrypt(data)
         send_cmd = struct.pack('<18s', cmd)
         self._char_auth.write(send_cmd)
         self.waitForNotifications(self.timeout)
@@ -211,7 +209,7 @@ class miband(Peripheral):
                 _type = queue_data[0]
                 if self.heart_measure_callback and _type == QUEUE_TYPES.HEART:
                     self.heart_measure_callback(self._parse_heart_measure(queue_data[1]))
-                elif self.gyro_raw_callback and _type == QUEUE_TYPES.RAW_ACCEL:
+                elif self.gyro_raw_callback and _type == QUEUE_TYPES.RAW_GYRO:
                     self.gyro_raw_callback(self._parse_raw_gyro(queue_data[1]))
                 elif self.gyro_avg_callback and _type == QUEUE_TYPES.AVG_GYRO:
                     self.gyro_avg_callback(self._parse_avg_gyro(queue_data[1]))
@@ -270,7 +268,7 @@ class miband(Peripheral):
             # '255' means 'continuous vibration' 
             #   I've arbitrarily assigned the otherwise pointless value of '0' to indicate 'stop_vibration'
             #   These modes do not require pulse timing to avoid strange behavior.
-            self.write_cmd(self._char_alert, bytepattern.vibration(value), queued=True)
+            self.write_cmd(self._char_alert, BYTEPATTERNS.vibration(value), queued=True)
         else:
             # A value of '150' will vibrate for ~200ms, hence vibration_scaler.
             #   This isn't exact however, but does leave a ~5ms gap between pulses.
@@ -280,7 +278,7 @@ class miband(Peripheral):
             vibration_scaler = 0.75  
             ms = round(value / vibration_scaler)
             vibration_duration = ms / 1000
-            self.write_cmd(self._char_alert, bytepattern.vibration(value), queued=True)
+            self.write_cmd(self._char_alert, BYTEPATTERNS.vibration(value), queued=True)
             time.sleep(vibration_duration)
 
 
@@ -306,26 +304,25 @@ class miband(Peripheral):
     def send_gyro_start(self, sensitivity):
         if not self.gyro_started_flag:
             self._log.info("Starting gyro...")
-            self.write_req(self._sensor_handle, bytepattern.start)
-            self.write_req(self._steps_handle, bytepattern.start)
-            self.write_req(self._hz_handle, bytepattern.start)
+            self.write_req(self._sensor_handle, BYTEPATTERNS.start)
+            self.write_req(self._steps_handle, BYTEPATTERNS.start)
+            self.write_req(self._hz_handle, BYTEPATTERNS.start)
             self.gyro_started_flag = True
-        #self.write_cmd(self._char_sensor, bytepattern.gyro_start(sensitivity))
-        self.write_cmd(self._char_sensor, bytes.fromhex('010119'))
-        self.write_req(self._sensor_handle, bytepattern.stop)
+        self.write_cmd(self._char_sensor, BYTEPATTERNS.gyro_start(sensitivity))
+        self.write_req(self._sensor_handle, BYTEPATTERNS.stop)
         self.write_cmd(self._char_sensor, b'\x02')
 
 
     def send_heart_measure_start(self):
         self._log.info("Starting heart measure...")
-        self.write_cmd(self._char_heart_ctrl, bytepattern.stop_heart_measure_manual, response=True)
-        self.write_cmd(self._char_heart_ctrl, bytepattern.stop_heart_measure_continues, response=True)
-        self.write_req(self._heart_measure_handle, bytepattern.start)
-        self.write_cmd(self._char_heart_ctrl, bytepattern.start_heart_measure_continues, response=True)
+        self.write_cmd(self._char_heart_ctrl, BYTEPATTERNS.stop_heart_measure_manual, response=True)
+        self.write_cmd(self._char_heart_ctrl, BYTEPATTERNS.stop_heart_measure_continues, response=True)
+        self.write_req(self._heart_measure_handle, BYTEPATTERNS.start)
+        self.write_cmd(self._char_heart_ctrl, BYTEPATTERNS.start_heart_measure_continues, response=True)
 
 
     def send_heart_measure_keepalive(self):
-        self.write_cmd(self._char_heart_ctrl, bytepattern.heart_measure_keepalive, response=True)
+        self.write_cmd(self._char_heart_ctrl, BYTEPATTERNS.heart_measure_keepalive, response=True)
 
 
     def start_heart_and_gyro(self, sensitivity, callback):
@@ -333,7 +330,7 @@ class miband(Peripheral):
         self.gyro_raw_callback = callback
 
         self.send_gyro_start(sensitivity)
-        #self.send_heart_measure_start()
+        self.send_heart_measure_start()
 
         heartbeat_time = time.time()
         while True:

vibrate.py

@@ -7,7 +7,7 @@ band = None
 # Notes:
 # The miband4 does not (seem to) support different vibration intensities, rather the values sent (2-255)
 # represent how long the vibration motor runs.  A value of 30 roughly corresponds to 60ms of motor run time.
-# Sending a value of 255 triggers continuous vibration.
+# Sending a value of 255 triggecd rs continuous vibration.
 # Currently "continuous" mode doesn't work, as it doesn't turn off.
 # This will be fixed shortly.
 
@@ -59,8 +59,8 @@ def timed_vibration(settings):
 def generate_random_vibration_pattern(pulse_count):
     #pulse_duration_range and pulse_interval_range_ms are arbitrary
     pulse_duration_range = {
-                                'low': 60, 
-                                'high': 100
+                                'low': 80, 
+                                'high': 120
                             }  
     pulse_interval_range_ms = {
                                 'low': 100,