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A Python 2.7 script for the Sanitas SBF70 / Silvercrest SBF75 / Beurer BF700 / BF710 / BF800 / Runtastic Libra diagnostic scales.

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BT-Scale

A Python 2.7 script for the Sanitas SBF70 / Silvercrest SBF75 / Beurer BF700 / BF710 / BF800 / Runtastic Libra diagnostic scales.

scale.py

# very safe and informative defaults
DO_CHECK_UNKNOWN = True
DO_SAVE_UNKNOWN = True
DO_DELETE_UNKNOWN = False
DO_DELETE_MEASUREMENTS = False

VERBOSE      = False # way too verbose
VERBOSE_COMM = True
LOG_PEXPECT  = False # may be helpful with debugging

The script scale.py can be executed directly via python scale.py. Before you do this, you need to adjust the default Bluetooth LE address of the scale in the file users.py. You can find this mac address with the bundled executable bt-scale or any smartphone ble-scanner like https://play.google.com/store/apps/details?id=com.macdom.ble.blescanner. Scroll way down for info on bt-scale.

A successful readout would result in the following information:

{
  "timestamp": 1556305150, 
  "scale": {
    "battery": 37.6
  }, 
  "users": [
    {
      "uid": "0000000000001234", 
      "name": "XY", 
      "birthday": "1999-01-23", 
      "height": 123, 
      "gender": "male", 
      "activity": 3
    }
  ], 
  "measurements": [
    {
      "timestamp": 1556305134, 
      "time": "2019-04-26T20:58:54", 
      "weight": 12.34, 
      "impedance": 123, 
      "fat": 12.3, 
      "water": 12.3, 
      "muscle": 12.3, 
      "bone": 12.3, 
      "bmr": 1234, 
      "amr": 1234, 
      "bmi": 12.3, 
      "uid": "0000000000001234"
    }
  ]
}

If it were a live measurement (as compared to a simple readout of the scale), then measurement-weight with the stable weight and measurement-weights with an array of all the weights leading to the stable weight would also be found in this JSON object, as well as a measurement object containing the data of the live measurement.

All the time fields contain the localized ISO format (the default locale of the machine that runs the script). This is primarily meant for debugging, to see the time at a glance without needing to consider TZOs. The timestamp is the UTC Unix timestamp.

Live measurements

You should generally avoid using live measurement, because it is far more efficient to just stand on the scale and let the scale store the measurement in its internal storage, and the next time the script runs (possibly through a cronjob) it will download all the measurements. The scale needs to be manually woken up so that the script can connect to it, I think that this is a problem with gatttool, which this script makes use of. If you step on the scale and do a measurement, without this script, then the scale stays awake for about 15 seconds, which is a good time to start this script. The helper executable bt-scale is also capable of waking up the scale.

Live measurements do no harm, but can be problematic. If you want to perform a live measurement, then you need to define the alias on which this measurement will be made. This alias then must be in the users.py file in the USER_MAPPING and the corresponding uid in the USERS list. There are safeguards built into the script if an alias cannot be resolved to a USERS list entry. It then simply does not start a live measurement, but only behave as if it were None

The main problem with live measurements is that you need to know when to stand on the scale. If you stand on the scale while any other commands are being executed (like get the scale status, download stored measurements), then the scale aborts those commands and starts issuing weight measuring notifications. In that case, the command would need to get replayed, but this script doesn't handle this. So you either need to keep an eye on the script, which tells you when you can step on the scale, or watch the bottom left corner of the scale for your (up-to-)three-letter user name to appear on the scale. It's hard to read that on the unlit scale. So it's best to leave live measurements deactivated and trigger the script right after the bubbles on the scale display have moved to the right, just when the summary shows up (or with a cronjob at night). During this entire time, while the summary shows, the script can connect without problems to the scale and download the fresh measurement.

Note: You may not be able to avoid live measurements if the scale has problems in discerning automatically between users because they have similar weight and body fat characteristics. There are ways to tweak the weight and body fat sensitivity on the scale, but this script has no commands for it.

Deletion of measurements

The script needs to explicitly tell the scale to delete the measurements that are stored on the scale. By default the script won't do this, all new measurements are added to the scale's internal storage. If you want the script to delete any downloaded measurements, just set DO_DELETE_MEASUREMENTS to True. You may not want to do this if you want to use this script in parallel with an app. In that case first let this script download the data, and later connect with the app and have it download and delete the data from the scale.

Unknown measurements

The scale may have measurements stored on it where it does not know to which user they belong, probably because the weight- and fat-threshold in the scale couldn't find a corresponding match. These are stored on the scale as unknown measurements. If such measurements are found on the scale, they will be downloaded and stored into a JSON file, each time they are encountered. If you set DO_DELETE_UNKNOWN to True, then these unknown entries will be deleted from the scale after they have been saved into a file. These unknown measurements have limited information stored in them, namely the timestamp, the weight and the impedance. If you would use a smartphone app to assign these unknown measurements to a given user on the scale, these would probably get computed on the scale to form true measurements, with all the complete information a normal measurement contains. This script does not handle these assignments.

If you don't want to get bugged by these newly created files of unknown measurements, set DO_SAVE_UNKNOWN to False or set DO_CHECK_UNKNOWN to False to disable all unknown-measurements related stuff until you have decided what to do. Setting DO_CHECK_UNKNOWN to False speeds up the script, if you intend to ignore the unknown measurements. Currently this data is just dumped into the JSON file, it does not add this information to the response object.

These files would look like this unknown-measurements-2019-04-26T11;24;55.json file:

[
  {
    "timestamp": 1556099468, 
    "time": "2019-04-24T11:51:08", 
    "weight": 12.3,
    "impedance": 123
  }, 
  {
    "timestamp": 1556267316, 
    "time": "2019-04-26T10:28:36", 
    "weight": 12.3,
    "impedance": 0
  }
]

You could calculate all the other parameters with this information, if you know the user's age, height, gender and activity properties; you'd have to guess to which user these measurements belong to.

users.py

This file could well be named config.py.

SCALE = 'XX:XX:XX:XX:XX:XX' # mac address of the scale

#ALIAS = "somebody" # by default, request a live measurement for "somebody"
ALIAS = None # by default, do not request a live measurement

USER_MAPPING = {
  #"somebody": "0000000000001234",
}

USERS = [ # this data is also stored on the scale
  #{
  #  "name": "XY",             # 1 to 3 UPPERCASE LETTERS!
  #  "birthday": "1999-01-23",
  #  "height": 123,            # cm or foot, depending on scale setting
  #  "gender": "male",         # or "female", depending on the body
  #  "activity": 3,            # see list in scale.py
  #  "uid": "0000000000001234" # MUST BE 16 hexadecimal characters!
  #},
]

Initially it is highly recommended to leave ALIAS set to None. This means that the script will not start a live measurement, but only fetch data from the scale, or adjust user properties.

User Management

  1. The uid of the user is what defines the user. Any other parameter that gets changed in the file will get uploaded to the scale. If you change the name or the birthday, you may run into problems when you're using a smartphone app in parallel, some of them rely on this information to define a user. This means that you can change the height or activity even after the user has been added to the scale, in that case the data on the scale will get updated. Are more/less active? Change the activity value in the file. You have grown? Change the height value in the file. You will always get prompted before any change is made to the scale. You can then either ctrl-c out of the script, or just type enter to abort the script, or type and submit YES to upload the changes to the scale. Afterwards the script will exit and will have to be re-run for any other action.

  2. If the scale has a user with an uid which is not in the users.py file, the script will offer you to delete the user from the scale. Only if you then type and submit YES, the user will be deleted from the scale and the script exits. For any other entry (enter or anything else) the script will display the information of the unknown user, so that you can copy and paste it into the users.py file as a new user. Then the script will exit.

  3. If the script has a user with an uid which is not in the scale, then the user will get uploaded to the scale and the script will exit, no questions asked (remember that it's no problem to delete an accidentally added user).

If there are multiple user-actions to be made, the script will have to be run multiple times. For example if the USERS variable is empty and the scale has two users stored on it, you will have to run the script two times to add the information to the file. This may be a bit tedious, but adding the logic to avoid this not worth the time.

storage.py

This file is self-explanatory. It is an example of how to store relevant data into a file and/or into a database.

By default, any measurement will be stored (appended) into a JSON-like file, for example measurements-0000000000001234.json. It's not real JSON, because there is no indication that there is an array, it's lines of JSON documents, with a comma appended at each line:

{"amr": 1234, "battery": 37.6, "bmi": 12.3, "bmr": 12345, "bone": 12.34, "fat": 12.3, "impedance": 123, "muscle": 12.3, "time": "2019-04-26T17:33:11", "timestamp": 1556292791, "uid": "0000000000001234", "water": 12.3, "weight": 12.34},
{"amr": 1234, "battery": 37.6, "bmi": 12.3, "bmr": 12345, "bone": 12.34, "fat": 12.3, "impedance": 123, "muscle": 12.3, "time": "2019-04-26T17:48:55", "timestamp": 1556293735, "uid": "0000000000001234", "water": 12.3, "weight": 12.34},

This can be easily assembled into a proper JSON format.


Note: The following is intended to enable scripted automation after everything has been set up correctly, when the system is understood and no further user interaction is necessary. Their usage should be halted any time changes need to be made to the users until it is clear that everything can run automatically again.

server.py and server_handler.py

This is an optional HTTP server which at the moment only triggers the script. In my case it is used so that another server can issue a /trigger via curl or the requests module when an Amazon Dash button has been pressed. You could also use /fetch on a smartphone browser and wait a little, this would then display the result as plain-text JSON. /trigger?alias=somebody and /fetch?alias=somebody is also supported.

It can also serve as a basis for creating a UI for displaying the measurements (TODO).

You may want to run the server in a GNU screen session:

screen -AmdS scale python ~/bt-scale/server.py

bt-scale.go and its precompiled (for the Raspberry Pi) executable bt-scale

This helper executable has two purposes: 1) to help you find the mac address of the scale and 2) to instruct the scale to take a measurement for a specific uid. Instructing it to take a measurement turns on the scale for the user and then exits immediately. The measurement could then be downloaded with scale.py.

  1. sudo ./bt-scale will start to print the mac addresses of all the Bluetooth LE devices which are nearby, with their respective name, if it is available.

    The Silvercrest SBF75 shows up as found XX:XX:XX:XX:XX:X | SBF75.

    scanning...
    found AA:AA:AA:AA:AA:AA | CC-RT-BLE
    found AA:AA:AA:AA:AA:AA | 
    found AA:AA:AA:AA:AA:AA | 
    found AA:AA:AA:AA:AA:AA | CC-RT-BLE
    found XX:XX:XX:XX:XX:XX | SBF75   
    found AA:AA:AA:AA:AA:AA | CC-RT-BLE
    ...
    
  2. sudo ./bt-scale -mac=XX:XX:XX:XX:XX:XX -uid=0000000000001234 will instruct the scale to take a measurement for the user 0000000000001234. In this mode there are four possible results:

    • disconnected, measurement trigger succeeded,
    • disconnected, measurement trigger failed, unknown user id,
    • disconnected, measurement trigger failed, unknown reason and
    • disconnected, program execution timeout (probably was never connected to begin with)

With the optional flag -stderr=true everything but the result will be written to stderr instead of to stdout, which can be useful for Unix pipes. See how cronjob.py makes use of it.

The optional flag -timeout specifies the timeout in seconds for this program to run, this defaults to 30 seconds. The program can run a little bit longer if it got fully connected to the scale after 29 seconds or so. Then it will continue to trigger the measurement, which is a matter of very few seconds or milliseconds to execute.

The real reason for bundling this executable is to add the ability to wake up the scale once a night with a cronjob, and as soon as disconnected, measurement trigger succeeded is returned, scale.py can connect to download the measurements. gatttool, which scale.py relies on, does not have the ability to wake up the scale; I don't know why; it probably times out too fast.

cronjob.py

This script can either be triggered by a cronjob or by fetching /download on the optional HTTP server.

0 3 * * * python ~/bt-scale/cronjob.py > ~/.scale-cronjob.log 2>&1 would download the new measurements from the scale every night at 3 am and insert them into the database and/or JSON file.

The generated log file .scale-cronjob.log would then contain the following helpful data in case you need to debug something:


----------------------------------------------
cronjob.py started running at 2019-04-28T03:00:01.626285
----------------------------------------------

scanning...
found AA:AA:AA:AA:AA:AA | CC-RT-BLE
found AA:AA:AA:AA:AA:AA | 
found AA:AA:AA:AA:AA:AA | CC-RT-BLE
found AA:AA:AA:AA:AA:AA | 
found AA:AA:AA:AA:AA:AA | 
found AA:AA:AA:AA:AA:AA | CC-RT-BLE
found AA:AA:AA:AA:AA:AA | CC-RT-BLE
found XX:XX:XX:XX:XX:XX | SBF75
connecting...
connected
sending init request E601
ack init request | E6 00 20
sending measurement request E7400000000000001234
ack measurement request | E7 F0 40 00
done, disconnecting...
disconnected, measurement trigger succeeded

----------------------------------------------
will start running scale.py in 5 seconds
connecting...
connection_status -> successful

---------------------------------------------
init?
char-write-req 0x002e E601
init.

---------------------------------------------
set scale time
char-write-req 0x002e E95CC4B06C

---------------------------------------------
get scale status
char-write-req 0x002e E74F0000000000000000
scale status -> e7 f0 4f 01 5e 14 dc 01 01 01 01 05
{
  "battery": 36.9
}

---------------------------------------------
get user list
char-write-req 0x002e E733
userlist status -> e7 f0 33 00 01 08
{
  "max": 8, 
  "count": 1
}
-------
user status -> e7 34 01 01 00 00 00 00 00 00 12 34 ~~ ~~ ~~ ~~
{
  "uid": "0000000000001234", 
  "name": "XY", 
  "year": 1999
}
user ack data
char-write-req 0x002e E7F1340101

---------------------------------------------
get user details for XY
char-write-req 0x002e E7360000000000001234
user detail status -> e7 f0 36 00 ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~
{
  "name": "XY", 
  "birthday": "1999-01-23", 
  "height": 123, 
  "gender": "male", 
  "activity": 3, 
  "uid": "0000000000001234"
}

---------------------------------------------
users in file and in scale
-----
user details in file match those in the scale for uid 0000000000001234

---------------------------------------------
request unknown measurements
char-write-req 0x002e E746
measurements_status e7 f0 46 01

---------------------------------------------
request saved measurements for XY
char-write-req 0x002e E7410000000000001234
measurements status -> e7 f0 41 00 00 -> 0 stored measurements

---------------------------------------------
disconnected

---------------------------------------------

{
  "timestamp": 1556394092, 
  "scale": {
    "battery": 36.9
  }, 
  "users": [
    {
      "uid": "0000000000001234", 
      "name": "XY", 
      "birthday": "1999-01-23", 
      "height": 123, 
      "gender": "male", 
      "activity": 3
    }
  ]
}

---------------------------------------------

storing measurements...
connecting to database...
storing / updating users...
storing / updating measurements...
done.

all done in 4.702 seconds

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A Python 2.7 script for the Sanitas SBF70 / Silvercrest SBF75 / Beurer BF700 / BF710 / BF800 / Runtastic Libra diagnostic scales.

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