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Before posting this I've tried looking for simple program to send any kind of data using BLE with rapsberry pi. But more I got in detail, I knew that there are some BLE library that supports programming using Python on RPi. I'm new to python networking programming and I'm looking for tutorial. Every single tutorial is about how to connect RPi and some kind of phone using BLE.They dont show how to make a py script to send some sensor data or somehting like that. Please guide.

  • Would a tutorial for C be okay? Or just looking for python? I wrote a detailed tutorial, on the Bluetooth Documentation here, it's just now approved yet, but I can post it here as an answer if you want. – Lasse Meyer Aug 2 '16 at 18:45
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    There is nothing special at all about the raspberry pi and BLE. Just look for Linux and BLE. The Bluetooth stack in linux is called Bluez. – Emil Aug 2 '16 at 19:38
  • Lasse : Yes that would help too i guess. – Joana Rigbi Aug 2 '16 at 19:56
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See the material below, copied from the SO Documentation entry I created on the subject.

At the end, you basically have a TCP-like socket, that you can send any data over. But I would advise you to use the ATT & GATT protocols (see Bluetooth specification). All BLE devices are supposed to use those protocols, but if both the sender and receiver are programmed by you, you can use your own, maybe simpler protocol.

This isn't RPi specific, no need for that, since pretty much every Linux distribution uses the same Bluetooth stack, called Bluez. You need the libbluetooth-dev package to develop your own applications with it.

For Python, you can use either of these libraries:

You can find an extensive tutorial for the second one here. It's made for a specific bluetooth hardware, but it should be more than enough to get you going with BLE.


Open L2CAP Socket for Low Energy Communication

In C, with Bluez

 int get_l2cap_connection () {

First off, all the variables we need, explanation for will follow at the appropriate spot.

    int ssock = 0;
    int csock = 0;
    int reuse_addr = 1;
    struct sockaddr_l2 src_addr;
    struct bt_security bt_sec;
    int result = 0;

First, we need to create a socket, that we can accept a connection from. The socket family is PF_BLUETOOTH, socket type is SOCK_SEQPACKET (we want to have a TCP-like socket, not raw), and the protocol is the Bluetooth protocol L2CAP (BTPROTO_L2CAP).

    ssock = socket(PF_BLUETOOTH, SOCK_SEQPACKET, BTPROTO_L2CAP);

We want to make sure the it was succesful:

    if (ssock < 0) {
        perror("Opening L2CAP socket failed");
        return -1;
    }

We now have to fill the source address structure with a wildcard address, so any Bluetooth device with any address can connect to us. The wildcard address is defined as BDADDR_ANY in bluetooth.h. To copy it into the address structure, we can use the bacpy function. We also have to set the address family, address type and channel ID.

    memset(&src_addr, 0, sizeof(src_addr));
    bacpy(&src_addr.l2_bdaddr, BDADDR_ANY);
    src_addr.l2_family = AF_BLUETOOTH;
    src_addr.l2_bdaddr_type = BDADDR_LE_PUBLIC;
    src_addr.l2_cid = htobs(CID_ATT);

Setting the SO_REUSEADDR option will allow us to quickly call bind again if necessary (this can be left out):

    setsockopt(ssock, SOL_SOCKET, SO_REUSEADDR, &reuse_addr, sizeof(reuse_addr));

Next we have to bind the socket with the source address structure we just defined. Again, we check the return value to make sure it worked.

    result = bind(ssock, (struct sockaddr*) &src_addr, sizeof(src_addr));
    if (result < 0) {
        perror("Binding L2CAP socket failed");
        return -1;
    }

Next up is setting the security level. Note that this step is optional, but setting the security level to MEDIUM will allow automatic pairing with the device (the kernel handles the actual pairing).

    memset(&bt_sec, 0, sizeof(bt_sec));
    bt_sec.level = BT_SECURITY_MEDIUM;
    result = setsockopt(ssock, SOL_BLUETOOTH, BT_SECURITY, &bt_sec, sizeof(bt_sec));
    if (result != 0) {
        perrorno("Setting L2CAP security level failed");
        return -1;
    }

Now we can tell the kernel that our ssock is a passive socket, that will accept a connection. The second parameter is the backlog. If you want to know more, the manpage of listen contains all the information you need.

    result = listen(ssock, 10);
    if (result < 0) {
        perror("Listening on L2CAP socket failed");
        return -1;
    }

Now we can wait for an incoming connection. The peer_addr structure will contain the address of the connected device, once accept returns. csock will be the file descriptor of the socket we can read from/write to, to communicate with the connected device.

    memset(peer_addr, 0, sizeof(*peer_addr));
    socklen_t addrlen = sizeof(*peer_addr);
    csock = accept(ssock, (struct sockaddr*)peer_addr, &addrlen);
    if (csock < 0) {
        perror("Accepting connection on L2CAP socket failed");
        return -1;
    }

We can print the address of the connected device (optional, of course). We can use the batostr function to convert the Bluetooth address to a string.

    printf("Accepted connection from %s", batostr(&peer_addr->l2_bdaddr));

If we don't want any other devices to connect, we should close the server socket. Do the same thing with csock, after your communication with the device is finished.

    close(ssock);
    return csock;
}
  • Thanks a lot. I really wanted to know that if its RPi specific or more like linux BLE stuff. "Yesterday I found few socket programming tutorial for python for BLE. I'll study them and then modify it as per my need. One more thing, if i read the sensor data that would be in some text file (as everything in linux is file). So i should send that text file over the BLE . right? and the phone app would read the text file and do some stuff with it. Thanks again for guiding me .. – Joana Rigbi Aug 3 '16 at 12:19

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