fix typo after refactor

Support address resolution offload

.github/workflows/python-build-test.yml

@@ -16,7 +16,7 @@ jobs:
     runs-on: ubuntu-latest
     strategy:
       matrix:
-        python-version: ["3.8", "3.9", "3.10"]
+        python-version: ["3.8", "3.9", "3.10", "3.11"]
       fail-fast: false
 
     steps:
@@ -41,3 +41,30 @@ jobs:
       run: |
         inv build
         inv build.mkdocs
+  build-rust:
+    runs-on: ubuntu-latest
+    strategy:
+      matrix:
+        python-version: [ "3.8", "3.9", "3.10" ]
+      fail-fast: false
+    steps:
+      - name: Check out from Git
+        uses: actions/checkout@v3
+      - name: Set up Python ${{ matrix.python-version }}
+        uses: actions/setup-python@v4
+        with:
+          python-version: ${{ matrix.python-version }}
+      - name: Install dependencies
+        run: |
+          python -m pip install --upgrade pip
+          python -m pip install ".[build,test,development,documentation]"
+      - name: Install Rust toolchain
+        uses: actions-rust-lang/setup-rust-toolchain@v1
+        with:
+          components: clippy,rustfmt
+      - name: Rust Lints
+        run: cd rust && cargo fmt --check && cargo clippy --all-targets -- --deny warnings
+      - name: Rust Build
+        run: cd rust && cargo build --all-targets
+      - name: Rust Tests
+        run: cd rust && cargo test

.gitignore

@@ -9,3 +9,4 @@ __pycache__
 # generated by setuptools_scm
 bumble/_version.py
 .vscode/launch.json
+/.idea

apps/pair.py

@@ -24,7 +24,7 @@ from prompt_toolkit.shortcuts import PromptSession
 from bumble.colors import color
 from bumble.device import Device, Peer
 from bumble.transport import open_transport_or_link
-from bumble.smp import PairingDelegate, PairingConfig
+from bumble.pairing import PairingDelegate, PairingConfig
 from bumble.smp import error_name as smp_error_name
 from bumble.keys import JsonKeyStore
 from bumble.core import ProtocolError
@@ -157,6 +157,26 @@ class Delegate(PairingDelegate):
         self.print(f'### PIN: {number:0{digits}}')
         self.print('###-----------------------------------')
 
+    async def get_string(self, max_length: int):
+        await self.update_peer_name()
+
+        # Prompt a PIN (for legacy pairing in classic)
+        self.print('###-----------------------------------')
+        self.print(f'### Pairing with {self.peer_name}')
+        self.print('###-----------------------------------')
+        count = 0
+        while True:
+            response = await self.prompt('>>> Enter PIN (1-6 chars):')
+            if len(response) == 0:
+                count += 1
+                if count > 3:
+                    self.print('too many tries, stopping the pairing')
+                    return None
+
+                self.print('no PIN was entered, try again')
+                continue
+            return response
+
 
 # -----------------------------------------------------------------------------
 async def get_peer_name(peer, mode):
@@ -207,7 +227,7 @@ def on_connection(connection, request):
 
     # Listen for pairing events
     connection.on('pairing_start', on_pairing_start)
-    connection.on('pairing', on_pairing)
+    connection.on('pairing', lambda keys: on_pairing(connection.peer_address, keys))
     connection.on('pairing_failure', on_pairing_failure)
 
     # Listen for encryption changes
@@ -242,9 +262,9 @@ def on_pairing_start():
 
 
 # -----------------------------------------------------------------------------
-def on_pairing(keys):
+def on_pairing(address, keys):
     print(color('***-----------------------------------', 'cyan'))
-    print(color('*** Paired!', 'cyan'))
+    print(color(f'*** Paired! (peer identity={address})', 'cyan'))
     keys.print(prefix=color('*** ', 'cyan'))
     print(color('***-----------------------------------', 'cyan'))
     Waiter.instance.terminate()
@@ -264,6 +284,7 @@ async def pair(
     sc,
     mitm,
     bond,
+    ctkd,
     io,
     prompt,
     request,
@@ -282,17 +303,6 @@ async def pair(
         # Create a device to manage the host
         device = Device.from_config_file_with_hci(device_config, hci_source, hci_sink)
 
-        # Set a custom keystore if specified on the command line
-        if keystore_file:
-            device.keystore = JsonKeyStore(namespace=None, filename=keystore_file)
-
-        # Print the existing keys before pairing
-        if print_keys and device.keystore:
-            print(color('@@@-----------------------------------', 'blue'))
-            print(color('@@@ Pairing Keys:', 'blue'))
-            await device.keystore.print(prefix=color('@@@ ', 'blue'))
-            print(color('@@@-----------------------------------', 'blue'))
-
         # Expose a GATT characteristic that can be used to trigger pairing by
         # responding with an authentication error when read
         if mode == 'le':
@@ -317,10 +327,22 @@ async def pair(
         if mode == 'classic':
             device.classic_enabled = True
             device.le_enabled = False
+            device.classic_smp_enabled = ctkd
 
         # Get things going
         await device.power_on()
 
+        # Set a custom keystore if specified on the command line
+        if keystore_file:
+            device.keystore = JsonKeyStore.from_device(device, filename=keystore_file)
+
+        # Print the existing keys before pairing
+        if print_keys and device.keystore:
+            print(color('@@@-----------------------------------', 'blue'))
+            print(color('@@@ Pairing Keys:', 'blue'))
+            await device.keystore.print(prefix=color('@@@ ', 'blue'))
+            print(color('@@@-----------------------------------', 'blue'))
+
         # Set up a pairing config factory
         device.pairing_config_factory = lambda connection: PairingConfig(
             sc, mitm, bond, Delegate(mode, connection, io, prompt)
@@ -343,8 +365,13 @@ async def pair(
                     print(color(f'Pairing failed: {error}', 'red'))
                     return
         else:
-            # Advertise so that peers can find us and connect
-            await device.start_advertising(auto_restart=True)
+            if mode == 'le':
+                # Advertise so that peers can find us and connect
+                await device.start_advertising(auto_restart=True)
+            else:
+                # Become discoverable and connectable
+                await device.set_discoverable(True)
+                await device.set_connectable(True)
 
         # Run until the user asks to exit
         await Waiter.instance.wait_until_terminated()
@@ -379,6 +406,13 @@ class LogHandler(logging.Handler):
 @click.option(
     '--bond', type=bool, default=True, help='Enable bonding', show_default=True
 )
+@click.option(
+    '--ctkd',
+    type=bool,
+    default=True,
+    help='Enable CTKD',
+    show_default=True,
+)
 @click.option(
     '--io',
     type=click.Choice(
@@ -405,6 +439,7 @@ def main(
     sc,
     mitm,
     bond,
+    ctkd,
     io,
     prompt,
     request,
@@ -427,6 +462,7 @@ def main(
             sc,
             mitm,
             bond,
+            ctkd,
             io,
             prompt,
             request,

apps/pandora_server.py

@@ -0,0 +1,30 @@
+import asyncio
+import click
+import logging
+
+from bumble.pandora import PandoraDevice, serve
+
+BUMBLE_SERVER_GRPC_PORT = 7999
+ROOTCANAL_PORT_CUTTLEFISH = 7300
+
+
+@click.command()
+@click.option('--grpc-port', help='gRPC port to serve', default=BUMBLE_SERVER_GRPC_PORT)
+@click.option(
+    '--rootcanal-port', help='Rootcanal TCP port', default=ROOTCANAL_PORT_CUTTLEFISH
+)
+@click.option(
+    '--transport',
+    help='HCI transport',
+    default=f'tcp-client:127.0.0.1:<rootcanal-port>',
+)
+def main(grpc_port: int, rootcanal_port: int, transport: str) -> None:
+    if '<rootcanal-port>' in transport:
+        transport = transport.replace('<rootcanal-port>', str(rootcanal_port))
+    device = PandoraDevice({'transport': transport})
+    logging.basicConfig(level=logging.DEBUG)
+    asyncio.run(serve(device, port=grpc_port))
+
+
+if __name__ == '__main__':
+    main()  # pylint: disable=no-value-for-parameter

apps/scan.py

@@ -133,15 +133,16 @@ async def scan(
                 'Bumble', 'F0:F1:F2:F3:F4:F5', hci_source, hci_sink
             )
 
+        await device.power_on()
+
         if keystore_file:
-            keystore = JsonKeyStore(namespace=None, filename=keystore_file)
-            device.keystore = keystore
-        else:
-            resolver = None
+            device.keystore = JsonKeyStore.from_device(device, filename=keystore_file)
 
         if device.keystore:
             resolving_keys = await device.keystore.get_resolving_keys()
             resolver = AddressResolver(resolving_keys)
+        else:
+            resolver = None
 
         printer = AdvertisementPrinter(min_rssi, resolver)
         if raw:
@@ -149,8 +150,6 @@ async def scan(
         else:
             device.on('advertisement', printer.on_advertisement)
 
-        await device.power_on()
-
         if phy is None:
             scanning_phys = [HCI_LE_1M_PHY, HCI_LE_CODED_PHY]
         else:

apps/speaker/logo.svg

@@ -0,0 +1,42 @@
+<?xml version="1.0" encoding="UTF-8" standalone="no"?> <!-- Created with Vectornator for iOS (http://vectornator.io/) --><!DOCTYPE svg PUBLIC "-//W3C//DTD SVG 1.1//EN" "http://www.w3.org/Graphics/SVG/1.1/DTD/svg11.dtd">
+<svg height="100%" style="fill-rule:nonzero;clip-rule:evenodd;stroke-linecap:round;stroke-linejoin:round;" xmlns:xlink="http://www.w3.org/1999/xlink" xmlns="http://www.w3.org/2000/svg" xml:space="preserve" width="100%" xmlns:vectornator="http://vectornator.io" version="1.1" viewBox="0 0 745 744.634">
+<metadata>
+<vectornator:setting key="DimensionsVisible" value="1"/>
+<vectornator:setting key="PencilOnly" value="0"/>
+<vectornator:setting key="SnapToPoints" value="0"/>
+<vectornator:setting key="OutlineMode" value="0"/>
+<vectornator:setting key="CMYKEnabledKey" value="0"/>
+<vectornator:setting key="RulersVisible" value="1"/>
+<vectornator:setting key="SnapToEdges" value="0"/>
+<vectornator:setting key="GuidesVisible" value="1"/>
+<vectornator:setting key="DisplayWhiteBackground" value="0"/>
+<vectornator:setting key="doHistoryDisabled" value="0"/>
+<vectornator:setting key="SnapToGuides" value="1"/>
+<vectornator:setting key="TimeLapseWatermarkDisabled" value="0"/>
+<vectornator:setting key="Units" value="Pixels"/>
+<vectornator:setting key="DynamicGuides" value="0"/>
+<vectornator:setting key="IsolateActiveLayer" value="0"/>
+<vectornator:setting key="SnapToGrid" value="0"/>
+</metadata>
+<defs/>
+<g id="Layer 1" vectornator:layerName="Layer 1">
+<path stroke="#000000" stroke-width="18.6464" d="M368.753+729.441L58.8847+550.539L58.8848+192.734L368.753+13.8313L678.621+192.734L678.621+550.539L368.753+729.441Z" fill="#0082fc" stroke-linecap="butt" fill-opacity="0.307489" opacity="1" stroke-linejoin="round"/>
+<g opacity="1">
+<g opacity="1">
+<path stroke="#000000" stroke-width="20" d="M292.873+289.256L442.872+289.256L442.872+539.254L292.873+539.254L292.873+289.256Z" fill="#fcd100" stroke-linecap="butt" opacity="1" stroke-linejoin="round"/>
+<path stroke="#000000" stroke-width="20" d="M292.873+289.256C292.873+247.835+326.452+214.257+367.873+214.257C409.294+214.257+442.872+247.835+442.872+289.256C442.872+330.677+409.294+364.256+367.873+364.256C326.452+364.256+292.873+330.677+292.873+289.256Z" fill="#fcd100" stroke-linecap="butt" opacity="1" stroke-linejoin="round"/>
+<path stroke="#000000" stroke-width="20" d="M292.873+539.254C292.873+497.833+326.452+464.255+367.873+464.255C409.294+464.255+442.872+497.833+442.872+539.254C442.872+580.675+409.294+614.254+367.873+614.254C326.452+614.254+292.873+580.675+292.873+539.254Z" fill="#fcd100" stroke-linecap="butt" opacity="1" stroke-linejoin="round"/>
+<path stroke="#0082fc" stroke-width="0.1" d="M302.873+289.073L432.872+289.073L432.872+539.072L302.873+539.072L302.873+289.073Z" fill="#fcd100" stroke-linecap="butt" opacity="1" stroke-linejoin="round"/>
+</g>
+<path stroke="#000000" stroke-width="0.1" d="M103.161+309.167L226.956+443.903L366.671+309.604L103.161+309.167Z" fill="#0082fc" stroke-linecap="round" opacity="1" stroke-linejoin="round"/>
+<path stroke="#000000" stroke-width="0.1" d="M383.411+307.076L508.887+440.112L650.5+307.507L383.411+307.076Z" fill="#0082fc" stroke-linecap="round" opacity="1" stroke-linejoin="round"/>
+<path stroke="#000000" stroke-width="20" d="M522.045+154.808L229.559+448.882L83.8397+300.104L653.666+302.936L511.759+444.785L223.101+156.114" fill="none" stroke-linecap="round" opacity="1" stroke-linejoin="round"/>
+<path stroke="#000000" stroke-width="61.8698" d="M295.857+418.738L438.9+418.738" fill="none" stroke-linecap="butt" opacity="1" stroke-linejoin="round"/>
+<path stroke="#000000" stroke-width="61.8698" d="M295.857+521.737L438.9+521.737" fill="none" stroke-linecap="butt" opacity="1" stroke-linejoin="round"/>
+<g opacity="1">
+<path stroke="#0082fc" stroke-width="0.1" d="M367.769+667.024L367.821+616.383L403.677+616.336C383.137+626.447+368.263+638.69+367.769+667.024Z" fill="#000000" stroke-linecap="butt" opacity="1" stroke-linejoin="round"/>
+<path stroke="#0082fc" stroke-width="0.1" d="M367.836+667.024L367.784+616.383L331.928+616.336C352.468+626.447+367.341+638.69+367.836+667.024Z" fill="#000000" stroke-linecap="butt" opacity="1" stroke-linejoin="round"/>
+</g>
+</g>
+</g>
+</svg>

apps/speaker/speaker.css

@@ -0,0 +1,76 @@
+body, h1, h2, h3, h4, h5, h6 {
+    font-family: sans-serif;
+}
+
+#controlsDiv {
+    margin: 6px;
+}
+
+#connectionText {
+    background-color: rgb(239, 89, 75);
+    border: none;
+    border-radius: 4px;
+    padding: 8px;
+    display: inline-block;
+    margin: 4px;
+}
+
+#startButton {
+    padding: 4px;
+    margin: 6px;
+}
+
+#fftCanvas {
+    border-radius: 16px;
+    margin: 6px;
+}
+
+#bandwidthCanvas {
+    border: grey;
+    border-style: solid;
+    border-radius: 8px;
+    margin: 6px;
+}
+
+#streamStateText {
+    background-color: rgb(93, 165, 93);
+    border: none;
+    border-radius: 8px;
+    padding: 10px 20px;
+    display: inline-block;
+    margin: 6px;
+}
+
+#connectionStateText {
+    background-color: rgb(112, 146, 206);
+    border: none;
+    border-radius: 8px;
+    padding: 10px 20px;
+    display: inline-block;
+    margin: 6px;
+}
+
+#propertiesTable {
+    border: grey;
+    border-style: solid;
+    border-radius: 4px;
+    padding: 4px;
+    margin: 6px;
+    margin-left: 0px;
+}
+
+th, td {
+    padding-left: 6px;
+    padding-right: 6px;
+}
+
+.properties td:nth-child(even) {
+    background-color: #D6EEEE;
+    font-family: monospace;
+}
+
+.properties td:nth-child(odd) {
+    font-weight: bold;
+}
+
+.properties tr td:nth-child(2) { width: 150px; }

apps/speaker/speaker.html

@@ -0,0 +1,34 @@
+<!DOCTYPE html>
+<html>
+<head>
+  <title>Bumble Speaker</title>
+  <script type="text/javascript" src="speaker.js"></script>
+  <link rel="stylesheet" href="speaker.css">
+</head>
+<body>
+  <h1><img src="logo.svg" width=100 height=100 style="vertical-align:middle" alt=""/>Bumble Virtual Speaker</h1>
+  <div id="connectionText"></div>
+  <div id="speaker">
+    <table><tr>
+      <td>
+        <table id="propertiesTable" class="properties">
+          <tr><td>Codec</td><td><span id="codecText"></span></td></tr>
+          <tr><td>Packets</td><td><span id="packetsReceivedText"></span></td></tr>
+          <tr><td>Bytes</td><td><span id="bytesReceivedText"></span></td></tr>
+        </table>
+      </td>
+      <td>
+        <canvas id="bandwidthCanvas" width="500", height="100">Bandwidth Graph</canvas>
+      </td>
+    </tr></table>
+    <span id="streamStateText">IDLE</span>
+    <span id="connectionStateText">NOT CONNECTED</span>
+    <div id="controlsDiv">
+        <button id="audioOnButton">Audio On</button>
+        <span id="audioSupportMessageText"></span>
+    </div>
+    <canvas id="fftCanvas" width="1024", height="300">Audio Frequencies Animation</canvas>
+    <audio id="audio"></audio>
+  </div>
+</body>
+</html>

apps/speaker/speaker.js

@@ -0,0 +1,315 @@
+(function () {
+    'use strict';
+
+const channelUrl = ((window.location.protocol === "https:") ? "wss://" : "ws://") + window.location.host + "/channel";
+let channelSocket;
+let connectionText;
+let codecText;
+let packetsReceivedText;
+let bytesReceivedText;
+let streamStateText;
+let connectionStateText;
+let controlsDiv;
+let audioOnButton;
+let mediaSource;
+let sourceBuffer;
+let audioElement;
+let audioContext;
+let audioAnalyzer;
+let audioFrequencyBinCount;
+let audioFrequencyData;
+let packetsReceived = 0;
+let bytesReceived = 0;
+let audioState = "stopped";
+let streamState = "IDLE";
+let audioSupportMessageText;
+let fftCanvas;
+let fftCanvasContext;
+let bandwidthCanvas;
+let bandwidthCanvasContext;
+let bandwidthBinCount;
+let bandwidthBins = [];
+
+const FFT_WIDTH = 800;
+const FFT_HEIGHT = 256;
+const BANDWIDTH_WIDTH = 500;
+const BANDWIDTH_HEIGHT = 100;
+
+function hexToBytes(hex) {
+    return Uint8Array.from(hex.match(/.{1,2}/g).map((byte) => parseInt(byte, 16)));
+}
+
+function init() {
+    initUI();
+    initMediaSource();
+    initAudioElement();
+    initAnalyzer();
+
+    connect();
+}
+
+function initUI() {
+    controlsDiv = document.getElementById("controlsDiv");
+    controlsDiv.style.visibility = "hidden";
+    connectionText = document.getElementById("connectionText");
+    audioOnButton = document.getElementById("audioOnButton");
+    codecText = document.getElementById("codecText");
+    packetsReceivedText = document.getElementById("packetsReceivedText");
+    bytesReceivedText = document.getElementById("bytesReceivedText");
+    streamStateText = document.getElementById("streamStateText");
+    connectionStateText = document.getElementById("connectionStateText");
+    audioSupportMessageText = document.getElementById("audioSupportMessageText");
+
+    audioOnButton.onclick = () => startAudio();
+
+    setConnectionText("");
+
+    requestAnimationFrame(onAnimationFrame);
+}
+
+function initMediaSource() {
+    mediaSource = new MediaSource();
+    mediaSource.onsourceopen = onMediaSourceOpen;
+    mediaSource.onsourceclose = onMediaSourceClose;
+    mediaSource.onsourceended = onMediaSourceEnd;
+}
+
+function initAudioElement() {
+    audioElement = document.getElementById("audio");
+    audioElement.src = URL.createObjectURL(mediaSource);
+    // audioElement.controls = true;
+}
+
+function initAnalyzer() {
+    fftCanvas = document.getElementById("fftCanvas");
+    fftCanvas.width = FFT_WIDTH
+    fftCanvas.height = FFT_HEIGHT
+    fftCanvasContext = fftCanvas.getContext('2d');
+    fftCanvasContext.fillStyle = "rgb(0, 0, 0)";
+    fftCanvasContext.fillRect(0, 0, FFT_WIDTH, FFT_HEIGHT);
+
+    bandwidthCanvas = document.getElementById("bandwidthCanvas");
+    bandwidthCanvas.width = BANDWIDTH_WIDTH
+    bandwidthCanvas.height = BANDWIDTH_HEIGHT
+    bandwidthCanvasContext = bandwidthCanvas.getContext('2d');
+    bandwidthCanvasContext.fillStyle = "rgb(255, 255, 255)";
+    bandwidthCanvasContext.fillRect(0, 0, BANDWIDTH_WIDTH, BANDWIDTH_HEIGHT);
+}
+
+function startAnalyzer() {
+    // FFT
+    if (audioElement.captureStream !== undefined) {
+        audioContext = new AudioContext();
+        audioAnalyzer = audioContext.createAnalyser();
+        audioAnalyzer.fftSize = 128;
+        audioFrequencyBinCount = audioAnalyzer.frequencyBinCount;
+        audioFrequencyData = new Uint8Array(audioFrequencyBinCount);
+        const stream = audioElement.captureStream();
+        const source = audioContext.createMediaStreamSource(stream);
+        source.connect(audioAnalyzer);
+    }
+
+    // Bandwidth
+    bandwidthBinCount = BANDWIDTH_WIDTH / 2;
+    bandwidthBins = [];
+}
+
+function setConnectionText(message) {
+    connectionText.innerText = message;
+    if (message.length == 0) {
+        connectionText.style.display = "none";
+    } else {
+        connectionText.style.display = "inline-block";
+    }
+}
+
+function setStreamState(state) {
+    streamState = state;
+    streamStateText.innerText = streamState;
+}
+
+function onAnimationFrame() {
+    // FFT
+    if (audioAnalyzer !== undefined) {
+        audioAnalyzer.getByteFrequencyData(audioFrequencyData);
+        fftCanvasContext.fillStyle = "rgb(0, 0, 0)";
+        fftCanvasContext.fillRect(0, 0, FFT_WIDTH, FFT_HEIGHT);
+        const barCount = audioFrequencyBinCount;
+        const barWidth = (FFT_WIDTH / audioFrequencyBinCount) - 1;
+        for (let bar = 0; bar < barCount; bar++) {
+            const barHeight = audioFrequencyData[bar];
+            fftCanvasContext.fillStyle = `rgb(${barHeight / 256 * 200 + 50}, 50, ${50 + 2 * bar})`;
+            fftCanvasContext.fillRect(bar * (barWidth + 1), FFT_HEIGHT - barHeight, barWidth, barHeight);
+        }
+    }
+
+    // Bandwidth
+    bandwidthCanvasContext.fillStyle = "rgb(255, 255, 255)";
+    bandwidthCanvasContext.fillRect(0, 0, BANDWIDTH_WIDTH, BANDWIDTH_HEIGHT);
+    bandwidthCanvasContext.fillStyle = `rgb(100, 100, 100)`;
+    for (let t = 0; t < bandwidthBins.length; t++) {
+        const lineHeight = (bandwidthBins[t] / 1000) * BANDWIDTH_HEIGHT;
+        bandwidthCanvasContext.fillRect(t * 2, BANDWIDTH_HEIGHT - lineHeight, 2, lineHeight);
+    }
+
+    // Display again at the next frame
+    requestAnimationFrame(onAnimationFrame);
+}
+
+function onMediaSourceOpen() {
+    console.log(this.readyState);
+    sourceBuffer = mediaSource.addSourceBuffer("audio/aac");
+}
+
+function onMediaSourceClose() {
+    console.log(this.readyState);
+}
+
+function onMediaSourceEnd() {
+    console.log(this.readyState);
+}
+
+async function startAudio() {
+    try {
+        console.log("starting audio...");
+        audioOnButton.disabled = true;
+        audioState = "starting";
+        await audioElement.play();
+        console.log("audio started");
+        audioState = "playing";
+        startAnalyzer();
+    } catch(error) {
+        console.error(`play failed: ${error}`);
+        audioState = "stopped";
+        audioOnButton.disabled = false;
+    }
+}
+
+function onAudioPacket(packet) {
+    if (audioState != "stopped") {
+        // Queue the audio packet.
+        sourceBuffer.appendBuffer(packet);
+    }
+
+    packetsReceived += 1;
+    packetsReceivedText.innerText = packetsReceived;
+    bytesReceived += packet.byteLength;
+    bytesReceivedText.innerText = bytesReceived;
+
+    bandwidthBins[bandwidthBins.length] = packet.byteLength;
+    if (bandwidthBins.length > bandwidthBinCount) {
+        bandwidthBins.shift();
+    }
+}
+
+function onChannelOpen() {
+    console.log('channel OPEN');
+    setConnectionText("");
+    controlsDiv.style.visibility = "visible";
+
+    // Handshake with the backend.
+    sendMessage({
+        type: "hello"
+    });
+}
+
+function onChannelClose() {
+    console.log('channel CLOSED');
+    setConnectionText("Connection to CLI app closed, restart it and reload this page.");
+    controlsDiv.style.visibility = "hidden";
+}
+
+function onChannelError(error) {
+    console.log(`channel ERROR: ${error}`);
+    setConnectionText(`Connection to CLI app error ({${error}}), restart it and reload this page.`);
+    controlsDiv.style.visibility = "hidden";
+}
+
+function onChannelMessage(message) {
+    if (typeof message.data === 'string' || message.data instanceof String) {
+        // JSON message.
+        const jsonMessage = JSON.parse(message.data);
+        console.log(`channel MESSAGE: ${message.data}`);
+
+        // Dispatch the message.
+        const handlerName = `on${jsonMessage.type.charAt(0).toUpperCase()}${jsonMessage.type.slice(1)}Message`
+        const handler = messageHandlers[handlerName];
+        if (handler !== undefined) {
+            const params = jsonMessage.params;
+            if (params === undefined) {
+                params = {};
+            }
+            handler(params);
+        } else {
+            console.warn(`unhandled message: ${jsonMessage.type}`)
+        }
+    } else {
+        // BINARY audio data.
+        onAudioPacket(message.data);
+    }
+}
+
+function onHelloMessage(params) {
+    codecText.innerText = params.codec;
+    if (params.codec != "aac") {
+        audioOnButton.disabled = true;
+        audioSupportMessageText.innerText = "Only AAC can be played, audio will be disabled";
+        audioSupportMessageText.style.display = "inline-block";
+    } else {
+        audioSupportMessageText.innerText = "";
+        audioSupportMessageText.style.display = "none";
+    }
+    if (params.streamState) {
+        setStreamState(params.streamState);
+    }
+}
+
+function onStartMessage(params) {
+    setStreamState("STARTED");
+}
+
+function onStopMessage(params) {
+    setStreamState("STOPPED");
+}
+
+function onSuspendMessage(params) {
+    setStreamState("SUSPENDED");
+}
+
+function onConnectionMessage(params) {
+    connectionStateText.innerText = `CONNECTED: ${params.peer_name} (${params.peer_address})`;
+}
+
+function onDisconnectionMessage(params) {
+    connectionStateText.innerText = "DISCONNECTED";
+}
+
+function sendMessage(message) {
+    channelSocket.send(JSON.stringify(message));
+}
+
+function connect() {
+    console.log("connecting to CLI app");
+
+    channelSocket = new WebSocket(channelUrl);
+    channelSocket.binaryType = "arraybuffer";
+    channelSocket.onopen = onChannelOpen;
+    channelSocket.onclose = onChannelClose;
+    channelSocket.onerror = onChannelError;
+    channelSocket.onmessage = onChannelMessage;
+}
+
+const messageHandlers = {
+    onHelloMessage,
+    onStartMessage,
+    onStopMessage,
+    onSuspendMessage,
+    onConnectionMessage,
+    onDisconnectionMessage
+}
+
+window.onload = (event) => {
+    init();
+}
+
+}());

apps/speaker/speaker.py

@@ -0,0 +1,747 @@
+# Copyright 2021-2023 Google LLC
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+#      https://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+# See the License for the specific language governing permissions and
+# limitations under the License.
+
+# -----------------------------------------------------------------------------
+# Imports
+# -----------------------------------------------------------------------------
+from __future__ import annotations
+import asyncio
+import asyncio.subprocess
+from importlib import resources
+import enum
+import json
+import os
+import logging
+import pathlib
+import subprocess
+from typing import Dict, List, Optional
+import weakref
+
+import click
+import aiohttp
+from aiohttp import web
+
+import bumble
+from bumble.colors import color
+from bumble.core import BT_BR_EDR_TRANSPORT, CommandTimeoutError
+from bumble.device import Connection, Device, DeviceConfiguration
+from bumble.hci import HCI_StatusError
+from bumble.pairing import PairingConfig
+from bumble.sdp import ServiceAttribute
+from bumble.transport import open_transport
+from bumble.avdtp import (
+    AVDTP_AUDIO_MEDIA_TYPE,
+    Listener,
+    MediaCodecCapabilities,
+    MediaPacket,
+    Protocol,
+)
+from bumble.a2dp import (
+    MPEG_2_AAC_LC_OBJECT_TYPE,
+    make_audio_sink_service_sdp_records,
+    A2DP_SBC_CODEC_TYPE,
+    A2DP_MPEG_2_4_AAC_CODEC_TYPE,
+    SBC_MONO_CHANNEL_MODE,
+    SBC_DUAL_CHANNEL_MODE,
+    SBC_SNR_ALLOCATION_METHOD,
+    SBC_LOUDNESS_ALLOCATION_METHOD,
+    SBC_STEREO_CHANNEL_MODE,
+    SBC_JOINT_STEREO_CHANNEL_MODE,
+    SbcMediaCodecInformation,
+    AacMediaCodecInformation,
+)
+from bumble.utils import AsyncRunner
+from bumble.codecs import AacAudioRtpPacket
+
+
+# -----------------------------------------------------------------------------
+# Logging
+# -----------------------------------------------------------------------------
+logger = logging.getLogger(__name__)
+
+
+# -----------------------------------------------------------------------------
+# Constants
+# -----------------------------------------------------------------------------
+DEFAULT_UI_PORT = 7654
+
+# -----------------------------------------------------------------------------
+class AudioExtractor:
+    @staticmethod
+    def create(codec: str):
+        if codec == 'aac':
+            return AacAudioExtractor()
+        if codec == 'sbc':
+            return SbcAudioExtractor()
+
+    def extract_audio(self, packet: MediaPacket) -> bytes:
+        raise NotImplementedError()
+
+
+# -----------------------------------------------------------------------------
+class AacAudioExtractor:
+    def extract_audio(self, packet: MediaPacket) -> bytes:
+        return AacAudioRtpPacket(packet.payload).to_adts()
+
+
+# -----------------------------------------------------------------------------
+class SbcAudioExtractor:
+    def extract_audio(self, packet: MediaPacket) -> bytes:
+        # header = packet.payload[0]
+        # fragmented = header >> 7
+        # start = (header >> 6) & 0x01
+        # last = (header >> 5) & 0x01
+        # number_of_frames = header & 0x0F
+
+        # TODO: support fragmented payloads
+        return packet.payload[1:]
+
+
+# -----------------------------------------------------------------------------
+class Output:
+    async def start(self) -> None:
+        pass
+
+    async def stop(self) -> None:
+        pass
+
+    async def suspend(self) -> None:
+        pass
+
+    async def on_connection(self, connection: Connection) -> None:
+        pass
+
+    async def on_disconnection(self, reason: int) -> None:
+        pass
+
+    def on_rtp_packet(self, packet: MediaPacket) -> None:
+        pass
+
+
+# -----------------------------------------------------------------------------
+class FileOutput(Output):
+    filename: str
+    codec: str
+    extractor: AudioExtractor
+
+    def __init__(self, filename, codec):
+        self.filename = filename
+        self.codec = codec
+        self.file = open(filename, 'wb')
+        self.extractor = AudioExtractor.create(codec)
+
+    def on_rtp_packet(self, packet: MediaPacket) -> None:
+        self.file.write(self.extractor.extract_audio(packet))
+
+
+# -----------------------------------------------------------------------------
+class QueuedOutput(Output):
+    MAX_QUEUE_SIZE = 32768
+
+    packets: asyncio.Queue
+    extractor: AudioExtractor
+    packet_pump_task: Optional[asyncio.Task]
+    started: bool
+
+    def __init__(self, extractor):
+        self.extractor = extractor
+        self.packets = asyncio.Queue()
+        self.packet_pump_task = None
+        self.started = False
+
+    async def start(self):
+        if self.started:
+            return
+
+        self.packet_pump_task = asyncio.create_task(self.pump_packets())
+
+    async def pump_packets(self):
+        while True:
+            packet = await self.packets.get()
+            await self.on_audio_packet(packet)
+
+    async def on_audio_packet(self, packet: bytes) -> None:
+        pass
+
+    def on_rtp_packet(self, packet: MediaPacket) -> None:
+        if self.packets.qsize() > self.MAX_QUEUE_SIZE:
+            logger.debug("queue full, dropping")
+            return
+
+        self.packets.put_nowait(self.extractor.extract_audio(packet))
+
+
+# -----------------------------------------------------------------------------
+class WebSocketOutput(QueuedOutput):
+    def __init__(self, codec, send_audio, send_message):
+        super().__init__(AudioExtractor.create(codec))
+        self.send_audio = send_audio
+        self.send_message = send_message
+
+    async def on_connection(self, connection: Connection) -> None:
+        try:
+            await connection.request_remote_name()
+        except HCI_StatusError:
+            pass
+        peer_name = '' if connection.peer_name is None else connection.peer_name
+        peer_address = str(connection.peer_address).replace('/P', '')
+        await self.send_message(
+            'connection',
+            peer_address=peer_address,
+            peer_name=peer_name,
+        )
+
+    async def on_disconnection(self, reason) -> None:
+        await self.send_message('disconnection')
+
+    async def on_audio_packet(self, packet: bytes) -> None:
+        await self.send_audio(packet)
+
+    async def start(self):
+        await super().start()
+        await self.send_message('start')
+
+    async def stop(self):
+        await super().stop()
+        await self.send_message('stop')
+
+    async def suspend(self):
+        await super().suspend()
+        await self.send_message('suspend')
+
+
+# -----------------------------------------------------------------------------
+class FfplayOutput(QueuedOutput):
+    MAX_QUEUE_SIZE = 32768
+
+    subprocess: Optional[asyncio.subprocess.Process]
+    ffplay_task: Optional[asyncio.Task]
+
+    def __init__(self) -> None:
+        super().__init__(AacAudioExtractor())
+        self.subprocess = None
+        self.ffplay_task = None
+
+    async def start(self):
+        if self.started:
+            return
+
+        await super().start()
+
+        self.subprocess = await asyncio.create_subprocess_shell(
+            'ffplay -acodec aac pipe:0',
+            stdin=asyncio.subprocess.PIPE,
+            stdout=asyncio.subprocess.PIPE,
+            stderr=asyncio.subprocess.PIPE,
+        )
+
+        self.ffplay_task = asyncio.create_task(self.monitor_ffplay())
+
+    async def stop(self):
+        # TODO
+        pass
+
+    async def suspend(self):
+        # TODO
+        pass
+
+    async def monitor_ffplay(self):
+        async def read_stream(name, stream):
+            while True:
+                data = await stream.read()
+                logger.debug(f'{name}:', data)
+
+        await asyncio.wait(
+            [
+                asyncio.create_task(
+                    read_stream('[ffplay stdout]', self.subprocess.stdout)
+                ),
+                asyncio.create_task(
+                    read_stream('[ffplay stderr]', self.subprocess.stderr)
+                ),
+                asyncio.create_task(self.subprocess.wait()),
+            ]
+        )
+        logger.debug("FFPLAY done")
+
+    async def on_audio_packet(self, packet):
+        try:
+            self.subprocess.stdin.write(packet)
+        except Exception:
+            logger.warning('!!!! exception while sending audio to ffplay pipe')
+
+
+# -----------------------------------------------------------------------------
+class UiServer:
+    speaker: weakref.ReferenceType[Speaker]
+    port: int
+
+    def __init__(self, speaker: Speaker, port: int) -> None:
+        self.speaker = weakref.ref(speaker)
+        self.port = port
+        self.channel_socket = None
+
+    async def start_http(self) -> None:
+        """Start the UI HTTP server."""
+
+        app = web.Application()
+        app.add_routes(
+            [
+                web.get('/', self.get_static),
+                web.get('/speaker.html', self.get_static),
+                web.get('/speaker.js', self.get_static),
+                web.get('/speaker.css', self.get_static),
+                web.get('/logo.svg', self.get_static),
+                web.get('/channel', self.get_channel),
+            ]
+        )
+
+        runner = web.AppRunner(app)
+        await runner.setup()
+        site = web.TCPSite(runner, 'localhost', self.port)
+        print('UI HTTP server at ' + color(f'http://127.0.0.1:{self.port}', 'green'))
+        await site.start()
+
+    async def get_static(self, request):
+        path = request.path
+        if path == '/':
+            path = '/speaker.html'
+        if path.endswith('.html'):
+            content_type = 'text/html'
+        elif path.endswith('.js'):
+            content_type = 'text/javascript'
+        elif path.endswith('.css'):
+            content_type = 'text/css'
+        elif path.endswith('.svg'):
+            content_type = 'image/svg+xml'
+        else:
+            content_type = 'text/plain'
+        text = (
+            resources.files("bumble.apps.speaker")
+            .joinpath(pathlib.Path(path).relative_to('/'))
+            .read_text(encoding="utf-8")
+        )
+        return aiohttp.web.Response(text=text, content_type=content_type)
+
+    async def get_channel(self, request):
+        ws = web.WebSocketResponse()
+        await ws.prepare(request)
+
+        # Process messages until the socket is closed.
+        self.channel_socket = ws
+        async for message in ws:
+            if message.type == aiohttp.WSMsgType.TEXT:
+                logger.debug(f'<<< received message: {message.data}')
+                await self.on_message(message.data)
+            elif message.type == aiohttp.WSMsgType.ERROR:
+                logger.debug(
+                    f'channel connection closed with exception {ws.exception()}'
+                )
+
+        self.channel_socket = None
+        logger.debug('--- channel connection closed')
+
+        return ws
+
+    async def on_message(self, message_str: str):
+        # Parse the message as JSON
+        message = json.loads(message_str)
+
+        # Dispatch the message
+        message_type = message['type']
+        message_params = message.get('params', {})
+        handler = getattr(self, f'on_{message_type}_message')
+        if handler:
+            await handler(**message_params)
+
+    async def on_hello_message(self):
+        await self.send_message(
+            'hello',
+            bumble_version=bumble.__version__,
+            codec=self.speaker().codec,
+            streamState=self.speaker().stream_state.name,
+        )
+        if connection := self.speaker().connection:
+            await self.send_message(
+                'connection',
+                peer_address=str(connection.peer_address).replace('/P', ''),
+                peer_name=connection.peer_name,
+            )
+
+    async def send_message(self, message_type: str, **kwargs) -> None:
+        if self.channel_socket is None:
+            return
+
+        message = {'type': message_type, 'params': kwargs}
+        await self.channel_socket.send_json(message)
+
+    async def send_audio(self, data: bytes) -> None:
+        if self.channel_socket is None:
+            return
+
+        try:
+            await self.channel_socket.send_bytes(data)
+        except Exception as error:
+            logger.warning(f'exception while sending audio packet: {error}')
+
+
+# -----------------------------------------------------------------------------
+class Speaker:
+    class StreamState(enum.Enum):
+        IDLE = 0
+        STOPPED = 1
+        STARTED = 2
+        SUSPENDED = 3
+
+    def __init__(self, device_config, transport, codec, discover, outputs, ui_port):
+        self.device_config = device_config
+        self.transport = transport
+        self.codec = codec
+        self.discover = discover
+        self.ui_port = ui_port
+        self.device = None
+        self.connection = None
+        self.listener = None
+        self.packets_received = 0
+        self.bytes_received = 0
+        self.stream_state = Speaker.StreamState.IDLE
+        self.outputs = []
+        for output in outputs:
+            if output == '@ffplay':
+                self.outputs.append(FfplayOutput())
+                continue
+
+            # Default to FileOutput
+            self.outputs.append(FileOutput(output, codec))
+
+        # Create an HTTP server for the UI
+        self.ui_server = UiServer(speaker=self, port=ui_port)
+
+    def sdp_records(self) -> Dict[int, List[ServiceAttribute]]:
+        service_record_handle = 0x00010001
+        return {
+            service_record_handle: make_audio_sink_service_sdp_records(
+                service_record_handle
+            )
+        }
+
+    def codec_capabilities(self) -> MediaCodecCapabilities:
+        if self.codec == 'aac':
+            return self.aac_codec_capabilities()
+
+        if self.codec == 'sbc':
+            return self.sbc_codec_capabilities()
+
+        raise RuntimeError('unsupported codec')
+
+    def aac_codec_capabilities(self) -> MediaCodecCapabilities:
+        return MediaCodecCapabilities(
+            media_type=AVDTP_AUDIO_MEDIA_TYPE,
+            media_codec_type=A2DP_MPEG_2_4_AAC_CODEC_TYPE,
+            media_codec_information=AacMediaCodecInformation.from_lists(
+                object_types=[MPEG_2_AAC_LC_OBJECT_TYPE],
+                sampling_frequencies=[48000, 44100],
+                channels=[1, 2],
+                vbr=1,
+                bitrate=256000,
+            ),
+        )
+
+    def sbc_codec_capabilities(self) -> MediaCodecCapabilities:
+        return MediaCodecCapabilities(
+            media_type=AVDTP_AUDIO_MEDIA_TYPE,
+            media_codec_type=A2DP_SBC_CODEC_TYPE,
+            media_codec_information=SbcMediaCodecInformation.from_lists(
+                sampling_frequencies=[48000, 44100, 32000, 16000],
+                channel_modes=[
+                    SBC_MONO_CHANNEL_MODE,
+                    SBC_DUAL_CHANNEL_MODE,
+                    SBC_STEREO_CHANNEL_MODE,
+                    SBC_JOINT_STEREO_CHANNEL_MODE,
+                ],
+                block_lengths=[4, 8, 12, 16],
+                subbands=[4, 8],
+                allocation_methods=[
+                    SBC_LOUDNESS_ALLOCATION_METHOD,
+                    SBC_SNR_ALLOCATION_METHOD,
+                ],
+                minimum_bitpool_value=2,
+                maximum_bitpool_value=53,
+            ),
+        )
+
+    async def dispatch_to_outputs(self, function):
+        for output in self.outputs:
+            await function(output)
+
+    def on_bluetooth_connection(self, connection):
+        print(f'Connection: {connection}')
+        self.connection = connection
+        connection.on('disconnection', self.on_bluetooth_disconnection)
+        AsyncRunner.spawn(
+            self.dispatch_to_outputs(lambda output: output.on_connection(connection))
+        )
+
+    def on_bluetooth_disconnection(self, reason):
+        print(f'Disconnection ({reason})')
+        self.connection = None
+        AsyncRunner.spawn(self.advertise())
+        AsyncRunner.spawn(
+            self.dispatch_to_outputs(lambda output: output.on_disconnection(reason))
+        )
+
+    def on_avdtp_connection(self, protocol):
+        print('Audio Stream Open')
+
+        # Add a sink endpoint to the server
+        sink = protocol.add_sink(self.codec_capabilities())
+        sink.on('start', self.on_sink_start)
+        sink.on('stop', self.on_sink_stop)
+        sink.on('suspend', self.on_sink_suspend)
+        sink.on('configuration', lambda: self.on_sink_configuration(sink.configuration))
+        sink.on('rtp_packet', self.on_rtp_packet)
+        sink.on('rtp_channel_open', self.on_rtp_channel_open)
+        sink.on('rtp_channel_close', self.on_rtp_channel_close)
+
+        # Listen for close events
+        protocol.on('close', self.on_avdtp_close)
+
+        # Discover all endpoints on the remote device is requested
+        if self.discover:
+            AsyncRunner.spawn(self.discover_remote_endpoints(protocol))
+
+    def on_avdtp_close(self):
+        print("Audio Stream Closed")
+
+    def on_sink_start(self):
+        print("Sink Started\u001b[0K")
+        self.stream_state = self.StreamState.STARTED
+        AsyncRunner.spawn(self.dispatch_to_outputs(lambda output: output.start()))
+
+    def on_sink_stop(self):
+        print("Sink Stopped\u001b[0K")
+        self.stream_state = self.StreamState.STOPPED
+        AsyncRunner.spawn(self.dispatch_to_outputs(lambda output: output.stop()))
+
+    def on_sink_suspend(self):
+        print("Sink Suspended\u001b[0K")
+        self.stream_state = self.StreamState.SUSPENDED
+        AsyncRunner.spawn(self.dispatch_to_outputs(lambda output: output.suspend()))
+
+    def on_sink_configuration(self, config):
+        print("Sink Configuration:")
+        print('\n'.join(["  " + str(capability) for capability in config]))
+
+    def on_rtp_channel_open(self):
+        print("RTP Channel Open")
+
+    def on_rtp_channel_close(self):
+        print("RTP Channel Closed")
+        self.stream_state = self.StreamState.IDLE
+
+    def on_rtp_packet(self, packet):
+        self.packets_received += 1
+        self.bytes_received += len(packet.payload)
+        print(
+            f'[{self.bytes_received} bytes in {self.packets_received} packets] {packet}',
+            end='\r',
+        )
+
+        for output in self.outputs:
+            output.on_rtp_packet(packet)
+
+    async def advertise(self):
+        await self.device.set_discoverable(True)
+        await self.device.set_connectable(True)
+
+    async def connect(self, address):
+        # Connect to the source
+        print(f'=== Connecting to {address}...')
+        connection = await self.device.connect(address, transport=BT_BR_EDR_TRANSPORT)
+        print(f'=== Connected to {connection.peer_address}')
+
+        # Request authentication
+        print('*** Authenticating...')
+        await connection.authenticate()
+        print('*** Authenticated')
+
+        # Enable encryption
+        print('*** Enabling encryption...')
+        await connection.encrypt()
+        print('*** Encryption on')
+
+        protocol = await Protocol.connect(connection)
+        self.listener.set_server(connection, protocol)
+        self.on_avdtp_connection(protocol)
+
+    async def discover_remote_endpoints(self, protocol):
+        endpoints = await protocol.discover_remote_endpoints()
+        print(f'@@@ Found {len(endpoints)} endpoints')
+        for endpoint in endpoints:
+            print('@@@', endpoint)
+
+    async def run(self, connect_address):
+        await self.ui_server.start_http()
+        self.outputs.append(
+            WebSocketOutput(
+                self.codec, self.ui_server.send_audio, self.ui_server.send_message
+            )
+        )
+
+        async with await open_transport(self.transport) as (hci_source, hci_sink):
+            # Create a device
+            device_config = DeviceConfiguration()
+            if self.device_config:
+                device_config.load_from_file(self.device_config)
+            else:
+                device_config.name = "Bumble Speaker"
+                device_config.class_of_device = 0x240414
+                device_config.keystore = "JsonKeyStore"
+
+            device_config.classic_enabled = True
+            device_config.le_enabled = False
+            self.device = Device.from_config_with_hci(
+                device_config, hci_source, hci_sink
+            )
+
+            # Setup the SDP to expose the sink service
+            self.device.sdp_service_records = self.sdp_records()
+
+            # Don't require MITM when pairing.
+            self.device.pairing_config_factory = lambda connection: PairingConfig(
+                mitm=False
+            )
+
+            # Start the controller
+            await self.device.power_on()
+
+            # Print some of the config/properties
+            print("Speaker Name:", color(device_config.name, 'yellow'))
+            print(
+                "Speaker Bluetooth Address:",
+                color(
+                    self.device.public_address.to_string(with_type_qualifier=False),
+                    'yellow',
+                ),
+            )
+
+            # Listen for Bluetooth connections
+            self.device.on('connection', self.on_bluetooth_connection)
+
+            # Create a listener to wait for AVDTP connections
+            self.listener = Listener(Listener.create_registrar(self.device))
+            self.listener.on('connection', self.on_avdtp_connection)
+
+            print(f'Speaker ready to play, codec={color(self.codec, "cyan")}')
+
+            if connect_address:
+                # Connect to the source
+                try:
+                    await self.connect(connect_address)
+                except CommandTimeoutError:
+                    print(color("Connection timed out", "red"))
+                    return
+            else:
+                # Start being discoverable and connectable
+                print("Waiting for connection...")
+                await self.advertise()
+
+            await hci_source.wait_for_termination()
+
+        for output in self.outputs:
+            await output.stop()
+
+
+# -----------------------------------------------------------------------------
+@click.group()
+@click.pass_context
+def speaker_cli(ctx, device_config):
+    ctx.ensure_object(dict)
+    ctx.obj['device_config'] = device_config
+
+
+@click.command()
+@click.option(
+    '--codec', type=click.Choice(['sbc', 'aac']), default='aac', show_default=True
+)
+@click.option(
+    '--discover', is_flag=True, help='Discover remote endpoints once connected'
+)
+@click.option(
+    '--output',
+    multiple=True,
+    metavar='NAME',
+    help=(
+        'Send audio to this named output '
+        '(may be used more than once for multiple outputs)'
+    ),
+)
+@click.option(
+    '--ui-port',
+    'ui_port',
+    metavar='HTTP_PORT',
+    default=DEFAULT_UI_PORT,
+    show_default=True,
+    help='HTTP port for the UI server',
+)
+@click.option(
+    '--connect',
+    'connect_address',
+    metavar='ADDRESS_OR_NAME',
+    help='Address or name to connect to',
+)
+@click.option('--device-config', metavar='FILENAME', help='Device configuration file')
+@click.argument('transport')
+def speaker(
+    transport, codec, connect_address, discover, output, ui_port, device_config
+):
+    """Run the speaker."""
+
+    # ffplay only works with AAC for now
+    if codec != 'aac' and '@ffplay' in output:
+        print(
+            color(
+                f'{codec} not supported with @ffplay output, '
+                '@ffplay output will be skipped',
+                'yellow',
+            )
+        )
+        output = list(filter(lambda x: x != '@ffplay', output))
+
+    if '@ffplay' in output:
+        # Check if ffplay is installed
+        try:
+            subprocess.run(['ffplay', '-version'], capture_output=True, check=True)
+        except FileNotFoundError:
+            print(
+                color('ffplay not installed, @ffplay output will be disabled', 'yellow')
+            )
+            output = list(filter(lambda x: x != '@ffplay', output))
+
+    asyncio.run(
+        Speaker(device_config, transport, codec, discover, output, ui_port).run(
+            connect_address
+        )
+    )
+
+
+# -----------------------------------------------------------------------------
+def main():
+    logging.basicConfig(level=os.environ.get('BUMBLE_LOGLEVEL', 'WARNING').upper())
+    speaker()
+
+
+# -----------------------------------------------------------------------------
+if __name__ == "__main__":
+    main()  # pylint: disable=no-value-for-parameter

apps/unbond.py

@@ -22,40 +22,58 @@ import click
 
 from bumble.device import Device
 from bumble.keys import JsonKeyStore
+from bumble.transport import open_transport
+
+# -----------------------------------------------------------------------------
+async def unbond_with_keystore(keystore, address):
+    if address is None:
+        return await keystore.print()
+
+    try:
+        await keystore.delete(address)
+    except KeyError:
+        print('!!! pairing not found')
 
 
 # -----------------------------------------------------------------------------
-async def unbond(keystore_file, device_config, address):
-    # Create a device to manage the host
-    device = Device.from_config_file(device_config)
-
-    # Get all entries in the keystore
+async def unbond(keystore_file, device_config, hci_transport, address):
+    # With a keystore file, we can instantiate the keystore directly
     if keystore_file:
-        keystore = JsonKeyStore(None, keystore_file)
-    else:
-        keystore = device.keystore
+        return await unbond_with_keystore(JsonKeyStore(None, keystore_file), address)
 
-    if keystore is None:
-        print('no keystore')
-        return
+    # Without a keystore file, we need to obtain the keystore from the device
+    async with await open_transport(hci_transport) as (hci_source, hci_sink):
+        # Create a device to manage the host
+        device = Device.from_config_file_with_hci(device_config, hci_source, hci_sink)
 
-    if address is None:
-        await keystore.print()
-    else:
-        try:
-            await keystore.delete(address)
-        except KeyError:
-            print('!!! pairing not found')
+        # Power-on the device to ensure we have a key store
+        await device.power_on()
+
+        return await unbond_with_keystore(device.keystore, address)
 
 
 # -----------------------------------------------------------------------------
 @click.command()
-@click.option('--keystore-file', help='File in which to store the pairing keys')
-@click.argument('device-config')
+@click.option('--keystore-file', help='File in which the pairing keys are stored')
+@click.option('--hci-transport', help='HCI transport for the controller')
+@click.argument('device-config', required=False)
 @click.argument('address', required=False)
-def main(keystore_file, device_config, address):
+def main(keystore_file, hci_transport, device_config, address):
+    """
+    Remove pairing keys for a device, given its address.
+
+    If no keystore file is specified, the --hci-transport option must be used to
+    connect to a controller, so that the keystore for that controller can be
+    instantiated.
+    If no address is passed, the existing pairing keys for all addresses are printed.
+    """
     logging.basicConfig(level=os.environ.get('BUMBLE_LOGLEVEL', 'INFO').upper())
-    asyncio.run(unbond(keystore_file, device_config, address))
+
+    if not keystore_file and not hci_transport:
+        print('either --keystore-file or --hci-transport must be specified.')
+        return
+
+    asyncio.run(unbond(keystore_file, device_config, hci_transport, address))
 
 
 # -----------------------------------------------------------------------------

bumble/a2dp.py

@@ -432,6 +432,7 @@ class AacMediaCodecInformation(
                 cls.SAMPLING_FREQUENCY_BITS[x] for x in sampling_frequencies
             ),
             channels=sum(cls.CHANNELS_BITS[x] for x in channels),
+            rfa=0,
             vbr=vbr,
             bitrate=bitrate,
         )

bumble/avdtp.py

@@ -1207,7 +1207,7 @@ class DelayReport_Reject(Simple_Reject):
 
 
 # -----------------------------------------------------------------------------
-class Protocol:
+class Protocol(EventEmitter):
     SINGLE_PACKET = 0
     START_PACKET = 1
     CONTINUE_PACKET = 2
@@ -1234,6 +1234,7 @@ class Protocol:
         return protocol
 
     def __init__(self, l2cap_channel, version=(1, 3)):
+        super().__init__()
         self.l2cap_channel = l2cap_channel
         self.version = version
         self.rtx_sig_timer = AVDTP_DEFAULT_RTX_SIG_TIMER
@@ -1250,6 +1251,7 @@ class Protocol:
         # Register to receive PDUs from the channel
         l2cap_channel.sink = self.on_pdu
         l2cap_channel.on('open', self.on_l2cap_channel_open)
+        l2cap_channel.on('close', self.on_l2cap_channel_close)
 
     def get_local_endpoint_by_seid(self, seid):
         if 0 < seid <= len(self.local_endpoints):
@@ -1392,11 +1394,18 @@ class Protocol:
 
     def on_l2cap_connection(self, channel):
         # Forward the channel to the endpoint that's expecting it
-        if self.channel_acceptor:
-            self.channel_acceptor.on_l2cap_connection(channel)
+        if self.channel_acceptor is None:
+            logger.warning(color('!!! l2cap connection with no acceptor', 'red'))
+            return
+        self.channel_acceptor.on_l2cap_connection(channel)
 
     def on_l2cap_channel_open(self):
         logger.debug(color('<<< L2CAP channel open', 'magenta'))
+        self.emit('open')
+
+    def on_l2cap_channel_close(self):
+        logger.debug(color('<<< L2CAP channel close', 'magenta'))
+        self.emit('close')
 
     def send_message(self, transaction_label, message):
         logger.debug(
@@ -1651,6 +1660,10 @@ class Listener(EventEmitter):
     def set_server(self, connection, server):
         self.servers[connection.handle] = server
 
+    def remove_server(self, connection):
+        if connection.handle in self.servers:
+            del self.servers[connection.handle]
+
     def __init__(self, registrar, version=(1, 3)):
         super().__init__()
         self.version = version
@@ -1669,11 +1682,17 @@ class Listener(EventEmitter):
         else:
             # This is a new command/response channel
             def on_channel_open():
+                logger.debug('setting up new Protocol for the connection')
                 server = Protocol(channel, self.version)
                 self.set_server(channel.connection, server)
                 self.emit('connection', server)
 
+            def on_channel_close():
+                logger.debug('removing Protocol for the connection')
+                self.remove_server(channel.connection)
+
             channel.on('open', on_channel_open)
+            channel.on('close', on_channel_close)
 
 
 # -----------------------------------------------------------------------------
@@ -1967,11 +1986,12 @@ class DiscoveredStreamEndPoint(StreamEndPoint, StreamEndPointProxy):
 
 
 # -----------------------------------------------------------------------------
-class LocalStreamEndPoint(StreamEndPoint):
+class LocalStreamEndPoint(StreamEndPoint, EventEmitter):
     def __init__(
         self, protocol, seid, media_type, tsep, capabilities, configuration=None
     ):
-        super().__init__(seid, media_type, tsep, 0, capabilities)
+        StreamEndPoint.__init__(self, seid, media_type, tsep, 0, capabilities)
+        EventEmitter.__init__(self)
         self.protocol = protocol
         self.configuration = configuration if configuration is not None else []
         self.stream = None
@@ -1988,40 +2008,47 @@ class LocalStreamEndPoint(StreamEndPoint):
     def on_reconfigure_command(self, command):
         pass
 
+    def on_set_configuration_command(self, configuration):
+        logger.debug(
+            '<<< received configuration: '
+            f'{",".join([str(capability) for capability in configuration])}'
+        )
+        self.configuration = configuration
+        self.emit('configuration')
+
     def on_get_configuration_command(self):
         return Get_Configuration_Response(self.configuration)
 
     def on_open_command(self):
-        pass
+        self.emit('open')
 
     def on_start_command(self):
-        pass
+        self.emit('start')
 
     def on_suspend_command(self):
-        pass
+        self.emit('suspend')
 
     def on_close_command(self):
-        pass
+        self.emit('close')
 
     def on_abort_command(self):
-        pass
+        self.emit('abort')
 
     def on_rtp_channel_open(self):
-        pass
+        self.emit('rtp_channel_open')
 
     def on_rtp_channel_close(self):
-        pass
+        self.emit('rtp_channel_close')
 
 
 # -----------------------------------------------------------------------------
-class LocalSource(LocalStreamEndPoint, EventEmitter):
+class LocalSource(LocalStreamEndPoint):
     def __init__(self, protocol, seid, codec_capabilities, packet_pump):
         capabilities = [
             ServiceCapabilities(AVDTP_MEDIA_TRANSPORT_SERVICE_CATEGORY),
             codec_capabilities,
         ]
-        LocalStreamEndPoint.__init__(
-            self,
+        super().__init__(
             protocol,
             seid,
             codec_capabilities.media_type,
@@ -2029,14 +2056,13 @@ class LocalSource(LocalStreamEndPoint, EventEmitter):
             capabilities,
             capabilities,
         )
-        EventEmitter.__init__(self)
         self.packet_pump = packet_pump
 
     async def start(self):
         if self.packet_pump:
             return await self.packet_pump.start(self.stream.rtp_channel)
 
-        self.emit('start', self.stream.rtp_channel)
+        self.emit('start')
 
     async def stop(self):
         if self.packet_pump:
@@ -2044,11 +2070,6 @@ class LocalSource(LocalStreamEndPoint, EventEmitter):
 
         self.emit('stop')
 
-    def on_set_configuration_command(self, configuration):
-        # For now, blindly accept the configuration
-        logger.debug(f'<<< received source configuration: {configuration}')
-        self.configuration = configuration
-
     def on_start_command(self):
         asyncio.create_task(self.start())
 
@@ -2057,30 +2078,28 @@ class LocalSource(LocalStreamEndPoint, EventEmitter):
 
 
 # -----------------------------------------------------------------------------
-class LocalSink(LocalStreamEndPoint, EventEmitter):
+class LocalSink(LocalStreamEndPoint):
     def __init__(self, protocol, seid, codec_capabilities):
         capabilities = [
             ServiceCapabilities(AVDTP_MEDIA_TRANSPORT_SERVICE_CATEGORY),
             codec_capabilities,
         ]
-        LocalStreamEndPoint.__init__(
-            self,
+        super().__init__(
             protocol,
             seid,
             codec_capabilities.media_type,
             AVDTP_TSEP_SNK,
             capabilities,
         )
-        EventEmitter.__init__(self)
-
-    def on_set_configuration_command(self, configuration):
-        # For now, blindly accept the configuration
-        logger.debug(f'<<< received sink configuration: {configuration}')
-        self.configuration = configuration
 
     def on_rtp_channel_open(self):
         logger.debug(color('<<< RTP channel open', 'magenta'))
         self.stream.rtp_channel.sink = self.on_avdtp_packet
+        super().on_rtp_channel_open()
+
+    def on_rtp_channel_close(self):
+        logger.debug(color('<<< RTP channel close', 'magenta'))
+        super().on_rtp_channel_close()
 
     def on_avdtp_packet(self, packet):
         rtp_packet = MediaPacket.from_bytes(packet)

bumble/codecs.py

@@ -0,0 +1,381 @@
+# Copyright 2023 Google LLC
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+#      https://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+# See the License for the specific language governing permissions and
+# limitations under the License.
+
+# -----------------------------------------------------------------------------
+# Imports
+# -----------------------------------------------------------------------------
+from __future__ import annotations
+from dataclasses import dataclass
+
+
+# -----------------------------------------------------------------------------
+class BitReader:
+    """Simple but not optimized bit stream reader."""
+
+    data: bytes
+    bytes_position: int
+    bit_position: int
+    cache: int
+    bits_cached: int
+
+    def __init__(self, data: bytes):
+        self.data = data
+        self.byte_position = 0
+        self.bit_position = 0
+        self.cache = 0
+        self.bits_cached = 0
+
+    def read(self, bits: int) -> int:
+        """ "Read up to 32 bits."""
+
+        if bits > 32:
+            raise ValueError('maximum read size is 32')
+
+        if self.bits_cached >= bits:
+            # We have enough bits.
+            self.bits_cached -= bits
+            self.bit_position += bits
+            return (self.cache >> self.bits_cached) & ((1 << bits) - 1)
+
+        # Read more cache, up to 32 bits
+        feed_bytes = self.data[self.byte_position : self.byte_position + 4]
+        feed_size = len(feed_bytes)
+        feed_int = int.from_bytes(feed_bytes, byteorder='big')
+        if 8 * feed_size + self.bits_cached < bits:
+            raise ValueError('trying to read past the data')
+        self.byte_position += feed_size
+
+        # Combine the new cache and the old cache
+        cache = self.cache & ((1 << self.bits_cached) - 1)
+        new_bits = bits - self.bits_cached
+        self.bits_cached = 8 * feed_size - new_bits
+        result = (feed_int >> self.bits_cached) | (cache << new_bits)
+        self.cache = feed_int
+
+        self.bit_position += bits
+        return result
+
+    def read_bytes(self, count: int):
+        if self.bit_position + 8 * count > 8 * len(self.data):
+            raise ValueError('not enough data')
+
+        if self.bit_position % 8:
+            # Not byte aligned
+            result = bytearray(count)
+            for i in range(count):
+                result[i] = self.read(8)
+            return bytes(result)
+
+        # Byte aligned
+        self.byte_position = self.bit_position // 8
+        self.bits_cached = 0
+        self.cache = 0
+        offset = self.bit_position // 8
+        self.bit_position += 8 * count
+        return self.data[offset : offset + count]
+
+    def bits_left(self) -> int:
+        return (8 * len(self.data)) - self.bit_position
+
+    def skip(self, bits: int) -> None:
+        # Slow, but simple...
+        while bits:
+            if bits > 32:
+                self.read(32)
+                bits -= 32
+            else:
+                self.read(bits)
+                break
+
+
+# -----------------------------------------------------------------------------
+class AacAudioRtpPacket:
+    """AAC payload encapsulated in an RTP packet payload"""
+
+    @staticmethod
+    def latm_value(reader: BitReader) -> int:
+        bytes_for_value = reader.read(2)
+        value = 0
+        for _ in range(bytes_for_value + 1):
+            value = value * 256 + reader.read(8)
+        return value
+
+    @staticmethod
+    def program_config_element(reader: BitReader):
+        raise ValueError('program_config_element not supported')
+
+    @dataclass
+    class GASpecificConfig:
+        def __init__(
+            self, reader: BitReader, channel_configuration: int, audio_object_type: int
+        ) -> None:
+            # GASpecificConfig - ISO/EIC 14496-3 Table 4.1
+            frame_length_flag = reader.read(1)
+            depends_on_core_coder = reader.read(1)
+            if depends_on_core_coder:
+                self.core_coder_delay = reader.read(14)
+            extension_flag = reader.read(1)
+            if not channel_configuration:
+                AacAudioRtpPacket.program_config_element(reader)
+            if audio_object_type in (6, 20):
+                self.layer_nr = reader.read(3)
+            if extension_flag:
+                if audio_object_type == 22:
+                    num_of_sub_frame = reader.read(5)
+                layer_length = reader.read(11)
+                if audio_object_type in (17, 19, 20, 23):
+                    aac_section_data_resilience_flags = reader.read(1)
+                    aac_scale_factor_data_resilience_flags = reader.read(1)
+                    aac_spectral_data_resilience_flags = reader.read(1)
+                extension_flag_3 = reader.read(1)
+                if extension_flag_3 == 1:
+                    raise ValueError('extensionFlag3 == 1 not supported')
+
+    @staticmethod
+    def audio_object_type(reader: BitReader):
+        # GetAudioObjectType - ISO/EIC 14496-3 Table 1.16
+        audio_object_type = reader.read(5)
+        if audio_object_type == 31:
+            audio_object_type = 32 + reader.read(6)
+
+        return audio_object_type
+
+    @dataclass
+    class AudioSpecificConfig:
+        audio_object_type: int
+        sampling_frequency_index: int
+        sampling_frequency: int
+        channel_configuration: int
+        sbr_present_flag: int
+        ps_present_flag: int
+        extension_audio_object_type: int
+        extension_sampling_frequency_index: int
+        extension_sampling_frequency: int
+        extension_channel_configuration: int
+
+        SAMPLING_FREQUENCIES = [
+            96000,
+            88200,
+            64000,
+            48000,
+            44100,
+            32000,
+            24000,
+            22050,
+            16000,
+            12000,
+            11025,
+            8000,
+            7350,
+        ]
+
+        def __init__(self, reader: BitReader) -> None:
+            # AudioSpecificConfig - ISO/EIC 14496-3 Table 1.15
+            self.audio_object_type = AacAudioRtpPacket.audio_object_type(reader)
+            self.sampling_frequency_index = reader.read(4)
+            if self.sampling_frequency_index == 0xF:
+                self.sampling_frequency = reader.read(24)
+            else:
+                self.sampling_frequency = self.SAMPLING_FREQUENCIES[
+                    self.sampling_frequency_index
+                ]
+            self.channel_configuration = reader.read(4)
+            self.sbr_present_flag = -1
+            self.ps_present_flag = -1
+            if self.audio_object_type in (5, 29):
+                self.extension_audio_object_type = 5
+                self.sbc_present_flag = 1
+                if self.audio_object_type == 29:
+                    self.ps_present_flag = 1
+                self.extension_sampling_frequency_index = reader.read(4)
+                if self.extension_sampling_frequency_index == 0xF:
+                    self.extension_sampling_frequency = reader.read(24)
+                else:
+                    self.extension_sampling_frequency = self.SAMPLING_FREQUENCIES[
+                        self.extension_sampling_frequency_index
+                    ]
+                self.audio_object_type = AacAudioRtpPacket.audio_object_type(reader)
+                if self.audio_object_type == 22:
+                    self.extension_channel_configuration = reader.read(4)
+            else:
+                self.extension_audio_object_type = 0
+
+            if self.audio_object_type in (1, 2, 3, 4, 6, 7, 17, 19, 20, 21, 22, 23):
+                ga_specific_config = AacAudioRtpPacket.GASpecificConfig(
+                    reader, self.channel_configuration, self.audio_object_type
+                )
+            else:
+                raise ValueError(
+                    f'audioObjectType {self.audio_object_type} not supported'
+                )
+
+            # if self.extension_audio_object_type != 5 and bits_to_decode >= 16:
+            #     sync_extension_type = reader.read(11)
+            #     if sync_extension_type == 0x2B7:
+            #         self.extension_audio_object_type = AacAudioRtpPacket.audio_object_type(reader)
+            #         if self.extension_audio_object_type == 5:
+            #             self.sbr_present_flag = reader.read(1)
+            #             if self.sbr_present_flag:
+            #                 self.extension_sampling_frequency_index = reader.read(4)
+            #                 if self.extension_sampling_frequency_index == 0xF:
+            #                     self.extension_sampling_frequency = reader.read(24)
+            #                 else:
+            #                     self.extension_sampling_frequency = self.SAMPLING_FREQUENCIES[self.extension_sampling_frequency_index]
+            #                 if bits_to_decode >= 12:
+            #                     sync_extension_type = reader.read(11)
+            #                     if sync_extension_type == 0x548:
+            #                         self.ps_present_flag = reader.read(1)
+            #         elif self.extension_audio_object_type == 22:
+            #             self.sbr_present_flag = reader.read(1)
+            #             if self.sbr_present_flag:
+            #                 self.extension_sampling_frequency_index = reader.read(4)
+            #                 if self.extension_sampling_frequency_index == 0xF:
+            #                     self.extension_sampling_frequency = reader.read(24)
+            #                 else:
+            #                     self.extension_sampling_frequency = self.SAMPLING_FREQUENCIES[self.extension_sampling_frequency_index]
+            #             self.extension_channel_configuration = reader.read(4)
+
+    @dataclass
+    class StreamMuxConfig:
+        other_data_present: int
+        other_data_len_bits: int
+        audio_specific_config: AacAudioRtpPacket.AudioSpecificConfig
+
+        def __init__(self, reader: BitReader) -> None:
+            # StreamMuxConfig - ISO/EIC 14496-3 Table 1.42
+            audio_mux_version = reader.read(1)
+            if audio_mux_version == 1:
+                audio_mux_version_a = reader.read(1)
+            else:
+                audio_mux_version_a = 0
+            if audio_mux_version_a != 0:
+                raise ValueError('audioMuxVersionA != 0 not supported')
+            if audio_mux_version == 1:
+                tara_buffer_fullness = AacAudioRtpPacket.latm_value(reader)
+            stream_cnt = 0
+            all_streams_same_time_framing = reader.read(1)
+            num_sub_frames = reader.read(6)
+            num_program = reader.read(4)
+            if num_program != 0:
+                raise ValueError('num_program != 0 not supported')
+            num_layer = reader.read(3)
+            if num_layer != 0:
+                raise ValueError('num_layer != 0 not supported')
+            if audio_mux_version == 0:
+                self.audio_specific_config = AacAudioRtpPacket.AudioSpecificConfig(
+                    reader
+                )
+            else:
+                asc_len = AacAudioRtpPacket.latm_value(reader)
+                marker = reader.bit_position
+                self.audio_specific_config = AacAudioRtpPacket.AudioSpecificConfig(
+                    reader
+                )
+                audio_specific_config_len = reader.bit_position - marker
+                if asc_len < audio_specific_config_len:
+                    raise ValueError('audio_specific_config_len > asc_len')
+                asc_len -= audio_specific_config_len
+                reader.skip(asc_len)
+            frame_length_type = reader.read(3)
+            if frame_length_type == 0:
+                latm_buffer_fullness = reader.read(8)
+            elif frame_length_type == 1:
+                frame_length = reader.read(9)
+            else:
+                raise ValueError(f'frame_length_type {frame_length_type} not supported')
+
+            self.other_data_present = reader.read(1)
+            if self.other_data_present:
+                if audio_mux_version == 1:
+                    self.other_data_len_bits = AacAudioRtpPacket.latm_value(reader)
+                else:
+                    self.other_data_len_bits = 0
+                    while True:
+                        self.other_data_len_bits *= 256
+                        other_data_len_esc = reader.read(1)
+                        self.other_data_len_bits += reader.read(8)
+                        if other_data_len_esc == 0:
+                            break
+            crc_check_present = reader.read(1)
+            if crc_check_present:
+                crc_checksum = reader.read(8)
+
+    @dataclass
+    class AudioMuxElement:
+        payload: bytes
+        stream_mux_config: AacAudioRtpPacket.StreamMuxConfig
+
+        def __init__(self, reader: BitReader, mux_config_present: int):
+            if mux_config_present == 0:
+                raise ValueError('muxConfigPresent == 0 not supported')
+
+            # AudioMuxElement - ISO/EIC 14496-3 Table 1.41
+            use_same_stream_mux = reader.read(1)
+            if use_same_stream_mux:
+                raise ValueError('useSameStreamMux == 1 not supported')
+            self.stream_mux_config = AacAudioRtpPacket.StreamMuxConfig(reader)
+
+            # We only support:
+            # allStreamsSameTimeFraming == 1
+            # audioMuxVersionA == 0,
+            # numProgram == 0
+            # numSubFrames == 0
+            # numLayer == 0
+
+            mux_slot_length_bytes = 0
+            while True:
+                tmp = reader.read(8)
+                mux_slot_length_bytes += tmp
+                if tmp != 255:
+                    break
+
+            self.payload = reader.read_bytes(mux_slot_length_bytes)
+
+            if self.stream_mux_config.other_data_present:
+                reader.skip(self.stream_mux_config.other_data_len_bits)
+
+            # ByteAlign
+            while reader.bit_position % 8:
+                reader.read(1)
+
+    def __init__(self, data: bytes) -> None:
+        # Parse the bit stream
+        reader = BitReader(data)
+        self.audio_mux_element = self.AudioMuxElement(reader, mux_config_present=1)
+
+    def to_adts(self):
+        # pylint: disable=line-too-long
+        sampling_frequency_index = (
+            self.audio_mux_element.stream_mux_config.audio_specific_config.sampling_frequency_index
+        )
+        channel_configuration = (
+            self.audio_mux_element.stream_mux_config.audio_specific_config.channel_configuration
+        )
+        frame_size = len(self.audio_mux_element.payload)
+        return (
+            bytes(
+                [
+                    0xFF,
+                    0xF1,  # 0xF9 (MPEG2)
+                    0x40
+                    | (sampling_frequency_index << 2)
+                    | (channel_configuration >> 2),
+                    ((channel_configuration & 0x3) << 6) | ((frame_size + 7) >> 11),
+                    ((frame_size + 7) >> 3) & 0xFF,
+                    (((frame_size + 7) << 5) & 0xFF) | 0x1F,
+                    0xFC,
+                ]
+            )
+            + self.audio_mux_element.payload
+        )

bumble/controller.py

@@ -654,7 +654,7 @@ class Controller:
 
     def on_hci_create_connection_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.1.5 Create Connection command
+        See Bluetooth spec Vol 4, Part E - 7.1.5 Create Connection command
         '''
 
         if self.link is None:
@@ -685,7 +685,7 @@ class Controller:
 
     def on_hci_disconnect_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.1.6 Disconnect Command
+        See Bluetooth spec Vol 4, Part E - 7.1.6 Disconnect Command
         '''
         # First, say that the disconnection is pending
         self.send_hci_packet(
@@ -719,7 +719,7 @@ class Controller:
 
     def on_hci_accept_connection_request_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.1.8 Accept Connection Request command
+        See Bluetooth spec Vol 4, Part E - 7.1.8 Accept Connection Request command
         '''
 
         if self.link is None:
@@ -735,7 +735,7 @@ class Controller:
 
     def on_hci_switch_role_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.2.8 Switch Role command
+        See Bluetooth spec Vol 4, Part E - 7.2.8 Switch Role command
         '''
 
         if self.link is None:
@@ -751,21 +751,21 @@ class Controller:
 
     def on_hci_set_event_mask_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.3.1 Set Event Mask Command
+        See Bluetooth spec Vol 4, Part E - 7.3.1 Set Event Mask Command
         '''
         self.event_mask = command.event_mask
         return bytes([HCI_SUCCESS])
 
     def on_hci_reset_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.3.2 Reset Command
+        See Bluetooth spec Vol 4, Part E - 7.3.2 Reset Command
         '''
         # TODO: cleanup what needs to be reset
         return bytes([HCI_SUCCESS])
 
     def on_hci_write_local_name_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.3.11 Write Local Name Command
+        See Bluetooth spec Vol 4, Part E - 7.3.11 Write Local Name Command
         '''
         local_name = command.local_name
         if len(local_name):
@@ -780,7 +780,7 @@ class Controller:
 
     def on_hci_read_local_name_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.3.12 Read Local Name Command
+        See Bluetooth spec Vol 4, Part E - 7.3.12 Read Local Name Command
         '''
         local_name = bytes(self.local_name, 'utf-8')[:248]
         if len(local_name) < 248:
@@ -790,19 +790,19 @@ class Controller:
 
     def on_hci_read_class_of_device_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.3.25 Read Class of Device Command
+        See Bluetooth spec Vol 4, Part E - 7.3.25 Read Class of Device Command
         '''
         return bytes([HCI_SUCCESS, 0, 0, 0])
 
     def on_hci_write_class_of_device_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.3.26 Write Class of Device Command
+        See Bluetooth spec Vol 4, Part E - 7.3.26 Write Class of Device Command
         '''
         return bytes([HCI_SUCCESS])
 
     def on_hci_read_synchronous_flow_control_enable_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.3.36 Read Synchronous Flow Control Enable
+        See Bluetooth spec Vol 4, Part E - 7.3.36 Read Synchronous Flow Control Enable
         Command
         '''
         if self.sync_flow_control:
@@ -813,7 +813,7 @@ class Controller:
 
     def on_hci_write_synchronous_flow_control_enable_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.3.37 Write Synchronous Flow Control Enable
+        See Bluetooth spec Vol 4, Part E - 7.3.37 Write Synchronous Flow Control Enable
         Command
         '''
         ret = HCI_SUCCESS
@@ -825,41 +825,59 @@ class Controller:
             ret = HCI_INVALID_HCI_COMMAND_PARAMETERS_ERROR
         return bytes([ret])
 
+    def on_hci_set_controller_to_host_flow_control_command(self, _command):
+        '''
+        See Bluetooth spec Vol 4, Part E - 7.3.38 Set Controller To Host Flow Control
+        Command
+        '''
+        # For now we just accept the command but ignore the values.
+        # TODO: respect the passed in values.
+        return bytes([HCI_SUCCESS])
+
+    def on_hci_host_buffer_size_command(self, _command):
+        '''
+        See Bluetooth spec Vol 4, Part E - 7.3.39 Host Buffer Size Command
+        '''
+        # For now we just accept the command but ignore the values.
+        # TODO: respect the passed in values.
+        return bytes([HCI_SUCCESS])
+
     def on_hci_write_extended_inquiry_response_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.3.59 Write Simple Pairing Mode Command
+        See Bluetooth spec Vol 4, Part E - 7.3.56 Write Extended Inquiry Response
+        Command
         '''
         return bytes([HCI_SUCCESS])
 
     def on_hci_write_simple_pairing_mode_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.3.59 Write Simple Pairing Mode Command
+        See Bluetooth spec Vol 4, Part E - 7.3.59 Write Simple Pairing Mode Command
         '''
         return bytes([HCI_SUCCESS])
 
     def on_hci_set_event_mask_page_2_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.3.69 Set Event Mask Page 2 Command
+        See Bluetooth spec Vol 4, Part E - 7.3.69 Set Event Mask Page 2 Command
         '''
         self.event_mask_page_2 = command.event_mask_page_2
         return bytes([HCI_SUCCESS])
 
     def on_hci_read_le_host_support_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.3.78 Write LE Host Support Command
+        See Bluetooth spec Vol 4, Part E - 7.3.78 Write LE Host Support Command
         '''
         return bytes([HCI_SUCCESS, 1, 0])
 
     def on_hci_write_le_host_support_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.3.79 Write LE Host Support Command
+        See Bluetooth spec Vol 4, Part E - 7.3.79 Write LE Host Support Command
         '''
         # TODO / Just ignore for now
         return bytes([HCI_SUCCESS])
 
     def on_hci_write_authenticated_payload_timeout_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.3.94 Write Authenticated Payload Timeout
+        See Bluetooth spec Vol 4, Part E - 7.3.94 Write Authenticated Payload Timeout
         Command
         '''
         # TODO
@@ -867,7 +885,7 @@ class Controller:
 
     def on_hci_read_local_version_information_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.4.1 Read Local Version Information Command
+        See Bluetooth spec Vol 4, Part E - 7.4.1 Read Local Version Information Command
         '''
         return struct.pack(
             '<BBHBHH',
@@ -881,19 +899,19 @@ class Controller:
 
     def on_hci_read_local_supported_commands_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.4.2 Read Local Supported Commands Command
+        See Bluetooth spec Vol 4, Part E - 7.4.2 Read Local Supported Commands Command
         '''
         return bytes([HCI_SUCCESS]) + self.supported_commands
 
     def on_hci_read_local_supported_features_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.4.3 Read Local Supported Features Command
+        See Bluetooth spec Vol 4, Part E - 7.4.3 Read Local Supported Features Command
         '''
         return bytes([HCI_SUCCESS]) + self.lmp_features
 
     def on_hci_read_bd_addr_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.4.6 Read BD_ADDR Command
+        See Bluetooth spec Vol 4, Part E - 7.4.6 Read BD_ADDR Command
         '''
         bd_addr = (
             self._public_address.to_bytes()
@@ -904,14 +922,14 @@ class Controller:
 
     def on_hci_le_set_event_mask_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.1 LE Set Event Mask Command
+        See Bluetooth spec Vol 4, Part E - 7.8.1 LE Set Event Mask Command
         '''
         self.le_event_mask = command.le_event_mask
         return bytes([HCI_SUCCESS])
 
     def on_hci_le_read_buffer_size_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.2 LE Read Buffer Size Command
+        See Bluetooth spec Vol 4, Part E - 7.8.2 LE Read Buffer Size Command
         '''
         return struct.pack(
             '<BHB',
@@ -922,49 +940,49 @@ class Controller:
 
     def on_hci_le_read_local_supported_features_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.3 LE Read Local Supported Features
+        See Bluetooth spec Vol 4, Part E - 7.8.3 LE Read Local Supported Features
         Command
         '''
         return bytes([HCI_SUCCESS]) + self.le_features
 
     def on_hci_le_set_random_address_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.4 LE Set Random Address Command
+        See Bluetooth spec Vol 4, Part E - 7.8.4 LE Set Random Address Command
         '''
         self.random_address = command.random_address
         return bytes([HCI_SUCCESS])
 
     def on_hci_le_set_advertising_parameters_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.5 LE Set Advertising Parameters Command
+        See Bluetooth spec Vol 4, Part E - 7.8.5 LE Set Advertising Parameters Command
         '''
         self.advertising_parameters = command
         return bytes([HCI_SUCCESS])
 
     def on_hci_le_read_advertising_physical_channel_tx_power_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.6 LE Read Advertising Physical Channel
+        See Bluetooth spec Vol 4, Part E - 7.8.6 LE Read Advertising Physical Channel
         Tx Power Command
         '''
         return bytes([HCI_SUCCESS, self.advertising_channel_tx_power])
 
     def on_hci_le_set_advertising_data_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.7 LE Set Advertising Data Command
+        See Bluetooth spec Vol 4, Part E - 7.8.7 LE Set Advertising Data Command
         '''
         self.advertising_data = command.advertising_data
         return bytes([HCI_SUCCESS])
 
     def on_hci_le_set_scan_response_data_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.8 LE Set Scan Response Data Command
+        See Bluetooth spec Vol 4, Part E - 7.8.8 LE Set Scan Response Data Command
         '''
         self.le_scan_response_data = command.scan_response_data
         return bytes([HCI_SUCCESS])
 
     def on_hci_le_set_advertising_enable_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.9 LE Set Advertising Enable Command
+        See Bluetooth spec Vol 4, Part E - 7.8.9 LE Set Advertising Enable Command
         '''
         if command.advertising_enable:
             self.start_advertising()
@@ -975,7 +993,7 @@ class Controller:
 
     def on_hci_le_set_scan_parameters_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.10 LE Set Scan Parameters Command
+        See Bluetooth spec Vol 4, Part E - 7.8.10 LE Set Scan Parameters Command
         '''
         self.le_scan_type = command.le_scan_type
         self.le_scan_interval = command.le_scan_interval
@@ -986,7 +1004,7 @@ class Controller:
 
     def on_hci_le_set_scan_enable_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.11 LE Set Scan Enable Command
+        See Bluetooth spec Vol 4, Part E - 7.8.11 LE Set Scan Enable Command
         '''
         self.le_scan_enable = command.le_scan_enable
         self.filter_duplicates = command.filter_duplicates
@@ -994,7 +1012,7 @@ class Controller:
 
     def on_hci_le_create_connection_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.12 LE Create Connection Command
+        See Bluetooth spec Vol 4, Part E - 7.8.12 LE Create Connection Command
         '''
 
         if not self.link:
@@ -1027,40 +1045,40 @@ class Controller:
 
     def on_hci_le_create_connection_cancel_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.13 LE Create Connection Cancel Command
+        See Bluetooth spec Vol 4, Part E - 7.8.13 LE Create Connection Cancel Command
         '''
         return bytes([HCI_SUCCESS])
 
     def on_hci_le_read_filter_accept_list_size_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.14 LE Read Filter Accept List Size
+        See Bluetooth spec Vol 4, Part E - 7.8.14 LE Read Filter Accept List Size
         Command
         '''
         return bytes([HCI_SUCCESS, self.filter_accept_list_size])
 
     def on_hci_le_clear_filter_accept_list_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.15 LE Clear Filter Accept List Command
+        See Bluetooth spec Vol 4, Part E - 7.8.15 LE Clear Filter Accept List Command
         '''
         return bytes([HCI_SUCCESS])
 
     def on_hci_le_add_device_to_filter_accept_list_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.16 LE Add Device To Filter Accept List
+        See Bluetooth spec Vol 4, Part E - 7.8.16 LE Add Device To Filter Accept List
         Command
         '''
         return bytes([HCI_SUCCESS])
 
     def on_hci_le_remove_device_from_filter_accept_list_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.17 LE Remove Device From Filter Accept
+        See Bluetooth spec Vol 4, Part E - 7.8.17 LE Remove Device From Filter Accept
         List Command
         '''
         return bytes([HCI_SUCCESS])
 
     def on_hci_le_read_remote_features_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.21 LE Read Remote Features Command
+        See Bluetooth spec Vol 4, Part E - 7.8.21 LE Read Remote Features Command
         '''
 
         # First, say that the command is pending
@@ -1083,13 +1101,13 @@ class Controller:
 
     def on_hci_le_rand_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.23 LE Rand Command
+        See Bluetooth spec Vol 4, Part E - 7.8.23 LE Rand Command
         '''
         return bytes([HCI_SUCCESS]) + struct.pack('Q', random.randint(0, 1 << 64))
 
     def on_hci_le_enable_encryption_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.24 LE Enable Encryption Command
+        See Bluetooth spec Vol 4, Part E - 7.8.24 LE Enable Encryption Command
         '''
 
         # Check the parameters
@@ -1122,13 +1140,13 @@ class Controller:
 
     def on_hci_le_read_supported_states_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.27 LE Read Supported States Command
+        See Bluetooth spec Vol 4, Part E - 7.8.27 LE Read Supported States Command
         '''
         return bytes([HCI_SUCCESS]) + self.le_states
 
     def on_hci_le_read_suggested_default_data_length_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.34 LE Read Suggested Default Data Length
+        See Bluetooth spec Vol 4, Part E - 7.8.34 LE Read Suggested Default Data Length
         Command
         '''
         return struct.pack(
@@ -1140,7 +1158,7 @@ class Controller:
 
     def on_hci_le_write_suggested_default_data_length_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.35 LE Write Suggested Default Data Length
+        See Bluetooth spec Vol 4, Part E - 7.8.35 LE Write Suggested Default Data Length
         Command
         '''
         self.suggested_max_tx_octets, self.suggested_max_tx_time = struct.unpack(
@@ -1150,33 +1168,33 @@ class Controller:
 
     def on_hci_le_read_local_p_256_public_key_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.36 LE Read P-256 Public Key Command
+        See Bluetooth spec Vol 4, Part E - 7.8.36 LE Read P-256 Public Key Command
         '''
         # TODO create key and send HCI_LE_Read_Local_P-256_Public_Key_Complete event
         return bytes([HCI_SUCCESS])
 
     def on_hci_le_add_device_to_resolving_list_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.38 LE Add Device To Resolving List
+        See Bluetooth spec Vol 4, Part E - 7.8.38 LE Add Device To Resolving List
         Command
         '''
         return bytes([HCI_SUCCESS])
 
     def on_hci_le_clear_resolving_list_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.40 LE Clear Resolving List Command
+        See Bluetooth spec Vol 4, Part E - 7.8.40 LE Clear Resolving List Command
         '''
         return bytes([HCI_SUCCESS])
 
     def on_hci_le_read_resolving_list_size_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.41 LE Read Resolving List Size Command
+        See Bluetooth spec Vol 4, Part E - 7.8.41 LE Read Resolving List Size Command
         '''
         return bytes([HCI_SUCCESS, self.resolving_list_size])
 
     def on_hci_le_set_address_resolution_enable_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.44 LE Set Address Resolution Enable
+        See Bluetooth spec Vol 4, Part E - 7.8.44 LE Set Address Resolution Enable
         Command
         '''
         ret = HCI_SUCCESS
@@ -1190,7 +1208,7 @@ class Controller:
 
     def on_hci_le_set_resolvable_private_address_timeout_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.45 LE Set Resolvable Private Address
+        See Bluetooth spec Vol 4, Part E - 7.8.45 LE Set Resolvable Private Address
         Timeout Command
         '''
         self.le_rpa_timeout = command.rpa_timeout
@@ -1198,7 +1216,7 @@ class Controller:
 
     def on_hci_le_read_maximum_data_length_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.46 LE Read Maximum Data Length Command
+        See Bluetooth spec Vol 4, Part E - 7.8.46 LE Read Maximum Data Length Command
         '''
         return struct.pack(
             '<BHHHH',
@@ -1211,7 +1229,7 @@ class Controller:
 
     def on_hci_le_read_phy_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.47 LE Read PHY Command
+        See Bluetooth spec Vol 4, Part E - 7.8.47 LE Read PHY Command
         '''
         return struct.pack(
             '<BHBB',
@@ -1223,7 +1241,7 @@ class Controller:
 
     def on_hci_le_set_default_phy_command(self, command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.48 LE Set Default PHY Command
+        See Bluetooth spec Vol 4, Part E - 7.8.48 LE Set Default PHY Command
         '''
         self.default_phy = {
             'all_phys': command.all_phys,
@@ -1234,6 +1252,6 @@ class Controller:
 
     def on_hci_le_read_transmit_power_command(self, _command):
         '''
-        See Bluetooth spec Vol 2, Part E - 7.8.74 LE Read Transmit Power Command
+        See Bluetooth spec Vol 4, Part E - 7.8.74 LE Read Transmit Power Command
         '''
         return struct.pack('<BBB', HCI_SUCCESS, 0, 0)

bumble/core.py

@@ -17,7 +17,7 @@
 # -----------------------------------------------------------------------------
 from __future__ import annotations
 import struct
-from typing import List, Optional, Tuple, Union, cast
+from typing import List, Optional, Tuple, Union, cast, Dict
 
 from .company_ids import COMPANY_IDENTIFIERS
 
@@ -53,7 +53,7 @@ def bit_flags_to_strings(bits, bit_flag_names):
     return names
 
 
-def name_or_number(dictionary, number, width=2):
+def name_or_number(dictionary: Dict[int, str], number: int, width: int = 2) -> str:
     name = dictionary.get(number)
     if name is not None:
         return name
@@ -152,7 +152,12 @@ class UUID:
     BASE_UUID = bytes.fromhex('00001000800000805F9B34FB')[::-1]  # little-endian
     UUIDS: List[UUID] = []  # Registry of all instances created
 
-    def __init__(self, uuid_str_or_int, name=None):
+    uuid_bytes: bytes
+    name: Optional[str]
+
+    def __init__(
+        self, uuid_str_or_int: Union[str, int], name: Optional[str] = None
+    ) -> None:
         if isinstance(uuid_str_or_int, int):
             self.uuid_bytes = struct.pack('<H', uuid_str_or_int)
         else:
@@ -172,7 +177,7 @@ class UUID:
             self.uuid_bytes = bytes(reversed(bytes.fromhex(uuid_str)))
         self.name = name
 
-    def register(self):
+    def register(self) -> UUID:
         # Register this object in the class registry, and update the entry's name if
         # it wasn't set already
         for uuid in self.UUIDS:
@@ -196,22 +201,22 @@ class UUID:
         raise ValueError('only 2, 4 and 16 bytes are allowed')
 
     @classmethod
-    def from_16_bits(cls, uuid_16, name=None):
+    def from_16_bits(cls, uuid_16: int, name: Optional[str] = None) -> UUID:
         return cls.from_bytes(struct.pack('<H', uuid_16), name)
 
     @classmethod
-    def from_32_bits(cls, uuid_32, name=None):
+    def from_32_bits(cls, uuid_32: int, name: Optional[str] = None) -> UUID:
         return cls.from_bytes(struct.pack('<I', uuid_32), name)
 
     @classmethod
-    def parse_uuid(cls, uuid_as_bytes, offset):
+    def parse_uuid(cls, uuid_as_bytes: bytes, offset: int) -> Tuple[int, UUID]:
         return len(uuid_as_bytes), cls.from_bytes(uuid_as_bytes[offset:])
 
     @classmethod
-    def parse_uuid_2(cls, uuid_as_bytes, offset):
+    def parse_uuid_2(cls, uuid_as_bytes: bytes, offset: int) -> Tuple[int, UUID]:
         return offset + 2, cls.from_bytes(uuid_as_bytes[offset : offset + 2])
 
-    def to_bytes(self, force_128=False):
+    def to_bytes(self, force_128: bool = False) -> bytes:
         '''
         Serialize UUID in little-endian byte-order
         '''
@@ -227,7 +232,7 @@ class UUID:
         else:
             assert False, "unreachable"
 
-    def to_pdu_bytes(self):
+    def to_pdu_bytes(self) -> bytes:
         '''
         Convert to bytes for use in an ATT PDU.
         According to Vol 3, Part F - 3.2.1 Attribute Type:
@@ -236,11 +241,11 @@ class UUID:
         '''
         return self.to_bytes(force_128=(len(self.uuid_bytes) == 4))
 
-    def to_hex_str(self) -> str:
+    def to_hex_str(self, separator: str = '') -> str:
         if len(self.uuid_bytes) == 2 or len(self.uuid_bytes) == 4:
             return bytes(reversed(self.uuid_bytes)).hex().upper()
 
-        return ''.join(
+        return separator.join(
             [
                 bytes(reversed(self.uuid_bytes[12:16])).hex(),
                 bytes(reversed(self.uuid_bytes[10:12])).hex(),
@@ -250,10 +255,10 @@ class UUID:
             ]
         ).upper()
 
-    def __bytes__(self):
+    def __bytes__(self) -> bytes:
         return self.to_bytes()
 
-    def __eq__(self, other):
+    def __eq__(self, other: object) -> bool:
         if isinstance(other, UUID):
             return self.to_bytes(force_128=True) == other.to_bytes(force_128=True)
 
@@ -262,35 +267,19 @@ class UUID:
 
         return False
 
-    def __hash__(self):
+    def __hash__(self) -> int:
         return hash(self.uuid_bytes)
 
-    def __str__(self):
+    def __str__(self) -> str:
+        result = self.to_hex_str(separator='-')
         if len(self.uuid_bytes) == 2:
-            uuid = struct.unpack('<H', self.uuid_bytes)[0]
-            result = f'UUID-16:{uuid:04X}'
+            result = 'UUID-16:' + result
         elif len(self.uuid_bytes) == 4:
-            uuid = struct.unpack('<I', self.uuid_bytes)[0]
-            result = f'UUID-32:{uuid:08X}'
-        else:
-            result = '-'.join(
-                [
-                    bytes(reversed(self.uuid_bytes[12:16])).hex(),
-                    bytes(reversed(self.uuid_bytes[10:12])).hex(),
-                    bytes(reversed(self.uuid_bytes[8:10])).hex(),
-                    bytes(reversed(self.uuid_bytes[6:8])).hex(),
-                    bytes(reversed(self.uuid_bytes[0:6])).hex(),
-                ]
-            ).upper()
-
+            result = 'UUID-32:' + result
         if self.name is not None:
-            return result + f' ({self.name})'
-
+            result += f' ({self.name})'
         return result
 
-    def __repr__(self):
-        return str(self)
-
 
 # -----------------------------------------------------------------------------
 # Common UUID constants
@@ -573,11 +562,82 @@ class DeviceClass:
         PERIPHERAL_HANDHELD_GESTURAL_INPUT_DEVICE_MINOR_DEVICE_CLASS: 'Handheld gestural input device'
     }
 
+    WEARABLE_UNCATEGORIZED_MINOR_DEVICE_CLASS = 0x00
+    WEARABLE_WRISTWATCH_MINOR_DEVICE_CLASS    = 0x01
+    WEARABLE_PAGER_MINOR_DEVICE_CLASS         = 0x02
+    WEARABLE_JACKET_MINOR_DEVICE_CLASS        = 0x03
+    WEARABLE_HELMET_MINOR_DEVICE_CLASS        = 0x04
+    WEARABLE_GLASSES_MINOR_DEVICE_CLASS       = 0x05
+
+    WEARABLE_MINOR_DEVICE_CLASS_NAMES = {
+        WEARABLE_UNCATEGORIZED_MINOR_DEVICE_CLASS: 'Uncategorized',
+        WEARABLE_WRISTWATCH_MINOR_DEVICE_CLASS:    'Wristwatch',
+        WEARABLE_PAGER_MINOR_DEVICE_CLASS:         'Pager',
+        WEARABLE_JACKET_MINOR_DEVICE_CLASS:        'Jacket',
+        WEARABLE_HELMET_MINOR_DEVICE_CLASS:        'Helmet',
+        WEARABLE_GLASSES_MINOR_DEVICE_CLASS:       'Glasses',
+    }
+
+    TOY_UNCATEGORIZED_MINOR_DEVICE_CLASS      = 0x00
+    TOY_ROBOT_MINOR_DEVICE_CLASS              = 0x01
+    TOY_VEHICLE_MINOR_DEVICE_CLASS            = 0x02
+    TOY_DOLL_ACTION_FIGURE_MINOR_DEVICE_CLASS = 0x03
+    TOY_CONTROLLER_MINOR_DEVICE_CLASS         = 0x04
+    TOY_GAME_MINOR_DEVICE_CLASS               = 0x05
+
+    TOY_MINOR_DEVICE_CLASS_NAMES = {
+        TOY_UNCATEGORIZED_MINOR_DEVICE_CLASS:      'Uncategorized',
+        TOY_ROBOT_MINOR_DEVICE_CLASS:              'Robot',
+        TOY_VEHICLE_MINOR_DEVICE_CLASS:            'Vehicle',
+        TOY_DOLL_ACTION_FIGURE_MINOR_DEVICE_CLASS: 'Doll/Action figure',
+        TOY_CONTROLLER_MINOR_DEVICE_CLASS:         'Controller',
+        TOY_GAME_MINOR_DEVICE_CLASS:               'Game',
+    }
+
+    HEALTH_UNDEFINED_MINOR_DEVICE_CLASS                 = 0x00
+    HEALTH_BLOOD_PRESSURE_MONITOR_MINOR_DEVICE_CLASS    = 0x01
+    HEALTH_THERMOMETER_MINOR_DEVICE_CLASS               = 0x02
+    HEALTH_WEIGHING_SCALE_MINOR_DEVICE_CLASS            = 0x03
+    HEALTH_GLUCOSE_METER_MINOR_DEVICE_CLASS             = 0x04
+    HEALTH_PULSE_OXIMETER_MINOR_DEVICE_CLASS            = 0x05
+    HEALTH_HEART_PULSE_RATE_MONITOR_MINOR_DEVICE_CLASS  = 0x06
+    HEALTH_HEALTH_DATA_DISPLAY_MINOR_DEVICE_CLASS       = 0x07
+    HEALTH_STEP_COUNTER_MINOR_DEVICE_CLASS              = 0x08
+    HEALTH_BODY_COMPOSITION_ANALYZER_MINOR_DEVICE_CLASS = 0x09
+    HEALTH_PEAK_FLOW_MONITOR_MINOR_DEVICE_CLASS         = 0x0A
+    HEALTH_MEDICATION_MONITOR_MINOR_DEVICE_CLASS        = 0x0B
+    HEALTH_KNEE_PROSTHESIS_MINOR_DEVICE_CLASS           = 0x0C
+    HEALTH_ANKLE_PROSTHESIS_MINOR_DEVICE_CLASS          = 0x0D
+    HEALTH_GENERIC_HEALTH_MANAGER_MINOR_DEVICE_CLASS    = 0x0E
+    HEALTH_PERSONAL_MOBILITY_DEVICE_MINOR_DEVICE_CLASS  = 0x0F
+
+    HEALTH_MINOR_DEVICE_CLASS_NAMES = {
+        HEALTH_UNDEFINED_MINOR_DEVICE_CLASS:                 'Undefined',
+        HEALTH_BLOOD_PRESSURE_MONITOR_MINOR_DEVICE_CLASS:    'Blood Pressure Monitor',
+        HEALTH_THERMOMETER_MINOR_DEVICE_CLASS:               'Thermometer',
+        HEALTH_WEIGHING_SCALE_MINOR_DEVICE_CLASS:            'Weighing Scale',
+        HEALTH_GLUCOSE_METER_MINOR_DEVICE_CLASS:             'Glucose Meter',
+        HEALTH_PULSE_OXIMETER_MINOR_DEVICE_CLASS:            'Pulse Oximeter',
+        HEALTH_HEART_PULSE_RATE_MONITOR_MINOR_DEVICE_CLASS:  'Heart/Pulse Rate Monitor',
+        HEALTH_HEALTH_DATA_DISPLAY_MINOR_DEVICE_CLASS:       'Health Data Display',
+        HEALTH_STEP_COUNTER_MINOR_DEVICE_CLASS:              'Step Counter',
+        HEALTH_BODY_COMPOSITION_ANALYZER_MINOR_DEVICE_CLASS: 'Body Composition Analyzer',
+        HEALTH_PEAK_FLOW_MONITOR_MINOR_DEVICE_CLASS:         'Peak Flow Monitor',
+        HEALTH_MEDICATION_MONITOR_MINOR_DEVICE_CLASS:        'Medication Monitor',
+        HEALTH_KNEE_PROSTHESIS_MINOR_DEVICE_CLASS:           'Knee Prosthesis',
+        HEALTH_ANKLE_PROSTHESIS_MINOR_DEVICE_CLASS:          'Ankle Prosthesis',
+        HEALTH_GENERIC_HEALTH_MANAGER_MINOR_DEVICE_CLASS:    'Generic Health Manager',
+        HEALTH_PERSONAL_MOBILITY_DEVICE_MINOR_DEVICE_CLASS:  'Personal Mobility Device',
+    }
+
     MINOR_DEVICE_CLASS_NAMES = {
         COMPUTER_MAJOR_DEVICE_CLASS:    COMPUTER_MINOR_DEVICE_CLASS_NAMES,
         PHONE_MAJOR_DEVICE_CLASS:       PHONE_MINOR_DEVICE_CLASS_NAMES,
         AUDIO_VIDEO_MAJOR_DEVICE_CLASS: AUDIO_VIDEO_MINOR_DEVICE_CLASS_NAMES,
-        PERIPHERAL_MAJOR_DEVICE_CLASS:  PERIPHERAL_MINOR_DEVICE_CLASS_NAMES
+        PERIPHERAL_MAJOR_DEVICE_CLASS:  PERIPHERAL_MINOR_DEVICE_CLASS_NAMES,
+        WEARABLE_MAJOR_DEVICE_CLASS:    WEARABLE_MINOR_DEVICE_CLASS_NAMES,
+        TOY_MAJOR_DEVICE_CLASS:         TOY_MINOR_DEVICE_CLASS_NAMES,
+        HEALTH_MAJOR_DEVICE_CLASS:      HEALTH_MINOR_DEVICE_CLASS_NAMES,
     }
 
     # fmt: on
@@ -773,7 +833,7 @@ class AdvertisingData:
     def uuid_list_to_objects(ad_data: bytes, uuid_size: int) -> List[UUID]:
         uuids = []
         offset = 0
-        while (uuid_size * (offset + 1)) <= len(ad_data):
+        while (offset + uuid_size) <= len(ad_data):
             uuids.append(UUID.from_bytes(ad_data[offset : offset + uuid_size]))
             offset += uuid_size
         return uuids

bumble/crypto.py

@@ -23,22 +23,18 @@
 # -----------------------------------------------------------------------------
 import logging
 import operator
-import platform
 
-if platform.system() != 'Emscripten':
-    import secrets
-    from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes
-    from cryptography.hazmat.primitives.asymmetric.ec import (
-        generate_private_key,
-        ECDH,
-        EllipticCurvePublicNumbers,
-        EllipticCurvePrivateNumbers,
-        SECP256R1,
-    )
-    from cryptography.hazmat.primitives import cmac
-else:
-    # TODO: implement stubs
-    pass
+import secrets
+from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes
+from cryptography.hazmat.primitives.asymmetric.ec import (
+    generate_private_key,
+    ECDH,
+    EllipticCurvePublicNumbers,
+    EllipticCurvePrivateNumbers,
+    SECP256R1,
+)
+from cryptography.hazmat.primitives import cmac
+
 
 # -----------------------------------------------------------------------------
 # Logging

bumble/device.py

@@ -23,17 +23,19 @@ import asyncio
 import logging
 from contextlib import asynccontextmanager, AsyncExitStack
 from dataclasses import dataclass
-from typing import Any, ClassVar, Dict, List, Optional, Tuple, Union
+from typing import Any, Callable, ClassVar, Dict, List, Optional, Tuple, Type, Union
 
 from .colors import color
 from .att import ATT_CID, ATT_DEFAULT_MTU, ATT_PDU
 from .gatt import Characteristic, Descriptor, Service
 from .hci import (
+    HCI_AUTHENTICATED_COMBINATION_KEY_GENERATED_FROM_P_192_TYPE,
+    HCI_AUTHENTICATED_COMBINATION_KEY_GENERATED_FROM_P_256_TYPE,
     HCI_CENTRAL_ROLE,
     HCI_COMMAND_STATUS_PENDING,
     HCI_CONNECTION_REJECTED_DUE_TO_LIMITED_RESOURCES_ERROR,
-    HCI_DISPLAY_ONLY_IO_CAPABILITY,
     HCI_DISPLAY_YES_NO_IO_CAPABILITY,
+    HCI_DISPLAY_ONLY_IO_CAPABILITY,
     HCI_EXTENDED_INQUIRY_MODE,
     HCI_GENERAL_INQUIRY_LAP,
     HCI_INVALID_HCI_COMMAND_PARAMETERS_ERROR,
@@ -84,6 +86,7 @@ from .hci import (
     HCI_LE_Extended_Create_Connection_Command,
     HCI_LE_Rand_Command,
     HCI_LE_Read_PHY_Command,
+    HCI_LE_Set_Address_Resolution_Enable_Command,
     HCI_LE_Set_Advertising_Data_Command,
     HCI_LE_Set_Advertising_Enable_Command,
     HCI_LE_Set_Advertising_Parameters_Command,
@@ -141,6 +144,7 @@ from .keys import (
     KeyStore,
     PairingKeys,
 )
+from .pairing import PairingConfig
 from . import gatt_client
 from . import gatt_server
 from . import smp
@@ -198,6 +202,7 @@ DEVICE_DEFAULT_L2CAP_COC_MAX_CREDITS          = l2cap.L2CAP_LE_CREDIT_BASED_CONN
 # Classes
 # -----------------------------------------------------------------------------
 
+
 # -----------------------------------------------------------------------------
 class Advertisement:
     address: Address
@@ -524,12 +529,15 @@ class Connection(CompositeEventEmitter):
     transport: int
     self_address: Address
     peer_address: Address
+    peer_resolvable_address: Optional[Address]
     role: int
     encryption: int
     authenticated: bool
     sc: bool
     link_key_type: int
     gatt_client: gatt_client.Client
+    pairing_peer_io_capability: Optional[int]
+    pairing_peer_authentication_requirements: Optional[int]
 
     @composite_listener
     class Listener:
@@ -593,10 +601,12 @@ class Connection(CompositeEventEmitter):
         self.gatt_server = (
             device.gatt_server
         )  # By default, use the device's shared server
+        self.pairing_peer_io_capability = None
+        self.pairing_peer_authentication_requirements = None
 
     # [Classic only]
     @classmethod
-    def incomplete(cls, device, peer_address):
+    def incomplete(cls, device, peer_address, role):
         """
         Instantiate an incomplete connection (ie. one waiting for a HCI Connection
         Complete event).
@@ -609,28 +619,30 @@ class Connection(CompositeEventEmitter):
             device.public_address,
             peer_address,
             None,
-            None,
+            role,
             None,
             None,
         )
 
     # [Classic only]
-    def complete(self, handle, peer_resolvable_address, role, parameters):
+    def complete(self, handle, parameters):
         """
         Finish an incomplete connection upon completion.
         """
         assert self.handle is None
         assert self.transport == BT_BR_EDR_TRANSPORT
         self.handle = handle
-        self.peer_resolvable_address = peer_resolvable_address
-        # Quirk: role might be known before complete
-        if self.role is None:
-            self.role = role
         self.parameters = parameters
 
     @property
     def role_name(self):
-        return 'CENTRAL' if self.role == BT_CENTRAL_ROLE else 'PERIPHERAL'
+        if self.role is None:
+            return 'NOT-SET'
+        if self.role == BT_CENTRAL_ROLE:
+            return 'CENTRAL'
+        if self.role == BT_PERIPHERAL_ROLE:
+            return 'PERIPHERAL'
+        return f'UNKNOWN[{self.role}]'
 
     @property
     def is_encrypted(self):
@@ -638,7 +650,7 @@ class Connection(CompositeEventEmitter):
 
     @property
     def is_incomplete(self) -> bool:
-        return self.handle == None
+        return self.handle is None
 
     def send_l2cap_pdu(self, cid, pdu):
         self.device.send_l2cap_pdu(self.handle, cid, pdu)
@@ -751,10 +763,11 @@ class DeviceConfiguration:
         self.advertising_interval_max = DEVICE_DEFAULT_ADVERTISING_INTERVAL
         self.le_enabled = True
         # LE host enable 2nd parameter
-        self.le_simultaneous_enabled = True
+        self.le_simultaneous_enabled = False
         self.classic_enabled = False
         self.classic_sc_enabled = True
         self.classic_ssp_enabled = True
+        self.classic_smp_enabled = True
         self.classic_accept_any = True
         self.connectable = True
         self.discoverable = True
@@ -766,6 +779,7 @@ class DeviceConfiguration:
         self.irk = bytes(16)  # This really must be changed for any level of security
         self.keystore = None
         self.gatt_services: List[Dict[str, Any]] = []
+        self.address_resolution_offload = False
 
     def load_from_dict(self, config: Dict[str, Any]) -> None:
         # Load simple properties
@@ -789,6 +803,9 @@ class DeviceConfiguration:
         self.classic_ssp_enabled = config.get(
             'classic_ssp_enabled', self.classic_ssp_enabled
         )
+        self.classic_smp_enabled = config.get(
+            'classic_smp_enabled', self.classic_smp_enabled
+        )
         self.classic_accept_any = config.get(
             'classic_accept_any', self.classic_accept_any
         )
@@ -811,6 +828,12 @@ class DeviceConfiguration:
         advertising_data = config.get('advertising_data')
         if advertising_data:
             self.advertising_data = bytes.fromhex(advertising_data)
+        elif config.get('name') is not None:
+            self.advertising_data = bytes(
+                AdvertisingData(
+                    [(AdvertisingData.COMPLETE_LOCAL_NAME, bytes(self.name, 'utf-8'))]
+                )
+            )
 
     def load_from_file(self, filename):
         with open(filename, 'r', encoding='utf-8') as file:
@@ -874,7 +897,7 @@ def host_event_handler(function):
 # List of host event handlers for the Device class.
 # (we define this list outside the class, because referencing a class in method
 #  decorators is not straightforward)
-device_host_event_handlers: list[str] = []
+device_host_event_handlers: List[str] = []
 
 
 # -----------------------------------------------------------------------------
@@ -933,12 +956,16 @@ class Device(CompositeEventEmitter):
         config.load_from_file(filename)
         return cls(config=config)
 
+    @classmethod
+    def from_config_with_hci(cls, config, hci_source, hci_sink):
+        host = Host(controller_source=hci_source, controller_sink=hci_sink)
+        return cls(config=config, host=host)
+
     @classmethod
     def from_config_file_with_hci(cls, filename, hci_source, hci_sink):
         config = DeviceConfiguration()
         config.load_from_file(filename)
-        host = Host(controller_source=hci_source, controller_sink=hci_sink)
-        return cls(config=config, host=host)
+        return cls.from_config_with_hci(config, hci_source, hci_sink)
 
     def __init__(
         self,
@@ -998,11 +1025,13 @@ class Device(CompositeEventEmitter):
         self.le_enabled = config.le_enabled
         self.classic_enabled = config.classic_enabled
         self.le_simultaneous_enabled = config.le_simultaneous_enabled
-        self.classic_ssp_enabled = config.classic_ssp_enabled
         self.classic_sc_enabled = config.classic_sc_enabled
+        self.classic_ssp_enabled = config.classic_ssp_enabled
+        self.classic_smp_enabled = config.classic_smp_enabled
         self.discoverable = config.discoverable
         self.connectable = config.connectable
         self.classic_accept_any = config.classic_accept_any
+        self.address_resolution_offload = config.address_resolution_offload
 
         for service in config.gatt_services:
             characteristics = []
@@ -1042,12 +1071,12 @@ class Device(CompositeEventEmitter):
             self.random_address = address
 
         # Setup SMP
-        self.smp_manager = smp.Manager(self)
-        self.l2cap_channel_manager.register_fixed_channel(smp.SMP_CID, self.on_smp_pdu)
-        self.l2cap_channel_manager.register_fixed_channel(
-            smp.SMP_BR_CID, self.on_smp_pdu
+        self.smp_manager = smp.Manager(
+            self, pairing_config_factory=lambda connection: PairingConfig()
         )
 
+        self.l2cap_channel_manager.register_fixed_channel(smp.SMP_CID, self.on_smp_pdu)
+
         # Register the SDP server with the L2CAP Channel Manager
         self.sdp_server.register(self.l2cap_channel_manager)
 
@@ -1183,6 +1212,12 @@ class Device(CompositeEventEmitter):
         if self.keystore is None:
             self.keystore = KeyStore.create_for_device(self)
 
+        # Finish setting up SMP based on post-init configurable options
+        if self.classic_smp_enabled:
+            self.l2cap_channel_manager.register_fixed_channel(
+                smp.SMP_BR_CID, self.on_smp_pdu
+            )
+
         if self.host.supports_command(HCI_WRITE_LE_HOST_SUPPORT_COMMAND):
             await self.send_command(
                 HCI_Write_LE_Host_Support_Command(
@@ -1224,31 +1259,16 @@ class Device(CompositeEventEmitter):
                 )
 
             # Load the address resolving list
-            if self.keystore and self.host.supports_command(
-                HCI_LE_CLEAR_RESOLVING_LIST_COMMAND
-            ):
-                await self.send_command(HCI_LE_Clear_Resolving_List_Command())  # type: ignore[call-arg]
+            if self.keystore:
+                await self.refresh_resolving_list()
 
-                resolving_keys = await self.keystore.get_resolving_keys()
-                for (irk, address) in resolving_keys:
-                    await self.send_command(
-                        HCI_LE_Add_Device_To_Resolving_List_Command(
-                            peer_identity_address_type=address.address_type,
-                            peer_identity_address=address,
-                            peer_irk=irk,
-                            local_irk=self.irk,
-                        )  # type: ignore[call-arg]
-                    )
-
-                # Enable address resolution
-                # await self.send_command(
-                #     HCI_LE_Set_Address_Resolution_Enable_Command(
-                #         address_resolution_enable=1)
-                #     )
-                # )
-
-                # Create a host-side address resolver
-                self.address_resolver = smp.AddressResolver(resolving_keys)
+            # Enable address resolution
+            if self.address_resolution_offload:
+                await self.send_command(
+                    HCI_LE_Set_Address_Resolution_Enable_Command(
+                        address_resolution_enable=1
+                    )  # type: ignore[call-arg]
+                )
 
         if self.classic_enabled:
             await self.send_command(
@@ -1278,6 +1298,26 @@ class Device(CompositeEventEmitter):
             await self.host.flush()
             self.powered_on = False
 
+    async def refresh_resolving_list(self) -> None:
+        assert self.keystore is not None
+
+        resolving_keys = await self.keystore.get_resolving_keys()
+        # Create a host-side address resolver
+        self.address_resolver = smp.AddressResolver(resolving_keys)
+
+        if self.address_resolution_offload:
+            await self.send_command(HCI_LE_Clear_Resolving_List_Command())  # type: ignore[call-arg]
+
+            for irk, address in resolving_keys:
+                await self.send_command(
+                    HCI_LE_Add_Device_To_Resolving_List_Command(
+                        peer_identity_address_type=address.address_type,
+                        peer_identity_address=address,
+                        peer_irk=irk,
+                        local_irk=self.irk,
+                    )  # type: ignore[call-arg]
+                )
+
     def supports_le_feature(self, feature):
         return self.host.supports_le_feature(feature)
 
@@ -1802,7 +1842,7 @@ class Device(CompositeEventEmitter):
             else:
                 # Save pending connection
                 self.pending_connections[peer_address] = Connection.incomplete(
-                    self, peer_address
+                    self, peer_address, BT_CENTRAL_ROLE
                 )
 
                 # TODO: allow passing other settings
@@ -1939,9 +1979,12 @@ class Device(CompositeEventEmitter):
         self.on('connection', on_connection)
         self.on('connection_failure', on_connection_failure)
 
-        # Save pending connection
+        # Save pending connection, with the Peripheral role.
+        # Even if we requested a role switch in the HCI_Accept_Connection_Request
+        # command, this connection is still considered Peripheral until an eventual
+        # role change event.
         self.pending_connections[peer_address] = Connection.incomplete(
-            self, peer_address
+            self, peer_address, BT_PERIPHERAL_ROLE
         )
 
         try:
@@ -2172,13 +2215,23 @@ class Device(CompositeEventEmitter):
                 await self.stop_discovery()
 
     @property
-    def pairing_config_factory(self):
+    def pairing_config_factory(self) -> Callable[[Connection], PairingConfig]:
         return self.smp_manager.pairing_config_factory
 
     @pairing_config_factory.setter
-    def pairing_config_factory(self, pairing_config_factory):
+    def pairing_config_factory(
+        self, pairing_config_factory: Callable[[Connection], PairingConfig]
+    ) -> None:
         self.smp_manager.pairing_config_factory = pairing_config_factory
 
+    @property
+    def smp_session_proxy(self) -> Type[smp.Session]:
+        return self.smp_manager.session_proxy
+
+    @smp_session_proxy.setter
+    def smp_session_proxy(self, session_proxy: Type[smp.Session]) -> None:
+        self.smp_manager.session_proxy = session_proxy
+
     async def pair(self, connection):
         return await self.smp_manager.pair(connection)
 
@@ -2208,13 +2261,22 @@ class Device(CompositeEventEmitter):
                 if connection.role == BT_PERIPHERAL_ROLE and keys.ltk_peripheral:
                     return keys.ltk_peripheral.value
 
-    async def get_link_key(self, address):
+    async def get_link_key(self, address: Address) -> Optional[bytes]:
+        if self.keystore is None:
+            return None
+
         # Look for the key in the keystore
-        if self.keystore is not None:
-            keys = await self.keystore.get(str(address))
-            if keys is not None:
-                logger.debug('found keys in the key store')
-                return keys.link_key.value
+        keys = await self.keystore.get(str(address))
+        if keys is None:
+            logger.debug(f'no keys found for {address}')
+            return None
+
+        logger.debug('found keys in the key store')
+        if keys.link_key is None:
+            logger.warning('no link key')
+            return None
+
+        return keys.link_key.value
 
     # [Classic only]
     async def authenticate(self, connection):
@@ -2333,6 +2395,18 @@ class Device(CompositeEventEmitter):
                 'connection_encryption_failure', on_encryption_failure
             )
 
+    async def update_keys(self, address: str, keys: PairingKeys) -> None:
+        if self.keystore is None:
+            return
+
+        try:
+            await self.keystore.update(address, keys)
+            await self.refresh_resolving_list()
+        except Exception as error:
+            logger.warning(f'!!! error while storing keys: {error}')
+        else:
+            self.emit('key_store_update')
+
     # [Classic only]
     async def switch_role(self, connection: Connection, role: int):
         pending_role_change = asyncio.get_running_loop().create_future()
@@ -2395,7 +2469,7 @@ class Device(CompositeEventEmitter):
 
             if result.status != HCI_COMMAND_STATUS_PENDING:
                 logger.warning(
-                    'HCI_Set_Connection_Encryption_Command failed: '
+                    'HCI_Remote_Name_Request_Command failed: '
                     f'{HCI_Constant.error_name(result.status)}'
                 )
                 raise HCI_StatusError(result)
@@ -2418,16 +2492,16 @@ class Device(CompositeEventEmitter):
     def on_link_key(self, bd_addr, link_key, key_type):
         # Store the keys in the key store
         if self.keystore:
+            authenticated = key_type in (
+                HCI_AUTHENTICATED_COMBINATION_KEY_GENERATED_FROM_P_192_TYPE,
+                HCI_AUTHENTICATED_COMBINATION_KEY_GENERATED_FROM_P_256_TYPE,
+            )
             pairing_keys = PairingKeys()
-            pairing_keys.link_key = PairingKeys.Key(value=link_key)
+            pairing_keys.link_key = PairingKeys.Key(
+                value=link_key, authenticated=authenticated
+            )
 
-            async def store_keys():
-                try:
-                    await self.keystore.update(str(bd_addr), pairing_keys)
-                except Exception as error:
-                    logger.warning(f'!!! error while storing keys: {error}')
-
-            self.abort_on('flush', store_keys())
+            self.abort_on('flush', self.update_keys(str(bd_addr), pairing_keys))
 
         if connection := self.find_connection_by_bd_addr(
             bd_addr, transport=BT_BR_EDR_TRANSPORT
@@ -2463,25 +2537,24 @@ class Device(CompositeEventEmitter):
         connection_handle,
         transport,
         peer_address,
-        peer_resolvable_address,
         role,
         connection_parameters,
     ):
         logger.debug(
             f'*** Connection: [0x{connection_handle:04X}] '
-            f'{peer_address} as {HCI_Constant.role_name(role)}'
+            f'{peer_address} {"" if role is None else HCI_Constant.role_name(role)}'
         )
         if connection_handle in self.connections:
             logger.warning(
                 'new connection reuses the same handle as a previous connection'
             )
 
+        peer_resolvable_address = None
+
         if transport == BT_BR_EDR_TRANSPORT:
             # Create a new connection
             connection = self.pending_connections.pop(peer_address)
-            connection.complete(
-                connection_handle, peer_resolvable_address, role, connection_parameters
-            )
+            connection.complete(connection_handle, connection_parameters)
             self.connections[connection_handle] = connection
 
             # Emit an event to notify listeners of the new connection
@@ -2593,7 +2666,9 @@ class Device(CompositeEventEmitter):
         # device configuration is set to accept any incoming connection
         elif self.classic_accept_any:
             # Save pending connection
-            self.pending_connections[bd_addr] = Connection.incomplete(self, bd_addr)
+            self.pending_connections[bd_addr] = Connection.incomplete(
+                self, bd_addr, BT_PERIPHERAL_ROLE
+            )
 
             self.host.send_command_sync(
                 HCI_Accept_Connection_Request_Command(
@@ -2684,7 +2759,7 @@ class Device(CompositeEventEmitter):
         # On Secure Simple Pairing complete, in case:
         # - Connection isn't already authenticated
         # - AND we are not the initiator of the authentication
-        # We must trigger authentication to known if we are truly authenticated
+        # We must trigger authentication to know if we are truly authenticated
         if not connection.authenticating and not connection.authenticated:
             logger.debug(
                 f'*** Trigger Connection Authentication: [0x{connection.handle:04X}] '
@@ -2699,22 +2774,6 @@ class Device(CompositeEventEmitter):
         # Ask what the pairing config should be for this connection
         pairing_config = self.pairing_config_factory(connection)
 
-        # Map the SMP IO capability to a Classic IO capability
-        # pylint: disable=line-too-long
-        io_capability = {
-            smp.SMP_DISPLAY_ONLY_IO_CAPABILITY: HCI_DISPLAY_ONLY_IO_CAPABILITY,
-            smp.SMP_DISPLAY_YES_NO_IO_CAPABILITY: HCI_DISPLAY_YES_NO_IO_CAPABILITY,
-            smp.SMP_KEYBOARD_ONLY_IO_CAPABILITY: HCI_KEYBOARD_ONLY_IO_CAPABILITY,
-            smp.SMP_NO_INPUT_NO_OUTPUT_IO_CAPABILITY: HCI_NO_INPUT_NO_OUTPUT_IO_CAPABILITY,
-            smp.SMP_KEYBOARD_DISPLAY_IO_CAPABILITY: HCI_DISPLAY_YES_NO_IO_CAPABILITY,
-        }.get(pairing_config.delegate.io_capability)
-
-        if io_capability is None:
-            logger.warning(
-                f'cannot map IO capability ({pairing_config.delegate.io_capability}'
-            )
-            io_capability = HCI_NO_INPUT_NO_OUTPUT_IO_CAPABILITY
-
         # Compute the authentication requirements
         authentication_requirements = (
             # No Bonding
@@ -2733,7 +2792,7 @@ class Device(CompositeEventEmitter):
         self.host.send_command_sync(
             HCI_IO_Capability_Request_Reply_Command(
                 bd_addr=connection.peer_address,
-                io_capability=io_capability,
+                io_capability=pairing_config.delegate.classic_io_capability,
                 oob_data_present=0x00,  # Not present
                 authentication_requirements=authentication_requirements,
             )
@@ -2742,114 +2801,135 @@ class Device(CompositeEventEmitter):
     # [Classic only]
     @host_event_handler
     @with_connection_from_address
-    def on_authentication_user_confirmation_request(self, connection, code):
-        # Ask what the pairing config should be for this connection
-        pairing_config = self.pairing_config_factory(connection)
-
-        can_compare = pairing_config.delegate.io_capability not in (
-            smp.SMP_NO_INPUT_NO_OUTPUT_IO_CAPABILITY,
-            smp.SMP_DISPLAY_ONLY_IO_CAPABILITY,
+    def on_authentication_io_capability_response(
+        self, connection, io_capability, authentication_requirements
+    ):
+        connection.peer_pairing_io_capability = io_capability
+        connection.peer_pairing_authentication_requirements = (
+            authentication_requirements
         )
 
-        # Respond
-        if can_compare:
-
-            async def compare_numbers():
-                numbers_match = await connection.abort_on(
-                    'disconnection',
-                    pairing_config.delegate.compare_numbers(code, digits=6),
-                )
-                if numbers_match:
-                    await self.host.send_command(
-                        HCI_User_Confirmation_Request_Reply_Command(
-                            bd_addr=connection.peer_address
-                        )
-                    )
-                else:
-                    await self.host.send_command(
-                        HCI_User_Confirmation_Request_Negative_Reply_Command(
-                            bd_addr=connection.peer_address
-                        )
-                    )
-
-            asyncio.create_task(compare_numbers())
-        else:
-
-            async def confirm():
-                confirm = await connection.abort_on(
-                    'disconnection', pairing_config.delegate.confirm()
-                )
-                if confirm:
-                    await self.host.send_command(
-                        HCI_User_Confirmation_Request_Reply_Command(
-                            bd_addr=connection.peer_address
-                        )
-                    )
-                else:
-                    await self.host.send_command(
-                        HCI_User_Confirmation_Request_Negative_Reply_Command(
-                            bd_addr=connection.peer_address
-                        )
-                    )
-
-            asyncio.create_task(confirm())
-
     # [Classic only]
     @host_event_handler
     @with_connection_from_address
-    def on_authentication_user_passkey_request(self, connection):
+    def on_authentication_user_confirmation_request(self, connection, code) -> None:
+        # Ask what the pairing config should be for this connection
+        pairing_config = self.pairing_config_factory(connection)
+        io_capability = pairing_config.delegate.classic_io_capability
+        peer_io_capability = connection.peer_pairing_io_capability
+
+        async def confirm() -> bool:
+            # Ask the user to confirm the pairing, without display
+            return await pairing_config.delegate.confirm()
+
+        async def auto_confirm() -> bool:
+            # Ask the user to auto-confirm the pairing, without display
+            return await pairing_config.delegate.confirm(auto=True)
+
+        async def display_confirm() -> bool:
+            # Display the code and ask the user to compare
+            return await pairing_config.delegate.compare_numbers(code, digits=6)
+
+        async def display_auto_confirm() -> bool:
+            # Display the code to the user and ask the delegate to auto-confirm
+            await pairing_config.delegate.display_number(code, digits=6)
+            return await pairing_config.delegate.confirm(auto=True)
+
+        async def na() -> bool:
+            assert False, "N/A: unreachable"
+
+        # See Bluetooth spec @ Vol 3, Part C 5.2.2.6
+        methods = {
+            HCI_DISPLAY_ONLY_IO_CAPABILITY: {
+                HCI_DISPLAY_ONLY_IO_CAPABILITY: display_auto_confirm,
+                HCI_DISPLAY_YES_NO_IO_CAPABILITY: display_confirm,
+                HCI_KEYBOARD_ONLY_IO_CAPABILITY: na,
+                HCI_NO_INPUT_NO_OUTPUT_IO_CAPABILITY: auto_confirm,
+            },
+            HCI_DISPLAY_YES_NO_IO_CAPABILITY: {
+                HCI_DISPLAY_ONLY_IO_CAPABILITY: display_auto_confirm,
+                HCI_DISPLAY_YES_NO_IO_CAPABILITY: display_confirm,
+                HCI_KEYBOARD_ONLY_IO_CAPABILITY: na,
+                HCI_NO_INPUT_NO_OUTPUT_IO_CAPABILITY: auto_confirm,
+            },
+            HCI_KEYBOARD_ONLY_IO_CAPABILITY: {
+                HCI_DISPLAY_ONLY_IO_CAPABILITY: na,
+                HCI_DISPLAY_YES_NO_IO_CAPABILITY: na,
+                HCI_KEYBOARD_ONLY_IO_CAPABILITY: na,
+                HCI_NO_INPUT_NO_OUTPUT_IO_CAPABILITY: auto_confirm,
+            },
+            HCI_NO_INPUT_NO_OUTPUT_IO_CAPABILITY: {
+                HCI_DISPLAY_ONLY_IO_CAPABILITY: confirm,
+                HCI_DISPLAY_YES_NO_IO_CAPABILITY: confirm,
+                HCI_KEYBOARD_ONLY_IO_CAPABILITY: auto_confirm,
+                HCI_NO_INPUT_NO_OUTPUT_IO_CAPABILITY: auto_confirm,
+            },
+        }
+
+        method = methods[peer_io_capability][io_capability]
+
+        async def reply() -> None:
+            try:
+                if await connection.abort_on('disconnection', method()):
+                    await self.host.send_command(
+                        HCI_User_Confirmation_Request_Reply_Command(  # type: ignore[call-arg]
+                            bd_addr=connection.peer_address
+                        )
+                    )
+                    return
+            except Exception as error:
+                logger.warning(f'exception while confirming: {error}')
+
+            await self.host.send_command(
+                HCI_User_Confirmation_Request_Negative_Reply_Command(  # type: ignore[call-arg]
+                    bd_addr=connection.peer_address
+                )
+            )
+
+        AsyncRunner.spawn(reply())
+
+    # [Classic only]
+    @host_event_handler
+    @with_connection_from_address
+    def on_authentication_user_passkey_request(self, connection) -> None:
         # Ask what the pairing config should be for this connection
         pairing_config = self.pairing_config_factory(connection)
 
-        can_input = pairing_config.delegate.io_capability in (
-            smp.SMP_KEYBOARD_ONLY_IO_CAPABILITY,
-            smp.SMP_KEYBOARD_DISPLAY_IO_CAPABILITY,
-        )
-
-        # Respond
-        if can_input:
-
-            async def get_number():
+        async def reply() -> None:
+            try:
                 number = await connection.abort_on(
                     'disconnection', pairing_config.delegate.get_number()
                 )
                 if number is not None:
                     await self.host.send_command(
-                        HCI_User_Passkey_Request_Reply_Command(
+                        HCI_User_Passkey_Request_Reply_Command(  # type: ignore[call-arg]
                             bd_addr=connection.peer_address, numeric_value=number
                         )
                     )
-                else:
-                    await self.host.send_command(
-                        HCI_User_Passkey_Request_Negative_Reply_Command(
-                            bd_addr=connection.peer_address
-                        )
-                    )
+                    return
+            except Exception as error:
+                logger.warning(f'exception while asking for pass-key: {error}')
 
-            asyncio.create_task(get_number())
-        else:
-            self.host.send_command_sync(
-                HCI_User_Passkey_Request_Negative_Reply_Command(
+            await self.host.send_command(
+                HCI_User_Passkey_Request_Negative_Reply_Command(  # type: ignore[call-arg]
                     bd_addr=connection.peer_address
                 )
             )
 
+        AsyncRunner.spawn(reply())
+
     # [Classic only]
     @host_event_handler
     @with_connection_from_address
     def on_pin_code_request(self, connection):
-        # classic legacy pairing
+        # Classic legacy pairing
         # Ask what the pairing config should be for this connection
         pairing_config = self.pairing_config_factory(connection)
+        io_capability = pairing_config.delegate.classic_io_capability
 
-        can_input = pairing_config.delegate.io_capability in (
-            smp.SMP_KEYBOARD_ONLY_IO_CAPABILITY,
-            smp.SMP_KEYBOARD_DISPLAY_IO_CAPABILITY,
-        )
-
-        # respond the pin code
-        if can_input:
-
+        # Respond
+        if io_capability == HCI_KEYBOARD_ONLY_IO_CAPABILITY:
+            # Ask the user to enter a string
             async def get_pin_code():
                 pin_code = await connection.abort_on(
                     'disconnection', pairing_config.delegate.get_string(16)
@@ -2889,6 +2969,7 @@ class Device(CompositeEventEmitter):
         # Ask what the pairing config should be for this connection
         pairing_config = self.pairing_config_factory(connection)
 
+        # Show the passkey to the user
         connection.abort_on(
             'disconnection', pairing_config.delegate.display_number(passkey)
         )
@@ -3040,18 +3121,24 @@ class Device(CompositeEventEmitter):
             connection.emit('role_change_failure', error)
         self.emit('role_change_failure', address, error)
 
-    @with_connection_from_handle
-    def on_pairing_start(self, connection):
+    def on_pairing_start(self, connection: Connection) -> None:
         connection.emit('pairing_start')
 
-    @with_connection_from_handle
-    def on_pairing(self, connection, keys, sc):
+    def on_pairing(
+        self,
+        connection: Connection,
+        identity_address: Optional[Address],
+        keys: PairingKeys,
+        sc: bool,
+    ) -> None:
+        if identity_address is not None:
+            connection.peer_resolvable_address = connection.peer_address
+            connection.peer_address = identity_address
         connection.sc = sc
         connection.authenticated = True
         connection.emit('pairing', keys)
 
-    @with_connection_from_handle
-    def on_pairing_failure(self, connection, reason):
+    def on_pairing_failure(self, connection: Connection, reason: int) -> None:
         connection.emit('pairing_failure', reason)
 
     @with_connection_from_handle

bumble/drivers/__init__.py

@@ -0,0 +1,68 @@
+# Copyright 2021-2022 Google LLC
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+#      https://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+# See the License for the specific language governing permissions and
+# limitations under the License.
+"""
+Drivers that can be used to customize the interaction between a host and a controller,
+like loading firmware after a cold start.
+"""
+
+# -----------------------------------------------------------------------------
+# Imports
+# -----------------------------------------------------------------------------
+import abc
+import logging
+from . import rtk
+
+
+# -----------------------------------------------------------------------------
+# Logging
+# -----------------------------------------------------------------------------
+logger = logging.getLogger(__name__)
+
+
+# -----------------------------------------------------------------------------
+# Classes
+# -----------------------------------------------------------------------------
+class Driver(abc.ABC):
+    """Base class for drivers."""
+
+    @staticmethod
+    async def for_host(_host):
+        """Return a driver instance for a host.
+
+        Args:
+            host: Host object for which a driver should be created.
+
+        Returns:
+            A Driver instance if a driver should be instantiated for this host, or
+            None if no driver instance of this class is needed.
+        """
+        return None
+
+    @abc.abstractmethod
+    async def init_controller(self):
+        """Initialize the controller."""
+
+
+# -----------------------------------------------------------------------------
+# Functions
+# -----------------------------------------------------------------------------
+async def get_driver_for_host(host):
+    """Probe all known diver classes until one returns a valid instance for a host,
+    or none is found.
+    """
+    if driver := await rtk.Driver.for_host(host):
+        logger.debug("Instantiated RTK driver")
+        return driver
+
+    return None

bumble/drivers/rtk.py

@@ -0,0 +1,647 @@
+# Copyright 2021-2023 Google LLC
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+#      https://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+# See the License for the specific language governing permissions and
+# limitations under the License.
+"""
+Support for Realtek USB dongles.
+Based on various online bits of information, including the Linux kernel.
+(see `drivers/bluetooth/btrtl.c`)
+"""
+
+# -----------------------------------------------------------------------------
+# Imports
+# -----------------------------------------------------------------------------
+from dataclasses import dataclass
+import asyncio
+import enum
+import logging
+import math
+import os
+import pathlib
+import platform
+import struct
+from typing import Tuple
+import weakref
+
+
+from bumble.hci import (
+    hci_command_op_code,
+    STATUS_SPEC,
+    HCI_SUCCESS,
+    HCI_COMMAND_NAMES,
+    HCI_Command,
+    HCI_Reset_Command,
+    HCI_Read_Local_Version_Information_Command,
+)
+
+
+# -----------------------------------------------------------------------------
+# Logging
+# -----------------------------------------------------------------------------
+logger = logging.getLogger(__name__)
+
+
+# -----------------------------------------------------------------------------
+# Constants
+# -----------------------------------------------------------------------------
+RTK_ROM_LMP_8723A = 0x1200
+RTK_ROM_LMP_8723B = 0x8723
+RTK_ROM_LMP_8821A = 0x8821
+RTK_ROM_LMP_8761A = 0x8761
+RTK_ROM_LMP_8822B = 0x8822
+RTK_ROM_LMP_8852A = 0x8852
+RTK_CONFIG_MAGIC = 0x8723AB55
+
+RTK_EPATCH_SIGNATURE = b"Realtech"
+
+RTK_FRAGMENT_LENGTH = 252
+
+RTK_FIRMWARE_DIR_ENV = "BUMBLE_RTK_FIRMWARE_DIR"
+RTK_LINUX_FIRMWARE_DIR = "/lib/firmware/rtl_bt"
+
+
+class RtlProjectId(enum.IntEnum):
+    PROJECT_ID_8723A = 0
+    PROJECT_ID_8723B = 1
+    PROJECT_ID_8821A = 2
+    PROJECT_ID_8761A = 3
+    PROJECT_ID_8822B = 8
+    PROJECT_ID_8723D = 9
+    PROJECT_ID_8821C = 10
+    PROJECT_ID_8822C = 13
+    PROJECT_ID_8761B = 14
+    PROJECT_ID_8852A = 18
+    PROJECT_ID_8852B = 20
+    PROJECT_ID_8852C = 25
+
+
+RTK_PROJECT_ID_TO_ROM = {
+    0: RTK_ROM_LMP_8723A,
+    1: RTK_ROM_LMP_8723B,
+    2: RTK_ROM_LMP_8821A,
+    3: RTK_ROM_LMP_8761A,
+    8: RTK_ROM_LMP_8822B,
+    9: RTK_ROM_LMP_8723B,
+    10: RTK_ROM_LMP_8821A,
+    13: RTK_ROM_LMP_8822B,
+    14: RTK_ROM_LMP_8761A,
+    18: RTK_ROM_LMP_8852A,
+    20: RTK_ROM_LMP_8852A,
+    25: RTK_ROM_LMP_8852A,
+}
+
+# List of USB (VendorID, ProductID) for Realtek-based devices.
+RTK_USB_PRODUCTS = {
+    # Realtek 8723AE
+    (0x0930, 0x021D),
+    (0x13D3, 0x3394),
+    # Realtek 8723BE
+    (0x0489, 0xE085),
+    (0x0489, 0xE08B),
+    (0x04F2, 0xB49F),
+    (0x13D3, 0x3410),
+    (0x13D3, 0x3416),
+    (0x13D3, 0x3459),
+    (0x13D3, 0x3494),
+    # Realtek 8723BU
+    (0x7392, 0xA611),
+    # Realtek 8723DE
+    (0x0BDA, 0xB009),
+    (0x2FF8, 0xB011),
+    # Realtek 8761BUV
+    (0x0B05, 0x190E),
+    (0x0BDA, 0x8771),
+    (0x2230, 0x0016),
+    (0x2357, 0x0604),
+    (0x2550, 0x8761),
+    (0x2B89, 0x8761),
+    (0x7392, 0xC611),
+    # Realtek 8821AE
+    (0x0B05, 0x17DC),
+    (0x13D3, 0x3414),
+    (0x13D3, 0x3458),
+    (0x13D3, 0x3461),
+    (0x13D3, 0x3462),
+    # Realtek 8821CE
+    (0x0BDA, 0xB00C),
+    (0x0BDA, 0xC822),
+    (0x13D3, 0x3529),
+    # Realtek 8822BE
+    (0x0B05, 0x185C),
+    (0x13D3, 0x3526),
+    # Realtek 8822CE
+    (0x04C5, 0x161F),
+    (0x04CA, 0x4005),
+    (0x0B05, 0x18EF),
+    (0x0BDA, 0xB00C),
+    (0x0BDA, 0xC123),
+    (0x0BDA, 0xC822),
+    (0x0CB5, 0xC547),
+    (0x1358, 0xC123),
+    (0x13D3, 0x3548),
+    (0x13D3, 0x3549),
+    (0x13D3, 0x3553),
+    (0x13D3, 0x3555),
+    (0x2FF8, 0x3051),
+    # Realtek 8822CU
+    (0x13D3, 0x3549),
+    # Realtek 8852AE
+    (0x04C5, 0x165C),
+    (0x04CA, 0x4006),
+    (0x0BDA, 0x2852),
+    (0x0BDA, 0x385A),
+    (0x0BDA, 0x4852),
+    (0x0BDA, 0xC852),
+    (0x0CB8, 0xC549),
+    # Realtek 8852BE
+    (0x0BDA, 0x887B),
+    (0x0CB8, 0xC559),
+    (0x13D3, 0x3571),
+    # Realtek 8852CE
+    (0x04C5, 0x1675),
+    (0x04CA, 0x4007),
+    (0x0CB8, 0xC558),
+    (0x13D3, 0x3586),
+    (0x13D3, 0x3587),
+    (0x13D3, 0x3592),
+}
+
+# -----------------------------------------------------------------------------
+# HCI Commands
+# -----------------------------------------------------------------------------
+HCI_RTK_READ_ROM_VERSION_COMMAND = hci_command_op_code(0x3F, 0x6D)
+HCI_COMMAND_NAMES[HCI_RTK_READ_ROM_VERSION_COMMAND] = "HCI_RTK_READ_ROM_VERSION_COMMAND"
+
+
+@HCI_Command.command(return_parameters_fields=[("status", STATUS_SPEC), ("version", 1)])
+class HCI_RTK_Read_ROM_Version_Command(HCI_Command):
+    pass
+
+
+HCI_RTK_DOWNLOAD_COMMAND = hci_command_op_code(0x3F, 0x20)
+HCI_COMMAND_NAMES[HCI_RTK_DOWNLOAD_COMMAND] = "HCI_RTK_DOWNLOAD_COMMAND"
+
+
+@HCI_Command.command(
+    fields=[("index", 1), ("payload", RTK_FRAGMENT_LENGTH)],
+    return_parameters_fields=[("status", STATUS_SPEC), ("index", 1)],
+)
+class HCI_RTK_Download_Command(HCI_Command):
+    pass
+
+
+HCI_RTK_DROP_FIRMWARE_COMMAND = hci_command_op_code(0x3F, 0x66)
+HCI_COMMAND_NAMES[HCI_RTK_DROP_FIRMWARE_COMMAND] = "HCI_RTK_DROP_FIRMWARE_COMMAND"
+
+
+@HCI_Command.command()
+class HCI_RTK_Drop_Firmware_Command(HCI_Command):
+    pass
+
+
+# -----------------------------------------------------------------------------
+class Firmware:
+    def __init__(self, firmware):
+        extension_sig = bytes([0x51, 0x04, 0xFD, 0x77])
+
+        if not firmware.startswith(RTK_EPATCH_SIGNATURE):
+            raise ValueError("Firmware does not start with epatch signature")
+
+        if not firmware.endswith(extension_sig):
+            raise ValueError("Firmware does not end with extension sig")
+
+        # The firmware should start with a 14 byte header.
+        epatch_header_size = 14
+        if len(firmware) < epatch_header_size:
+            raise ValueError("Firmware too short")
+
+        # Look for the "project ID", starting from the end.
+        offset = len(firmware) - len(extension_sig)
+        project_id = -1
+        while offset >= epatch_header_size:
+            length, opcode = firmware[offset - 2 : offset]
+            offset -= 2
+
+            if opcode == 0xFF:
+                # End
+                break
+
+            if length == 0:
+                raise ValueError("Invalid 0-length instruction")
+
+            if opcode == 0 and length == 1:
+                project_id = firmware[offset - 1]
+                break
+
+            offset -= length
+
+        if project_id < 0:
+            raise ValueError("Project ID not found")
+
+        self.project_id = project_id
+
+        # Read the patch tables info.
+        self.version, num_patches = struct.unpack("<IH", firmware[8:14])
+        self.patches = []
+
+        # The patches tables are laid out as:
+        # <ChipID_1><ChipID_2>...<ChipID_N>  (16 bits each)
+        # <PatchLength_1><PatchLength_2>...<PatchLength_N> (16 bits each)
+        # <PatchOffset_1><PatchOffset_2>...<PatchOffset_N> (32 bits each)
+        if epatch_header_size + 8 * num_patches > len(firmware):
+            raise ValueError("Firmware too short")
+        chip_id_table_offset = epatch_header_size
+        patch_length_table_offset = chip_id_table_offset + 2 * num_patches
+        patch_offset_table_offset = chip_id_table_offset + 4 * num_patches
+        for patch_index in range(num_patches):
+            chip_id_offset = chip_id_table_offset + 2 * patch_index
+            (chip_id,) = struct.unpack_from("<H", firmware, chip_id_offset)
+            (patch_length,) = struct.unpack_from(
+                "<H", firmware, patch_length_table_offset + 2 * patch_index
+            )
+            (patch_offset,) = struct.unpack_from(
+                "<I", firmware, patch_offset_table_offset + 4 * patch_index
+            )
+            if patch_offset + patch_length > len(firmware):
+                raise ValueError("Firmware too short")
+
+            # Get the SVN version for the patch
+            (svn_version,) = struct.unpack_from(
+                "<I", firmware, patch_offset + patch_length - 8
+            )
+
+            # Create a payload with the patch, replacing the last 4 bytes with
+            # the firmware version.
+            self.patches.append(
+                (
+                    chip_id,
+                    firmware[patch_offset : patch_offset + patch_length - 4]
+                    + struct.pack("<I", self.version),
+                    svn_version,
+                )
+            )
+
+
+class Driver:
+    @dataclass
+    class DriverInfo:
+        rom: int
+        hci: Tuple[int, int]
+        config_needed: bool
+        has_rom_version: bool
+        has_msft_ext: bool = False
+        fw_name: str = ""
+        config_name: str = ""
+
+    DRIVER_INFOS = [
+        # 8723A
+        DriverInfo(
+            rom=RTK_ROM_LMP_8723A,
+            hci=(0x0B, 0x06),
+            config_needed=False,
+            has_rom_version=False,
+            fw_name="rtl8723a_fw.bin",
+            config_name="",
+        ),
+        # 8723B
+        DriverInfo(
+            rom=RTK_ROM_LMP_8723B,
+            hci=(0x0B, 0x06),
+            config_needed=False,
+            has_rom_version=True,
+            fw_name="rtl8723b_fw.bin",
+            config_name="rtl8723b_config.bin",
+        ),
+        # 8723D
+        DriverInfo(
+            rom=RTK_ROM_LMP_8723B,
+            hci=(0x0D, 0x08),
+            config_needed=True,
+            has_rom_version=True,
+            fw_name="rtl8723d_fw.bin",
+            config_name="rtl8723d_config.bin",
+        ),
+        # 8821A
+        DriverInfo(
+            rom=RTK_ROM_LMP_8821A,
+            hci=(0x0A, 0x06),
+            config_needed=False,
+            has_rom_version=True,
+            fw_name="rtl8821a_fw.bin",
+            config_name="rtl8821a_config.bin",
+        ),
+        # 8821C
+        DriverInfo(
+            rom=RTK_ROM_LMP_8821A,
+            hci=(0x0C, 0x08),
+            config_needed=False,
+            has_rom_version=True,
+            has_msft_ext=True,
+            fw_name="rtl8821c_fw.bin",
+            config_name="rtl8821c_config.bin",
+        ),
+        # 8761A
+        DriverInfo(
+            rom=RTK_ROM_LMP_8761A,
+            hci=(0x0A, 0x06),
+            config_needed=False,
+            has_rom_version=True,
+            fw_name="rtl8761a_fw.bin",
+            config_name="rtl8761a_config.bin",
+        ),
+        # 8761BU
+        DriverInfo(
+            rom=RTK_ROM_LMP_8761A,
+            hci=(0x0B, 0x0A),
+            config_needed=False,
+            has_rom_version=True,
+            fw_name="rtl8761bu_fw.bin",
+            config_name="rtl8761bu_config.bin",
+        ),
+        # 8822C
+        DriverInfo(
+            rom=RTK_ROM_LMP_8822B,
+            hci=(0x0C, 0x0A),
+            config_needed=False,
+            has_rom_version=True,
+            has_msft_ext=True,
+            fw_name="rtl8822cu_fw.bin",
+            config_name="rtl8822cu_config.bin",
+        ),
+        # 8822B
+        DriverInfo(
+            rom=RTK_ROM_LMP_8822B,
+            hci=(0x0B, 0x07),
+            config_needed=True,
+            has_rom_version=True,
+            has_msft_ext=True,
+            fw_name="rtl8822b_fw.bin",
+            config_name="rtl8822b_config.bin",
+        ),
+        # 8852A
+        DriverInfo(
+            rom=RTK_ROM_LMP_8852A,
+            hci=(0x0A, 0x0B),
+            config_needed=False,
+            has_rom_version=True,
+            has_msft_ext=True,
+            fw_name="rtl8852au_fw.bin",
+            config_name="rtl8852au_config.bin",
+        ),
+        # 8852B
+        DriverInfo(
+            rom=RTK_ROM_LMP_8852A,
+            hci=(0xB, 0xB),
+            config_needed=False,
+            has_rom_version=True,
+            has_msft_ext=True,
+            fw_name="rtl8852bu_fw.bin",
+            config_name="rtl8852bu_config.bin",
+        ),
+        # 8852C
+        DriverInfo(
+            rom=RTK_ROM_LMP_8852A,
+            hci=(0x0C, 0x0C),
+            config_needed=False,
+            has_rom_version=True,
+            has_msft_ext=True,
+            fw_name="rtl8852cu_fw.bin",
+            config_name="rtl8852cu_config.bin",
+        ),
+    ]
+
+    POST_DROP_DELAY = 0.2
+
+    @staticmethod
+    def find_driver_info(hci_version, hci_subversion, lmp_subversion):
+        for driver_info in Driver.DRIVER_INFOS:
+            if driver_info.rom == lmp_subversion and driver_info.hci == (
+                hci_subversion,
+                hci_version,
+            ):
+                return driver_info
+
+        return None
+
+    @staticmethod
+    def find_binary_path(file_name):
+        # First check if an environment variable is set
+        if RTK_FIRMWARE_DIR_ENV in os.environ:
+            if (
+                path := pathlib.Path(os.environ[RTK_FIRMWARE_DIR_ENV]) / file_name
+            ).is_file():
+                logger.debug(f"{file_name} found in env dir")
+                return path
+
+            # When the environment variable is set, don't look elsewhere
+            return None
+
+        # Then, look in the package's driver directory
+        if (path := pathlib.Path(__file__).parent / "rtk_fw" / file_name).is_file():
+            logger.debug(f"{file_name} found in package dir")
+            return path
+
+        # On Linux, check the system's FW directory
+        if (
+            platform.system() == "Linux"
+            and (path := pathlib.Path(RTK_LINUX_FIRMWARE_DIR) / file_name).is_file()
+        ):
+            logger.debug(f"{file_name} found in Linux system FW dir")
+            return path
+
+        # Finally look in the current directory
+        if (path := pathlib.Path.cwd() / file_name).is_file():
+            logger.debug(f"{file_name} found in CWD")
+            return path
+
+        return None
+
+    @staticmethod
+    def check(host):
+        if not host.hci_metadata:
+            logger.debug("USB metadata not found")
+            return False
+
+        vendor_id = host.hci_metadata.get("vendor_id", None)
+        product_id = host.hci_metadata.get("product_id", None)
+        if vendor_id is None or product_id is None:
+            logger.debug("USB metadata not sufficient")
+            return False
+
+        if (vendor_id, product_id) not in RTK_USB_PRODUCTS:
+            logger.debug(
+                f"USB device ({vendor_id:04X}, {product_id:04X}) " "not in known list"
+            )
+            return False
+
+        return True
+
+    @classmethod
+    async def driver_info_for_host(cls, host):
+        response = await host.send_command(
+            HCI_Read_Local_Version_Information_Command(), check_result=True
+        )
+        local_version = response.return_parameters
+
+        logger.debug(
+            f"looking for a driver: 0x{local_version.lmp_subversion:04X} "
+            f"(0x{local_version.hci_version:02X}, "
+            f"0x{local_version.hci_subversion:04X})"
+        )
+
+        driver_info = cls.find_driver_info(
+            local_version.hci_version,
+            local_version.hci_subversion,
+            local_version.lmp_subversion,
+        )
+        if driver_info is None:
+            # TODO: it seems that the Linux driver will send command (0x3f, 0x66)
+            # in this case and then re-read the local version, then re-match.
+            logger.debug("firmware already loaded or no known driver for this device")
+
+        return driver_info
+
+    @classmethod
+    async def for_host(cls, host, force=False):
+        # Check that a driver is needed for this host
+        if not force and not cls.check(host):
+            return None
+
+        # Get the driver info
+        driver_info = await cls.driver_info_for_host(host)
+        if driver_info is None:
+            return None
+
+        # Load the firmware
+        firmware_path = cls.find_binary_path(driver_info.fw_name)
+        if not firmware_path:
+            logger.warning(f"Firmware file {driver_info.fw_name} not found")
+            logger.warning("See https://google.github.io/bumble/drivers/realtek.html")
+            return None
+        with open(firmware_path, "rb") as firmware_file:
+            firmware = firmware_file.read()
+
+        # Load the config
+        config = None
+        if driver_info.config_name:
+            config_path = cls.find_binary_path(driver_info.config_name)
+            if config_path:
+                with open(config_path, "rb") as config_file:
+                    config = config_file.read()
+        if driver_info.config_needed and not config:
+            logger.warning("Config needed, but no config file available")
+            return None
+
+        return cls(host, driver_info, firmware, config)
+
+    def __init__(self, host, driver_info, firmware, config):
+        self.host = weakref.proxy(host)
+        self.driver_info = driver_info
+        self.firmware = firmware
+        self.config = config
+
+    @staticmethod
+    async def drop_firmware(host):
+        host.send_hci_packet(HCI_RTK_Drop_Firmware_Command())
+
+        # Wait for the command to be effective (no response is sent)
+        await asyncio.sleep(Driver.POST_DROP_DELAY)
+
+    async def download_for_rtl8723a(self):
+        # Check that the firmware image does not include an epatch signature.
+        if RTK_EPATCH_SIGNATURE in self.firmware:
+            logger.warning(
+                "epatch signature found in firmware, it is probably the wrong firmware"
+            )
+            return
+
+        # TODO: load the firmware
+
+    async def download_for_rtl8723b(self):
+        if self.driver_info.has_rom_version:
+            response = await self.host.send_command(
+                HCI_RTK_Read_ROM_Version_Command(), check_result=True
+            )
+            if response.return_parameters.status != HCI_SUCCESS:
+                logger.warning("can't get ROM version")
+                return
+            rom_version = response.return_parameters.version
+            logger.debug(f"ROM version before download: {rom_version:04X}")
+        else:
+            rom_version = 0
+
+        firmware = Firmware(self.firmware)
+        logger.debug(f"firmware: project_id=0x{firmware.project_id:04X}")
+        for patch in firmware.patches:
+            if patch[0] == rom_version + 1:
+                logger.debug(f"using patch {patch[0]}")
+                break
+        else:
+            logger.warning("no valid patch found for rom version {rom_version}")
+            return
+
+        # Append the config if there is one.
+        if self.config:
+            payload = patch[1] + self.config
+        else:
+            payload = patch[1]
+
+        # Download the payload, one fragment at a time.
+        fragment_count = math.ceil(len(payload) / RTK_FRAGMENT_LENGTH)
+        for fragment_index in range(fragment_count):
+            # NOTE: the Linux driver somehow adds 1 to the index after it wraps around.
+            # That's odd, but we"ll do the same here.
+            download_index = fragment_index & 0x7F
+            if download_index >= 0x80:
+                download_index += 1
+            if fragment_index == fragment_count - 1:
+                download_index |= 0x80  # End marker.
+            fragment_offset = fragment_index * RTK_FRAGMENT_LENGTH
+            fragment = payload[fragment_offset : fragment_offset + RTK_FRAGMENT_LENGTH]
+            logger.debug(f"downloading fragment {fragment_index}")
+            await self.host.send_command(
+                HCI_RTK_Download_Command(
+                    index=download_index, payload=fragment, check_result=True
+                )
+            )
+
+        logger.debug("download complete!")
+
+        # Read the version again
+        response = await self.host.send_command(
+            HCI_RTK_Read_ROM_Version_Command(), check_result=True
+        )
+        if response.return_parameters.status != HCI_SUCCESS:
+            logger.warning("can't get ROM version")
+        else:
+            rom_version = response.return_parameters.version
+            logger.debug(f"ROM version after download: {rom_version:04X}")
+
+    async def download_firmware(self):
+        if self.driver_info.rom == RTK_ROM_LMP_8723A:
+            return await self.download_for_rtl8723a()
+
+        if self.driver_info.rom in (
+            RTK_ROM_LMP_8723B,
+            RTK_ROM_LMP_8821A,
+            RTK_ROM_LMP_8761A,
+            RTK_ROM_LMP_8822B,
+            RTK_ROM_LMP_8852A,
+        ):
+            return await self.download_for_rtl8723b()
+
+        raise ValueError("ROM not supported")
+
+    async def init_controller(self):
+        await self.download_firmware()
+        await self.host.send_command(HCI_Reset_Command(), check_result=True)
+        logger.info(f"loaded FW image {self.driver_info.fw_name}")

bumble/gatt.py

@@ -205,8 +205,16 @@ class Service(Attribute):
     '''
 
     uuid: UUID
+    characteristics: List[Characteristic]
+    included_services: List[Service]
 
-    def __init__(self, uuid, characteristics: list[Characteristic], primary=True):
+    def __init__(
+        self,
+        uuid,
+        characteristics: List[Characteristic],
+        primary=True,
+        included_services: List[Service] = [],
+    ):
         # Convert the uuid to a UUID object if it isn't already
         if isinstance(uuid, str):
             uuid = UUID(uuid)
@@ -219,7 +227,7 @@ class Service(Attribute):
             uuid.to_pdu_bytes(),
         )
         self.uuid = uuid
-        # self.included_services = []
+        self.included_services = included_services[:]
         self.characteristics = characteristics[:]
         self.primary = primary
 
@@ -247,12 +255,38 @@ class TemplateService(Service):
     to expose their UUID as a class property
     '''
 
-    UUID = None
+    UUID: Optional[UUID] = None
 
     def __init__(self, characteristics, primary=True):
         super().__init__(self.UUID, characteristics, primary)
 
 
+# -----------------------------------------------------------------------------
+class IncludedServiceDeclaration(Attribute):
+    '''
+    See Vol 3, Part G - 3.2 INCLUDE DEFINITION
+    '''
+
+    service: Service
+
+    def __init__(self, service):
+        declaration_bytes = struct.pack(
+            '<HH2s', service.handle, service.end_group_handle, service.uuid.to_bytes()
+        )
+        super().__init__(
+            GATT_INCLUDE_ATTRIBUTE_TYPE, Attribute.READABLE, declaration_bytes
+        )
+        self.service = service
+
+    def __str__(self):
+        return (
+            f'IncludedServiceDefinition(handle=0x{self.handle:04X}, '
+            f'group_starting_handle=0x{self.service.handle:04X}, '
+            f'group_ending_handle=0x{self.service.end_group_handle:04X}, '
+            f'uuid={self.service.uuid})'
+        )
+
+
 # -----------------------------------------------------------------------------
 class Characteristic(Attribute):
     '''
@@ -274,31 +308,33 @@ class Characteristic(Attribute):
         AUTHENTICATED_SIGNED_WRITES = 0x40
         EXTENDED_PROPERTIES = 0x80
 
-        @staticmethod
-        def from_string(properties_str: str) -> Characteristic.Properties:
-            property_names: List[str] = []
-            for property in Characteristic.Properties:
-                if property.name is None:
-                    raise TypeError()
-                property_names.append(property.name)
-
-            def string_to_property(property_string) -> Characteristic.Properties:
-                for property in zip(Characteristic.Properties, property_names):
-                    if property_string == property[1]:
-                        return property[0]
-                raise TypeError(f"Unable to convert {property_string} to Property")
-
+        @classmethod
+        def from_string(cls, properties_str: str) -> Characteristic.Properties:
             try:
                 return functools.reduce(
-                    lambda x, y: x | string_to_property(y),
-                    properties_str.split(","),
+                    lambda x, y: x | cls[y],
+                    properties_str.replace("|", ",").split(","),
                     Characteristic.Properties(0),
                 )
-            except TypeError:
+            except (TypeError, KeyError):
+                # The check for `p.name is not None` here is needed because for InFlag
+                # enums, the .name property can be None, when the enum value is 0,
+                # so the type hint for .name is Optional[str].
+                enum_list: List[str] = [p.name for p in cls if p.name is not None]
+                enum_list_str = ",".join(enum_list)
                 raise TypeError(
-                    f"Characteristic.Properties::from_string() error:\nExpected a string containing any of the keys, separated by commas: {','.join(property_names)}\nGot: {properties_str}"
+                    f"Characteristic.Properties::from_string() error:\nExpected a string containing any of the keys, separated by , or |: {enum_list_str}\nGot: {properties_str}"
                 )
 
+        def __str__(self):
+            # NOTE: we override this method to offer a consistent result between python
+            # versions: the value returned by IntFlag.__str__() changed in version 11.
+            return '|'.join(
+                flag.name
+                for flag in Characteristic.Properties
+                if self.value & flag.value and flag.name is not None
+            )
+
     # For backwards compatibility these are defined here
     # For new code, please use Characteristic.Properties.X
     BROADCAST = Properties.BROADCAST
@@ -338,7 +374,7 @@ class Characteristic(Attribute):
             f'Characteristic(handle=0x{self.handle:04X}, '
             f'end=0x{self.end_group_handle:04X}, '
             f'uuid={self.uuid}, '
-            f'{self.properties!s})'
+            f'{self.properties})'
         )
 
 
@@ -366,7 +402,7 @@ class CharacteristicDeclaration(Attribute):
             f'CharacteristicDeclaration(handle=0x{self.handle:04X}, '
             f'value_handle=0x{self.value_handle:04X}, '
             f'uuid={self.characteristic.uuid}, '
-            f'{self.characteristic.properties!s})'
+            f'{self.characteristic.properties})'
         )
 
 

bumble/gatt_client.py

@@ -63,6 +63,7 @@ from .gatt import (
     GATT_PRIMARY_SERVICE_ATTRIBUTE_TYPE,
     GATT_REQUEST_TIMEOUT,
     GATT_SECONDARY_SERVICE_ATTRIBUTE_TYPE,
+    GATT_INCLUDE_ATTRIBUTE_TYPE,
     Characteristic,
     ClientCharacteristicConfigurationBits,
 )
@@ -109,6 +110,7 @@ class AttributeProxy(EventEmitter):
 class ServiceProxy(AttributeProxy):
     uuid: UUID
     characteristics: List[CharacteristicProxy]
+    included_services: List[ServiceProxy]
 
     @staticmethod
     def from_client(service_class, client, service_uuid):
@@ -502,12 +504,69 @@ class Client:
 
         return services
 
-    async def discover_included_services(self, _service):
+    async def discover_included_services(
+        self, service: ServiceProxy
+    ) -> List[ServiceProxy]:
         '''
         See Vol 3, Part G - 4.5.1 Find Included Services
         '''
-        # TODO
-        return []
+
+        starting_handle = service.handle
+        ending_handle = service.end_group_handle
+
+        included_services: List[ServiceProxy] = []
+        while starting_handle <= ending_handle:
+            response = await self.send_request(
+                ATT_Read_By_Type_Request(
+                    starting_handle=starting_handle,
+                    ending_handle=ending_handle,
+                    attribute_type=GATT_INCLUDE_ATTRIBUTE_TYPE,
+                )
+            )
+            if response is None:
+                # TODO raise appropriate exception
+                return []
+
+            # Check if we reached the end of the iteration
+            if response.op_code == ATT_ERROR_RESPONSE:
+                if response.error_code != ATT_ATTRIBUTE_NOT_FOUND_ERROR:
+                    # Unexpected end
+                    logger.warning(
+                        '!!! unexpected error while discovering included services: '
+                        f'{HCI_Constant.error_name(response.error_code)}'
+                    )
+                    raise ATT_Error(
+                        error_code=response.error_code,
+                        message='Unexpected error while discovering included services',
+                    )
+                break
+
+            # Stop if for some reason the list was empty
+            if not response.attributes:
+                break
+
+            # Process all included services returned in this iteration
+            for attribute_handle, attribute_value in response.attributes:
+                if attribute_handle < starting_handle:
+                    # Something's not right
+                    logger.warning(f'bogus handle value: {attribute_handle}')
+                    return []
+
+                group_starting_handle, group_ending_handle = struct.unpack_from(
+                    '<HH', attribute_value
+                )
+                service_uuid = UUID.from_bytes(attribute_value[4:])
+                included_service = ServiceProxy(
+                    self, group_starting_handle, group_ending_handle, service_uuid, True
+                )
+
+                included_services.append(included_service)
+
+            # Move on to the next included services
+            starting_handle = response.attributes[-1][0] + 1
+
+        service.included_services = included_services
+        return included_services
 
     async def discover_characteristics(
         self, uuids, service: Optional[ServiceProxy]

bumble/gatt_server.py

@@ -68,6 +68,7 @@ from .gatt import (
     Characteristic,
     CharacteristicDeclaration,
     CharacteristicValue,
+    IncludedServiceDeclaration,
     Descriptor,
     Service,
 )
@@ -94,6 +95,7 @@ class Server(EventEmitter):
     def __init__(self, device):
         super().__init__()
         self.device = device
+        self.services = []
         self.attributes = []  # Attributes, ordered by increasing handle values
         self.attributes_by_handle = {}  # Map for fast attribute access by handle
         self.max_mtu = (
@@ -222,7 +224,14 @@ class Server(EventEmitter):
         # Add the service attribute to the DB
         self.add_attribute(service)
 
-        # TODO: add included services
+        # Add all included service
+        for included_service in service.included_services:
+            # Not registered yet, register the included service first.
+            if included_service not in self.services:
+                self.add_service(included_service)
+                # TODO: Handle circular service reference
+            include_declaration = IncludedServiceDeclaration(included_service)
+            self.add_attribute(include_declaration)
 
         # Add all characteristics
         for characteristic in service.characteristics:
@@ -274,6 +283,7 @@ class Server(EventEmitter):
 
         # Update the service group end
         service.end_group_handle = self.attributes[-1].handle
+        self.services.append(service)
 
     def add_services(self, services):
         for service in services:

bumble/hci.py

@@ -62,7 +62,7 @@ def map_null_terminated_utf8_string(utf8_bytes):
     try:
         terminator = utf8_bytes.find(0)
         if terminator < 0:
-            return utf8_bytes
+            terminator = len(utf8_bytes)
         return utf8_bytes[0:terminator].decode('utf8')
     except UnicodeDecodeError:
         return utf8_bytes
@@ -185,7 +185,7 @@ HCI_IO_CAPABILITY_REQUEST_EVENT                                  = 0x31
 HCI_IO_CAPABILITY_RESPONSE_EVENT                                 = 0x32
 HCI_USER_CONFIRMATION_REQUEST_EVENT                              = 0x33
 HCI_USER_PASSKEY_REQUEST_EVENT                                   = 0x34
-HCI_REMOTE_OOB_DATA_REQUEST                                      = 0x35
+HCI_REMOTE_OOB_DATA_REQUEST_EVENT                                = 0x35
 HCI_SIMPLE_PAIRING_COMPLETE_EVENT                                = 0x36
 HCI_LINK_SUPERVISION_TIMEOUT_CHANGED_EVENT                       = 0x38
 HCI_ENHANCED_FLUSH_COMPLETE_EVENT                                = 0x39
@@ -1445,8 +1445,14 @@ class HCI_Object:
     @staticmethod
     def init_from_fields(hci_object, fields, values):
         if isinstance(values, dict):
-            for field_name, _ in fields:
-                setattr(hci_object, field_name, values[field_name])
+            for field in fields:
+                if isinstance(field, list):
+                    # The field is an array, up-level the array field names
+                    for sub_field_name, _ in field:
+                        setattr(hci_object, sub_field_name, values[sub_field_name])
+                else:
+                    field_name = field[0]
+                    setattr(hci_object, field_name, values[field_name])
         else:
             for field_name, field_value in zip(fields, values):
                 setattr(hci_object, field_name, field_value)
@@ -1456,133 +1462,161 @@ class HCI_Object:
         parsed = HCI_Object.dict_from_bytes(data, offset, fields)
         HCI_Object.init_from_fields(hci_object, parsed.keys(), parsed.values())
 
+    @staticmethod
+    def parse_field(data, offset, field_type):
+        # The field_type may be a dictionary with a mapper, parser, and/or size
+        if isinstance(field_type, dict):
+            if 'size' in field_type:
+                field_type = field_type['size']
+            elif 'parser' in field_type:
+                field_type = field_type['parser']
+
+        # Parse the field
+        if field_type == '*':
+            # The rest of the bytes
+            field_value = data[offset:]
+            return (field_value, len(field_value))
+        if field_type == 1:
+            # 8-bit unsigned
+            return (data[offset], 1)
+        if field_type == -1:
+            # 8-bit signed
+            return (struct.unpack_from('b', data, offset)[0], 1)
+        if field_type == 2:
+            # 16-bit unsigned
+            return (struct.unpack_from('<H', data, offset)[0], 2)
+        if field_type == '>2':
+            # 16-bit unsigned big-endian
+            return (struct.unpack_from('>H', data, offset)[0], 2)
+        if field_type == -2:
+            # 16-bit signed
+            return (struct.unpack_from('<h', data, offset)[0], 2)
+        if field_type == 3:
+            # 24-bit unsigned
+            padded = data[offset : offset + 3] + bytes([0])
+            return (struct.unpack('<I', padded)[0], 3)
+        if field_type == 4:
+            # 32-bit unsigned
+            return (struct.unpack_from('<I', data, offset)[0], 4)
+        if field_type == '>4':
+            # 32-bit unsigned big-endian
+            return (struct.unpack_from('>I', data, offset)[0], 4)
+        if isinstance(field_type, int) and 4 < field_type <= 256:
+            # Byte array (from 5 up to 256 bytes)
+            return (data[offset : offset + field_type], field_type)
+        if callable(field_type):
+            new_offset, field_value = field_type(data, offset)
+            return (field_value, new_offset - offset)
+
+        raise ValueError(f'unknown field type {field_type}')
+
     @staticmethod
     def dict_from_bytes(data, offset, fields):
         result = collections.OrderedDict()
-        for (field_name, field_type) in fields:
-            # The field_type may be a dictionary with a mapper, parser, and/or size
-            if isinstance(field_type, dict):
-                if 'size' in field_type:
-                    field_type = field_type['size']
-                elif 'parser' in field_type:
-                    field_type = field_type['parser']
-
-            # Parse the field
-            if field_type == '*':
-                # The rest of the bytes
-                field_value = data[offset:]
-                offset += len(field_value)
-            elif field_type == 1:
-                # 8-bit unsigned
-                field_value = data[offset]
+        for field in fields:
+            if isinstance(field, list):
+                # This is an array field, starting with a 1-byte item count.
+                item_count = data[offset]
                 offset += 1
-            elif field_type == -1:
-                # 8-bit signed
-                field_value = struct.unpack_from('b', data, offset)[0]
-                offset += 1
-            elif field_type == 2:
-                # 16-bit unsigned
-                field_value = struct.unpack_from('<H', data, offset)[0]
-                offset += 2
-            elif field_type == '>2':
-                # 16-bit unsigned big-endian
-                field_value = struct.unpack_from('>H', data, offset)[0]
-                offset += 2
-            elif field_type == -2:
-                # 16-bit signed
-                field_value = struct.unpack_from('<h', data, offset)[0]
-                offset += 2
-            elif field_type == 3:
-                # 24-bit unsigned
-                padded = data[offset : offset + 3] + bytes([0])
-                field_value = struct.unpack('<I', padded)[0]
-                offset += 3
-            elif field_type == 4:
-                # 32-bit unsigned
-                field_value = struct.unpack_from('<I', data, offset)[0]
-                offset += 4
-            elif field_type == '>4':
-                # 32-bit unsigned big-endian
-                field_value = struct.unpack_from('>I', data, offset)[0]
-                offset += 4
-            elif isinstance(field_type, int) and 4 < field_type <= 256:
-                # Byte array (from 5 up to 256 bytes)
-                field_value = data[offset : offset + field_type]
-                offset += field_type
-            elif callable(field_type):
-                offset, field_value = field_type(data, offset)
-            else:
-                raise ValueError(f'unknown field type {field_type}')
+                for _ in range(item_count):
+                    for sub_field_name, sub_field_type in field:
+                        value, size = HCI_Object.parse_field(
+                            data, offset, sub_field_type
+                        )
+                        result.setdefault(sub_field_name, []).append(value)
+                        offset += size
+                continue
 
+            field_name, field_type = field
+            field_value, field_size = HCI_Object.parse_field(data, offset, field_type)
             result[field_name] = field_value
+            offset += field_size
 
         return result
 
+    @staticmethod
+    def serialize_field(field_value, field_type):
+        # The field_type may be a dictionary with a mapper, parser, serializer,
+        # and/or size
+        serializer = None
+        if isinstance(field_type, dict):
+            if 'serializer' in field_type:
+                serializer = field_type['serializer']
+            if 'size' in field_type:
+                field_type = field_type['size']
+
+        # Serialize the field
+        if serializer:
+            field_bytes = serializer(field_value)
+        elif field_type == 1:
+            # 8-bit unsigned
+            field_bytes = bytes([field_value])
+        elif field_type == -1:
+            # 8-bit signed
+            field_bytes = struct.pack('b', field_value)
+        elif field_type == 2:
+            # 16-bit unsigned
+            field_bytes = struct.pack('<H', field_value)
+        elif field_type == '>2':
+            # 16-bit unsigned big-endian
+            field_bytes = struct.pack('>H', field_value)
+        elif field_type == -2:
+            # 16-bit signed
+            field_bytes = struct.pack('<h', field_value)
+        elif field_type == 3:
+            # 24-bit unsigned
+            field_bytes = struct.pack('<I', field_value)[0:3]
+        elif field_type == 4:
+            # 32-bit unsigned
+            field_bytes = struct.pack('<I', field_value)
+        elif field_type == '>4':
+            # 32-bit unsigned big-endian
+            field_bytes = struct.pack('>I', field_value)
+        elif field_type == '*':
+            if isinstance(field_value, int):
+                if 0 <= field_value <= 255:
+                    field_bytes = bytes([field_value])
+                else:
+                    raise ValueError('value too large for *-typed field')
+            else:
+                field_bytes = bytes(field_value)
+        elif isinstance(field_value, (bytes, bytearray)) or hasattr(
+            field_value, 'to_bytes'
+        ):
+            field_bytes = bytes(field_value)
+            if isinstance(field_type, int) and 4 < field_type <= 256:
+                # Truncate or pad with zeros if the field is too long or too short
+                if len(field_bytes) < field_type:
+                    field_bytes += bytes(field_type - len(field_bytes))
+                elif len(field_bytes) > field_type:
+                    field_bytes = field_bytes[:field_type]
+        else:
+            raise ValueError(f"don't know how to serialize type {type(field_value)}")
+
+        return field_bytes
+
     @staticmethod
     def dict_to_bytes(hci_object, fields):
         result = bytearray()
-        for (field_name, field_type) in fields:
-            # The field_type may be a dictionary with a mapper, parser, serializer,
-            # and/or size
-            serializer = None
-            if isinstance(field_type, dict):
-                if 'serializer' in field_type:
-                    serializer = field_type['serializer']
-                if 'size' in field_type:
-                    field_type = field_type['size']
-
-            # Serialize the field
-            field_value = hci_object[field_name]
-            if serializer:
-                field_bytes = serializer(field_value)
-            elif field_type == 1:
-                # 8-bit unsigned
-                field_bytes = bytes([field_value])
-            elif field_type == -1:
-                # 8-bit signed
-                field_bytes = struct.pack('b', field_value)
-            elif field_type == 2:
-                # 16-bit unsigned
-                field_bytes = struct.pack('<H', field_value)
-            elif field_type == '>2':
-                # 16-bit unsigned big-endian
-                field_bytes = struct.pack('>H', field_value)
-            elif field_type == -2:
-                # 16-bit signed
-                field_bytes = struct.pack('<h', field_value)
-            elif field_type == 3:
-                # 24-bit unsigned
-                field_bytes = struct.pack('<I', field_value)[0:3]
-            elif field_type == 4:
-                # 32-bit unsigned
-                field_bytes = struct.pack('<I', field_value)
-            elif field_type == '>4':
-                # 32-bit unsigned big-endian
-                field_bytes = struct.pack('>I', field_value)
-            elif field_type == '*':
-                if isinstance(field_value, int):
-                    if 0 <= field_value <= 255:
-                        field_bytes = bytes([field_value])
-                    else:
-                        raise ValueError('value too large for *-typed field')
-                else:
-                    field_bytes = bytes(field_value)
-            elif isinstance(field_value, (bytes, bytearray)) or hasattr(
-                field_value, 'to_bytes'
-            ):
-                field_bytes = bytes(field_value)
-                if isinstance(field_type, int) and 4 < field_type <= 256:
-                    # Truncate or Pad with zeros if the field is too long or too short
-                    if len(field_bytes) < field_type:
-                        field_bytes += bytes(field_type - len(field_bytes))
-                    elif len(field_bytes) > field_type:
-                        field_bytes = field_bytes[:field_type]
-            else:
-                raise ValueError(
-                    f"don't know how to serialize type {type(field_value)}"
+        for field in fields:
+            if isinstance(field, list):
+                # The field is an array. The serialized form starts with a 1-byte
+                # item count. We use the length of the first array field as the
+                # array count, since all array fields have the same number of items.
+                item_count = len(hci_object[field[0][0]])
+                result += bytes([item_count]) + b''.join(
+                    b''.join(
+                        HCI_Object.serialize_field(
+                            hci_object[sub_field_name][i], sub_field_type
+                        )
+                        for sub_field_name, sub_field_type in field
+                    )
+                    for i in range(item_count)
                 )
+                continue
 
-            result += field_bytes
+            (field_name, field_type) = field
+            result += HCI_Object.serialize_field(hci_object[field_name], field_type)
 
         return bytes(result)
 
@@ -1617,46 +1651,73 @@ class HCI_Object:
         return str(value)
 
     @staticmethod
-    def format_fields(hci_object, keys, indentation='', value_mappers=None):
-        if not keys:
-            return ''
+    def stringify_field(
+        field_name, field_type, field_value, indentation, value_mappers
+    ):
+        value_mapper = None
+        if isinstance(field_type, dict):
+            # Get the value mapper from the specifier
+            value_mapper = field_type.get('mapper')
 
-        # Measure the widest field name
-        max_field_name_length = max(
-            (len(key[0] if isinstance(key, tuple) else key) for key in keys)
+        # Check if there's a matching mapper passed
+        if value_mappers:
+            value_mapper = value_mappers.get(field_name, value_mapper)
+
+        # Map the value if we have a mapper
+        if value_mapper is not None:
+            field_value = value_mapper(field_value)
+
+        # Get the string representation of the value
+        return HCI_Object.format_field_value(
+            field_value, indentation=indentation + '  '
         )
 
+    @staticmethod
+    def format_fields(hci_object, fields, indentation='', value_mappers=None):
+        if not fields:
+            return ''
+
         # Build array of formatted key:value pairs
-        fields = []
-        for key in keys:
-            value_mapper = None
-            if isinstance(key, tuple):
-                # The key has an associated specifier
-                key, specifier = key
+        field_strings = []
+        for field in fields:
+            if isinstance(field, list):
+                for sub_field in field:
+                    sub_field_name, sub_field_type = sub_field
+                    item_count = len(hci_object[sub_field_name])
+                    for i in range(item_count):
+                        field_strings.append(
+                            (
+                                f'{sub_field_name}[{i}]',
+                                HCI_Object.stringify_field(
+                                    sub_field_name,
+                                    sub_field_type,
+                                    hci_object[sub_field_name][i],
+                                    indentation,
+                                    value_mappers,
+                                ),
+                            ),
+                        )
+                continue
 
-                # Get the value mapper from the specifier
-                if isinstance(specifier, dict):
-                    value_mapper = specifier.get('mapper')
-
-            # Get the value for the field
-            value = hci_object[key]
-
-            # Map the value if needed
-            if value_mappers:
-                value_mapper = value_mappers.get(key, value_mapper)
-            if value_mapper is not None:
-                value = value_mapper(value)
-
-            # Get the string representation of the value
-            value_str = HCI_Object.format_field_value(
-                value, indentation=indentation + '  '
+            field_name, field_type = field
+            field_value = hci_object[field_name]
+            field_strings.append(
+                (
+                    field_name,
+                    HCI_Object.stringify_field(
+                        field_name, field_type, field_value, indentation, value_mappers
+                    ),
+                ),
             )
 
-            # Add the field to the formatted result
-            key_str = color(f'{key + ":":{1 + max_field_name_length}}', 'cyan')
-            fields.append(f'{indentation}{key_str} {value_str}')
-
-        return '\n'.join(fields)
+        # Measure the widest field name
+        max_field_name_length = max(len(s[0]) for s in field_strings)
+        sep = ':'
+        return '\n'.join(
+            f'{indentation}'
+            f'{color(f"{field_name + sep:{1 + max_field_name_length}}", "cyan")} {field_value}'
+            for field_name, field_value in field_strings
+        )
 
     def __bytes__(self):
         return self.to_bytes()
@@ -1795,6 +1856,16 @@ class Address:
     def to_bytes(self):
         return self.address_bytes
 
+    def to_string(self, with_type_qualifier=True):
+        '''
+        String representation of the address, MSB first, with an optional type
+        qualifier.
+        '''
+        result = ':'.join([f'{x:02X}' for x in reversed(self.address_bytes)])
+        if not with_type_qualifier or not self.is_public:
+            return result
+        return result + '/P'
+
     def __bytes__(self):
         return self.to_bytes()
 
@@ -1808,13 +1879,7 @@ class Address:
         )
 
     def __str__(self):
-        '''
-        String representation of the address, MSB first
-        '''
-        result = ':'.join([f'{x:02X}' for x in reversed(self.address_bytes)])
-        if not self.is_public:
-            return result
-        return result + '/P'
+        return self.to_string()
 
 
 # Predefined address values
@@ -2282,6 +2347,55 @@ class HCI_User_Passkey_Request_Negative_Reply_Command(HCI_Command):
     '''
 
 
+# -----------------------------------------------------------------------------
+@HCI_Command.command(
+    fields=[
+        ('bd_addr', Address.parse_address),
+        ('c', 16),
+        ('r', 16),
+    ],
+    return_parameters_fields=[
+        ('status', STATUS_SPEC),
+        ('bd_addr', Address.parse_address),
+    ],
+)
+class HCI_Remote_OOB_Data_Request_Reply_Command(HCI_Command):
+    '''
+    See Bluetooth spec @ 7.1.34 Remote OOB Data Request Reply Command
+    '''
+
+
+# -----------------------------------------------------------------------------
+@HCI_Command.command(
+    fields=[('bd_addr', Address.parse_address)],
+    return_parameters_fields=[
+        ('status', STATUS_SPEC),
+        ('bd_addr', Address.parse_address),
+    ],
+)
+class HCI_Remote_OOB_Data_Request_Negative_Reply_Command(HCI_Command):
+    '''
+    See Bluetooth spec @ 7.1.35 Remote OOB Data Request Negative Reply Command
+    '''
+
+
+# -----------------------------------------------------------------------------
+@HCI_Command.command(
+    fields=[
+        ('bd_addr', Address.parse_address),
+        ('reason', 1),
+    ],
+    return_parameters_fields=[
+        ('status', STATUS_SPEC),
+        ('bd_addr', Address.parse_address),
+    ],
+)
+class HCI_IO_Capability_Request_Negative_Reply_Command(HCI_Command):
+    '''
+    See Bluetooth spec @ 7.1.36 IO Capability Request Negative Reply Command
+    '''
+
+
 # -----------------------------------------------------------------------------
 @HCI_Command.command(
     [
@@ -2317,6 +2431,161 @@ class HCI_Enhanced_Setup_Synchronous_Connection_Command(HCI_Command):
     '''
 
 
+# -----------------------------------------------------------------------------
+@HCI_Command.command(
+    [
+        ('bd_addr', Address.parse_address),
+        ('transmit_bandwidth', 4),
+        ('receive_bandwidth', 4),
+        ('transmit_coding_format', 5),
+        ('receive_coding_format', 5),
+        ('transmit_codec_frame_size', 2),
+        ('receive_codec_frame_size', 2),
+        ('input_bandwidth', 4),
+        ('output_bandwidth', 4),
+        ('input_coding_format', 5),
+        ('output_coding_format', 5),
+        ('input_coded_data_size', 2),
+        ('output_coded_data_size', 2),
+        ('input_pcm_data_format', 1),
+        ('output_pcm_data_format', 1),
+        ('input_pcm_sample_payload_msb_position', 1),
+        ('output_pcm_sample_payload_msb_position', 1),
+        ('input_data_path', 1),
+        ('output_data_path', 1),
+        ('input_transport_unit_size', 1),
+        ('output_transport_unit_size', 1),
+        ('max_latency', 2),
+        ('packet_type', 2),
+        ('retransmission_effort', 1),
+    ]
+)
+class HCI_Enhanced_Accept_Synchronous_Connection_Request_Command(HCI_Command):
+    '''
+    See Bluetooth spec @ 7.1.46 Enhanced Accept Synchronous Connection Request Command
+    '''
+
+
+# -----------------------------------------------------------------------------
+@HCI_Command.command(
+    fields=[
+        ('bd_addr', Address.parse_address),
+        ('page_scan_repetition_mode', 1),
+        ('clock_offset', 2),
+    ]
+)
+class HCI_Truncated_Page_Command(HCI_Command):
+    '''
+    See Bluetooth spec @ 7.1.47 Truncated Page Command
+    '''
+
+
+# -----------------------------------------------------------------------------
+@HCI_Command.command(
+    fields=[('bd_addr', Address.parse_address)],
+    return_parameters_fields=[
+        ('status', STATUS_SPEC),
+        ('bd_addr', Address.parse_address),
+    ],
+)
+class HCI_Truncated_Page_Cancel_Command(HCI_Command):
+    '''
+    See Bluetooth spec @ 7.1.48 Truncated Page Cancel Command
+    '''
+
+
+# -----------------------------------------------------------------------------
+@HCI_Command.command(
+    fields=[
+        ('enable', 1),
+        ('lt_addr', 1),
+        ('lpo_allowed', 1),
+        ('packet_type', 2),
+        ('interval_min', 2),
+        ('interval_max', 2),
+        ('supervision_timeout', 2),
+    ],
+    return_parameters_fields=[
+        ('status', STATUS_SPEC),
+        ('lt_addr', 1),
+        ('interval', 2),
+    ],
+)
+class HCI_Set_Connectionless_Peripheral_Broadcast_Command(HCI_Command):
+    '''
+    See Bluetooth spec @ 7.1.49 Set Connectionless Peripheral Broadcast Command
+    '''
+
+
+# -----------------------------------------------------------------------------
+@HCI_Command.command(
+    fields=[
+        ('enable', 1),
+        ('bd_addr', Address.parse_address),
+        ('lt_addr', 1),
+        ('interval', 2),
+        ('clock_offset', 4),
+        ('next_connectionless_peripheral_broadcast_clock', 4),
+        ('supervision_timeout', 2),
+        ('remote_timing_accuracy', 1),
+        ('skip', 1),
+        ('packet_type', 2),
+        ('afh_channel_map', 10),
+    ],
+    return_parameters_fields=[
+        ('status', STATUS_SPEC),
+        ('bd_addr', Address.parse_address),
+        ('lt_addr', 1),
+    ],
+)
+class HCI_Set_Connectionless_Peripheral_Broadcast_Receive_Command(HCI_Command):
+    '''
+    See Bluetooth spec @ 7.1.50 Set Connectionless Peripheral Broadcast Receive Command
+    '''
+
+
+# -----------------------------------------------------------------------------
+class HCI_Start_Synchronization_Train_Command(HCI_Command):
+    '''
+    See Bluetooth spec @ 7.1.51 Start Synchronization Train Command
+    '''
+
+
+# -----------------------------------------------------------------------------
+@HCI_Command.command(
+    fields=[
+        ('bd_addr', Address.parse_address),
+        ('sync_scan_timeout', 2),
+        ('sync_scan_window', 2),
+        ('sync_scan_interval', 2),
+    ],
+)
+class HCI_Receive_Synchronization_Train_Command(HCI_Command):
+    '''
+    See Bluetooth spec @ 7.1.52 Receive Synchronization Train Command
+    '''
+
+
+# -----------------------------------------------------------------------------
+@HCI_Command.command(
+    fields=[
+        ('bd_addr', Address.parse_address),
+        ('c_192', 16),
+        ('r_192', 16),
+        ('c_256', 16),
+        ('r_256', 16),
+    ],
+    return_parameters_fields=[
+        ('status', STATUS_SPEC),
+        ('bd_addr', Address.parse_address),
+    ],
+)
+class HCI_Remote_OOB_Extended_Data_Request_Reply_Command(HCI_Command):
+    '''
+    See Bluetooth spec @ 7.1.53 Remote OOB Extended Data Request Reply Command
+    '''
+
+
 # -----------------------------------------------------------------------------
 @HCI_Command.command(
     [
@@ -2683,6 +2952,20 @@ class HCI_Write_Simple_Pairing_Mode_Command(HCI_Command):
     '''
 
 
+# -----------------------------------------------------------------------------
+@HCI_Command.command(
+    return_parameters_fields=[
+        ('status', STATUS_SPEC),
+        ('c', 16),
+        ('r', 16),
+    ]
+)
+class HCI_Read_Local_OOB_Data_Command(HCI_Command):
+    '''
+    See Bluetooth spec @ 7.3.60 Read Local OOB Data Command
+    '''
+
+
 # -----------------------------------------------------------------------------
 @HCI_Command.command(
     return_parameters_fields=[('status', STATUS_SPEC), ('tx_power', -1)]
@@ -2743,6 +3026,22 @@ class HCI_Write_Authenticated_Payload_Timeout_Command(HCI_Command):
     '''
 
 
+# -----------------------------------------------------------------------------
+@HCI_Command.command(
+    return_parameters_fields=[
+        ('status', STATUS_SPEC),
+        ('c_192', 16),
+        ('r_192', 16),
+        ('c_256', 16),
+        ('r_256', 16),
+    ]
+)
+class HCI_Read_Local_OOB_Extended_Data_Command(HCI_Command):
+    '''
+    See Bluetooth spec @ 7.3.95 Read Local OOB Extended Data Command
+    '''
+
+
 # -----------------------------------------------------------------------------
 @HCI_Command.command(
     return_parameters_fields=[
@@ -3529,9 +3828,7 @@ class HCI_LE_Set_Extended_Advertising_Parameters_Command(HCI_Command):
             'advertising_data',
             {
                 'parser': HCI_Object.parse_length_prefixed_bytes,
-                'serializer': functools.partial(
-                    HCI_Object.serialize_length_prefixed_bytes
-                ),
+                'serializer': HCI_Object.serialize_length_prefixed_bytes,
             },
         ),
     ]
@@ -3579,9 +3876,7 @@ class HCI_LE_Set_Extended_Advertising_Data_Command(HCI_Command):
             'scan_response_data',
             {
                 'parser': HCI_Object.parse_length_prefixed_bytes,
-                'serializer': functools.partial(
-                    HCI_Object.serialize_length_prefixed_bytes
-                ),
+                'serializer': HCI_Object.serialize_length_prefixed_bytes,
             },
         ),
     ]
@@ -3609,73 +3904,21 @@ class HCI_LE_Set_Extended_Scan_Response_Data_Command(HCI_Command):
 
 
 # -----------------------------------------------------------------------------
-@HCI_Command.command(fields=None)
+@HCI_Command.command(
+    [
+        ('enable', 1),
+        [
+            ('advertising_handles', 1),
+            ('durations', 2),
+            ('max_extended_advertising_events', 1),
+        ],
+    ]
+)
 class HCI_LE_Set_Extended_Advertising_Enable_Command(HCI_Command):
     '''
     See Bluetooth spec @ 7.8.56 LE Set Extended Advertising Enable Command
     '''
 
-    @classmethod
-    def from_parameters(cls, parameters):
-        enable = parameters[0]
-        num_sets = parameters[1]
-        advertising_handles = []
-        durations = []
-        max_extended_advertising_events = []
-        offset = 2
-        for _ in range(num_sets):
-            advertising_handles.append(parameters[offset])
-            durations.append(struct.unpack_from('<H', parameters, offset + 1)[0])
-            max_extended_advertising_events.append(parameters[offset + 3])
-            offset += 4
-
-        return cls(
-            enable, advertising_handles, durations, max_extended_advertising_events
-        )
-
-    def __init__(
-        self, enable, advertising_handles, durations, max_extended_advertising_events
-    ):
-        super().__init__(HCI_LE_SET_EXTENDED_ADVERTISING_ENABLE_COMMAND)
-        self.enable = enable
-        self.advertising_handles = advertising_handles
-        self.durations = durations
-        self.max_extended_advertising_events = max_extended_advertising_events
-
-        self.parameters = bytes([enable, len(advertising_handles)]) + b''.join(
-            [
-                struct.pack(
-                    '<BHB',
-                    advertising_handles[i],
-                    durations[i],
-                    max_extended_advertising_events[i],
-                )
-                for i in range(len(advertising_handles))
-            ]
-        )
-
-    def __str__(self):
-        fields = [('enable:', self.enable)]
-        for i, advertising_handle in enumerate(self.advertising_handles):
-            fields.append(
-                (f'advertising_handle[{i}]:             ', advertising_handle)
-            )
-            fields.append((f'duration[{i}]:                       ', self.durations[i]))
-            fields.append(
-                (
-                    f'max_extended_advertising_events[{i}]:',
-                    self.max_extended_advertising_events[i],
-                )
-            )
-
-        return (
-            color(self.name, 'green')
-            + ':\n'
-            + '\n'.join(
-                [color(field[0], 'cyan') + ' ' + str(field[1]) for field in fields]
-            )
-        )
-
 
 # -----------------------------------------------------------------------------
 @HCI_Command.command(
@@ -3826,7 +4069,10 @@ class HCI_LE_Set_Extended_Scan_Parameters_Command(HCI_Command):
             color(self.name, 'green')
             + ':\n'
             + '\n'.join(
-                [color(field[0], 'cyan') + ' ' + str(field[1]) for field in fields]
+                [
+                    color('  ' + field[0], 'cyan') + ' ' + str(field[1])
+                    for field in fields
+                ]
             )
         )
 
@@ -4002,7 +4248,10 @@ class HCI_LE_Extended_Create_Connection_Command(HCI_Command):
             color(self.name, 'green')
             + ':\n'
             + '\n'.join(
-                [color(field[0], 'cyan') + ' ' + str(field[1]) for field in fields]
+                [
+                    color('  ' + field[0], 'cyan') + ' ' + str(field[1])
+                    for field in fields
+                ]
             )
         )
 
@@ -4965,7 +5214,7 @@ class HCI_Number_Of_Completed_Packets_Event(HCI_Event):
     def __str__(self):
         lines = [
             color(self.name, 'magenta') + ':',
-            color('  number_of_handles:         ', 'cyan')
+            color('  number_of_handles:        ', 'cyan')
             + f'{len(self.connection_handles)}',
         ]
         for i, connection_handle in enumerate(self.connection_handles):
@@ -5299,6 +5548,14 @@ class HCI_User_Passkey_Request_Event(HCI_Event):
     '''
 
 
+# -----------------------------------------------------------------------------
+@HCI_Event.event([('bd_addr', Address.parse_address)])
+class HCI_Remote_OOB_Data_Request_Event(HCI_Event):
+    '''
+    See Bluetooth spec @ 7.7.44 Remote OOB Data Request Event
+    '''
+
+
 # -----------------------------------------------------------------------------
 @HCI_Event.event([('status', STATUS_SPEC), ('bd_addr', Address.parse_address)])
 class HCI_Simple_Pairing_Complete_Event(HCI_Event):
@@ -5315,6 +5572,14 @@ class HCI_Link_Supervision_Timeout_Changed_Event(HCI_Event):
     '''
 
 
+# -----------------------------------------------------------------------------
+@HCI_Event.event([('handle', 2)])
+class HCI_Enhanced_Flush_Complete_Event(HCI_Event):
+    '''
+    See Bluetooth spec @ 7.7.47 Enhanced Flush Complete Event
+    '''
+
+
 # -----------------------------------------------------------------------------
 @HCI_Event.event([('bd_addr', Address.parse_address), ('passkey', 4)])
 class HCI_User_Passkey_Notification_Event(HCI_Event):
@@ -5323,6 +5588,14 @@ class HCI_User_Passkey_Notification_Event(HCI_Event):
     '''
 
 
+# -----------------------------------------------------------------------------
+@HCI_Event.event([('bd_addr', Address.parse_address), ('notification_type', 1)])
+class HCI_Keypress_Notification_Event(HCI_Event):
+    '''
+    See Bluetooth spec @ 7.7.49 Keypress Notification Event
+    '''
+
+
 # -----------------------------------------------------------------------------
 @HCI_Event.event([('bd_addr', Address.parse_address), ('host_supported_features', 8)])
 class HCI_Remote_Host_Supported_Features_Notification_Event(HCI_Event):
@@ -5373,7 +5646,7 @@ class HCI_AclDataPacket:
     def __str__(self):
         return (
             f'{color("ACL", "blue")}: '
-            f'handle=0x{self.connection_handle:04x}'
+            f'handle=0x{self.connection_handle:04x}, '
             f'pb={self.pb_flag}, bc={self.bc_flag}, '
             f'data_total_length={self.data_total_length}, '
             f'data={self.data.hex()}'

bumble/hfp.py

@@ -18,10 +18,11 @@
 import logging
 import asyncio
 import collections
+from typing import Union
 
+from . import rfcomm
 from .colors import color
 
-
 # -----------------------------------------------------------------------------
 # Logging
 # -----------------------------------------------------------------------------
@@ -34,7 +35,12 @@ logger = logging.getLogger(__name__)
 
 # -----------------------------------------------------------------------------
 class HfpProtocol:
-    def __init__(self, dlc):
+    dlc: rfcomm.DLC
+    buffer: str
+    lines: collections.deque
+    lines_available: asyncio.Event
+
+    def __init__(self, dlc: rfcomm.DLC) -> None:
         self.dlc = dlc
         self.buffer = ''
         self.lines = collections.deque()
@@ -42,7 +48,7 @@ class HfpProtocol:
 
         dlc.sink = self.feed
 
-    def feed(self, data):
+    def feed(self, data: Union[bytes, str]) -> None:
         # Convert the data to a string if needed
         if isinstance(data, bytes):
             data = data.decode('utf-8')
@@ -57,19 +63,19 @@ class HfpProtocol:
             if len(line) > 0:
                 self.on_line(line)
 
-    def on_line(self, line):
+    def on_line(self, line: str) -> None:
         self.lines.append(line)
         self.lines_available.set()
 
-    def send_command_line(self, line):
+    def send_command_line(self, line: str) -> None:
         logger.debug(color(f'>>> {line}', 'yellow'))
         self.dlc.write(line + '\r')
 
-    def send_response_line(self, line):
+    def send_response_line(self, line: str) -> None:
         logger.debug(color(f'>>> {line}', 'yellow'))
         self.dlc.write('\r\n' + line + '\r\n')
 
-    async def next_line(self):
+    async def next_line(self) -> str:
         await self.lines_available.wait()
         line = self.lines.popleft()
         if not self.lines:
@@ -77,7 +83,7 @@ class HfpProtocol:
         logger.debug(color(f'<<< {line}', 'green'))
         return line
 
-    async def initialize_service(self):
+    async def initialize_service(self) -> None:
         # Perform Service Level Connection Initialization
         self.send_command_line('AT+BRSF=2072')  # Retrieve Supported Features
         await (self.next_line())

bumble/host.py

@@ -23,6 +23,7 @@ import struct
 from bumble.colors import color
 from bumble.l2cap import L2CAP_PDU
 from bumble.snoop import Snooper
+from bumble import drivers
 
 from typing import Optional
 
@@ -62,6 +63,7 @@ from .hci import (
     HCI_Read_Local_Version_Information_Command,
     HCI_Reset_Command,
     HCI_Set_Event_Mask_Command,
+    map_null_terminated_utf8_string,
 )
 from .core import (
     BT_BR_EDR_TRANSPORT,
@@ -94,10 +96,9 @@ HOST_HC_TOTAL_NUM_ACL_DATA_PACKETS        = 1
 
 # -----------------------------------------------------------------------------
 class Connection:
-    def __init__(self, host, handle, role, peer_address, transport):
+    def __init__(self, host, handle, peer_address, transport):
         self.host = host
         self.handle = handle
-        self.role = role
         self.peer_address = peer_address
         self.assembler = HCI_AclDataPacketAssembler(self.on_acl_pdu)
         self.transport = transport
@@ -116,6 +117,7 @@ class Host(AbortableEventEmitter):
         super().__init__()
 
         self.hci_sink = None
+        self.hci_metadata = None
         self.ready = False  # True when we can accept incoming packets
         self.reset_done = False
         self.connections = {}  # Connections, by connection handle
@@ -141,6 +143,9 @@ class Host(AbortableEventEmitter):
         # Connect to the source and sink if specified
         if controller_source:
             controller_source.set_packet_sink(self)
+            self.hci_metadata = getattr(
+                controller_source, 'metadata', self.hci_metadata
+            )
         if controller_sink:
             self.set_packet_sink(controller_sink)
 
@@ -170,7 +175,7 @@ class Host(AbortableEventEmitter):
         self.emit('flush')
         self.command_semaphore.release()
 
-    async def reset(self):
+    async def reset(self, driver_factory=drivers.get_driver_for_host):
         if self.ready:
             self.ready = False
             await self.flush()
@@ -178,6 +183,15 @@ class Host(AbortableEventEmitter):
         await self.send_command(HCI_Reset_Command(), check_result=True)
         self.ready = True
 
+        # Instantiate and init a driver for the host if needed.
+        # NOTE: we don't keep a reference to the driver here, because we don't
+        # currently have a need for the driver later on. But if the driver interface
+        # evolves, it may be required, then, to store a reference to the driver in
+        # an object property.
+        if driver_factory is not None:
+            if driver := await driver_factory(self):
+                await driver.init_controller()
+
         response = await self.send_command(
             HCI_Read_Local_Supported_Commands_Command(), check_result=True
         )
@@ -298,7 +312,7 @@ class Host(AbortableEventEmitter):
         if self.snooper:
             self.snooper.snoop(bytes(packet), Snooper.Direction.HOST_TO_CONTROLLER)
 
-        self.hci_sink.on_packet(packet.to_bytes())
+        self.hci_sink.on_packet(bytes(packet))
 
     async def send_command(self, command, check_result=False):
         logger.debug(f'{color("### HOST -> CONTROLLER", "blue")}: {command}')
@@ -350,7 +364,7 @@ class Host(AbortableEventEmitter):
         asyncio.create_task(send_command(command))
 
     def send_l2cap_pdu(self, connection_handle, cid, pdu):
-        l2cap_pdu = L2CAP_PDU(cid, pdu).to_bytes()
+        l2cap_pdu = bytes(L2CAP_PDU(cid, pdu))
 
         # Send the data to the controller via ACL packets
         bytes_remaining = len(l2cap_pdu)
@@ -396,8 +410,8 @@ class Host(AbortableEventEmitter):
 
     def supports_command(self, command):
         # Find the support flag position for this command
-        for (octet, flags) in enumerate(HCI_SUPPORTED_COMMANDS_FLAGS):
-            for (flag_position, value) in enumerate(flags):
+        for octet, flags in enumerate(HCI_SUPPORTED_COMMANDS_FLAGS):
+            for flag_position, value in enumerate(flags):
                 if value == command:
                     # Check if the flag is set
                     if octet < len(self.local_supported_commands) and flag_position < 8:
@@ -410,7 +424,7 @@ class Host(AbortableEventEmitter):
     @property
     def supported_commands(self):
         commands = []
-        for (octet, flags) in enumerate(self.local_supported_commands):
+        for octet, flags in enumerate(self.local_supported_commands):
             if octet < len(HCI_SUPPORTED_COMMANDS_FLAGS):
                 for flag in range(8):
                     if flags & (1 << flag) != 0:
@@ -534,7 +548,7 @@ class Host(AbortableEventEmitter):
         if event.status == HCI_SUCCESS:
             # Create/update the connection
             logger.debug(
-                f'### CONNECTION: [0x{event.connection_handle:04X}] '
+                f'### LE CONNECTION: [0x{event.connection_handle:04X}] '
                 f'{event.peer_address} as {HCI_Constant.role_name(event.role)}'
             )
 
@@ -543,7 +557,6 @@ class Host(AbortableEventEmitter):
                 connection = Connection(
                     self,
                     event.connection_handle,
-                    event.role,
                     event.peer_address,
                     BT_LE_TRANSPORT,
                 )
@@ -560,7 +573,6 @@ class Host(AbortableEventEmitter):
                 event.connection_handle,
                 BT_LE_TRANSPORT,
                 event.peer_address,
-                None,
                 event.role,
                 connection_parameters,
             )
@@ -589,7 +601,6 @@ class Host(AbortableEventEmitter):
                 connection = Connection(
                     self,
                     event.connection_handle,
-                    BT_CENTRAL_ROLE,
                     event.bd_addr,
                     BT_BR_EDR_TRANSPORT,
                 )
@@ -602,7 +613,6 @@ class Host(AbortableEventEmitter):
                 BT_BR_EDR_TRANSPORT,
                 event.bd_addr,
                 None,
-                BT_CENTRAL_ROLE,
                 None,
             )
         else:
@@ -622,8 +632,7 @@ class Host(AbortableEventEmitter):
         if event.status == HCI_SUCCESS:
             logger.debug(
                 f'### DISCONNECTION: [0x{event.connection_handle:04X}] '
-                f'{connection.peer_address} as '
-                f'{HCI_Constant.role_name(connection.role)}, '
+                f'{connection.peer_address} '
                 f'reason={event.reason}'
             )
             del self.connections[event.connection_handle]
@@ -739,10 +748,6 @@ class Host(AbortableEventEmitter):
                 f'role change for {event.bd_addr}: '
                 f'{HCI_Constant.role_name(event.new_role)}'
             )
-            if connection := self.find_connection_by_bd_addr(
-                event.bd_addr, BT_BR_EDR_TRANSPORT
-            ):
-                connection.role = event.new_role
             self.emit('role_change', event.bd_addr, event.new_role)
         else:
             logger.debug(
@@ -849,7 +854,12 @@ class Host(AbortableEventEmitter):
         self.emit('authentication_io_capability_request', event.bd_addr)
 
     def on_hci_io_capability_response_event(self, event):
-        pass
+        self.emit(
+            'authentication_io_capability_response',
+            event.bd_addr,
+            event.io_capability,
+            event.authentication_requirements,
+        )
 
     def on_hci_user_confirmation_request_event(self, event):
         self.emit(
@@ -892,7 +902,12 @@ class Host(AbortableEventEmitter):
         if event.status != HCI_SUCCESS:
             self.emit('remote_name_failure', event.bd_addr, event.status)
         else:
-            self.emit('remote_name', event.bd_addr, event.remote_name)
+            utf8_name = event.remote_name
+            terminator = utf8_name.find(0)
+            if terminator >= 0:
+                utf8_name = utf8_name[0:terminator]
+
+            self.emit('remote_name', event.bd_addr, utf8_name)
 
     def on_hci_remote_host_supported_features_notification_event(self, event):
         self.emit(

bumble/keys.py

@@ -25,7 +25,7 @@ import asyncio
 import logging
 import os
 import json
-from typing import TYPE_CHECKING, Optional
+from typing import TYPE_CHECKING, Dict, List, Optional, Tuple
 
 from .colors import color
 from .hci import Address
@@ -139,19 +139,19 @@ class PairingKeys:
 
 # -----------------------------------------------------------------------------
 class KeyStore:
-    async def delete(self, name):
+    async def delete(self, name: str):
         pass
 
-    async def update(self, name, keys):
+    async def update(self, name: str, keys: PairingKeys) -> None:
         pass
 
-    async def get(self, _name):
-        return PairingKeys()
+    async def get(self, _name: str) -> Optional[PairingKeys]:
+        return None
 
-    async def get_all(self):
+    async def get_all(self) -> List[Tuple[str, PairingKeys]]:
         return []
 
-    async def delete_all(self):
+    async def delete_all(self) -> None:
         all_keys = await self.get_all()
         await asyncio.gather(*(self.delete(name) for (name, _) in all_keys))
 
@@ -177,23 +177,57 @@ class KeyStore:
             separator = '\n'
 
     @staticmethod
-    def create_for_device(device: Device) -> Optional[KeyStore]:
+    def create_for_device(device: Device) -> KeyStore:
         if device.config.keystore is None:
-            return None
+            return MemoryKeyStore()
 
         keystore_type = device.config.keystore.split(':', 1)[0]
         if keystore_type == 'JsonKeyStore':
             return JsonKeyStore.from_device(device)
 
-        return None
+        return MemoryKeyStore()
 
 
 # -----------------------------------------------------------------------------
 class JsonKeyStore(KeyStore):
+    """
+    KeyStore implementation that is backed by a JSON file.
+
+    This implementation supports storing a hierarchy of key sets in a single file.
+    A key set is a representation of a PairingKeys object. Each key set is stored
+    in a map, with the address of paired peer as the key. Maps are themselves grouped
+    into namespaces, grouping pairing keys by controller addresses.
+    The JSON object model looks like:
+    {
+        "<namespace>": {
+            "peer-address": {
+                "address_type": <n>,
+                "irk" : {
+                    "authenticated": <true/false>,
+                    "value": "hex-encoded-key"
+                },
+                ... other keys ...
+            },
+            ... other peers ...
+        }
+        ... other namespaces ...
+    }
+
+    A namespace is typically the BD_ADDR of a controller, since that is a convenient
+    unique identifier, but it may be something else.
+    A special namespace, called the "default" namespace, is used when instantiating this
+    class without a namespace. With the default namespace, reading from a file will
+    load an existing namespace if there is only one, which may be convenient for reading
+    from a file with a single key set and for which the namespace isn't known. If the
+    file does not include any existing key set, or if there are more than one and none
+    has the default name, a new one will be created with the name "__DEFAULT__".
+    """
+
     APP_NAME = 'Bumble'
     APP_AUTHOR = 'Google'
     KEYS_DIR = 'Pairing'
     DEFAULT_NAMESPACE = '__DEFAULT__'
+    DEFAULT_BASE_NAME = "keys"
 
     def __init__(self, namespace, filename=None):
         self.namespace = namespace if namespace is not None else self.DEFAULT_NAMESPACE
@@ -208,8 +242,9 @@ class JsonKeyStore(KeyStore):
             self.directory_name = os.path.join(
                 appdirs.user_data_dir(self.APP_NAME, self.APP_AUTHOR), self.KEYS_DIR
             )
+            base_name = self.DEFAULT_BASE_NAME if namespace is None else self.namespace
             json_filename = (
-                f'{self.namespace}.json'.lower().replace(':', '-').replace('/p', '-p')
+                f'{base_name}.json'.lower().replace(':', '-').replace('/p', '-p')
             )
             self.filename = os.path.join(self.directory_name, json_filename)
         else:
@@ -219,11 +254,13 @@ class JsonKeyStore(KeyStore):
         logger.debug(f'JSON keystore: {self.filename}')
 
     @staticmethod
-    def from_device(device: Device) -> Optional[JsonKeyStore]:
-        if not device.config.keystore:
-            return None
-
-        params = device.config.keystore.split(':', 1)[1:]
+    def from_device(device: Device, filename=None) -> Optional[JsonKeyStore]:
+        if not filename:
+            # Extract the filename from the config if there is one
+            if device.config.keystore is not None:
+                params = device.config.keystore.split(':', 1)[1:]
+                if params:
+                    filename = params[0]
 
         # Use a namespace based on the device address
         if device.public_address not in (Address.ANY, Address.ANY_RANDOM):
@@ -232,19 +269,31 @@ class JsonKeyStore(KeyStore):
             namespace = str(device.random_address)
         else:
             namespace = JsonKeyStore.DEFAULT_NAMESPACE
-        if params:
-            filename = params[0]
-        else:
-            filename = None
 
         return JsonKeyStore(namespace, filename)
 
     async def load(self):
+        # Try to open the file, without failing. If the file does not exist, it
+        # will be created upon saving.
         try:
             with open(self.filename, 'r', encoding='utf-8') as json_file:
-                return json.load(json_file)
+                db = json.load(json_file)
         except FileNotFoundError:
-            return {}
+            db = {}
+
+        # First, look for a namespace match
+        if self.namespace in db:
+            return (db, db[self.namespace])
+
+        # Then, if the namespace is the default namespace, and there's
+        # only one entry in the db, use that
+        if self.namespace == self.DEFAULT_NAMESPACE and len(db) == 1:
+            return next(iter(db.items()))
+
+        # Finally, just create an empty key map for the namespace
+        key_map = {}
+        db[self.namespace] = key_map
+        return (db, key_map)
 
     async def save(self, db):
         # Create the directory if it doesn't exist
@@ -257,53 +306,51 @@ class JsonKeyStore(KeyStore):
             json.dump(db, output, sort_keys=True, indent=4)
 
         # Atomically replace the previous file
-        os.rename(temp_filename, self.filename)
+        os.replace(temp_filename, self.filename)
 
     async def delete(self, name: str) -> None:
-        db = await self.load()
-
-        namespace = db.get(self.namespace)
-        if namespace is None:
-            raise KeyError(name)
-
-        del namespace[name]
+        db, key_map = await self.load()
+        del key_map[name]
         await self.save(db)
 
     async def update(self, name, keys):
-        db = await self.load()
-
-        namespace = db.setdefault(self.namespace, {})
-        namespace[name] = keys.to_dict()
-
+        db, key_map = await self.load()
+        key_map.setdefault(name, {}).update(keys.to_dict())
         await self.save(db)
 
     async def get_all(self):
-        db = await self.load()
-
-        namespace = db.get(self.namespace)
-        if namespace is None:
-            return []
-
-        return [
-            (name, PairingKeys.from_dict(keys)) for (name, keys) in namespace.items()
-        ]
+        _, key_map = await self.load()
+        return [(name, PairingKeys.from_dict(keys)) for (name, keys) in key_map.items()]
 
     async def delete_all(self):
-        db = await self.load()
-
-        db.pop(self.namespace, None)
-
+        db, key_map = await self.load()
+        key_map.clear()
         await self.save(db)
 
     async def get(self, name: str) -> Optional[PairingKeys]:
-        db = await self.load()
-
-        namespace = db.get(self.namespace)
-        if namespace is None:
+        _, key_map = await self.load()
+        if name not in key_map:
             return None
 
-        keys = namespace.get(name)
-        if keys is None:
-            return None
+        return PairingKeys.from_dict(key_map[name])
 
-        return PairingKeys.from_dict(keys)
+
+# -----------------------------------------------------------------------------
+class MemoryKeyStore(KeyStore):
+    all_keys: Dict[str, PairingKeys]
+
+    def __init__(self) -> None:
+        self.all_keys = {}
+
+    async def delete(self, name: str) -> None:
+        if name in self.all_keys:
+            del self.all_keys[name]
+
+    async def update(self, name: str, keys: PairingKeys) -> None:
+        self.all_keys[name] = keys
+
+    async def get(self, name: str) -> Optional[PairingKeys]:
+        return self.all_keys.get(name)
+
+    async def get_all(self) -> List[Tuple[str, PairingKeys]]:
+        return list(self.all_keys.items())

bumble/l2cap.py

@@ -22,7 +22,19 @@ import struct
 
 from collections import deque
 from pyee import EventEmitter
-from typing import Dict, Type
+from typing import (
+    Dict,
+    Type,
+    List,
+    Optional,
+    Tuple,
+    Callable,
+    Any,
+    Union,
+    Deque,
+    Iterable,
+    TYPE_CHECKING,
+)
 
 from .colors import color
 from .core import BT_CENTRAL_ROLE, InvalidStateError, ProtocolError
@@ -33,6 +45,9 @@ from .hci import (
     name_or_number,
 )
 
+if TYPE_CHECKING:
+    from bumble.device import Connection
+
 # -----------------------------------------------------------------------------
 # Logging
 # -----------------------------------------------------------------------------
@@ -155,7 +170,7 @@ class L2CAP_PDU:
     '''
 
     @staticmethod
-    def from_bytes(data):
+    def from_bytes(data: bytes) -> L2CAP_PDU:
         # Sanity check
         if len(data) < 4:
             raise ValueError('not enough data for L2CAP header')
@@ -165,18 +180,18 @@ class L2CAP_PDU:
 
         return L2CAP_PDU(l2cap_pdu_cid, l2cap_pdu_payload)
 
-    def to_bytes(self):
+    def to_bytes(self) -> bytes:
         header = struct.pack('<HH', len(self.payload), self.cid)
         return header + self.payload
 
-    def __init__(self, cid, payload):
+    def __init__(self, cid: int, payload: bytes) -> None:
         self.cid = cid
         self.payload = payload
 
-    def __bytes__(self):
+    def __bytes__(self) -> bytes:
         return self.to_bytes()
 
-    def __str__(self):
+    def __str__(self) -> str:
         return f'{color("L2CAP", "green")} [CID={self.cid}]: {self.payload.hex()}'
 
 
@@ -188,10 +203,10 @@ class L2CAP_Control_Frame:
 
     classes: Dict[int, Type[L2CAP_Control_Frame]] = {}
     code = 0
-    name = None
+    name: str
 
     @staticmethod
-    def from_bytes(pdu):
+    def from_bytes(pdu: bytes) -> L2CAP_Control_Frame:
         code = pdu[0]
 
         cls = L2CAP_Control_Frame.classes.get(code)
@@ -216,11 +231,11 @@ class L2CAP_Control_Frame:
         return self
 
     @staticmethod
-    def code_name(code):
+    def code_name(code: int) -> str:
         return name_or_number(L2CAP_CONTROL_FRAME_NAMES, code)
 
     @staticmethod
-    def decode_configuration_options(data):
+    def decode_configuration_options(data: bytes) -> List[Tuple[int, bytes]]:
         options = []
         while len(data) >= 2:
             value_type = data[0]
@@ -232,7 +247,7 @@ class L2CAP_Control_Frame:
         return options
 
     @staticmethod
-    def encode_configuration_options(options):
+    def encode_configuration_options(options: List[Tuple[int, bytes]]) -> bytes:
         return b''.join(
             [bytes([option[0], len(option[1])]) + option[1] for option in options]
         )
@@ -256,29 +271,30 @@ class L2CAP_Control_Frame:
 
         return inner
 
-    def __init__(self, pdu=None, **kwargs):
+    def __init__(self, pdu=None, **kwargs) -> None:
         self.identifier = kwargs.get('identifier', 0)
-        if hasattr(self, 'fields') and kwargs:
-            HCI_Object.init_from_fields(self, self.fields, kwargs)
-        if pdu is None:
-            data = HCI_Object.dict_to_bytes(kwargs, self.fields)
-            pdu = (
-                bytes([self.code, self.identifier])
-                + struct.pack('<H', len(data))
-                + data
-            )
+        if hasattr(self, 'fields'):
+            if kwargs:
+                HCI_Object.init_from_fields(self, self.fields, kwargs)
+            if pdu is None:
+                data = HCI_Object.dict_to_bytes(kwargs, self.fields)
+                pdu = (
+                    bytes([self.code, self.identifier])
+                    + struct.pack('<H', len(data))
+                    + data
+                )
         self.pdu = pdu
 
     def init_from_bytes(self, pdu, offset):
         return HCI_Object.init_from_bytes(self, pdu, offset, self.fields)
 
-    def to_bytes(self):
+    def to_bytes(self) -> bytes:
         return self.pdu
 
-    def __bytes__(self):
+    def __bytes__(self) -> bytes:
         return self.to_bytes()
 
-    def __str__(self):
+    def __str__(self) -> str:
         result = f'{color(self.name, "yellow")} [ID={self.identifier}]'
         if fields := getattr(self, 'fields', None):
             result += ':\n' + HCI_Object.format_fields(self.__dict__, fields, '  ')
@@ -315,7 +331,7 @@ class L2CAP_Command_Reject(L2CAP_Control_Frame):
     }
 
     @staticmethod
-    def reason_name(reason):
+    def reason_name(reason: int) -> str:
         return name_or_number(L2CAP_Command_Reject.REASON_NAMES, reason)
 
 
@@ -343,7 +359,7 @@ class L2CAP_Connection_Request(L2CAP_Control_Frame):
     '''
 
     @staticmethod
-    def parse_psm(data, offset=0):
+    def parse_psm(data: bytes, offset: int = 0) -> Tuple[int, int]:
         psm_length = 2
         psm = data[offset] | data[offset + 1] << 8
 
@@ -355,7 +371,7 @@ class L2CAP_Connection_Request(L2CAP_Control_Frame):
         return offset + psm_length, psm
 
     @staticmethod
-    def serialize_psm(psm):
+    def serialize_psm(psm: int) -> bytes:
         serialized = struct.pack('<H', psm & 0xFFFF)
         psm >>= 16
         while psm:
@@ -405,7 +421,7 @@ class L2CAP_Connection_Response(L2CAP_Control_Frame):
     }
 
     @staticmethod
-    def result_name(result):
+    def result_name(result: int) -> str:
         return name_or_number(L2CAP_Connection_Response.RESULT_NAMES, result)
 
 
@@ -452,7 +468,7 @@ class L2CAP_Configure_Response(L2CAP_Control_Frame):
     }
 
     @staticmethod
-    def result_name(result):
+    def result_name(result: int) -> str:
         return name_or_number(L2CAP_Configure_Response.RESULT_NAMES, result)
 
 
@@ -529,7 +545,7 @@ class L2CAP_Information_Request(L2CAP_Control_Frame):
     }
 
     @staticmethod
-    def info_type_name(info_type):
+    def info_type_name(info_type: int) -> str:
         return name_or_number(L2CAP_Information_Request.INFO_TYPE_NAMES, info_type)
 
 
@@ -556,7 +572,7 @@ class L2CAP_Information_Response(L2CAP_Control_Frame):
     RESULT_NAMES = {SUCCESS: 'SUCCESS', NOT_SUPPORTED: 'NOT_SUPPORTED'}
 
     @staticmethod
-    def result_name(result):
+    def result_name(result: int) -> str:
         return name_or_number(L2CAP_Information_Response.RESULT_NAMES, result)
 
 
@@ -588,6 +604,8 @@ class L2CAP_LE_Credit_Based_Connection_Request(L2CAP_Control_Frame):
     (CODE 0x14)
     '''
 
+    source_cid: int
+
 
 # -----------------------------------------------------------------------------
 @L2CAP_Control_Frame.subclass(
@@ -640,7 +658,7 @@ class L2CAP_LE_Credit_Based_Connection_Response(L2CAP_Control_Frame):
     }
 
     @staticmethod
-    def result_name(result):
+    def result_name(result: int) -> str:
         return name_or_number(
             L2CAP_LE_Credit_Based_Connection_Response.RESULT_NAMES, result
         )
@@ -701,7 +719,22 @@ class Channel(EventEmitter):
         WAIT_CONTROL_IND: 'WAIT_CONTROL_IND',
     }
 
-    def __init__(self, manager, connection, signaling_cid, psm, source_cid, mtu):
+    connection_result: Optional[asyncio.Future[None]]
+    disconnection_result: Optional[asyncio.Future[None]]
+    response: Optional[asyncio.Future[bytes]]
+    sink: Optional[Callable[[bytes], Any]]
+    state: int
+    connection: Connection
+
+    def __init__(
+        self,
+        manager: 'ChannelManager',
+        connection: Connection,
+        signaling_cid: int,
+        psm: int,
+        source_cid: int,
+        mtu: int,
+    ) -> None:
         super().__init__()
         self.manager = manager
         self.connection = connection
@@ -716,19 +749,19 @@ class Channel(EventEmitter):
         self.disconnection_result = None
         self.sink = None
 
-    def change_state(self, new_state):
+    def change_state(self, new_state: int) -> None:
         logger.debug(
             f'{self} state change -> {color(Channel.STATE_NAMES[new_state], "cyan")}'
         )
         self.state = new_state
 
-    def send_pdu(self, pdu):
+    def send_pdu(self, pdu) -> None:
         self.manager.send_pdu(self.connection, self.destination_cid, pdu)
 
-    def send_control_frame(self, frame):
+    def send_control_frame(self, frame) -> None:
         self.manager.send_control_frame(self.connection, self.signaling_cid, frame)
 
-    async def send_request(self, request):
+    async def send_request(self, request) -> bytes:
         # Check that there isn't already a request pending
         if self.response:
             raise InvalidStateError('request already pending')
@@ -739,7 +772,7 @@ class Channel(EventEmitter):
         self.send_pdu(request)
         return await self.response
 
-    def on_pdu(self, pdu):
+    def on_pdu(self, pdu) -> None:
         if self.response:
             self.response.set_result(pdu)
             self.response = None
@@ -751,7 +784,7 @@ class Channel(EventEmitter):
                 color('received pdu without a pending request or sink', 'red')
             )
 
-    async def connect(self):
+    async def connect(self) -> None:
         if self.state != Channel.CLOSED:
             raise InvalidStateError('invalid state')
 
@@ -778,7 +811,7 @@ class Channel(EventEmitter):
         finally:
             self.connection_result = None
 
-    async def disconnect(self):
+    async def disconnect(self) -> None:
         if self.state != Channel.OPEN:
             raise InvalidStateError('invalid state')
 
@@ -796,12 +829,12 @@ class Channel(EventEmitter):
         self.disconnection_result = asyncio.get_running_loop().create_future()
         return await self.disconnection_result
 
-    def abort(self):
+    def abort(self) -> None:
         if self.state == self.OPEN:
             self.change_state(self.CLOSED)
             self.emit('close')
 
-    def send_configure_request(self):
+    def send_configure_request(self) -> None:
         options = L2CAP_Control_Frame.encode_configuration_options(
             [
                 (
@@ -819,7 +852,7 @@ class Channel(EventEmitter):
             )
         )
 
-    def on_connection_request(self, request):
+    def on_connection_request(self, request) -> None:
         self.destination_cid = request.source_cid
         self.change_state(Channel.WAIT_CONNECT)
         self.send_control_frame(
@@ -858,7 +891,7 @@ class Channel(EventEmitter):
             )
             self.connection_result = None
 
-    def on_configure_request(self, request):
+    def on_configure_request(self, request) -> None:
         if self.state not in (
             Channel.WAIT_CONFIG,
             Channel.WAIT_CONFIG_REQ,
@@ -896,7 +929,7 @@ class Channel(EventEmitter):
         elif self.state == Channel.WAIT_CONFIG_REQ_RSP:
             self.change_state(Channel.WAIT_CONFIG_RSP)
 
-    def on_configure_response(self, response):
+    def on_configure_response(self, response) -> None:
         if response.result == L2CAP_Configure_Response.SUCCESS:
             if self.state == Channel.WAIT_CONFIG_REQ_RSP:
                 self.change_state(Channel.WAIT_CONFIG_REQ)
@@ -930,7 +963,7 @@ class Channel(EventEmitter):
             )
             # TODO: decide how to fail gracefully
 
-    def on_disconnection_request(self, request):
+    def on_disconnection_request(self, request) -> None:
         if self.state in (Channel.OPEN, Channel.WAIT_DISCONNECT):
             self.send_control_frame(
                 L2CAP_Disconnection_Response(
@@ -945,7 +978,7 @@ class Channel(EventEmitter):
         else:
             logger.warning(color('invalid state', 'red'))
 
-    def on_disconnection_response(self, response):
+    def on_disconnection_response(self, response) -> None:
         if self.state != Channel.WAIT_DISCONNECT:
             logger.warning(color('invalid state', 'red'))
             return
@@ -964,7 +997,7 @@ class Channel(EventEmitter):
         self.emit('close')
         self.manager.on_channel_closed(self)
 
-    def __str__(self):
+    def __str__(self) -> str:
         return (
             f'Channel({self.source_cid}->{self.destination_cid}, '
             f'PSM={self.psm}, '
@@ -995,25 +1028,32 @@ class LeConnectionOrientedChannel(EventEmitter):
         CONNECTION_ERROR: 'CONNECTION_ERROR',
     }
 
+    out_queue: Deque[bytes]
+    connection_result: Optional[asyncio.Future[LeConnectionOrientedChannel]]
+    disconnection_result: Optional[asyncio.Future[None]]
+    out_sdu: Optional[bytes]
+    state: int
+    connection: Connection
+
     @staticmethod
-    def state_name(state):
+    def state_name(state: int) -> str:
         return name_or_number(LeConnectionOrientedChannel.STATE_NAMES, state)
 
     def __init__(
         self,
-        manager,
-        connection,
-        le_psm,
-        source_cid,
-        destination_cid,
-        mtu,
-        mps,
-        credits,  # pylint: disable=redefined-builtin
-        peer_mtu,
-        peer_mps,
-        peer_credits,
-        connected,
-    ):
+        manager: 'ChannelManager',
+        connection: Connection,
+        le_psm: int,
+        source_cid: int,
+        destination_cid: int,
+        mtu: int,
+        mps: int,
+        credits: int,  # pylint: disable=redefined-builtin
+        peer_mtu: int,
+        peer_mps: int,
+        peer_credits: int,
+        connected: bool,
+    ) -> None:
         super().__init__()
         self.manager = manager
         self.connection = connection
@@ -1045,7 +1085,7 @@ class LeConnectionOrientedChannel(EventEmitter):
         else:
             self.state = LeConnectionOrientedChannel.INIT
 
-    def change_state(self, new_state):
+    def change_state(self, new_state: int) -> None:
         logger.debug(
             f'{self} state change -> {color(self.state_name(new_state), "cyan")}'
         )
@@ -1056,13 +1096,13 @@ class LeConnectionOrientedChannel(EventEmitter):
         elif new_state == self.DISCONNECTED:
             self.emit('close')
 
-    def send_pdu(self, pdu):
+    def send_pdu(self, pdu) -> None:
         self.manager.send_pdu(self.connection, self.destination_cid, pdu)
 
-    def send_control_frame(self, frame):
+    def send_control_frame(self, frame) -> None:
         self.manager.send_control_frame(self.connection, L2CAP_LE_SIGNALING_CID, frame)
 
-    async def connect(self):
+    async def connect(self) -> LeConnectionOrientedChannel:
         # Check that we're in the right state
         if self.state != self.INIT:
             raise InvalidStateError('not in a connectable state')
@@ -1090,7 +1130,7 @@ class LeConnectionOrientedChannel(EventEmitter):
         # Wait for the connection to succeed or fail
         return await self.connection_result
 
-    async def disconnect(self):
+    async def disconnect(self) -> None:
         # Check that we're connected
         if self.state != self.CONNECTED:
             raise InvalidStateError('not connected')
@@ -1110,11 +1150,11 @@ class LeConnectionOrientedChannel(EventEmitter):
         self.disconnection_result = asyncio.get_running_loop().create_future()
         return await self.disconnection_result
 
-    def abort(self):
+    def abort(self) -> None:
         if self.state == self.CONNECTED:
             self.change_state(self.DISCONNECTED)
 
-    def on_pdu(self, pdu):
+    def on_pdu(self, pdu) -> None:
         if self.sink is None:
             logger.warning('received pdu without a sink')
             return
@@ -1180,7 +1220,7 @@ class LeConnectionOrientedChannel(EventEmitter):
         self.in_sdu = None
         self.in_sdu_length = 0
 
-    def on_connection_response(self, response):
+    def on_connection_response(self, response) -> None:
         # Look for a matching pending response result
         if self.connection_result is None:
             logger.warning(
@@ -1214,14 +1254,14 @@ class LeConnectionOrientedChannel(EventEmitter):
         # Cleanup
         self.connection_result = None
 
-    def on_credits(self, credits):  # pylint: disable=redefined-builtin
+    def on_credits(self, credits: int) -> None:  # pylint: disable=redefined-builtin
         self.credits += credits
         logger.debug(f'received {credits} credits, total = {self.credits}')
 
         # Try to send more data if we have any queued up
         self.process_output()
 
-    def on_disconnection_request(self, request):
+    def on_disconnection_request(self, request) -> None:
         self.send_control_frame(
             L2CAP_Disconnection_Response(
                 identifier=request.identifier,
@@ -1232,7 +1272,7 @@ class LeConnectionOrientedChannel(EventEmitter):
         self.change_state(self.DISCONNECTED)
         self.flush_output()
 
-    def on_disconnection_response(self, response):
+    def on_disconnection_response(self, response) -> None:
         if self.state != self.DISCONNECTING:
             logger.warning(color('invalid state', 'red'))
             return
@@ -1249,11 +1289,11 @@ class LeConnectionOrientedChannel(EventEmitter):
             self.disconnection_result.set_result(None)
             self.disconnection_result = None
 
-    def flush_output(self):
+    def flush_output(self) -> None:
         self.out_queue.clear()
         self.out_sdu = None
 
-    def process_output(self):
+    def process_output(self) -> None:
         while self.credits > 0:
             if self.out_sdu is not None:
                 # Finish the current SDU
@@ -1296,7 +1336,7 @@ class LeConnectionOrientedChannel(EventEmitter):
                 self.drained.set()
                 return
 
-    def write(self, data):
+    def write(self, data: bytes) -> None:
         if self.state != self.CONNECTED:
             logger.warning('not connected, dropping data')
             return
@@ -1311,18 +1351,18 @@ class LeConnectionOrientedChannel(EventEmitter):
         # Send what we can
         self.process_output()
 
-    async def drain(self):
+    async def drain(self) -> None:
         await self.drained.wait()
 
-    def pause_reading(self):
+    def pause_reading(self) -> None:
         # TODO: not implemented yet
         pass
 
-    def resume_reading(self):
+    def resume_reading(self) -> None:
         # TODO: not implemented yet
         pass
 
-    def __str__(self):
+    def __str__(self) -> str:
         return (
             f'CoC({self.source_cid}->{self.destination_cid}, '
             f'State={self.state_name(self.state)}, '
@@ -1335,9 +1375,21 @@ class LeConnectionOrientedChannel(EventEmitter):
 
 # -----------------------------------------------------------------------------
 class ChannelManager:
+    identifiers: Dict[int, int]
+    channels: Dict[int, Dict[int, Union[Channel, LeConnectionOrientedChannel]]]
+    servers: Dict[int, Callable[[Channel], Any]]
+    le_coc_channels: Dict[int, Dict[int, LeConnectionOrientedChannel]]
+    le_coc_servers: Dict[
+        int, Tuple[Callable[[LeConnectionOrientedChannel], Any], int, int, int]
+    ]
+    le_coc_requests: Dict[int, L2CAP_LE_Credit_Based_Connection_Request]
+    fixed_channels: Dict[int, Optional[Callable[[int, bytes], Any]]]
+
     def __init__(
-        self, extended_features=(), connectionless_mtu=L2CAP_DEFAULT_CONNECTIONLESS_MTU
-    ):
+        self,
+        extended_features: Iterable[int] = (),
+        connectionless_mtu: int = L2CAP_DEFAULT_CONNECTIONLESS_MTU,
+    ) -> None:
         self._host = None
         self.identifiers = {}  # Incrementing identifier values by connection
         self.channels = {}  # All channels, mapped by connection and source cid
@@ -1366,20 +1418,20 @@ class ChannelManager:
         if host is not None:
             host.on('disconnection', self.on_disconnection)
 
-    def find_channel(self, connection_handle, cid):
+    def find_channel(self, connection_handle: int, cid: int):
         if connection_channels := self.channels.get(connection_handle):
             return connection_channels.get(cid)
 
         return None
 
-    def find_le_coc_channel(self, connection_handle, cid):
+    def find_le_coc_channel(self, connection_handle: int, cid: int):
         if connection_channels := self.le_coc_channels.get(connection_handle):
             return connection_channels.get(cid)
 
         return None
 
     @staticmethod
-    def find_free_br_edr_cid(channels):
+    def find_free_br_edr_cid(channels: Iterable[int]) -> int:
         # Pick the smallest valid CID that's not already in the list
         # (not necessarily the most efficient algorithm, but the list of CID is
         # very small in practice)
@@ -1392,7 +1444,7 @@ class ChannelManager:
         raise RuntimeError('no free CID available')
 
     @staticmethod
-    def find_free_le_cid(channels):
+    def find_free_le_cid(channels: Iterable[int]) -> int:
         # Pick the smallest valid CID that's not already in the list
         # (not necessarily the most efficient algorithm, but the list of CID is
         # very small in practice)
@@ -1405,7 +1457,7 @@ class ChannelManager:
         raise RuntimeError('no free CID')
 
     @staticmethod
-    def check_le_coc_parameters(max_credits, mtu, mps):
+    def check_le_coc_parameters(max_credits: int, mtu: int, mps: int) -> None:
         if (
             max_credits < 1
             or max_credits > L2CAP_LE_CREDIT_BASED_CONNECTION_MAX_CREDITS
@@ -1419,19 +1471,21 @@ class ChannelManager:
         ):
             raise ValueError('MPS out of range')
 
-    def next_identifier(self, connection):
+    def next_identifier(self, connection: Connection) -> int:
         identifier = (self.identifiers.setdefault(connection.handle, 0) + 1) % 256
         self.identifiers[connection.handle] = identifier
         return identifier
 
-    def register_fixed_channel(self, cid, handler):
+    def register_fixed_channel(
+        self, cid: int, handler: Callable[[int, bytes], Any]
+    ) -> None:
         self.fixed_channels[cid] = handler
 
-    def deregister_fixed_channel(self, cid):
+    def deregister_fixed_channel(self, cid: int) -> None:
         if cid in self.fixed_channels:
             del self.fixed_channels[cid]
 
-    def register_server(self, psm, server):
+    def register_server(self, psm: int, server: Callable[[Channel], Any]) -> int:
         if psm == 0:
             # Find a free PSM
             for candidate in range(
@@ -1465,12 +1519,12 @@ class ChannelManager:
 
     def register_le_coc_server(
         self,
-        psm,
-        server,
-        max_credits=L2CAP_LE_CREDIT_BASED_CONNECTION_DEFAULT_INITIAL_CREDITS,
-        mtu=L2CAP_LE_CREDIT_BASED_CONNECTION_DEFAULT_MTU,
-        mps=L2CAP_LE_CREDIT_BASED_CONNECTION_DEFAULT_MPS,
-    ):
+        psm: int,
+        server: Callable[[LeConnectionOrientedChannel], Any],
+        max_credits: int = L2CAP_LE_CREDIT_BASED_CONNECTION_DEFAULT_INITIAL_CREDITS,
+        mtu: int = L2CAP_LE_CREDIT_BASED_CONNECTION_DEFAULT_MTU,
+        mps: int = L2CAP_LE_CREDIT_BASED_CONNECTION_DEFAULT_MPS,
+    ) -> int:
         self.check_le_coc_parameters(max_credits, mtu, mps)
 
         if psm == 0:
@@ -1498,7 +1552,7 @@ class ChannelManager:
 
         return psm
 
-    def on_disconnection(self, connection_handle, _reason):
+    def on_disconnection(self, connection_handle: int, _reason: int) -> None:
         logger.debug(f'disconnection from {connection_handle}, cleaning up channels')
         if connection_handle in self.channels:
             for _, channel in self.channels[connection_handle].items():
@@ -1511,7 +1565,7 @@ class ChannelManager:
         if connection_handle in self.identifiers:
             del self.identifiers[connection_handle]
 
-    def send_pdu(self, connection, cid, pdu):
+    def send_pdu(self, connection, cid: int, pdu) -> None:
         pdu_str = pdu.hex() if isinstance(pdu, bytes) else str(pdu)
         logger.debug(
             f'{color(">>> Sending L2CAP PDU", "blue")} '
@@ -1520,14 +1574,16 @@ class ChannelManager:
         )
         self.host.send_l2cap_pdu(connection.handle, cid, bytes(pdu))
 
-    def on_pdu(self, connection, cid, pdu):
+    def on_pdu(self, connection: Connection, cid: int, pdu) -> None:
         if cid in (L2CAP_SIGNALING_CID, L2CAP_LE_SIGNALING_CID):
             # Parse the L2CAP payload into a Control Frame object
             control_frame = L2CAP_Control_Frame.from_bytes(pdu)
 
             self.on_control_frame(connection, cid, control_frame)
         elif cid in self.fixed_channels:
-            self.fixed_channels[cid](connection.handle, pdu)
+            handler = self.fixed_channels[cid]
+            assert handler is not None
+            handler(connection.handle, pdu)
         else:
             if (channel := self.find_channel(connection.handle, cid)) is None:
                 logger.warning(
@@ -1539,7 +1595,9 @@ class ChannelManager:
 
             channel.on_pdu(pdu)
 
-    def send_control_frame(self, connection, cid, control_frame):
+    def send_control_frame(
+        self, connection: Connection, cid: int, control_frame
+    ) -> None:
         logger.debug(
             f'{color(">>> Sending L2CAP Signaling Control Frame", "blue")} '
             f'on connection [0x{connection.handle:04X}] (CID={cid}) '
@@ -1547,7 +1605,7 @@ class ChannelManager:
         )
         self.host.send_l2cap_pdu(connection.handle, cid, bytes(control_frame))
 
-    def on_control_frame(self, connection, cid, control_frame):
+    def on_control_frame(self, connection: Connection, cid: int, control_frame) -> None:
         logger.debug(
             f'{color("<<< Received L2CAP Signaling Control Frame", "green")} '
             f'on connection [0x{connection.handle:04X}] (CID={cid}) '
@@ -1584,10 +1642,14 @@ class ChannelManager:
                 ),
             )
 
-    def on_l2cap_command_reject(self, _connection, _cid, packet):
+    def on_l2cap_command_reject(
+        self, _connection: Connection, _cid: int, packet
+    ) -> None:
         logger.warning(f'{color("!!! Command rejected:", "red")} {packet.reason}')
 
-    def on_l2cap_connection_request(self, connection, cid, request):
+    def on_l2cap_connection_request(
+        self, connection: Connection, cid: int, request
+    ) -> None:
         # Check if there's a server for this PSM
         server = self.servers.get(request.psm)
         if server:
@@ -1639,7 +1701,9 @@ class ChannelManager:
                 ),
             )
 
-    def on_l2cap_connection_response(self, connection, cid, response):
+    def on_l2cap_connection_response(
+        self, connection: Connection, cid: int, response
+    ) -> None:
         if (
             channel := self.find_channel(connection.handle, response.source_cid)
         ) is None:
@@ -1654,7 +1718,9 @@ class ChannelManager:
 
         channel.on_connection_response(response)
 
-    def on_l2cap_configure_request(self, connection, cid, request):
+    def on_l2cap_configure_request(
+        self, connection: Connection, cid: int, request
+    ) -> None:
         if (
             channel := self.find_channel(connection.handle, request.destination_cid)
         ) is None:
@@ -1669,7 +1735,9 @@ class ChannelManager:
 
         channel.on_configure_request(request)
 
-    def on_l2cap_configure_response(self, connection, cid, response):
+    def on_l2cap_configure_response(
+        self, connection: Connection, cid: int, response
+    ) -> None:
         if (
             channel := self.find_channel(connection.handle, response.source_cid)
         ) is None:
@@ -1684,7 +1752,9 @@ class ChannelManager:
 
         channel.on_configure_response(response)
 
-    def on_l2cap_disconnection_request(self, connection, cid, request):
+    def on_l2cap_disconnection_request(
+        self, connection: Connection, cid: int, request
+    ) -> None:
         if (
             channel := self.find_channel(connection.handle, request.destination_cid)
         ) is None:
@@ -1699,7 +1769,9 @@ class ChannelManager:
 
         channel.on_disconnection_request(request)
 
-    def on_l2cap_disconnection_response(self, connection, cid, response):
+    def on_l2cap_disconnection_response(
+        self, connection: Connection, cid: int, response
+    ) -> None:
         if (
             channel := self.find_channel(connection.handle, response.source_cid)
         ) is None:
@@ -1714,7 +1786,7 @@ class ChannelManager:
 
         channel.on_disconnection_response(response)
 
-    def on_l2cap_echo_request(self, connection, cid, request):
+    def on_l2cap_echo_request(self, connection: Connection, cid: int, request) -> None:
         logger.debug(f'<<< Echo request: data={request.data.hex()}')
         self.send_control_frame(
             connection,
@@ -1722,11 +1794,15 @@ class ChannelManager:
             L2CAP_Echo_Response(identifier=request.identifier, data=request.data),
         )
 
-    def on_l2cap_echo_response(self, _connection, _cid, response):
+    def on_l2cap_echo_response(
+        self, _connection: Connection, _cid: int, response
+    ) -> None:
         logger.debug(f'<<< Echo response: data={response.data.hex()}')
         # TODO notify listeners
 
-    def on_l2cap_information_request(self, connection, cid, request):
+    def on_l2cap_information_request(
+        self, connection: Connection, cid: int, request
+    ) -> None:
         if request.info_type == L2CAP_Information_Request.CONNECTIONLESS_MTU:
             result = L2CAP_Information_Response.SUCCESS
             data = self.connectionless_mtu.to_bytes(2, 'little')
@@ -1750,7 +1826,9 @@ class ChannelManager:
             ),
         )
 
-    def on_l2cap_connection_parameter_update_request(self, connection, cid, request):
+    def on_l2cap_connection_parameter_update_request(
+        self, connection: Connection, cid: int, request
+    ):
         if connection.role == BT_CENTRAL_ROLE:
             self.send_control_frame(
                 connection,
@@ -1769,7 +1847,7 @@ class ChannelManager:
                     supervision_timeout=request.timeout,
                     min_ce_length=0,
                     max_ce_length=0,
-                )
+                )  # type: ignore[call-arg]
             )
         else:
             self.send_control_frame(
@@ -1781,11 +1859,15 @@ class ChannelManager:
                 ),
             )
 
-    def on_l2cap_connection_parameter_update_response(self, connection, cid, response):
+    def on_l2cap_connection_parameter_update_response(
+        self, connection: Connection, cid: int, response
+    ) -> None:
         # TODO: check response
         pass
 
-    def on_l2cap_le_credit_based_connection_request(self, connection, cid, request):
+    def on_l2cap_le_credit_based_connection_request(
+        self, connection: Connection, cid: int, request
+    ) -> None:
         if request.le_psm in self.le_coc_servers:
             (server, max_credits, mtu, mps) = self.le_coc_servers[request.le_psm]
 
@@ -1887,7 +1969,9 @@ class ChannelManager:
                 ),
             )
 
-    def on_l2cap_le_credit_based_connection_response(self, connection, _cid, response):
+    def on_l2cap_le_credit_based_connection_response(
+        self, connection: Connection, _cid: int, response
+    ) -> None:
         # Find the pending request by identifier
         request = self.le_coc_requests.get(response.identifier)
         if request is None:
@@ -1910,7 +1994,9 @@ class ChannelManager:
         # Process the response
         channel.on_connection_response(response)
 
-    def on_l2cap_le_flow_control_credit(self, connection, _cid, credit):
+    def on_l2cap_le_flow_control_credit(
+        self, connection: Connection, _cid: int, credit
+    ) -> None:
         channel = self.find_le_coc_channel(connection.handle, credit.cid)
         if channel is None:
             logger.warning(f'received credits for an unknown channel (cid={credit.cid}')
@@ -1918,13 +2004,15 @@ class ChannelManager:
 
         channel.on_credits(credit.credits)
 
-    def on_channel_closed(self, channel):
+    def on_channel_closed(self, channel: Channel) -> None:
         connection_channels = self.channels.get(channel.connection.handle)
         if connection_channels:
             if channel.source_cid in connection_channels:
                 del connection_channels[channel.source_cid]
 
-    async def open_le_coc(self, connection, psm, max_credits, mtu, mps):
+    async def open_le_coc(
+        self, connection: Connection, psm: int, max_credits: int, mtu: int, mps: int
+    ) -> LeConnectionOrientedChannel:
         self.check_le_coc_parameters(max_credits, mtu, mps)
 
         # Find a free CID for the new channel
@@ -1965,7 +2053,7 @@ class ChannelManager:
 
         return channel
 
-    async def connect(self, connection, psm):
+    async def connect(self, connection: Connection, psm: int) -> Channel:
         # NOTE: this implementation hard-codes BR/EDR
 
         # Find a free CID for a new channel

bumble/pairing.py

@@ -0,0 +1,196 @@
+# Copyright 2021-2023 Google LLC
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+#      https://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+# See the License for the specific language governing permissions and
+# limitations under the License.
+
+# -----------------------------------------------------------------------------
+# Imports
+# -----------------------------------------------------------------------------
+import enum
+from typing import Optional, Tuple
+
+from .hci import (
+    Address,
+    HCI_NO_INPUT_NO_OUTPUT_IO_CAPABILITY,
+    HCI_DISPLAY_ONLY_IO_CAPABILITY,
+    HCI_DISPLAY_YES_NO_IO_CAPABILITY,
+    HCI_KEYBOARD_ONLY_IO_CAPABILITY,
+)
+from .smp import (
+    SMP_NO_INPUT_NO_OUTPUT_IO_CAPABILITY,
+    SMP_KEYBOARD_ONLY_IO_CAPABILITY,
+    SMP_DISPLAY_ONLY_IO_CAPABILITY,
+    SMP_DISPLAY_YES_NO_IO_CAPABILITY,
+    SMP_KEYBOARD_DISPLAY_IO_CAPABILITY,
+    SMP_ENC_KEY_DISTRIBUTION_FLAG,
+    SMP_ID_KEY_DISTRIBUTION_FLAG,
+    SMP_SIGN_KEY_DISTRIBUTION_FLAG,
+    SMP_LINK_KEY_DISTRIBUTION_FLAG,
+)
+
+
+# -----------------------------------------------------------------------------
+class PairingDelegate:
+    """Abstract base class for Pairing Delegates."""
+
+    # I/O Capabilities.
+    # These are defined abstractly, and can be mapped to specific Classic pairing
+    # and/or SMP constants.
+    class IoCapability(enum.IntEnum):
+        NO_OUTPUT_NO_INPUT = SMP_NO_INPUT_NO_OUTPUT_IO_CAPABILITY
+        KEYBOARD_INPUT_ONLY = SMP_KEYBOARD_ONLY_IO_CAPABILITY
+        DISPLAY_OUTPUT_ONLY = SMP_DISPLAY_ONLY_IO_CAPABILITY
+        DISPLAY_OUTPUT_AND_YES_NO_INPUT = SMP_DISPLAY_YES_NO_IO_CAPABILITY
+        DISPLAY_OUTPUT_AND_KEYBOARD_INPUT = SMP_KEYBOARD_DISPLAY_IO_CAPABILITY
+
+    # Direct names for backward compatibility.
+    NO_OUTPUT_NO_INPUT = IoCapability.NO_OUTPUT_NO_INPUT
+    KEYBOARD_INPUT_ONLY = IoCapability.KEYBOARD_INPUT_ONLY
+    DISPLAY_OUTPUT_ONLY = IoCapability.DISPLAY_OUTPUT_ONLY
+    DISPLAY_OUTPUT_AND_YES_NO_INPUT = IoCapability.DISPLAY_OUTPUT_AND_YES_NO_INPUT
+    DISPLAY_OUTPUT_AND_KEYBOARD_INPUT = IoCapability.DISPLAY_OUTPUT_AND_KEYBOARD_INPUT
+
+    # Key Distribution [LE only]
+    class KeyDistribution(enum.IntFlag):
+        DISTRIBUTE_ENCRYPTION_KEY = SMP_ENC_KEY_DISTRIBUTION_FLAG
+        DISTRIBUTE_IDENTITY_KEY = SMP_ID_KEY_DISTRIBUTION_FLAG
+        DISTRIBUTE_SIGNING_KEY = SMP_SIGN_KEY_DISTRIBUTION_FLAG
+        DISTRIBUTE_LINK_KEY = SMP_LINK_KEY_DISTRIBUTION_FLAG
+
+    DEFAULT_KEY_DISTRIBUTION: KeyDistribution = (
+        KeyDistribution.DISTRIBUTE_ENCRYPTION_KEY
+        | KeyDistribution.DISTRIBUTE_IDENTITY_KEY
+    )
+
+    # Default mapping from abstract to Classic I/O capabilities.
+    # Subclasses may override this if they prefer a different mapping.
+    CLASSIC_IO_CAPABILITIES_MAP = {
+        NO_OUTPUT_NO_INPUT: HCI_NO_INPUT_NO_OUTPUT_IO_CAPABILITY,
+        KEYBOARD_INPUT_ONLY: HCI_KEYBOARD_ONLY_IO_CAPABILITY,
+        DISPLAY_OUTPUT_ONLY: HCI_DISPLAY_ONLY_IO_CAPABILITY,
+        DISPLAY_OUTPUT_AND_YES_NO_INPUT: HCI_DISPLAY_YES_NO_IO_CAPABILITY,
+        DISPLAY_OUTPUT_AND_KEYBOARD_INPUT: HCI_DISPLAY_YES_NO_IO_CAPABILITY,
+    }
+
+    io_capability: IoCapability
+    local_initiator_key_distribution: KeyDistribution
+    local_responder_key_distribution: KeyDistribution
+
+    def __init__(
+        self,
+        io_capability: IoCapability = NO_OUTPUT_NO_INPUT,
+        local_initiator_key_distribution: KeyDistribution = DEFAULT_KEY_DISTRIBUTION,
+        local_responder_key_distribution: KeyDistribution = DEFAULT_KEY_DISTRIBUTION,
+    ) -> None:
+        self.io_capability = io_capability
+        self.local_initiator_key_distribution = local_initiator_key_distribution
+        self.local_responder_key_distribution = local_responder_key_distribution
+
+    @property
+    def classic_io_capability(self) -> int:
+        """Map the abstract I/O capability to a Classic constant."""
+
+        # pylint: disable=line-too-long
+        return self.CLASSIC_IO_CAPABILITIES_MAP.get(
+            self.io_capability, HCI_NO_INPUT_NO_OUTPUT_IO_CAPABILITY
+        )
+
+    @property
+    def smp_io_capability(self) -> int:
+        """Map the abstract I/O capability to an SMP constant."""
+
+        # This is just a 1-1 direct mapping
+        return self.io_capability
+
+    async def accept(self) -> bool:
+        """Accept or reject a Pairing request."""
+        return True
+
+    async def confirm(self, auto: bool = False) -> bool:
+        """
+        Respond yes or no to a Pairing confirmation question.
+        The `auto` parameter stands for automatic confirmation.
+        """
+        return True
+
+    # pylint: disable-next=unused-argument
+    async def compare_numbers(self, number: int, digits: int) -> bool:
+        """Compare two numbers."""
+        return True
+
+    async def get_number(self) -> Optional[int]:
+        """
+        Return an optional number as an answer to a passkey request.
+        Returning `None` will result in a negative reply.
+        """
+        return 0
+
+    async def get_string(self, max_length: int) -> Optional[str]:
+        """
+        Return a string whose utf-8 encoding is up to max_length bytes.
+        """
+        return None
+
+    # pylint: disable-next=unused-argument
+    async def display_number(self, number: int, digits: int) -> None:
+        """Display a number."""
+
+    # [LE only]
+    async def key_distribution_response(
+        self, peer_initiator_key_distribution: int, peer_responder_key_distribution: int
+    ) -> Tuple[int, int]:
+        """
+        Return the key distribution response in an SMP protocol context.
+
+        NOTE: since it is only used by the SMP protocol, this method's input and output
+        are directly as integers, using the SMP constants, rather than the abstract
+        KeyDistribution enums.
+        """
+        return (
+            int(
+                peer_initiator_key_distribution & self.local_initiator_key_distribution
+            ),
+            int(
+                peer_responder_key_distribution & self.local_responder_key_distribution
+            ),
+        )
+
+
+# -----------------------------------------------------------------------------
+class PairingConfig:
+    """Configuration for the Pairing protocol."""
+
+    class AddressType(enum.IntEnum):
+        PUBLIC = Address.PUBLIC_DEVICE_ADDRESS
+        RANDOM = Address.RANDOM_DEVICE_ADDRESS
+
+    def __init__(
+        self,
+        sc: bool = True,
+        mitm: bool = True,
+        bonding: bool = True,
+        delegate: Optional[PairingDelegate] = None,
+        identity_address_type: Optional[AddressType] = None,
+    ) -> None:
+        self.sc = sc
+        self.mitm = mitm
+        self.bonding = bonding
+        self.delegate = delegate or PairingDelegate()
+        self.identity_address_type = identity_address_type
+
+    def __str__(self) -> str:
+        return (
+            f'PairingConfig(sc={self.sc}, '
+            f'mitm={self.mitm}, bonding={self.bonding}, '
+            f'identity_address_type={self.identity_address_type}, '
+            f'delegate[{self.delegate.io_capability}])'
+        )

bumble/pandora/__init__.py

@@ -0,0 +1,105 @@
+# Copyright 2022 Google LLC
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+#     https://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+# See the License for the specific language governing permissions and
+# limitations under the License.
+
+"""
+Bumble Pandora server.
+This module implement the Pandora Bluetooth test APIs for the Bumble stack.
+"""
+
+__version__ = "0.0.1"
+
+import grpc
+import grpc.aio
+
+from .config import Config
+from .device import PandoraDevice
+from .host import HostService
+from .security import SecurityService, SecurityStorageService
+from pandora.host_grpc_aio import add_HostServicer_to_server
+from pandora.security_grpc_aio import (
+    add_SecurityServicer_to_server,
+    add_SecurityStorageServicer_to_server,
+)
+from typing import Callable, List, Optional
+
+# public symbols
+__all__ = [
+    'register_servicer_hook',
+    'serve',
+    'Config',
+    'PandoraDevice',
+]
+
+
+# Add servicers hooks.
+_SERVICERS_HOOKS: List[Callable[[PandoraDevice, Config, grpc.aio.Server], None]] = []
+
+
+def register_servicer_hook(
+    hook: Callable[[PandoraDevice, Config, grpc.aio.Server], None]
+) -> None:
+    _SERVICERS_HOOKS.append(hook)
+
+
+async def serve(
+    bumble: PandoraDevice,
+    config: Config = Config(),
+    grpc_server: Optional[grpc.aio.Server] = None,
+    port: int = 0,
+) -> None:
+    # initialize a gRPC server if not provided.
+    server = grpc_server if grpc_server is not None else grpc.aio.server()
+    port = server.add_insecure_port(f'localhost:{port}')
+
+    try:
+        while True:
+            # load server config from dict.
+            config.load_from_dict(bumble.config.get('server', {}))
+
+            # add Pandora services to the gRPC server.
+            add_HostServicer_to_server(
+                HostService(server, bumble.device, config), server
+            )
+            add_SecurityServicer_to_server(
+                SecurityService(bumble.device, config), server
+            )
+            add_SecurityStorageServicer_to_server(
+                SecurityStorageService(bumble.device, config), server
+            )
+
+            # call hooks if any.
+            for hook in _SERVICERS_HOOKS:
+                hook(bumble, config, server)
+
+            # open device.
+            await bumble.open()
+            try:
+                # Pandora require classic devices to be discoverable & connectable.
+                if bumble.device.classic_enabled:
+                    await bumble.device.set_discoverable(True)
+                    await bumble.device.set_connectable(True)
+
+                # start & serve gRPC server.
+                await server.start()
+                await server.wait_for_termination()
+            finally:
+                # close device.
+                await bumble.close()
+
+            # re-initialize the gRPC server.
+            server = grpc.aio.server()
+            server.add_insecure_port(f'localhost:{port}')
+    finally:
+        # stop server.
+        await server.stop(None)

bumble/pandora/config.py

@@ -0,0 +1,55 @@
+# Copyright 2022 Google LLC
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+#     https://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+# See the License for the specific language governing permissions and
+# limitations under the License.
+
+from bumble.pairing import PairingConfig, PairingDelegate
+from dataclasses import dataclass
+from typing import Any, Dict
+
+
+@dataclass
+class Config:
+    io_capability: PairingDelegate.IoCapability = PairingDelegate.NO_OUTPUT_NO_INPUT
+    identity_address_type: PairingConfig.AddressType = PairingConfig.AddressType.RANDOM
+    pairing_sc_enable: bool = True
+    pairing_mitm_enable: bool = True
+    pairing_bonding_enable: bool = True
+    smp_local_initiator_key_distribution: PairingDelegate.KeyDistribution = (
+        PairingDelegate.DEFAULT_KEY_DISTRIBUTION
+    )
+    smp_local_responder_key_distribution: PairingDelegate.KeyDistribution = (
+        PairingDelegate.DEFAULT_KEY_DISTRIBUTION
+    )
+
+    def load_from_dict(self, config: Dict[str, Any]) -> None:
+        io_capability_name: str = config.get(
+            'io_capability', 'no_output_no_input'
+        ).upper()
+        self.io_capability = getattr(PairingDelegate, io_capability_name)
+        identity_address_type_name: str = config.get(
+            'identity_address_type', 'random'
+        ).upper()
+        self.identity_address_type = getattr(
+            PairingConfig.AddressType, identity_address_type_name
+        )
+        self.pairing_sc_enable = config.get('pairing_sc_enable', True)
+        self.pairing_mitm_enable = config.get('pairing_mitm_enable', True)
+        self.pairing_bonding_enable = config.get('pairing_bonding_enable', True)
+        self.smp_local_initiator_key_distribution = config.get(
+            'smp_local_initiator_key_distribution',
+            PairingDelegate.DEFAULT_KEY_DISTRIBUTION,
+        )
+        self.smp_local_responder_key_distribution = config.get(
+            'smp_local_responder_key_distribution',
+            PairingDelegate.DEFAULT_KEY_DISTRIBUTION,
+        )

bumble/pandora/device.py

@@ -0,0 +1,163 @@
+# Copyright 2022 Google LLC
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+#     https://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+# See the License for the specific language governing permissions and
+# limitations under the License.
+
+"""Generic & dependency free Bumble (reference) device."""
+
+from bumble import transport
+from bumble.core import (
+    BT_GENERIC_AUDIO_SERVICE,
+    BT_HANDSFREE_SERVICE,
+    BT_L2CAP_PROTOCOL_ID,
+    BT_RFCOMM_PROTOCOL_ID,
+)
+from bumble.device import Device, DeviceConfiguration
+from bumble.host import Host
+from bumble.sdp import (
+    SDP_BLUETOOTH_PROFILE_DESCRIPTOR_LIST_ATTRIBUTE_ID,
+    SDP_PROTOCOL_DESCRIPTOR_LIST_ATTRIBUTE_ID,
+    SDP_SERVICE_CLASS_ID_LIST_ATTRIBUTE_ID,
+    SDP_SERVICE_RECORD_HANDLE_ATTRIBUTE_ID,
+    DataElement,
+    ServiceAttribute,
+)
+from typing import Any, Dict, List, Optional
+
+
+# Default rootcanal HCI TCP address
+ROOTCANAL_HCI_ADDRESS = "localhost:6402"
+
+
+class PandoraDevice:
+    """
+    Small wrapper around a Bumble device and it's HCI transport.
+    Notes:
+      - The Bumble device is idle by default.
+      - Repetitive calls to `open`/`close` will result on new Bumble device instances.
+    """
+
+    # Bumble device instance & configuration.
+    device: Device
+    config: Dict[str, Any]
+
+    # HCI transport name & instance.
+    _hci_name: str
+    _hci: Optional[transport.Transport]  # type: ignore[name-defined]
+
+    def __init__(self, config: Dict[str, Any]) -> None:
+        self.config = config
+        self.device = _make_device(config)
+        self._hci_name = config.get(
+            'transport', f"tcp-client:{config.get('tcp', ROOTCANAL_HCI_ADDRESS)}"
+        )
+        self._hci = None
+
+    @property
+    def idle(self) -> bool:
+        return self._hci is None
+
+    async def open(self) -> None:
+        if self._hci is not None:
+            return
+
+        # open HCI transport & set device host.
+        self._hci = await transport.open_transport(self._hci_name)
+        self.device.host = Host(controller_source=self._hci.source, controller_sink=self._hci.sink)  # type: ignore[no-untyped-call]
+
+        # power-on.
+        await self.device.power_on()
+
+    async def close(self) -> None:
+        if self._hci is None:
+            return
+
+        # flush & re-initialize device.
+        await self.device.host.flush()
+        self.device.host = None  # type: ignore[assignment]
+        self.device = _make_device(self.config)
+
+        # close HCI transport.
+        await self._hci.close()
+        self._hci = None
+
+    async def reset(self) -> None:
+        await self.close()
+        await self.open()
+
+    def info(self) -> Optional[Dict[str, str]]:
+        return {
+            'public_bd_address': str(self.device.public_address),
+            'random_address': str(self.device.random_address),
+        }
+
+
+def _make_device(config: Dict[str, Any]) -> Device:
+    """Initialize an idle Bumble device instance."""
+
+    # initialize bumble device.
+    device_config = DeviceConfiguration()
+    device_config.load_from_dict(config)
+    device = Device(config=device_config, host=None)
+
+    # Add fake a2dp service to avoid Android disconnect
+    device.sdp_service_records = _make_sdp_records(1)
+
+    return device
+
+
+# TODO(b/267540823): remove when Pandora A2dp is supported
+def _make_sdp_records(rfcomm_channel: int) -> Dict[int, List[ServiceAttribute]]:
+    return {
+        0x00010001: [
+            ServiceAttribute(
+                SDP_SERVICE_RECORD_HANDLE_ATTRIBUTE_ID,
+                DataElement.unsigned_integer_32(0x00010001),
+            ),
+            ServiceAttribute(
+                SDP_SERVICE_CLASS_ID_LIST_ATTRIBUTE_ID,
+                DataElement.sequence(
+                    [
+                        DataElement.uuid(BT_HANDSFREE_SERVICE),
+                        DataElement.uuid(BT_GENERIC_AUDIO_SERVICE),
+                    ]
+                ),
+            ),
+            ServiceAttribute(
+                SDP_PROTOCOL_DESCRIPTOR_LIST_ATTRIBUTE_ID,
+                DataElement.sequence(
+                    [
+                        DataElement.sequence([DataElement.uuid(BT_L2CAP_PROTOCOL_ID)]),
+                        DataElement.sequence(
+                            [
+                                DataElement.uuid(BT_RFCOMM_PROTOCOL_ID),
+                                DataElement.unsigned_integer_8(rfcomm_channel),
+                            ]
+                        ),
+                    ]
+                ),
+            ),
+            ServiceAttribute(
+                SDP_BLUETOOTH_PROFILE_DESCRIPTOR_LIST_ATTRIBUTE_ID,
+                DataElement.sequence(
+                    [
+                        DataElement.sequence(
+                            [
+                                DataElement.uuid(BT_HANDSFREE_SERVICE),
+                                DataElement.unsigned_integer_16(0x0105),
+                            ]
+                        )
+                    ]
+                ),
+            ),
+        ]
+    }

bumble/pandora/host.py

@@ -0,0 +1,857 @@
+# Copyright 2022 Google LLC
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+#     https://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+# See the License for the specific language governing permissions and
+# limitations under the License.
+
+import asyncio
+import bumble.device
+import grpc
+import grpc.aio
+import logging
+import struct
+
+from . import utils
+from .config import Config
+from bumble.core import (
+    BT_BR_EDR_TRANSPORT,
+    BT_LE_TRANSPORT,
+    BT_PERIPHERAL_ROLE,
+    UUID,
+    AdvertisingData,
+    ConnectionError,
+)
+from bumble.device import (
+    DEVICE_DEFAULT_SCAN_INTERVAL,
+    DEVICE_DEFAULT_SCAN_WINDOW,
+    Advertisement,
+    AdvertisingType,
+    Device,
+)
+from bumble.gatt import Service
+from bumble.hci import (
+    HCI_CONNECTION_ALREADY_EXISTS_ERROR,
+    HCI_PAGE_TIMEOUT_ERROR,
+    HCI_REMOTE_USER_TERMINATED_CONNECTION_ERROR,
+    Address,
+)
+from google.protobuf import any_pb2  # pytype: disable=pyi-error
+from google.protobuf import empty_pb2  # pytype: disable=pyi-error
+from pandora.host_grpc_aio import HostServicer
+from pandora.host_pb2 import (
+    NOT_CONNECTABLE,
+    NOT_DISCOVERABLE,
+    PRIMARY_1M,
+    PRIMARY_CODED,
+    SECONDARY_1M,
+    SECONDARY_2M,
+    SECONDARY_CODED,
+    SECONDARY_NONE,
+    AdvertiseRequest,
+    AdvertiseResponse,
+    Connection,
+    ConnectLERequest,
+    ConnectLEResponse,
+    ConnectRequest,
+    ConnectResponse,
+    DataTypes,
+    DisconnectRequest,
+    InquiryResponse,
+    PrimaryPhy,
+    ReadLocalAddressResponse,
+    ScanningResponse,
+    ScanRequest,
+    SecondaryPhy,
+    SetConnectabilityModeRequest,
+    SetDiscoverabilityModeRequest,
+    WaitConnectionRequest,
+    WaitConnectionResponse,
+    WaitDisconnectionRequest,
+)
+from typing import AsyncGenerator, Dict, List, Optional, Set, Tuple, cast
+
+PRIMARY_PHY_MAP: Dict[int, PrimaryPhy] = {
+    # Default value reported by Bumble for legacy Advertising reports.
+    # FIXME(uael): `None` might be a better value, but Bumble need to change accordingly.
+    0: PRIMARY_1M,
+    1: PRIMARY_1M,
+    3: PRIMARY_CODED,
+}
+
+SECONDARY_PHY_MAP: Dict[int, SecondaryPhy] = {
+    0: SECONDARY_NONE,
+    1: SECONDARY_1M,
+    2: SECONDARY_2M,
+    3: SECONDARY_CODED,
+}
+
+
+class HostService(HostServicer):
+    waited_connections: Set[int]
+
+    def __init__(
+        self, grpc_server: grpc.aio.Server, device: Device, config: Config
+    ) -> None:
+        self.log = utils.BumbleServerLoggerAdapter(
+            logging.getLogger(), {'service_name': 'Host', 'device': device}
+        )
+        self.grpc_server = grpc_server
+        self.device = device
+        self.config = config
+        self.waited_connections = set()
+
+    @utils.rpc
+    async def FactoryReset(
+        self, request: empty_pb2.Empty, context: grpc.ServicerContext
+    ) -> empty_pb2.Empty:
+        self.log.debug('FactoryReset')
+
+        # delete all bonds
+        if self.device.keystore is not None:
+            await self.device.keystore.delete_all()
+
+        # trigger gRCP server stop then return
+        asyncio.create_task(self.grpc_server.stop(None))
+        return empty_pb2.Empty()
+
+    @utils.rpc
+    async def Reset(
+        self, request: empty_pb2.Empty, context: grpc.ServicerContext
+    ) -> empty_pb2.Empty:
+        self.log.debug('Reset')
+
+        # clear service.
+        self.waited_connections.clear()
+
+        # (re) power device on
+        await self.device.power_on()
+        return empty_pb2.Empty()
+
+    @utils.rpc
+    async def ReadLocalAddress(
+        self, request: empty_pb2.Empty, context: grpc.ServicerContext
+    ) -> ReadLocalAddressResponse:
+        self.log.debug('ReadLocalAddress')
+        return ReadLocalAddressResponse(
+            address=bytes(reversed(bytes(self.device.public_address)))
+        )
+
+    @utils.rpc
+    async def Connect(
+        self, request: ConnectRequest, context: grpc.ServicerContext
+    ) -> ConnectResponse:
+        # Need to reverse bytes order since Bumble Address is using MSB.
+        address = Address(
+            bytes(reversed(request.address)), address_type=Address.PUBLIC_DEVICE_ADDRESS
+        )
+        self.log.debug(f"Connect to {address}")
+
+        try:
+            connection = await self.device.connect(
+                address, transport=BT_BR_EDR_TRANSPORT
+            )
+        except ConnectionError as e:
+            if e.error_code == HCI_PAGE_TIMEOUT_ERROR:
+                self.log.warning(f"Peer not found: {e}")
+                return ConnectResponse(peer_not_found=empty_pb2.Empty())
+            if e.error_code == HCI_CONNECTION_ALREADY_EXISTS_ERROR:
+                self.log.warning(f"Connection already exists: {e}")
+                return ConnectResponse(connection_already_exists=empty_pb2.Empty())
+            raise e
+
+        self.log.debug(f"Connect to {address} done (handle={connection.handle})")
+
+        cookie = any_pb2.Any(value=connection.handle.to_bytes(4, 'big'))
+        return ConnectResponse(connection=Connection(cookie=cookie))
+
+    @utils.rpc
+    async def WaitConnection(
+        self, request: WaitConnectionRequest, context: grpc.ServicerContext
+    ) -> WaitConnectionResponse:
+        if not request.address:
+            raise ValueError('Request address field must be set')
+
+        # Need to reverse bytes order since Bumble Address is using MSB.
+        address = Address(
+            bytes(reversed(request.address)), address_type=Address.PUBLIC_DEVICE_ADDRESS
+        )
+        if address in (Address.NIL, Address.ANY):
+            raise ValueError('Invalid address')
+
+        self.log.debug(f"WaitConnection from {address}...")
+
+        connection = self.device.find_connection_by_bd_addr(
+            address, transport=BT_BR_EDR_TRANSPORT
+        )
+        if connection and id(connection) in self.waited_connections:
+            # this connection was already returned: wait for a new one.
+            connection = None
+
+        if not connection:
+            connection = await self.device.accept(address)
+
+        # save connection has waited and respond.
+        self.waited_connections.add(id(connection))
+
+        self.log.debug(
+            f"WaitConnection from {address} done (handle={connection.handle})"
+        )
+
+        cookie = any_pb2.Any(value=connection.handle.to_bytes(4, 'big'))
+        return WaitConnectionResponse(connection=Connection(cookie=cookie))
+
+    @utils.rpc
+    async def ConnectLE(
+        self, request: ConnectLERequest, context: grpc.ServicerContext
+    ) -> ConnectLEResponse:
+        address = utils.address_from_request(request, request.WhichOneof("address"))
+        if address in (Address.NIL, Address.ANY):
+            raise ValueError('Invalid address')
+
+        self.log.debug(f"ConnectLE to {address}...")
+
+        try:
+            connection = await self.device.connect(
+                address,
+                transport=BT_LE_TRANSPORT,
+                own_address_type=request.own_address_type,
+            )
+        except ConnectionError as e:
+            if e.error_code == HCI_PAGE_TIMEOUT_ERROR:
+                self.log.warning(f"Peer not found: {e}")
+                return ConnectLEResponse(peer_not_found=empty_pb2.Empty())
+            if e.error_code == HCI_CONNECTION_ALREADY_EXISTS_ERROR:
+                self.log.warning(f"Connection already exists: {e}")
+                return ConnectLEResponse(connection_already_exists=empty_pb2.Empty())
+            raise e
+
+        self.log.debug(f"ConnectLE to {address} done (handle={connection.handle})")
+
+        cookie = any_pb2.Any(value=connection.handle.to_bytes(4, 'big'))
+        return ConnectLEResponse(connection=Connection(cookie=cookie))
+
+    @utils.rpc
+    async def Disconnect(
+        self, request: DisconnectRequest, context: grpc.ServicerContext
+    ) -> empty_pb2.Empty:
+        connection_handle = int.from_bytes(request.connection.cookie.value, 'big')
+        self.log.debug(f"Disconnect: {connection_handle}")
+
+        self.log.debug("Disconnecting...")
+        if connection := self.device.lookup_connection(connection_handle):
+            await connection.disconnect(HCI_REMOTE_USER_TERMINATED_CONNECTION_ERROR)
+        self.log.debug("Disconnected")
+
+        return empty_pb2.Empty()
+
+    @utils.rpc
+    async def WaitDisconnection(
+        self, request: WaitDisconnectionRequest, context: grpc.ServicerContext
+    ) -> empty_pb2.Empty:
+        connection_handle = int.from_bytes(request.connection.cookie.value, 'big')
+        self.log.debug(f"WaitDisconnection: {connection_handle}")
+
+        if connection := self.device.lookup_connection(connection_handle):
+            disconnection_future: asyncio.Future[
+                None
+            ] = asyncio.get_running_loop().create_future()
+
+            def on_disconnection(_: None) -> None:
+                disconnection_future.set_result(None)
+
+            connection.on('disconnection', on_disconnection)
+            try:
+                await disconnection_future
+                self.log.debug("Disconnected")
+            finally:
+                connection.remove_listener('disconnection', on_disconnection)  # type: ignore
+
+        return empty_pb2.Empty()
+
+    @utils.rpc
+    async def Advertise(
+        self, request: AdvertiseRequest, context: grpc.ServicerContext
+    ) -> AsyncGenerator[AdvertiseResponse, None]:
+        if not request.legacy:
+            raise NotImplementedError(
+                "TODO: add support for extended advertising in Bumble"
+            )
+        if request.interval:
+            raise NotImplementedError("TODO: add support for `request.interval`")
+        if request.interval_range:
+            raise NotImplementedError("TODO: add support for `request.interval_range`")
+        if request.primary_phy:
+            raise NotImplementedError("TODO: add support for `request.primary_phy`")
+        if request.secondary_phy:
+            raise NotImplementedError("TODO: add support for `request.secondary_phy`")
+
+        if self.device.is_advertising:
+            raise NotImplementedError('TODO: add support for advertising sets')
+
+        if data := request.data:
+            self.device.advertising_data = bytes(self.unpack_data_types(data))
+
+            if scan_response_data := request.scan_response_data:
+                self.device.scan_response_data = bytes(
+                    self.unpack_data_types(scan_response_data)
+                )
+                scannable = True
+            else:
+                scannable = False
+
+            # Retrieve services data
+            for service in self.device.gatt_server.attributes:
+                if isinstance(service, Service) and (
+                    service_data := service.get_advertising_data()
+                ):
+                    service_uuid = service.uuid.to_hex_str('-')
+                    if (
+                        service_uuid in request.data.incomplete_service_class_uuids16
+                        or service_uuid in request.data.complete_service_class_uuids16
+                        or service_uuid in request.data.incomplete_service_class_uuids32
+                        or service_uuid in request.data.complete_service_class_uuids32
+                        or service_uuid
+                        in request.data.incomplete_service_class_uuids128
+                        or service_uuid in request.data.complete_service_class_uuids128
+                    ):
+                        self.device.advertising_data += service_data
+                    if (
+                        service_uuid
+                        in scan_response_data.incomplete_service_class_uuids16
+                        or service_uuid
+                        in scan_response_data.complete_service_class_uuids16
+                        or service_uuid
+                        in scan_response_data.incomplete_service_class_uuids32
+                        or service_uuid
+                        in scan_response_data.complete_service_class_uuids32
+                        or service_uuid
+                        in scan_response_data.incomplete_service_class_uuids128
+                        or service_uuid
+                        in scan_response_data.complete_service_class_uuids128
+                    ):
+                        self.device.scan_response_data += service_data
+
+            target = None
+            if request.connectable and scannable:
+                advertising_type = AdvertisingType.UNDIRECTED_CONNECTABLE_SCANNABLE
+            elif scannable:
+                advertising_type = AdvertisingType.UNDIRECTED_SCANNABLE
+            else:
+                advertising_type = AdvertisingType.UNDIRECTED
+        else:
+            target = None
+            advertising_type = AdvertisingType.UNDIRECTED
+
+        if request.target:
+            # Need to reverse bytes order since Bumble Address is using MSB.
+            target_bytes = bytes(reversed(request.target))
+            if request.target_variant() == "public":
+                target = Address(target_bytes, Address.PUBLIC_DEVICE_ADDRESS)
+                advertising_type = (
+                    AdvertisingType.DIRECTED_CONNECTABLE_HIGH_DUTY
+                )  # FIXME: HIGH_DUTY ?
+            else:
+                target = Address(target_bytes, Address.RANDOM_DEVICE_ADDRESS)
+                advertising_type = (
+                    AdvertisingType.DIRECTED_CONNECTABLE_HIGH_DUTY
+                )  # FIXME: HIGH_DUTY ?
+
+        if request.connectable:
+
+            def on_connection(connection: bumble.device.Connection) -> None:
+                if (
+                    connection.transport == BT_LE_TRANSPORT
+                    and connection.role == BT_PERIPHERAL_ROLE
+                ):
+                    pending_connection.set_result(connection)
+
+            self.device.on('connection', on_connection)
+
+        try:
+            while True:
+                if not self.device.is_advertising:
+                    self.log.debug('Advertise')
+                    await self.device.start_advertising(
+                        target=target,
+                        advertising_type=advertising_type,
+                        own_address_type=request.own_address_type,
+                    )
+
+                if not request.connectable:
+                    await asyncio.sleep(1)
+                    continue
+
+                pending_connection: asyncio.Future[
+                    bumble.device.Connection
+                ] = asyncio.get_running_loop().create_future()
+
+                self.log.debug('Wait for LE connection...')
+                connection = await pending_connection
+
+                self.log.debug(
+                    f"Advertise: Connected to {connection.peer_address} (handle={connection.handle})"
+                )
+
+                cookie = any_pb2.Any(value=connection.handle.to_bytes(4, 'big'))
+                yield AdvertiseResponse(connection=Connection(cookie=cookie))
+
+                # wait a small delay before restarting the advertisement.
+                await asyncio.sleep(1)
+        finally:
+            if request.connectable:
+                self.device.remove_listener('connection', on_connection)  # type: ignore
+
+            try:
+                self.log.debug('Stop advertising')
+                await self.device.abort_on('flush', self.device.stop_advertising())
+            except:
+                pass
+
+    @utils.rpc
+    async def Scan(
+        self, request: ScanRequest, context: grpc.ServicerContext
+    ) -> AsyncGenerator[ScanningResponse, None]:
+        # TODO: modify `start_scanning` to accept floats instead of int for ms values
+        if request.phys:
+            raise NotImplementedError("TODO: add support for `request.phys`")
+
+        self.log.debug('Scan')
+
+        scan_queue: asyncio.Queue[Advertisement] = asyncio.Queue()
+        handler = self.device.on('advertisement', scan_queue.put_nowait)
+        await self.device.start_scanning(
+            legacy=request.legacy,
+            active=not request.passive,
+            own_address_type=request.own_address_type,
+            scan_interval=int(request.interval)
+            if request.interval
+            else DEVICE_DEFAULT_SCAN_INTERVAL,
+            scan_window=int(request.window)
+            if request.window
+            else DEVICE_DEFAULT_SCAN_WINDOW,
+        )
+
+        try:
+            # TODO: add support for `direct_address` in Bumble
+            # TODO: add support for `periodic_advertising_interval` in Bumble
+            while adv := await scan_queue.get():
+                sr = ScanningResponse(
+                    legacy=adv.is_legacy,
+                    connectable=adv.is_connectable,
+                    scannable=adv.is_scannable,
+                    truncated=adv.is_truncated,
+                    sid=adv.sid,
+                    primary_phy=PRIMARY_PHY_MAP[adv.primary_phy],
+                    secondary_phy=SECONDARY_PHY_MAP[adv.secondary_phy],
+                    tx_power=adv.tx_power,
+                    rssi=adv.rssi,
+                    data=self.pack_data_types(adv.data),
+                )
+
+                if adv.address.address_type == Address.PUBLIC_DEVICE_ADDRESS:
+                    sr.public = bytes(reversed(bytes(adv.address)))
+                elif adv.address.address_type == Address.RANDOM_DEVICE_ADDRESS:
+                    sr.random = bytes(reversed(bytes(adv.address)))
+                elif adv.address.address_type == Address.PUBLIC_IDENTITY_ADDRESS:
+                    sr.public_identity = bytes(reversed(bytes(adv.address)))
+                else:
+                    sr.random_static_identity = bytes(reversed(bytes(adv.address)))
+
+                yield sr
+
+        finally:
+            self.device.remove_listener('advertisement', handler)  # type: ignore
+            try:
+                self.log.debug('Stop scanning')
+                await self.device.abort_on('flush', self.device.stop_scanning())
+            except:
+                pass
+
+    @utils.rpc
+    async def Inquiry(
+        self, request: empty_pb2.Empty, context: grpc.ServicerContext
+    ) -> AsyncGenerator[InquiryResponse, None]:
+        self.log.debug('Inquiry')
+
+        inquiry_queue: asyncio.Queue[
+            Optional[Tuple[Address, int, AdvertisingData, int]]
+        ] = asyncio.Queue()
+        complete_handler = self.device.on(
+            'inquiry_complete', lambda: inquiry_queue.put_nowait(None)
+        )
+        result_handler = self.device.on(  # type: ignore
+            'inquiry_result',
+            lambda address, class_of_device, eir_data, rssi: inquiry_queue.put_nowait(  # type: ignore
+                (address, class_of_device, eir_data, rssi)  # type: ignore
+            ),
+        )
+
+        await self.device.start_discovery(auto_restart=False)
+        try:
+            while inquiry_result := await inquiry_queue.get():
+                (address, class_of_device, eir_data, rssi) = inquiry_result
+                # FIXME: if needed, add support for `page_scan_repetition_mode` and `clock_offset` in Bumble
+                yield InquiryResponse(
+                    address=bytes(reversed(bytes(address))),
+                    class_of_device=class_of_device,
+                    rssi=rssi,
+                    data=self.pack_data_types(eir_data),
+                )
+
+        finally:
+            self.device.remove_listener('inquiry_complete', complete_handler)  # type: ignore
+            self.device.remove_listener('inquiry_result', result_handler)  # type: ignore
+            try:
+                self.log.debug('Stop inquiry')
+                await self.device.abort_on('flush', self.device.stop_discovery())
+            except:
+                pass
+
+    @utils.rpc
+    async def SetDiscoverabilityMode(
+        self, request: SetDiscoverabilityModeRequest, context: grpc.ServicerContext
+    ) -> empty_pb2.Empty:
+        self.log.debug("SetDiscoverabilityMode")
+        await self.device.set_discoverable(request.mode != NOT_DISCOVERABLE)
+        return empty_pb2.Empty()
+
+    @utils.rpc
+    async def SetConnectabilityMode(
+        self, request: SetConnectabilityModeRequest, context: grpc.ServicerContext
+    ) -> empty_pb2.Empty:
+        self.log.debug("SetConnectabilityMode")
+        await self.device.set_connectable(request.mode != NOT_CONNECTABLE)
+        return empty_pb2.Empty()
+
+    def unpack_data_types(self, dt: DataTypes) -> AdvertisingData:
+        ad_structures: List[Tuple[int, bytes]] = []
+
+        uuids: List[str]
+        datas: Dict[str, bytes]
+
+        def uuid128_from_str(uuid: str) -> bytes:
+            """Decode a 128-bit uuid encoded as XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX
+            to byte format."""
+            return bytes(reversed(bytes.fromhex(uuid.replace('-', ''))))
+
+        def uuid32_from_str(uuid: str) -> bytes:
+            """Decode a 32-bit uuid encoded as XXXXXXXX to byte format."""
+            return bytes(reversed(bytes.fromhex(uuid)))
+
+        def uuid16_from_str(uuid: str) -> bytes:
+            """Decode a 16-bit uuid encoded as XXXX to byte format."""
+            return bytes(reversed(bytes.fromhex(uuid)))
+
+        if uuids := dt.incomplete_service_class_uuids16:
+            ad_structures.append(
+                (
+                    AdvertisingData.INCOMPLETE_LIST_OF_16_BIT_SERVICE_CLASS_UUIDS,
+                    b''.join([uuid16_from_str(uuid) for uuid in uuids]),
+                )
+            )
+        if uuids := dt.complete_service_class_uuids16:
+            ad_structures.append(
+                (
+                    AdvertisingData.COMPLETE_LIST_OF_16_BIT_SERVICE_CLASS_UUIDS,
+                    b''.join([uuid16_from_str(uuid) for uuid in uuids]),
+                )
+            )
+        if uuids := dt.incomplete_service_class_uuids32:
+            ad_structures.append(
+                (
+                    AdvertisingData.INCOMPLETE_LIST_OF_32_BIT_SERVICE_CLASS_UUIDS,
+                    b''.join([uuid32_from_str(uuid) for uuid in uuids]),
+                )
+            )
+        if uuids := dt.complete_service_class_uuids32:
+            ad_structures.append(
+                (
+                    AdvertisingData.COMPLETE_LIST_OF_32_BIT_SERVICE_CLASS_UUIDS,
+                    b''.join([uuid32_from_str(uuid) for uuid in uuids]),
+                )
+            )
+        if uuids := dt.incomplete_service_class_uuids128:
+            ad_structures.append(
+                (
+                    AdvertisingData.INCOMPLETE_LIST_OF_128_BIT_SERVICE_CLASS_UUIDS,
+                    b''.join([uuid128_from_str(uuid) for uuid in uuids]),
+                )
+            )
+        if uuids := dt.complete_service_class_uuids128:
+            ad_structures.append(
+                (
+                    AdvertisingData.COMPLETE_LIST_OF_128_BIT_SERVICE_CLASS_UUIDS,
+                    b''.join([uuid128_from_str(uuid) for uuid in uuids]),
+                )
+            )
+        if dt.HasField('include_shortened_local_name'):
+            ad_structures.append(
+                (
+                    AdvertisingData.SHORTENED_LOCAL_NAME,
+                    bytes(self.device.name[:8], 'utf-8'),
+                )
+            )
+        elif dt.shortened_local_name:
+            ad_structures.append(
+                (
+                    AdvertisingData.SHORTENED_LOCAL_NAME,
+                    bytes(dt.shortened_local_name, 'utf-8'),
+                )
+            )
+        if dt.HasField('include_complete_local_name'):
+            ad_structures.append(
+                (AdvertisingData.COMPLETE_LOCAL_NAME, bytes(self.device.name, 'utf-8'))
+            )
+        elif dt.complete_local_name:
+            ad_structures.append(
+                (
+                    AdvertisingData.COMPLETE_LOCAL_NAME,
+                    bytes(dt.complete_local_name, 'utf-8'),
+                )
+            )
+        if dt.HasField('include_tx_power_level'):
+            raise ValueError('unsupported data type')
+        elif dt.tx_power_level:
+            ad_structures.append(
+                (
+                    AdvertisingData.TX_POWER_LEVEL,
+                    bytes(struct.pack('<I', dt.tx_power_level)[:1]),
+                )
+            )
+        if dt.HasField('include_class_of_device'):
+            ad_structures.append(
+                (
+                    AdvertisingData.CLASS_OF_DEVICE,
+                    bytes(struct.pack('<I', self.device.class_of_device)[:-1]),
+                )
+            )
+        elif dt.class_of_device:
+            ad_structures.append(
+                (
+                    AdvertisingData.CLASS_OF_DEVICE,
+                    bytes(struct.pack('<I', dt.class_of_device)[:-1]),
+                )
+            )
+        if dt.peripheral_connection_interval_min:
+            ad_structures.append(
+                (
+                    AdvertisingData.PERIPHERAL_CONNECTION_INTERVAL_RANGE,
+                    bytes(
+                        [
+                            *struct.pack('<H', dt.peripheral_connection_interval_min),
+                            *struct.pack(
+                                '<H',
+                                dt.peripheral_connection_interval_max
+                                if dt.peripheral_connection_interval_max
+                                else dt.peripheral_connection_interval_min,
+                            ),
+                        ]
+                    ),
+                )
+            )
+        if uuids := dt.service_solicitation_uuids16:
+            ad_structures.append(
+                (
+                    AdvertisingData.LIST_OF_16_BIT_SERVICE_SOLICITATION_UUIDS,
+                    b''.join([uuid16_from_str(uuid) for uuid in uuids]),
+                )
+            )
+        if uuids := dt.service_solicitation_uuids32:
+            ad_structures.append(
+                (
+                    AdvertisingData.LIST_OF_32_BIT_SERVICE_SOLICITATION_UUIDS,
+                    b''.join([uuid32_from_str(uuid) for uuid in uuids]),
+                )
+            )
+        if uuids := dt.service_solicitation_uuids128:
+            ad_structures.append(
+                (
+                    AdvertisingData.LIST_OF_128_BIT_SERVICE_SOLICITATION_UUIDS,
+                    b''.join([uuid128_from_str(uuid) for uuid in uuids]),
+                )
+            )
+        if datas := dt.service_data_uuid16:
+            ad_structures.extend(
+                [
+                    (
+                        AdvertisingData.SERVICE_DATA_16_BIT_UUID,
+                        uuid16_from_str(uuid) + data,
+                    )
+                    for uuid, data in datas.items()
+                ]
+            )
+        if datas := dt.service_data_uuid32:
+            ad_structures.extend(
+                [
+                    (
+                        AdvertisingData.SERVICE_DATA_32_BIT_UUID,
+                        uuid32_from_str(uuid) + data,
+                    )
+                    for uuid, data in datas.items()
+                ]
+            )
+        if datas := dt.service_data_uuid128:
+            ad_structures.extend(
+                [
+                    (
+                        AdvertisingData.SERVICE_DATA_128_BIT_UUID,
+                        uuid128_from_str(uuid) + data,
+                    )
+                    for uuid, data in datas.items()
+                ]
+            )
+        if dt.appearance:
+            ad_structures.append(
+                (AdvertisingData.APPEARANCE, struct.pack('<H', dt.appearance))
+            )
+        if dt.advertising_interval:
+            ad_structures.append(
+                (
+                    AdvertisingData.ADVERTISING_INTERVAL,
+                    struct.pack('<H', dt.advertising_interval),
+                )
+            )
+        if dt.uri:
+            ad_structures.append((AdvertisingData.URI, bytes(dt.uri, 'utf-8')))
+        if dt.le_supported_features:
+            ad_structures.append(
+                (AdvertisingData.LE_SUPPORTED_FEATURES, dt.le_supported_features)
+            )
+        if dt.manufacturer_specific_data:
+            ad_structures.append(
+                (
+                    AdvertisingData.MANUFACTURER_SPECIFIC_DATA,
+                    dt.manufacturer_specific_data,
+                )
+            )
+
+        return AdvertisingData(ad_structures)
+
+    def pack_data_types(self, ad: AdvertisingData) -> DataTypes:
+        dt = DataTypes()
+        uuids: List[UUID]
+        s: str
+        i: int
+        ij: Tuple[int, int]
+        uuid_data: Tuple[UUID, bytes]
+        data: bytes
+
+        if uuids := cast(
+            List[UUID],
+            ad.get(AdvertisingData.INCOMPLETE_LIST_OF_16_BIT_SERVICE_CLASS_UUIDS),
+        ):
+            dt.incomplete_service_class_uuids16.extend(
+                list(map(lambda x: x.to_hex_str('-'), uuids))
+            )
+        if uuids := cast(
+            List[UUID],
+            ad.get(AdvertisingData.COMPLETE_LIST_OF_16_BIT_SERVICE_CLASS_UUIDS),
+        ):
+            dt.complete_service_class_uuids16.extend(
+                list(map(lambda x: x.to_hex_str('-'), uuids))
+            )
+        if uuids := cast(
+            List[UUID],
+            ad.get(AdvertisingData.INCOMPLETE_LIST_OF_32_BIT_SERVICE_CLASS_UUIDS),
+        ):
+            dt.incomplete_service_class_uuids32.extend(
+                list(map(lambda x: x.to_hex_str('-'), uuids))
+            )
+        if uuids := cast(
+            List[UUID],
+            ad.get(AdvertisingData.COMPLETE_LIST_OF_32_BIT_SERVICE_CLASS_UUIDS),
+        ):
+            dt.complete_service_class_uuids32.extend(
+                list(map(lambda x: x.to_hex_str('-'), uuids))
+            )
+        if uuids := cast(
+            List[UUID],
+            ad.get(AdvertisingData.INCOMPLETE_LIST_OF_128_BIT_SERVICE_CLASS_UUIDS),
+        ):
+            dt.incomplete_service_class_uuids128.extend(
+                list(map(lambda x: x.to_hex_str('-'), uuids))
+            )
+        if uuids := cast(
+            List[UUID],
+            ad.get(AdvertisingData.COMPLETE_LIST_OF_128_BIT_SERVICE_CLASS_UUIDS),
+        ):
+            dt.complete_service_class_uuids128.extend(
+                list(map(lambda x: x.to_hex_str('-'), uuids))
+            )
+        if s := cast(str, ad.get(AdvertisingData.SHORTENED_LOCAL_NAME)):
+            dt.shortened_local_name = s
+        if s := cast(str, ad.get(AdvertisingData.COMPLETE_LOCAL_NAME)):
+            dt.complete_local_name = s
+        if i := cast(int, ad.get(AdvertisingData.TX_POWER_LEVEL)):
+            dt.tx_power_level = i
+        if i := cast(int, ad.get(AdvertisingData.CLASS_OF_DEVICE)):
+            dt.class_of_device = i
+        if ij := cast(
+            Tuple[int, int],
+            ad.get(AdvertisingData.PERIPHERAL_CONNECTION_INTERVAL_RANGE),
+        ):
+            dt.peripheral_connection_interval_min = ij[0]
+            dt.peripheral_connection_interval_max = ij[1]
+        if uuids := cast(
+            List[UUID],
+            ad.get(AdvertisingData.LIST_OF_16_BIT_SERVICE_SOLICITATION_UUIDS),
+        ):
+            dt.service_solicitation_uuids16.extend(
+                list(map(lambda x: x.to_hex_str('-'), uuids))
+            )
+        if uuids := cast(
+            List[UUID],
+            ad.get(AdvertisingData.LIST_OF_32_BIT_SERVICE_SOLICITATION_UUIDS),
+        ):
+            dt.service_solicitation_uuids32.extend(
+                list(map(lambda x: x.to_hex_str('-'), uuids))
+            )
+        if uuids := cast(
+            List[UUID],
+            ad.get(AdvertisingData.LIST_OF_128_BIT_SERVICE_SOLICITATION_UUIDS),
+        ):
+            dt.service_solicitation_uuids128.extend(
+                list(map(lambda x: x.to_hex_str('-'), uuids))
+            )
+        if uuid_data := cast(
+            Tuple[UUID, bytes], ad.get(AdvertisingData.SERVICE_DATA_16_BIT_UUID)
+        ):
+            dt.service_data_uuid16[uuid_data[0].to_hex_str('-')] = uuid_data[1]
+        if uuid_data := cast(
+            Tuple[UUID, bytes], ad.get(AdvertisingData.SERVICE_DATA_32_BIT_UUID)
+        ):
+            dt.service_data_uuid32[uuid_data[0].to_hex_str('-')] = uuid_data[1]
+        if uuid_data := cast(
+            Tuple[UUID, bytes], ad.get(AdvertisingData.SERVICE_DATA_128_BIT_UUID)
+        ):
+            dt.service_data_uuid128[uuid_data[0].to_hex_str('-')] = uuid_data[1]
+        if data := cast(bytes, ad.get(AdvertisingData.PUBLIC_TARGET_ADDRESS, raw=True)):
+            dt.public_target_addresses.extend(
+                [data[i * 6 :: i * 6 + 6] for i in range(int(len(data) / 6))]
+            )
+        if data := cast(bytes, ad.get(AdvertisingData.RANDOM_TARGET_ADDRESS, raw=True)):
+            dt.random_target_addresses.extend(
+                [data[i * 6 :: i * 6 + 6] for i in range(int(len(data) / 6))]
+            )
+        if i := cast(int, ad.get(AdvertisingData.APPEARANCE)):
+            dt.appearance = i
+        if i := cast(int, ad.get(AdvertisingData.ADVERTISING_INTERVAL)):
+            dt.advertising_interval = i
+        if s := cast(str, ad.get(AdvertisingData.URI)):
+            dt.uri = s
+        if data := cast(bytes, ad.get(AdvertisingData.LE_SUPPORTED_FEATURES, raw=True)):
+            dt.le_supported_features = data
+        if data := cast(
+            bytes, ad.get(AdvertisingData.MANUFACTURER_SPECIFIC_DATA, raw=True)
+        ):
+            dt.manufacturer_specific_data = data
+
+        return dt

bumble/pandora/security.py

@@ -0,0 +1,527 @@
+# Copyright 2022 Google LLC
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+#     https://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+# See the License for the specific language governing permissions and
+# limitations under the License.
+
+import asyncio
+import grpc
+import logging
+
+from . import utils
+from .config import Config
+from bumble import hci
+from bumble.core import (
+    BT_BR_EDR_TRANSPORT,
+    BT_LE_TRANSPORT,
+    BT_PERIPHERAL_ROLE,
+    ProtocolError,
+)
+from bumble.device import Connection as BumbleConnection, Device
+from bumble.hci import HCI_Error
+from bumble.pairing import PairingConfig, PairingDelegate as BasePairingDelegate
+from contextlib import suppress
+from google.protobuf import any_pb2  # pytype: disable=pyi-error
+from google.protobuf import empty_pb2  # pytype: disable=pyi-error
+from google.protobuf import wrappers_pb2  # pytype: disable=pyi-error
+from pandora.host_pb2 import Connection
+from pandora.security_grpc_aio import SecurityServicer, SecurityStorageServicer
+from pandora.security_pb2 import (
+    LE_LEVEL1,
+    LE_LEVEL2,
+    LE_LEVEL3,
+    LE_LEVEL4,
+    LEVEL0,
+    LEVEL1,
+    LEVEL2,
+    LEVEL3,
+    LEVEL4,
+    DeleteBondRequest,
+    IsBondedRequest,
+    LESecurityLevel,
+    PairingEvent,
+    PairingEventAnswer,
+    SecureRequest,
+    SecureResponse,
+    SecurityLevel,
+    WaitSecurityRequest,
+    WaitSecurityResponse,
+)
+from typing import Any, AsyncGenerator, AsyncIterator, Callable, Dict, Optional, Union
+
+
+class PairingDelegate(BasePairingDelegate):
+    def __init__(
+        self,
+        connection: BumbleConnection,
+        service: "SecurityService",
+        io_capability: BasePairingDelegate.IoCapability = BasePairingDelegate.NO_OUTPUT_NO_INPUT,
+        local_initiator_key_distribution: BasePairingDelegate.KeyDistribution = BasePairingDelegate.DEFAULT_KEY_DISTRIBUTION,
+        local_responder_key_distribution: BasePairingDelegate.KeyDistribution = BasePairingDelegate.DEFAULT_KEY_DISTRIBUTION,
+    ) -> None:
+        self.log = utils.BumbleServerLoggerAdapter(
+            logging.getLogger(),
+            {'service_name': 'Security', 'device': connection.device},
+        )
+        self.connection = connection
+        self.service = service
+        super().__init__(
+            io_capability,
+            local_initiator_key_distribution,
+            local_responder_key_distribution,
+        )
+
+    async def accept(self) -> bool:
+        return True
+
+    def add_origin(self, ev: PairingEvent) -> PairingEvent:
+        if not self.connection.is_incomplete:
+            assert ev.connection
+            ev.connection.CopyFrom(
+                Connection(
+                    cookie=any_pb2.Any(value=self.connection.handle.to_bytes(4, 'big'))
+                )
+            )
+        else:
+            # In BR/EDR, connection may not be complete,
+            # use address instead
+            assert self.connection.transport == BT_BR_EDR_TRANSPORT
+            ev.address = bytes(reversed(bytes(self.connection.peer_address)))
+
+        return ev
+
+    async def confirm(self, auto: bool = False) -> bool:
+        self.log.debug(
+            f"Pairing event: `just_works` (io_capability: {self.io_capability})"
+        )
+
+        if self.service.event_queue is None or self.service.event_answer is None:
+            return True
+
+        event = self.add_origin(PairingEvent(just_works=empty_pb2.Empty()))
+        self.service.event_queue.put_nowait(event)
+        answer = await anext(self.service.event_answer)  # pytype: disable=name-error
+        assert answer.event == event
+        assert answer.answer_variant() == 'confirm' and answer.confirm is not None
+        return answer.confirm
+
+    async def compare_numbers(self, number: int, digits: int = 6) -> bool:
+        self.log.debug(
+            f"Pairing event: `numeric_comparison` (io_capability: {self.io_capability})"
+        )
+
+        if self.service.event_queue is None or self.service.event_answer is None:
+            raise RuntimeError('security: unhandled number comparison request')
+
+        event = self.add_origin(PairingEvent(numeric_comparison=number))
+        self.service.event_queue.put_nowait(event)
+        answer = await anext(self.service.event_answer)  # pytype: disable=name-error
+        assert answer.event == event
+        assert answer.answer_variant() == 'confirm' and answer.confirm is not None
+        return answer.confirm
+
+    async def get_number(self) -> Optional[int]:
+        self.log.debug(
+            f"Pairing event: `passkey_entry_request` (io_capability: {self.io_capability})"
+        )
+
+        if self.service.event_queue is None or self.service.event_answer is None:
+            raise RuntimeError('security: unhandled number request')
+
+        event = self.add_origin(PairingEvent(passkey_entry_request=empty_pb2.Empty()))
+        self.service.event_queue.put_nowait(event)
+        answer = await anext(self.service.event_answer)  # pytype: disable=name-error
+        assert answer.event == event
+        if answer.answer_variant() is None:
+            return None
+        assert answer.answer_variant() == 'passkey'
+        return answer.passkey
+
+    async def get_string(self, max_length: int) -> Optional[str]:
+        self.log.debug(
+            f"Pairing event: `pin_code_request` (io_capability: {self.io_capability})"
+        )
+
+        if self.service.event_queue is None or self.service.event_answer is None:
+            raise RuntimeError('security: unhandled pin_code request')
+
+        event = self.add_origin(PairingEvent(pin_code_request=empty_pb2.Empty()))
+        self.service.event_queue.put_nowait(event)
+        answer = await anext(self.service.event_answer)  # pytype: disable=name-error
+        assert answer.event == event
+        if answer.answer_variant() is None:
+            return None
+        assert answer.answer_variant() == 'pin'
+
+        if answer.pin is None:
+            return None
+
+        pin = answer.pin.decode('utf-8')
+        if not pin or len(pin) > max_length:
+            raise ValueError(f'Pin must be utf-8 encoded up to {max_length} bytes')
+
+        return pin
+
+    async def display_number(self, number: int, digits: int = 6) -> None:
+        if (
+            self.connection.transport == BT_BR_EDR_TRANSPORT
+            and self.io_capability == BasePairingDelegate.DISPLAY_OUTPUT_ONLY
+        ):
+            return
+
+        self.log.debug(
+            f"Pairing event: `passkey_entry_notification` (io_capability: {self.io_capability})"
+        )
+
+        if self.service.event_queue is None:
+            raise RuntimeError('security: unhandled number display request')
+
+        event = self.add_origin(PairingEvent(passkey_entry_notification=number))
+        self.service.event_queue.put_nowait(event)
+
+
+BR_LEVEL_REACHED: Dict[SecurityLevel, Callable[[BumbleConnection], bool]] = {
+    LEVEL0: lambda connection: True,
+    LEVEL1: lambda connection: connection.encryption == 0 or connection.authenticated,
+    LEVEL2: lambda connection: connection.encryption != 0 and connection.authenticated,
+    LEVEL3: lambda connection: connection.encryption != 0
+    and connection.authenticated
+    and connection.link_key_type
+    in (
+        hci.HCI_AUTHENTICATED_COMBINATION_KEY_GENERATED_FROM_P_192_TYPE,
+        hci.HCI_AUTHENTICATED_COMBINATION_KEY_GENERATED_FROM_P_256_TYPE,
+    ),
+    LEVEL4: lambda connection: connection.encryption
+    == hci.HCI_Encryption_Change_Event.AES_CCM
+    and connection.authenticated
+    and connection.link_key_type
+    == hci.HCI_AUTHENTICATED_COMBINATION_KEY_GENERATED_FROM_P_256_TYPE,
+}
+
+LE_LEVEL_REACHED: Dict[LESecurityLevel, Callable[[BumbleConnection], bool]] = {
+    LE_LEVEL1: lambda connection: True,
+    LE_LEVEL2: lambda connection: connection.encryption != 0,
+    LE_LEVEL3: lambda connection: connection.encryption != 0
+    and connection.authenticated,
+    LE_LEVEL4: lambda connection: connection.encryption != 0
+    and connection.authenticated
+    and connection.sc,
+}
+
+
+class SecurityService(SecurityServicer):
+    def __init__(self, device: Device, config: Config) -> None:
+        self.log = utils.BumbleServerLoggerAdapter(
+            logging.getLogger(), {'service_name': 'Security', 'device': device}
+        )
+        self.event_queue: Optional[asyncio.Queue[PairingEvent]] = None
+        self.event_answer: Optional[AsyncIterator[PairingEventAnswer]] = None
+        self.device = device
+        self.config = config
+
+        def pairing_config_factory(connection: BumbleConnection) -> PairingConfig:
+            return PairingConfig(
+                sc=config.pairing_sc_enable,
+                mitm=config.pairing_mitm_enable,
+                bonding=config.pairing_bonding_enable,
+                identity_address_type=config.identity_address_type,
+                delegate=PairingDelegate(
+                    connection,
+                    self,
+                    io_capability=config.io_capability,
+                    local_initiator_key_distribution=config.smp_local_initiator_key_distribution,
+                    local_responder_key_distribution=config.smp_local_responder_key_distribution,
+                ),
+            )
+
+        self.device.pairing_config_factory = pairing_config_factory
+
+    @utils.rpc
+    async def OnPairing(
+        self, request: AsyncIterator[PairingEventAnswer], context: grpc.ServicerContext
+    ) -> AsyncGenerator[PairingEvent, None]:
+        self.log.debug('OnPairing')
+
+        if self.event_queue is not None:
+            raise RuntimeError('already streaming pairing events')
+
+        if len(self.device.connections):
+            raise RuntimeError(
+                'the `OnPairing` method shall be initiated before establishing any connections.'
+            )
+
+        self.event_queue = asyncio.Queue()
+        self.event_answer = request
+
+        try:
+            while event := await self.event_queue.get():
+                yield event
+
+        finally:
+            self.event_queue = None
+            self.event_answer = None
+
+    @utils.rpc
+    async def Secure(
+        self, request: SecureRequest, context: grpc.ServicerContext
+    ) -> SecureResponse:
+        connection_handle = int.from_bytes(request.connection.cookie.value, 'big')
+        self.log.debug(f"Secure: {connection_handle}")
+
+        connection = self.device.lookup_connection(connection_handle)
+        assert connection
+
+        oneof = request.WhichOneof('level')
+        level = getattr(request, oneof)
+        assert {BT_BR_EDR_TRANSPORT: 'classic', BT_LE_TRANSPORT: 'le'}[
+            connection.transport
+        ] == oneof
+
+        # security level already reached
+        if self.reached_security_level(connection, level):
+            return SecureResponse(success=empty_pb2.Empty())
+
+        # trigger pairing if needed
+        if self.need_pairing(connection, level):
+            try:
+                self.log.debug('Pair...')
+
+                if (
+                    connection.transport == BT_LE_TRANSPORT
+                    and connection.role == BT_PERIPHERAL_ROLE
+                ):
+                    wait_for_security: asyncio.Future[
+                        bool
+                    ] = asyncio.get_running_loop().create_future()
+                    connection.on("pairing", lambda *_: wait_for_security.set_result(True))  # type: ignore
+                    connection.on("pairing_failure", wait_for_security.set_exception)
+
+                    connection.request_pairing()
+
+                    await wait_for_security
+                else:
+                    await connection.pair()
+
+                self.log.debug('Paired')
+            except asyncio.CancelledError:
+                self.log.warning("Connection died during encryption")
+                return SecureResponse(connection_died=empty_pb2.Empty())
+            except (HCI_Error, ProtocolError) as e:
+                self.log.warning(f"Pairing failure: {e}")
+                return SecureResponse(pairing_failure=empty_pb2.Empty())
+
+        # trigger authentication if needed
+        if self.need_authentication(connection, level):
+            try:
+                self.log.debug('Authenticate...')
+                await connection.authenticate()
+                self.log.debug('Authenticated')
+            except asyncio.CancelledError:
+                self.log.warning("Connection died during authentication")
+                return SecureResponse(connection_died=empty_pb2.Empty())
+            except (HCI_Error, ProtocolError) as e:
+                self.log.warning(f"Authentication failure: {e}")
+                return SecureResponse(authentication_failure=empty_pb2.Empty())
+
+        # trigger encryption if needed
+        if self.need_encryption(connection, level):
+            try:
+                self.log.debug('Encrypt...')
+                await connection.encrypt()
+                self.log.debug('Encrypted')
+            except asyncio.CancelledError:
+                self.log.warning("Connection died during encryption")
+                return SecureResponse(connection_died=empty_pb2.Empty())
+            except (HCI_Error, ProtocolError) as e:
+                self.log.warning(f"Encryption failure: {e}")
+                return SecureResponse(encryption_failure=empty_pb2.Empty())
+
+        # security level has been reached ?
+        if self.reached_security_level(connection, level):
+            return SecureResponse(success=empty_pb2.Empty())
+        return SecureResponse(not_reached=empty_pb2.Empty())
+
+    @utils.rpc
+    async def WaitSecurity(
+        self, request: WaitSecurityRequest, context: grpc.ServicerContext
+    ) -> WaitSecurityResponse:
+        connection_handle = int.from_bytes(request.connection.cookie.value, 'big')
+        self.log.debug(f"WaitSecurity: {connection_handle}")
+
+        connection = self.device.lookup_connection(connection_handle)
+        assert connection
+
+        assert request.level
+        level = request.level
+        assert {BT_BR_EDR_TRANSPORT: 'classic', BT_LE_TRANSPORT: 'le'}[
+            connection.transport
+        ] == request.level_variant()
+
+        wait_for_security: asyncio.Future[
+            str
+        ] = asyncio.get_running_loop().create_future()
+        authenticate_task: Optional[asyncio.Future[None]] = None
+
+        async def authenticate() -> None:
+            assert connection
+            if (encryption := connection.encryption) != 0:
+                self.log.debug('Disable encryption...')
+                try:
+                    await connection.encrypt(enable=False)
+                except:
+                    pass
+                self.log.debug('Disable encryption: done')
+
+            self.log.debug('Authenticate...')
+            await connection.authenticate()
+            self.log.debug('Authenticate: done')
+
+            if encryption != 0 and connection.encryption != encryption:
+                self.log.debug('Re-enable encryption...')
+                await connection.encrypt()
+                self.log.debug('Re-enable encryption: done')
+
+        def set_failure(name: str) -> Callable[..., None]:
+            def wrapper(*args: Any) -> None:
+                self.log.debug(f'Wait for security: error `{name}`: {args}')
+                wait_for_security.set_result(name)
+
+            return wrapper
+
+        def try_set_success(*_: Any) -> None:
+            assert connection
+            if self.reached_security_level(connection, level):
+                self.log.debug('Wait for security: done')
+                wait_for_security.set_result('success')
+
+        def on_encryption_change(*_: Any) -> None:
+            assert connection
+            if self.reached_security_level(connection, level):
+                self.log.debug('Wait for security: done')
+                wait_for_security.set_result('success')
+            elif (
+                connection.transport == BT_BR_EDR_TRANSPORT
+                and self.need_authentication(connection, level)
+            ):
+                nonlocal authenticate_task
+                if authenticate_task is None:
+                    authenticate_task = asyncio.create_task(authenticate())
+
+        listeners: Dict[str, Callable[..., None]] = {
+            'disconnection': set_failure('connection_died'),
+            'pairing_failure': set_failure('pairing_failure'),
+            'connection_authentication_failure': set_failure('authentication_failure'),
+            'connection_encryption_failure': set_failure('encryption_failure'),
+            'pairing': try_set_success,
+            'connection_authentication': try_set_success,
+            'connection_encryption_change': on_encryption_change,
+        }
+
+        # register event handlers
+        for event, listener in listeners.items():
+            connection.on(event, listener)
+
+        # security level already reached
+        if self.reached_security_level(connection, level):
+            return WaitSecurityResponse(success=empty_pb2.Empty())
+
+        self.log.debug('Wait for security...')
+        kwargs = {}
+        kwargs[await wait_for_security] = empty_pb2.Empty()
+
+        # remove event handlers
+        for event, listener in listeners.items():
+            connection.remove_listener(event, listener)  # type: ignore
+
+        # wait for `authenticate` to finish if any
+        if authenticate_task is not None:
+            self.log.debug('Wait for authentication...')
+            try:
+                await authenticate_task  # type: ignore
+            except:
+                pass
+            self.log.debug('Authenticated')
+
+        return WaitSecurityResponse(**kwargs)
+
+    def reached_security_level(
+        self, connection: BumbleConnection, level: Union[SecurityLevel, LESecurityLevel]
+    ) -> bool:
+        self.log.debug(
+            str(
+                {
+                    'level': level,
+                    'encryption': connection.encryption,
+                    'authenticated': connection.authenticated,
+                    'sc': connection.sc,
+                    'link_key_type': connection.link_key_type,
+                }
+            )
+        )
+
+        if isinstance(level, LESecurityLevel):
+            return LE_LEVEL_REACHED[level](connection)
+
+        return BR_LEVEL_REACHED[level](connection)
+
+    def need_pairing(self, connection: BumbleConnection, level: int) -> bool:
+        if connection.transport == BT_LE_TRANSPORT:
+            return level >= LE_LEVEL3 and not connection.authenticated
+        return False
+
+    def need_authentication(self, connection: BumbleConnection, level: int) -> bool:
+        if connection.transport == BT_LE_TRANSPORT:
+            return False
+        if level == LEVEL2 and connection.encryption != 0:
+            return not connection.authenticated
+        return level >= LEVEL2 and not connection.authenticated
+
+    def need_encryption(self, connection: BumbleConnection, level: int) -> bool:
+        # TODO(abel): need to support MITM
+        if connection.transport == BT_LE_TRANSPORT:
+            return level == LE_LEVEL2 and not connection.encryption
+        return level >= LEVEL2 and not connection.encryption
+
+
+class SecurityStorageService(SecurityStorageServicer):
+    def __init__(self, device: Device, config: Config) -> None:
+        self.log = utils.BumbleServerLoggerAdapter(
+            logging.getLogger(), {'service_name': 'SecurityStorage', 'device': device}
+        )
+        self.device = device
+        self.config = config
+
+    @utils.rpc
+    async def IsBonded(
+        self, request: IsBondedRequest, context: grpc.ServicerContext
+    ) -> wrappers_pb2.BoolValue:
+        address = utils.address_from_request(request, request.WhichOneof("address"))
+        self.log.debug(f"IsBonded: {address}")
+
+        if self.device.keystore is not None:
+            is_bonded = await self.device.keystore.get(str(address)) is not None
+        else:
+            is_bonded = False
+
+        return wrappers_pb2.BoolValue(value=is_bonded)
+
+    @utils.rpc
+    async def DeleteBond(
+        self, request: DeleteBondRequest, context: grpc.ServicerContext
+    ) -> empty_pb2.Empty:
+        address = utils.address_from_request(request, request.WhichOneof("address"))
+        self.log.debug(f"DeleteBond: {address}")
+
+        if self.device.keystore is not None:
+            with suppress(KeyError):
+                await self.device.keystore.delete(str(address))
+
+        return empty_pb2.Empty()

bumble/pandora/utils.py

@@ -0,0 +1,112 @@
+# Copyright 2022 Google LLC
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+#     https://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+# See the License for the specific language governing permissions and
+# limitations under the License.
+
+import contextlib
+import functools
+import grpc
+import inspect
+import logging
+
+from bumble.device import Device
+from bumble.hci import Address
+from google.protobuf.message import Message  # pytype: disable=pyi-error
+from typing import Any, Dict, Generator, MutableMapping, Optional, Tuple
+
+ADDRESS_TYPES: Dict[str, int] = {
+    "public": Address.PUBLIC_DEVICE_ADDRESS,
+    "random": Address.RANDOM_DEVICE_ADDRESS,
+    "public_identity": Address.PUBLIC_IDENTITY_ADDRESS,
+    "random_static_identity": Address.RANDOM_IDENTITY_ADDRESS,
+}
+
+
+def address_from_request(request: Message, field: Optional[str]) -> Address:
+    if field is None:
+        return Address.ANY
+    return Address(bytes(reversed(getattr(request, field))), ADDRESS_TYPES[field])
+
+
+class BumbleServerLoggerAdapter(logging.LoggerAdapter):  # type: ignore
+    """Formats logs from the PandoraClient."""
+
+    def process(
+        self, msg: str, kwargs: MutableMapping[str, Any]
+    ) -> Tuple[str, MutableMapping[str, Any]]:
+        assert self.extra
+        service_name = self.extra['service_name']
+        assert isinstance(service_name, str)
+        device = self.extra['device']
+        assert isinstance(device, Device)
+        addr_bytes = bytes(
+            reversed(bytes(device.public_address))
+        )  # pytype: disable=attribute-error
+        addr = ':'.join([f'{x:02X}' for x in addr_bytes[4:]])
+        return (f'[bumble.{service_name}:{addr}] {msg}', kwargs)
+
+
+@contextlib.contextmanager
+def exception_to_rpc_error(
+    context: grpc.ServicerContext,
+) -> Generator[None, None, None]:
+    try:
+        yield None
+    except NotImplementedError as e:
+        context.set_code(grpc.StatusCode.UNIMPLEMENTED)  # type: ignore
+        context.set_details(str(e))  # type: ignore
+    except ValueError as e:
+        context.set_code(grpc.StatusCode.INVALID_ARGUMENT)  # type: ignore
+        context.set_details(str(e))  # type: ignore
+    except RuntimeError as e:
+        context.set_code(grpc.StatusCode.ABORTED)  # type: ignore
+        context.set_details(str(e))  # type: ignore
+
+
+# Decorate an RPC servicer method with a wrapper that transform exceptions to gRPC errors.
+def rpc(func: Any) -> Any:
+    @functools.wraps(func)
+    async def asyncgen_wrapper(
+        self: Any, request: Any, context: grpc.ServicerContext
+    ) -> Any:
+        with exception_to_rpc_error(context):
+            async for v in func(self, request, context):
+                yield v
+
+    @functools.wraps(func)
+    async def async_wrapper(
+        self: Any, request: Any, context: grpc.ServicerContext
+    ) -> Any:
+        with exception_to_rpc_error(context):
+            return await func(self, request, context)
+
+    @functools.wraps(func)
+    def gen_wrapper(self: Any, request: Any, context: grpc.ServicerContext) -> Any:
+        with exception_to_rpc_error(context):
+            for v in func(self, request, context):
+                yield v
+
+    @functools.wraps(func)
+    def wrapper(self: Any, request: Any, context: grpc.ServicerContext) -> Any:
+        with exception_to_rpc_error(context):
+            return func(self, request, context)
+
+    if inspect.isasyncgenfunction(func):
+        return asyncgen_wrapper
+
+    if inspect.iscoroutinefunction(func):
+        return async_wrapper
+
+    if inspect.isgenerator(func):
+        return gen_wrapper
+
+    return wrapper

bumble/rfcomm.py

@@ -19,8 +19,9 @@ import logging
 import asyncio
 
 from pyee import EventEmitter
+from typing import Optional, Tuple, Callable, Dict, Union
 
-from . import core
+from . import core, l2cap
 from .colors import color
 from .core import BT_BR_EDR_TRANSPORT, InvalidStateError, ProtocolError
 
@@ -105,7 +106,7 @@ RFCOMM_DYNAMIC_CHANNEL_NUMBER_END   = 30
 
 
 # -----------------------------------------------------------------------------
-def compute_fcs(buffer):
+def compute_fcs(buffer: bytes) -> int:
     result = 0xFF
     for byte in buffer:
         result = CRC_TABLE[result ^ byte]
@@ -114,7 +115,15 @@ def compute_fcs(buffer):
 
 # -----------------------------------------------------------------------------
 class RFCOMM_Frame:
-    def __init__(self, frame_type, c_r, dlci, p_f, information=b'', with_credits=False):
+    def __init__(
+        self,
+        frame_type: int,
+        c_r: int,
+        dlci: int,
+        p_f: int,
+        information: bytes = b'',
+        with_credits: bool = False,
+    ) -> None:
         self.type = frame_type
         self.c_r = c_r
         self.dlci = dlci
@@ -136,11 +145,11 @@ class RFCOMM_Frame:
         else:
             self.fcs = compute_fcs(bytes([self.address, self.control]) + self.length)
 
-    def type_name(self):
+    def type_name(self) -> str:
         return RFCOMM_FRAME_TYPE_NAMES[self.type]
 
     @staticmethod
-    def parse_mcc(data):
+    def parse_mcc(data) -> Tuple[int, int, bytes]:
         mcc_type = data[0] >> 2
         c_r = (data[0] >> 1) & 1
         length = data[1]
@@ -154,36 +163,36 @@ class RFCOMM_Frame:
         return (mcc_type, c_r, value)
 
     @staticmethod
-    def make_mcc(mcc_type, c_r, data):
+    def make_mcc(mcc_type: int, c_r: int, data: bytes) -> bytes:
         return (
             bytes([(mcc_type << 2 | c_r << 1 | 1) & 0xFF, (len(data) & 0x7F) << 1 | 1])
             + data
         )
 
     @staticmethod
-    def sabm(c_r, dlci):
+    def sabm(c_r: int, dlci: int):
         return RFCOMM_Frame(RFCOMM_SABM_FRAME, c_r, dlci, 1)
 
     @staticmethod
-    def ua(c_r, dlci):
+    def ua(c_r: int, dlci: int):
         return RFCOMM_Frame(RFCOMM_UA_FRAME, c_r, dlci, 1)
 
     @staticmethod
-    def dm(c_r, dlci):
+    def dm(c_r: int, dlci: int):
         return RFCOMM_Frame(RFCOMM_DM_FRAME, c_r, dlci, 1)
 
     @staticmethod
-    def disc(c_r, dlci):
+    def disc(c_r: int, dlci: int):
         return RFCOMM_Frame(RFCOMM_DISC_FRAME, c_r, dlci, 1)
 
     @staticmethod
-    def uih(c_r, dlci, information, p_f=0):
+    def uih(c_r: int, dlci: int, information: bytes, p_f: int = 0):
         return RFCOMM_Frame(
             RFCOMM_UIH_FRAME, c_r, dlci, p_f, information, with_credits=(p_f == 1)
         )
 
     @staticmethod
-    def from_bytes(data):
+    def from_bytes(data: bytes):
         # Extract fields
         dlci = (data[0] >> 2) & 0x3F
         c_r = (data[0] >> 1) & 0x01
@@ -227,15 +236,23 @@ class RFCOMM_Frame:
 
 # -----------------------------------------------------------------------------
 class RFCOMM_MCC_PN:
+    dlci: int
+    cl: int
+    priority: int
+    ack_timer: int
+    max_frame_size: int
+    max_retransmissions: int
+    window_size: int
+
     def __init__(
         self,
-        dlci,
-        cl,
-        priority,
-        ack_timer,
-        max_frame_size,
-        max_retransmissions,
-        window_size,
+        dlci: int,
+        cl: int,
+        priority: int,
+        ack_timer: int,
+        max_frame_size: int,
+        max_retransmissions: int,
+        window_size: int,
     ):
         self.dlci = dlci
         self.cl = cl
@@ -246,7 +263,7 @@ class RFCOMM_MCC_PN:
         self.window_size = window_size
 
     @staticmethod
-    def from_bytes(data):
+    def from_bytes(data: bytes):
         return RFCOMM_MCC_PN(
             dlci=data[0],
             cl=data[1],
@@ -285,7 +302,14 @@ class RFCOMM_MCC_PN:
 
 # -----------------------------------------------------------------------------
 class RFCOMM_MCC_MSC:
-    def __init__(self, dlci, fc, rtc, rtr, ic, dv):
+    dlci: int
+    fc: int
+    rtc: int
+    rtr: int
+    ic: int
+    dv: int
+
+    def __init__(self, dlci: int, fc: int, rtc: int, rtr: int, ic: int, dv: int):
         self.dlci = dlci
         self.fc = fc
         self.rtc = rtc
@@ -294,7 +318,7 @@ class RFCOMM_MCC_MSC:
         self.dv = dv
 
     @staticmethod
-    def from_bytes(data):
+    def from_bytes(data: bytes):
         return RFCOMM_MCC_MSC(
             dlci=data[0] >> 2,
             fc=data[1] >> 1 & 1,
@@ -347,7 +371,12 @@ class DLC(EventEmitter):
         RESET: 'RESET',
     }
 
-    def __init__(self, multiplexer, dlci, max_frame_size, initial_tx_credits):
+    connection_result: Optional[asyncio.Future]
+    sink: Optional[Callable[[bytes], None]]
+
+    def __init__(
+        self, multiplexer, dlci: int, max_frame_size: int, initial_tx_credits: int
+    ):
         super().__init__()
         self.multiplexer = multiplexer
         self.dlci = dlci
@@ -368,23 +397,23 @@ class DLC(EventEmitter):
         )
 
     @staticmethod
-    def state_name(state):
+    def state_name(state: int) -> str:
         return DLC.STATE_NAMES[state]
 
-    def change_state(self, new_state):
+    def change_state(self, new_state: int) -> None:
         logger.debug(
             f'{self} state change -> {color(self.state_name(new_state), "magenta")}'
         )
         self.state = new_state
 
-    def send_frame(self, frame):
+    def send_frame(self, frame: RFCOMM_Frame) -> None:
         self.multiplexer.send_frame(frame)
 
-    def on_frame(self, frame):
+    def on_frame(self, frame: RFCOMM_Frame) -> None:
         handler = getattr(self, f'on_{frame.type_name()}_frame'.lower())
         handler(frame)
 
-    def on_sabm_frame(self, _frame):
+    def on_sabm_frame(self, _frame) -> None:
         if self.state != DLC.CONNECTING:
             logger.warning(
                 color('!!! received SABM when not in CONNECTING state', 'red')
@@ -404,7 +433,7 @@ class DLC(EventEmitter):
         self.change_state(DLC.CONNECTED)
         self.emit('open')
 
-    def on_ua_frame(self, _frame):
+    def on_ua_frame(self, _frame) -> None:
         if self.state != DLC.CONNECTING:
             logger.warning(
                 color('!!! received SABM when not in CONNECTING state', 'red')
@@ -422,15 +451,15 @@ class DLC(EventEmitter):
         self.change_state(DLC.CONNECTED)
         self.multiplexer.on_dlc_open_complete(self)
 
-    def on_dm_frame(self, frame):
+    def on_dm_frame(self, frame) -> None:
         # TODO: handle all states
         pass
 
-    def on_disc_frame(self, _frame):
+    def on_disc_frame(self, _frame) -> None:
         # TODO: handle all states
         self.send_frame(RFCOMM_Frame.ua(c_r=1 - self.c_r, dlci=self.dlci))
 
-    def on_uih_frame(self, frame):
+    def on_uih_frame(self, frame: RFCOMM_Frame) -> None:
         data = frame.information
         if frame.p_f == 1:
             # With credits
@@ -439,7 +468,7 @@ class DLC(EventEmitter):
 
             logger.debug(
                 f'<<< Credits [{self.dlci}]: '
-                f'received {credits}, total={self.tx_credits}'
+                f'received {received_credits}, total={self.tx_credits}'
             )
             data = data[1:]
 
@@ -460,10 +489,10 @@ class DLC(EventEmitter):
         # Check if there's anything to send (including credits)
         self.process_tx()
 
-    def on_ui_frame(self, frame):
+    def on_ui_frame(self, frame) -> None:
         pass
 
-    def on_mcc_msc(self, c_r, msc):
+    def on_mcc_msc(self, c_r, msc) -> None:
         if c_r:
             # Command
             logger.debug(f'<<< MCC MSC Command: {msc}')
@@ -477,7 +506,7 @@ class DLC(EventEmitter):
             # Response
             logger.debug(f'<<< MCC MSC Response: {msc}')
 
-    def connect(self):
+    def connect(self) -> None:
         if self.state != DLC.INIT:
             raise InvalidStateError('invalid state')
 
@@ -485,7 +514,7 @@ class DLC(EventEmitter):
         self.connection_result = asyncio.get_running_loop().create_future()
         self.send_frame(RFCOMM_Frame.sabm(c_r=self.c_r, dlci=self.dlci))
 
-    def accept(self):
+    def accept(self) -> None:
         if self.state != DLC.INIT:
             raise InvalidStateError('invalid state')
 
@@ -503,13 +532,13 @@ class DLC(EventEmitter):
         self.send_frame(RFCOMM_Frame.uih(c_r=self.c_r, dlci=0, information=mcc))
         self.change_state(DLC.CONNECTING)
 
-    def rx_credits_needed(self):
+    def rx_credits_needed(self) -> int:
         if self.rx_credits <= self.rx_threshold:
             return RFCOMM_DEFAULT_INITIAL_RX_CREDITS - self.rx_credits
 
         return 0
 
-    def process_tx(self):
+    def process_tx(self) -> None:
         # Send anything we can (or an empty frame if we need to send rx credits)
         rx_credits_needed = self.rx_credits_needed()
         while (self.tx_buffer and self.tx_credits > 0) or rx_credits_needed > 0:
@@ -547,7 +576,7 @@ class DLC(EventEmitter):
             rx_credits_needed = 0
 
     # Stream protocol
-    def write(self, data):
+    def write(self, data: Union[bytes, str]) -> None:
         # We can only send bytes
         if not isinstance(data, bytes):
             if isinstance(data, str):
@@ -559,7 +588,7 @@ class DLC(EventEmitter):
         self.tx_buffer += data
         self.process_tx()
 
-    def drain(self):
+    def drain(self) -> None:
         # TODO
         pass
 
@@ -592,7 +621,13 @@ class Multiplexer(EventEmitter):
         RESET: 'RESET',
     }
 
-    def __init__(self, l2cap_channel, role):
+    connection_result: Optional[asyncio.Future]
+    disconnection_result: Optional[asyncio.Future]
+    open_result: Optional[asyncio.Future]
+    acceptor: Optional[Callable[[int], bool]]
+    dlcs: Dict[int, DLC]
+
+    def __init__(self, l2cap_channel: l2cap.Channel, role: int) -> None:
         super().__init__()
         self.role = role
         self.l2cap_channel = l2cap_channel
@@ -607,20 +642,20 @@ class Multiplexer(EventEmitter):
         l2cap_channel.sink = self.on_pdu
 
     @staticmethod
-    def state_name(state):
+    def state_name(state: int):
         return Multiplexer.STATE_NAMES[state]
 
-    def change_state(self, new_state):
+    def change_state(self, new_state: int) -> None:
         logger.debug(
             f'{self} state change -> {color(self.state_name(new_state), "cyan")}'
         )
         self.state = new_state
 
-    def send_frame(self, frame):
+    def send_frame(self, frame: RFCOMM_Frame) -> None:
         logger.debug(f'>>> Multiplexer sending {frame}')
         self.l2cap_channel.send_pdu(frame)
 
-    def on_pdu(self, pdu):
+    def on_pdu(self, pdu: bytes) -> None:
         frame = RFCOMM_Frame.from_bytes(pdu)
         logger.debug(f'<<< Multiplexer received {frame}')
 
@@ -640,18 +675,18 @@ class Multiplexer(EventEmitter):
                     return
                 dlc.on_frame(frame)
 
-    def on_frame(self, frame):
+    def on_frame(self, frame: RFCOMM_Frame) -> None:
         handler = getattr(self, f'on_{frame.type_name()}_frame'.lower())
         handler(frame)
 
-    def on_sabm_frame(self, _frame):
+    def on_sabm_frame(self, _frame) -> None:
         if self.state != Multiplexer.INIT:
             logger.debug('not in INIT state, ignoring SABM')
             return
         self.change_state(Multiplexer.CONNECTED)
         self.send_frame(RFCOMM_Frame.ua(c_r=1, dlci=0))
 
-    def on_ua_frame(self, _frame):
+    def on_ua_frame(self, _frame) -> None:
         if self.state == Multiplexer.CONNECTING:
             self.change_state(Multiplexer.CONNECTED)
             if self.connection_result:
@@ -663,7 +698,7 @@ class Multiplexer(EventEmitter):
                 self.disconnection_result.set_result(None)
                 self.disconnection_result = None
 
-    def on_dm_frame(self, _frame):
+    def on_dm_frame(self, _frame) -> None:
         if self.state == Multiplexer.OPENING:
             self.change_state(Multiplexer.CONNECTED)
             if self.open_result:
@@ -678,13 +713,13 @@ class Multiplexer(EventEmitter):
         else:
             logger.warning(f'unexpected state for DM: {self}')
 
-    def on_disc_frame(self, _frame):
+    def on_disc_frame(self, _frame) -> None:
         self.change_state(Multiplexer.DISCONNECTED)
         self.send_frame(
             RFCOMM_Frame.ua(c_r=0 if self.role == Multiplexer.INITIATOR else 1, dlci=0)
         )
 
-    def on_uih_frame(self, frame):
+    def on_uih_frame(self, frame: RFCOMM_Frame) -> None:
         (mcc_type, c_r, value) = RFCOMM_Frame.parse_mcc(frame.information)
 
         if mcc_type == RFCOMM_MCC_PN_TYPE:
@@ -694,10 +729,10 @@ class Multiplexer(EventEmitter):
             mcs = RFCOMM_MCC_MSC.from_bytes(value)
             self.on_mcc_msc(c_r, mcs)
 
-    def on_ui_frame(self, frame):
+    def on_ui_frame(self, frame) -> None:
         pass
 
-    def on_mcc_pn(self, c_r, pn):
+    def on_mcc_pn(self, c_r, pn) -> None:
         if c_r == 1:
             # Command
             logger.debug(f'<<< PN Command: {pn}')
@@ -736,14 +771,14 @@ class Multiplexer(EventEmitter):
             else:
                 logger.warning('ignoring PN response')
 
-    def on_mcc_msc(self, c_r, msc):
+    def on_mcc_msc(self, c_r, msc) -> None:
         dlc = self.dlcs.get(msc.dlci)
         if dlc is None:
             logger.warning(f'no dlc for DLCI {msc.dlci}')
             return
         dlc.on_mcc_msc(c_r, msc)
 
-    async def connect(self):
+    async def connect(self) -> None:
         if self.state != Multiplexer.INIT:
             raise InvalidStateError('invalid state')
 
@@ -752,7 +787,7 @@ class Multiplexer(EventEmitter):
         self.send_frame(RFCOMM_Frame.sabm(c_r=1, dlci=0))
         return await self.connection_result
 
-    async def disconnect(self):
+    async def disconnect(self) -> None:
         if self.state != Multiplexer.CONNECTED:
             return
 
@@ -765,7 +800,7 @@ class Multiplexer(EventEmitter):
         )
         await self.disconnection_result
 
-    async def open_dlc(self, channel):
+    async def open_dlc(self, channel: int) -> DLC:
         if self.state != Multiplexer.CONNECTED:
             if self.state == Multiplexer.OPENING:
                 raise InvalidStateError('open already in progress')
@@ -796,7 +831,7 @@ class Multiplexer(EventEmitter):
         self.open_result = None
         return result
 
-    def on_dlc_open_complete(self, dlc):
+    def on_dlc_open_complete(self, dlc: DLC):
         logger.debug(f'DLC [{dlc.dlci}] open complete')
         self.change_state(Multiplexer.CONNECTED)
         if self.open_result:
@@ -808,13 +843,16 @@ class Multiplexer(EventEmitter):
 
 # -----------------------------------------------------------------------------
 class Client:
-    def __init__(self, device, connection):
+    multiplexer: Optional[Multiplexer]
+    l2cap_channel: Optional[l2cap.Channel]
+
+    def __init__(self, device, connection) -> None:
         self.device = device
         self.connection = connection
         self.l2cap_channel = None
         self.multiplexer = None
 
-    async def start(self):
+    async def start(self) -> Multiplexer:
         # Create a new L2CAP connection
         try:
             self.l2cap_channel = await self.device.l2cap_channel_manager.connect(
@@ -824,6 +862,7 @@ class Client:
             logger.warning(f'L2CAP connection failed: {error}')
             raise
 
+        assert self.l2cap_channel is not None
         # Create a mutliplexer to manage DLCs with the server
         self.multiplexer = Multiplexer(self.l2cap_channel, Multiplexer.INITIATOR)
 
@@ -832,7 +871,9 @@ class Client:
 
         return self.multiplexer
 
-    async def shutdown(self):
+    async def shutdown(self) -> None:
+        if self.multiplexer is None:
+            return
         # Disconnect the multiplexer
         await self.multiplexer.disconnect()
         self.multiplexer = None
@@ -843,7 +884,9 @@ class Client:
 
 # -----------------------------------------------------------------------------
 class Server(EventEmitter):
-    def __init__(self, device):
+    acceptors: Dict[int, Callable[[DLC], None]]
+
+    def __init__(self, device) -> None:
         super().__init__()
         self.device = device
         self.multiplexer = None
@@ -852,7 +895,7 @@ class Server(EventEmitter):
         # Register ourselves with the L2CAP channel manager
         device.register_l2cap_server(RFCOMM_PSM, self.on_connection)
 
-    def listen(self, acceptor, channel=0):
+    def listen(self, acceptor: Callable[[DLC], None], channel: int = 0) -> int:
         if channel:
             if channel in self.acceptors:
                 # Busy
@@ -874,11 +917,11 @@ class Server(EventEmitter):
         self.acceptors[channel] = acceptor
         return channel
 
-    def on_connection(self, l2cap_channel):
+    def on_connection(self, l2cap_channel: l2cap.Channel) -> None:
         logger.debug(f'+++ new L2CAP connection: {l2cap_channel}')
         l2cap_channel.on('open', lambda: self.on_l2cap_channel_open(l2cap_channel))
 
-    def on_l2cap_channel_open(self, l2cap_channel):
+    def on_l2cap_channel_open(self, l2cap_channel: l2cap.Channel) -> None:
         logger.debug(f'$$$ L2CAP channel open: {l2cap_channel}')
 
         # Create a new multiplexer for the channel
@@ -889,10 +932,10 @@ class Server(EventEmitter):
         # Notify
         self.emit('start', multiplexer)
 
-    def accept_dlc(self, channel_number):
+    def accept_dlc(self, channel_number: int) -> bool:
         return channel_number in self.acceptors
 
-    def on_dlc(self, dlc):
+    def on_dlc(self, dlc: DLC) -> None:
         logger.debug(f'@@@ new DLC connected: {dlc}')
 
         # Let the acceptor know

bumble/transport/__init__.py

@@ -69,6 +69,7 @@ async def open_transport(name: str) -> Transport:
       * usb
       * pyusb
       * android-emulator
+      * android-netsim
     """
 
     return _wrap_transport(await _open_transport(name))
@@ -145,6 +146,11 @@ async def _open_transport(name: str) -> Transport:
 
         return await open_android_emulator_transport(spec[0] if spec else None)
 
+    if scheme == 'android-netsim':
+        from .android_netsim import open_android_netsim_transport
+
+        return await open_android_netsim_transport(spec[0] if spec else None)
+
     raise ValueError('unknown transport scheme')
 
 

bumble/transport/android_emulator.py

@@ -16,14 +16,14 @@
 # Imports
 # -----------------------------------------------------------------------------
 import logging
-import grpc
+import grpc.aio
 
 from .common import PumpedTransport, PumpedPacketSource, PumpedPacketSink
-from .emulated_bluetooth_pb2_grpc import EmulatedBluetoothServiceStub
-from .emulated_bluetooth_vhci_pb2_grpc import VhciForwardingServiceStub
 
-# pylint: disable-next=no-name-in-module
-from .emulated_bluetooth_packets_pb2 import HCIPacket
+# pylint: disable=no-name-in-module
+from .grpc_protobuf.emulated_bluetooth_pb2_grpc import EmulatedBluetoothServiceStub
+from .grpc_protobuf.emulated_bluetooth_packets_pb2 import HCIPacket
+from .grpc_protobuf.emulated_bluetooth_vhci_pb2_grpc import VhciForwardingServiceStub
 
 
 # -----------------------------------------------------------------------------

bumble/transport/android_netsim.py

@@ -0,0 +1,410 @@
+# Copyright 2021-2023 Google LLC
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+#      https://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+# See the License for the specific language governing permissions and
+# limitations under the License.
+
+# -----------------------------------------------------------------------------
+# Imports
+# -----------------------------------------------------------------------------
+import asyncio
+import atexit
+import logging
+import grpc.aio
+import os
+import pathlib
+import sys
+from typing import Optional
+
+from .common import (
+    ParserSource,
+    PumpedTransport,
+    PumpedPacketSource,
+    PumpedPacketSink,
+    Transport,
+)
+
+# pylint: disable=no-name-in-module
+from .grpc_protobuf.packet_streamer_pb2_grpc import PacketStreamerStub
+from .grpc_protobuf.packet_streamer_pb2_grpc import (
+    PacketStreamerServicer,
+    add_PacketStreamerServicer_to_server,
+)
+from .grpc_protobuf.packet_streamer_pb2 import PacketRequest, PacketResponse
+from .grpc_protobuf.hci_packet_pb2 import HCIPacket
+from .grpc_protobuf.startup_pb2 import Chip, ChipInfo
+from .grpc_protobuf.common_pb2 import ChipKind
+
+# -----------------------------------------------------------------------------
+# Logging
+# -----------------------------------------------------------------------------
+logger = logging.getLogger(__name__)
+
+
+# -----------------------------------------------------------------------------
+# Constants
+# -----------------------------------------------------------------------------
+DEFAULT_NAME = 'bumble0'
+DEFAULT_MANUFACTURER = 'Bumble'
+
+
+# -----------------------------------------------------------------------------
+def get_ini_dir() -> Optional[pathlib.Path]:
+    if sys.platform == 'darwin':
+        if tmpdir := os.getenv('TMPDIR', None):
+            return pathlib.Path(tmpdir)
+        if home := os.getenv('HOME', None):
+            return pathlib.Path(home) / 'Library/Caches/TemporaryItems'
+    elif sys.platform == 'linux':
+        if xdg_runtime_dir := os.environ.get('XDG_RUNTIME_DIR', None):
+            return pathlib.Path(xdg_runtime_dir)
+    elif sys.platform == 'win32':
+        if local_app_data_dir := os.environ.get('LOCALAPPDATA', None):
+            return pathlib.Path(local_app_data_dir) / 'Temp'
+
+    return None
+
+
+# -----------------------------------------------------------------------------
+def find_grpc_port() -> int:
+    if not (ini_dir := get_ini_dir()):
+        logger.debug('no known directory for .ini file')
+        return 0
+
+    ini_file = ini_dir / 'netsim.ini'
+    if ini_file.is_file():
+        logger.debug(f'Found .ini file at {ini_file}')
+        with open(ini_file, 'r') as ini_file_data:
+            for line in ini_file_data.readlines():
+                if '=' in line:
+                    key, value = line.split('=')
+                    if key == 'grpc.port':
+                        logger.debug(f'gRPC port = {value}')
+                        return int(value)
+
+    # Not found
+    return 0
+
+
+# -----------------------------------------------------------------------------
+def publish_grpc_port(grpc_port) -> bool:
+    if not (ini_dir := get_ini_dir()):
+        logger.debug('no known directory for .ini file')
+        return False
+
+    if not ini_dir.is_dir():
+        logger.debug('ini directory does not exist')
+        return False
+
+    ini_file = ini_dir / 'netsim.ini'
+    try:
+        ini_file.write_text(f'grpc.port={grpc_port}\n')
+        logger.debug(f"published gRPC port at {ini_file}")
+
+        def cleanup():
+            logger.debug("removing .ini file")
+            ini_file.unlink()
+
+        atexit.register(cleanup)
+        return True
+    except OSError:
+        logger.debug('failed to write to .ini file')
+        return False
+
+
+# -----------------------------------------------------------------------------
+async def open_android_netsim_controller_transport(server_host, server_port):
+    if not server_port:
+        raise ValueError('invalid port')
+    if server_host == '_' or not server_host:
+        server_host = 'localhost'
+
+    if not publish_grpc_port(server_port):
+        logger.warning("unable to publish gRPC port")
+
+    class HciDevice:
+        def __init__(self, context, on_data_received):
+            self.context = context
+            self.on_data_received = on_data_received
+            self.name = None
+            self.loop = asyncio.get_running_loop()
+            self.done = self.loop.create_future()
+            self.task = self.loop.create_task(self.pump())
+
+        async def pump(self):
+            try:
+                await self.pump_loop()
+            except asyncio.CancelledError:
+                logger.debug('Pump task canceled')
+                self.done.set_result(None)
+
+        async def pump_loop(self):
+            while True:
+                request = await self.context.read()
+                if request == grpc.aio.EOF:
+                    logger.debug('End of request stream')
+                    self.done.set_result(None)
+                    return
+
+                # If we're not initialized yet, wait for a init packet.
+                if self.name is None:
+                    if request.WhichOneof('request_type') == 'initial_info':
+                        logger.debug(f'Received initial info: {request}')
+
+                        # We only accept BLUETOOTH
+                        if request.initial_info.chip.kind != ChipKind.BLUETOOTH:
+                            logger.warning('Unsupported chip type')
+                            error = PacketResponse(error='Unsupported chip type')
+                            await self.context.write(error)
+                            return
+
+                    self.name = request.initial_info.name
+                    continue
+
+                # Expect a data packet
+                request_type = request.WhichOneof('request_type')
+                if request_type != 'hci_packet':
+                    logger.warning(f'Unexpected request type: {request_type}')
+                    error = PacketResponse(error='Unexpected request type')
+                    await self.context.write(error)
+                    continue
+
+                # Process the packet
+                data = (
+                    bytes([request.hci_packet.packet_type]) + request.hci_packet.packet
+                )
+                logger.debug(f'<<< PACKET: {data.hex()}')
+                self.on_data_received(data)
+
+        def send_packet(self, data):
+            async def send():
+                await self.context.write(
+                    PacketResponse(
+                        hci_packet=HCIPacket(packet_type=data[0], packet=data[1:])
+                    )
+                )
+
+            self.loop.create_task(send())
+
+        def terminate(self):
+            self.task.cancel()
+
+        async def wait_for_termination(self):
+            await self.done
+
+    class Server(PacketStreamerServicer, ParserSource):
+        def __init__(self):
+            PacketStreamerServicer.__init__(self)
+            ParserSource.__init__(self)
+            self.device = None
+
+            # Create a gRPC server with `so_reuseport=0` so that if there's already
+            # a server listening on that port, we get an exception.
+            self.grpc_server = grpc.aio.server(options=(('grpc.so_reuseport', 0),))
+            add_PacketStreamerServicer_to_server(self, self.grpc_server)
+            self.grpc_server.add_insecure_port(f'{server_host}:{server_port}')
+            logger.debug(f'gRPC server listening on {server_host}:{server_port}')
+
+        async def start(self):
+            logger.debug('Starting gRPC server')
+            await self.grpc_server.start()
+
+        async def serve(self):
+            # Keep serving until terminated.
+            try:
+                await self.grpc_server.wait_for_termination()
+                logger.debug('gRPC server terminated')
+            except asyncio.CancelledError:
+                logger.debug('gRPC server cancelled')
+                await self.grpc_server.stop(None)
+
+        def on_packet(self, packet):
+            if not self.device:
+                logger.debug('no device, dropping packet')
+                return
+
+            self.device.send_packet(packet)
+
+        async def StreamPackets(self, _request_iterator, context):
+            logger.debug('StreamPackets request')
+
+            # Check that we won't already have a device
+            if self.device:
+                logger.debug('busy, already serving a device')
+                return PacketResponse(error='Busy')
+
+            # Instantiate a new device
+            self.device = HciDevice(context, self.parser.feed_data)
+
+            # Wait for the device to terminate
+            logger.debug('Waiting for device to terminate')
+            try:
+                await self.device.wait_for_termination()
+            except asyncio.CancelledError:
+                logger.debug('Request canceled')
+                self.device.terminate()
+
+            logger.debug('Device terminated')
+            self.device = None
+
+    server = Server()
+    await server.start()
+    asyncio.get_running_loop().create_task(server.serve())
+
+    class GrpcServerTransport(Transport):
+        async def close(self):
+            await super().close()
+
+    return GrpcServerTransport(server, server)
+
+
+# -----------------------------------------------------------------------------
+async def open_android_netsim_host_transport(server_host, server_port, options):
+    # Wrapper for I/O operations
+    class HciDevice:
+        def __init__(self, name, manufacturer, hci_device):
+            self.name = name
+            self.manufacturer = manufacturer
+            self.hci_device = hci_device
+
+        async def start(self):  # Send the startup info
+            chip_info = ChipInfo(
+                name=self.name,
+                chip=Chip(kind=ChipKind.BLUETOOTH, manufacturer=self.manufacturer),
+            )
+            logger.debug(f'Sending chip info to netsim: {chip_info}')
+            await self.hci_device.write(PacketRequest(initial_info=chip_info))
+
+        async def read(self):
+            response = await self.hci_device.read()
+            response_type = response.WhichOneof('response_type')
+            if response_type == 'error':
+                logger.warning(f'received error: {response.error}')
+                raise RuntimeError(response.error)
+            elif response_type == 'hci_packet':
+                return (
+                    bytes([response.hci_packet.packet_type])
+                    + response.hci_packet.packet
+                )
+
+            raise ValueError('unsupported response type')
+
+        async def write(self, packet):
+            await self.hci_device.write(
+                PacketRequest(
+                    hci_packet=HCIPacket(packet_type=packet[0], packet=packet[1:])
+                )
+            )
+
+    name = options.get('name', DEFAULT_NAME)
+    manufacturer = DEFAULT_MANUFACTURER
+
+    if server_host == '_' or not server_host:
+        server_host = 'localhost'
+
+    if not server_port:
+        # Look for the gRPC config in a .ini file
+        server_host = 'localhost'
+        server_port = find_grpc_port()
+        if not server_port:
+            raise RuntimeError('gRPC server port not found')
+
+    # Connect to the gRPC server
+    server_address = f'{server_host}:{server_port}'
+    logger.debug(f'Connecting to gRPC server at {server_address}')
+    channel = grpc.aio.insecure_channel(server_address)
+
+    # Connect as a host
+    service = PacketStreamerStub(channel)
+    hci_device = HciDevice(
+        name=name,
+        manufacturer=manufacturer,
+        hci_device=service.StreamPackets(),
+    )
+    await hci_device.start()
+
+    # Create the transport object
+    transport = PumpedTransport(
+        PumpedPacketSource(hci_device.read),
+        PumpedPacketSink(hci_device.write),
+        channel.close,
+    )
+    transport.start()
+
+    return transport
+
+
+# -----------------------------------------------------------------------------
+async def open_android_netsim_transport(spec):
+    '''
+    Open a transport connection as a client or server, implementing Android's `netsim`
+    simulator protocol over gRPC.
+    The parameter string has this syntax:
+    [<host>:<port>][<options>]
+    Where <options> is a ','-separated list of <name>=<value> pairs.
+
+    General options:
+      mode=host|controller (default: host)
+        Specifies whether the transport is used
+        to connect *to* a netsim server (netsim is the controller), or accept
+        connections *as* a netsim-compatible server.
+
+    In `host` mode:
+      The <host>:<port> part is optional. When not specified, the transport
+      looks for a netsim .ini file, from which it will read the `grpc.backend.port`
+      property.
+      Options for this mode are:
+        name=<name>
+          The "chip" name, used to identify the "chip" instance. This
+          may be useful when several clients are connected, since each needs to use a
+          different name.
+
+    In `controller` mode:
+      The <host>:<port> part is required. <host> may be the address of a local network
+      interface, or '_' to accept connections on all local network interfaces.
+
+    Examples:
+    (empty string) --> connect to netsim on the port specified in the .ini file
+    localhost:8555 --> connect to netsim on localhost:8555
+    name=bumble1 --> connect to netsim, using `bumble1` as the "chip" name.
+    localhost:8555,name=bumble1 --> connect to netsim on localhost:8555, using
+    `bumble1` as the "chip" name.
+    _:8877,mode=controller --> accept connections as a controller on any interface
+    on port 8877.
+    '''
+
+    # Parse the parameters
+    params = spec.split(',') if spec else []
+    if params and ':' in params[0]:
+        # Explicit <host>:<port>
+        host, port = params[0].split(':')
+        params_offset = 1
+    else:
+        host = None
+        port = 0
+        params_offset = 0
+
+    options = {}
+    for param in params[params_offset:]:
+        if '=' not in param:
+            raise ValueError('invalid parameter, expected <name>=<value>')
+        option_name, option_value = param.split('=')
+        options[option_name] = option_value
+
+    mode = options.get('mode', 'host')
+    if mode == 'host':
+        return await open_android_netsim_host_transport(host, port, options)
+    if mode == 'controller':
+        if host is None:
+            raise ValueError('<host>:<port> missing')
+        return await open_android_netsim_controller_transport(host, port)
+
+    raise ValueError('invalid mode option')

bumble/transport/emulated_bluetooth_packets_pb2.py

@@ -1,45 +0,0 @@
-# Copyright 2021-2023 Google LLC
-#
-# Licensed under the Apache License, Version 2.0 (the "License");
-# you may not use this file except in compliance with the License.
-# You may obtain a copy of the License at
-#
-#      https://www.apache.org/licenses/LICENSE-2.0
-#
-# Unless required by applicable law or agreed to in writing, software
-# distributed under the License is distributed on an "AS IS" BASIS,
-# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-# See the License for the specific language governing permissions and
-# limitations under the License.
-
-# -*- coding: utf-8 -*-
-# Generated by the protocol buffer compiler.  DO NOT EDIT!
-# source: emulated_bluetooth_packets.proto
-"""Generated protocol buffer code."""
-from google.protobuf.internal import builder as _builder
-from google.protobuf import descriptor as _descriptor
-from google.protobuf import descriptor_pool as _descriptor_pool
-from google.protobuf import symbol_database as _symbol_database
-
-# @@protoc_insertion_point(imports)
-
-_sym_db = _symbol_database.Default()
-
-
-DESCRIPTOR = _descriptor_pool.Default().AddSerializedFile(
-    b'\n emulated_bluetooth_packets.proto\x12\x1b\x61ndroid.emulation.bluetooth\"\xfb\x01\n\tHCIPacket\x12?\n\x04type\x18\x01 \x01(\x0e\x32\x31.android.emulation.bluetooth.HCIPacket.PacketType\x12\x0e\n\x06packet\x18\x02 \x01(\x0c\"\x9c\x01\n\nPacketType\x12\x1b\n\x17PACKET_TYPE_UNSPECIFIED\x10\x00\x12\x1b\n\x17PACKET_TYPE_HCI_COMMAND\x10\x01\x12\x13\n\x0fPACKET_TYPE_ACL\x10\x02\x12\x13\n\x0fPACKET_TYPE_SCO\x10\x03\x12\x15\n\x11PACKET_TYPE_EVENT\x10\x04\x12\x13\n\x0fPACKET_TYPE_ISO\x10\x05\x42J\n\x1f\x63om.android.emulation.bluetoothP\x01\xf8\x01\x01\xa2\x02\x03\x41\x45\x42\xaa\x02\x1b\x41ndroid.Emulation.Bluetoothb\x06proto3'
-)
-
-_builder.BuildMessageAndEnumDescriptors(DESCRIPTOR, globals())
-_builder.BuildTopDescriptorsAndMessages(
-    DESCRIPTOR, 'emulated_bluetooth_packets_pb2', globals()
-)
-if _descriptor._USE_C_DESCRIPTORS == False:
-
-    DESCRIPTOR._options = None
-    DESCRIPTOR._serialized_options = b'\n\037com.android.emulation.bluetoothP\001\370\001\001\242\002\003AEB\252\002\033Android.Emulation.Bluetooth'
-    _HCIPACKET._serialized_start = 66
-    _HCIPACKET._serialized_end = 317
-    _HCIPACKET_PACKETTYPE._serialized_start = 161
-    _HCIPACKET_PACKETTYPE._serialized_end = 317
-# @@protoc_insertion_point(module_scope)

bumble/transport/emulated_bluetooth_packets_pb2_grpc.py

@@ -1,17 +0,0 @@
-# Copyright 2021-2023 Google LLC
-#
-# Licensed under the Apache License, Version 2.0 (the "License");
-# you may not use this file except in compliance with the License.
-# You may obtain a copy of the License at
-#
-#      https://www.apache.org/licenses/LICENSE-2.0
-#
-# Unless required by applicable law or agreed to in writing, software
-# distributed under the License is distributed on an "AS IS" BASIS,
-# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-# See the License for the specific language governing permissions and
-# limitations under the License.
-
-# Generated by the gRPC Python protocol compiler plugin. DO NOT EDIT!
-"""Client and server classes corresponding to protobuf-defined services."""
-import grpc

bumble/transport/emulated_bluetooth_pb2.py

@@ -1,46 +0,0 @@
-# Copyright 2021-2023 Google LLC
-#
-# Licensed under the Apache License, Version 2.0 (the "License");
-# you may not use this file except in compliance with the License.
-# You may obtain a copy of the License at
-#
-#      https://www.apache.org/licenses/LICENSE-2.0
-#
-# Unless required by applicable law or agreed to in writing, software
-# distributed under the License is distributed on an "AS IS" BASIS,
-# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-# See the License for the specific language governing permissions and
-# limitations under the License.
-
-# -*- coding: utf-8 -*-
-# Generated by the protocol buffer compiler.  DO NOT EDIT!
-# source: emulated_bluetooth.proto
-"""Generated protocol buffer code."""
-from google.protobuf.internal import builder as _builder
-from google.protobuf import descriptor as _descriptor
-from google.protobuf import descriptor_pool as _descriptor_pool
-from google.protobuf import symbol_database as _symbol_database
-
-# @@protoc_insertion_point(imports)
-
-_sym_db = _symbol_database.Default()
-
-
-from . import emulated_bluetooth_packets_pb2 as emulated__bluetooth__packets__pb2
-
-
-DESCRIPTOR = _descriptor_pool.Default().AddSerializedFile(
-    b'\n\x18\x65mulated_bluetooth.proto\x12\x1b\x61ndroid.emulation.bluetooth\x1a emulated_bluetooth_packets.proto\"\x19\n\x07RawData\x12\x0e\n\x06packet\x18\x01 \x01(\x0c\x32\xcb\x02\n\x18\x45mulatedBluetoothService\x12\x64\n\x12registerClassicPhy\x12$.android.emulation.bluetooth.RawData\x1a$.android.emulation.bluetooth.RawData(\x01\x30\x01\x12`\n\x0eregisterBlePhy\x12$.android.emulation.bluetooth.RawData\x1a$.android.emulation.bluetooth.RawData(\x01\x30\x01\x12g\n\x11registerHCIDevice\x12&.android.emulation.bluetooth.HCIPacket\x1a&.android.emulation.bluetooth.HCIPacket(\x01\x30\x01\x42\"\n\x1e\x63om.android.emulator.bluetoothP\x01\x62\x06proto3'
-)
-
-_builder.BuildMessageAndEnumDescriptors(DESCRIPTOR, globals())
-_builder.BuildTopDescriptorsAndMessages(DESCRIPTOR, 'emulated_bluetooth_pb2', globals())
-if _descriptor._USE_C_DESCRIPTORS == False:
-
-    DESCRIPTOR._options = None
-    DESCRIPTOR._serialized_options = b'\n\036com.android.emulator.bluetoothP\001'
-    _RAWDATA._serialized_start = 91
-    _RAWDATA._serialized_end = 116
-    _EMULATEDBLUETOOTHSERVICE._serialized_start = 119
-    _EMULATEDBLUETOOTHSERVICE._serialized_end = 450
-# @@protoc_insertion_point(module_scope)

bumble/transport/emulated_bluetooth_pb2.pyi

@@ -1,26 +0,0 @@
-# Copyright 2021-2023 Google LLC
-#
-# Licensed under the Apache License, Version 2.0 (the "License");
-# you may not use this file except in compliance with the License.
-# You may obtain a copy of the License at
-#
-#      https://www.apache.org/licenses/LICENSE-2.0
-#
-# Unless required by applicable law or agreed to in writing, software
-# distributed under the License is distributed on an "AS IS" BASIS,
-# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-# See the License for the specific language governing permissions and
-# limitations under the License.
-
-import emulated_bluetooth_packets_pb2 as _emulated_bluetooth_packets_pb2
-from google.protobuf import descriptor as _descriptor
-from google.protobuf import message as _message
-from typing import ClassVar as _ClassVar, Optional as _Optional
-
-DESCRIPTOR: _descriptor.FileDescriptor
-
-class RawData(_message.Message):
-    __slots__ = ["packet"]
-    PACKET_FIELD_NUMBER: _ClassVar[int]
-    packet: bytes
-    def __init__(self, packet: _Optional[bytes] = ...) -> None: ...

bumble/transport/emulated_bluetooth_pb2_grpc.py

@@ -1,244 +0,0 @@
-# Copyright 2021-2023 Google LLC
-#
-# Licensed under the Apache License, Version 2.0 (the "License");
-# you may not use this file except in compliance with the License.
-# You may obtain a copy of the License at
-#
-#      https://www.apache.org/licenses/LICENSE-2.0
-#
-# Unless required by applicable law or agreed to in writing, software
-# distributed under the License is distributed on an "AS IS" BASIS,
-# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-# See the License for the specific language governing permissions and
-# limitations under the License.
-
-# Generated by the gRPC Python protocol compiler plugin. DO NOT EDIT!
-"""Client and server classes corresponding to protobuf-defined services."""
-import grpc
-
-from . import emulated_bluetooth_packets_pb2 as emulated__bluetooth__packets__pb2
-from . import emulated_bluetooth_pb2 as emulated__bluetooth__pb2
-
-
-class EmulatedBluetoothServiceStub(object):
-    """An Emulated Bluetooth Service exposes the emulated bluetooth chip from the
-    android emulator. It allows you to register emulated bluetooth devices and
-    control the packets that are exchanged between the device and the world.
-
-    This service enables you to establish a "virtual network" of emulated
-    bluetooth devices that can interact with each other.
-
-    Note: This is not yet finalized, it is likely that these definitions will
-    evolve.
-    """
-
-    def __init__(self, channel):
-        """Constructor.
-
-        Args:
-            channel: A grpc.Channel.
-        """
-        self.registerClassicPhy = channel.stream_stream(
-            '/android.emulation.bluetooth.EmulatedBluetoothService/registerClassicPhy',
-            request_serializer=emulated__bluetooth__pb2.RawData.SerializeToString,
-            response_deserializer=emulated__bluetooth__pb2.RawData.FromString,
-        )
-        self.registerBlePhy = channel.stream_stream(
-            '/android.emulation.bluetooth.EmulatedBluetoothService/registerBlePhy',
-            request_serializer=emulated__bluetooth__pb2.RawData.SerializeToString,
-            response_deserializer=emulated__bluetooth__pb2.RawData.FromString,
-        )
-        self.registerHCIDevice = channel.stream_stream(
-            '/android.emulation.bluetooth.EmulatedBluetoothService/registerHCIDevice',
-            request_serializer=emulated__bluetooth__packets__pb2.HCIPacket.SerializeToString,
-            response_deserializer=emulated__bluetooth__packets__pb2.HCIPacket.FromString,
-        )
-
-
-class EmulatedBluetoothServiceServicer(object):
-    """An Emulated Bluetooth Service exposes the emulated bluetooth chip from the
-    android emulator. It allows you to register emulated bluetooth devices and
-    control the packets that are exchanged between the device and the world.
-
-    This service enables you to establish a "virtual network" of emulated
-    bluetooth devices that can interact with each other.
-
-    Note: This is not yet finalized, it is likely that these definitions will
-    evolve.
-    """
-
-    def registerClassicPhy(self, request_iterator, context):
-        """Connect device to link layer. This will establish a direct connection
-        to the emulated bluetooth chip and configure the following:
-
-        - Each connection creates a new device and attaches it to the link layer
-        - Link Layer packets are transmitted directly to the phy
-
-        This should be used for classic connections.
-
-        This is used to directly connect various android emulators together.
-        For example a wear device can connect to an android emulator through
-        this.
-        """
-        context.set_code(grpc.StatusCode.UNIMPLEMENTED)
-        context.set_details('Method not implemented!')
-        raise NotImplementedError('Method not implemented!')
-
-    def registerBlePhy(self, request_iterator, context):
-        """Connect device to link layer. This will establish a direct connection
-        to root canal and execute the following:
-
-        - Each connection creates a new device and attaches it to the link layer
-        - Link Layer packets are transmitted directly to the phy
-
-        This should be used for BLE connections.
-
-        This is used to directly connect various android emulators together.
-        For example a wear device can connect to an android emulator through
-        this.
-        """
-        context.set_code(grpc.StatusCode.UNIMPLEMENTED)
-        context.set_details('Method not implemented!')
-        raise NotImplementedError('Method not implemented!')
-
-    def registerHCIDevice(self, request_iterator, context):
-        """Connect the device to the emulated bluetooth chip. The device will
-        participate in the network. You can configure the chip to scan, advertise
-        and setup connections with other devices that are connected to the
-        network.
-
-        This is usually used when you have a need for an emulated bluetooth chip
-        and have a bluetooth stack that can interpret and handle the packets
-        correctly.
-
-        For example the apache nimble stack can use this endpoint as the
-        transport layer.
-        """
-        context.set_code(grpc.StatusCode.UNIMPLEMENTED)
-        context.set_details('Method not implemented!')
-        raise NotImplementedError('Method not implemented!')
-
-
-def add_EmulatedBluetoothServiceServicer_to_server(servicer, server):
-    rpc_method_handlers = {
-        'registerClassicPhy': grpc.stream_stream_rpc_method_handler(
-            servicer.registerClassicPhy,
-            request_deserializer=emulated__bluetooth__pb2.RawData.FromString,
-            response_serializer=emulated__bluetooth__pb2.RawData.SerializeToString,
-        ),
-        'registerBlePhy': grpc.stream_stream_rpc_method_handler(
-            servicer.registerBlePhy,
-            request_deserializer=emulated__bluetooth__pb2.RawData.FromString,
-            response_serializer=emulated__bluetooth__pb2.RawData.SerializeToString,
-        ),
-        'registerHCIDevice': grpc.stream_stream_rpc_method_handler(
-            servicer.registerHCIDevice,
-            request_deserializer=emulated__bluetooth__packets__pb2.HCIPacket.FromString,
-            response_serializer=emulated__bluetooth__packets__pb2.HCIPacket.SerializeToString,
-        ),
-    }
-    generic_handler = grpc.method_handlers_generic_handler(
-        'android.emulation.bluetooth.EmulatedBluetoothService', rpc_method_handlers
-    )
-    server.add_generic_rpc_handlers((generic_handler,))
-
-
-# This class is part of an EXPERIMENTAL API.
-class EmulatedBluetoothService(object):
-    """An Emulated Bluetooth Service exposes the emulated bluetooth chip from the
-    android emulator. It allows you to register emulated bluetooth devices and
-    control the packets that are exchanged between the device and the world.
-
-    This service enables you to establish a "virtual network" of emulated
-    bluetooth devices that can interact with each other.
-
-    Note: This is not yet finalized, it is likely that these definitions will
-    evolve.
-    """
-
-    @staticmethod
-    def registerClassicPhy(
-        request_iterator,
-        target,
-        options=(),
-        channel_credentials=None,
-        call_credentials=None,
-        insecure=False,
-        compression=None,
-        wait_for_ready=None,
-        timeout=None,
-        metadata=None,
-    ):
-        return grpc.experimental.stream_stream(
-            request_iterator,
-            target,
-            '/android.emulation.bluetooth.EmulatedBluetoothService/registerClassicPhy',
-            emulated__bluetooth__pb2.RawData.SerializeToString,
-            emulated__bluetooth__pb2.RawData.FromString,
-            options,
-            channel_credentials,
-            insecure,
-            call_credentials,
-            compression,
-            wait_for_ready,
-            timeout,
-            metadata,
-        )
-
-    @staticmethod
-    def registerBlePhy(
-        request_iterator,
-        target,
-        options=(),
-        channel_credentials=None,
-        call_credentials=None,
-        insecure=False,
-        compression=None,
-        wait_for_ready=None,
-        timeout=None,
-        metadata=None,
-    ):
-        return grpc.experimental.stream_stream(
-            request_iterator,
-            target,
-            '/android.emulation.bluetooth.EmulatedBluetoothService/registerBlePhy',
-            emulated__bluetooth__pb2.RawData.SerializeToString,
-            emulated__bluetooth__pb2.RawData.FromString,
-            options,
-            channel_credentials,
-            insecure,
-            call_credentials,
-            compression,
-            wait_for_ready,
-            timeout,
-            metadata,
-        )
-
-    @staticmethod
-    def registerHCIDevice(
-        request_iterator,
-        target,
-        options=(),
-        channel_credentials=None,
-        call_credentials=None,
-        insecure=False,
-        compression=None,
-        wait_for_ready=None,
-        timeout=None,
-        metadata=None,
-    ):
-        return grpc.experimental.stream_stream(
-            request_iterator,
-            target,
-            '/android.emulation.bluetooth.EmulatedBluetoothService/registerHCIDevice',
-            emulated__bluetooth__packets__pb2.HCIPacket.SerializeToString,
-            emulated__bluetooth__packets__pb2.HCIPacket.FromString,
-            options,
-            channel_credentials,
-            insecure,
-            call_credentials,
-            compression,
-            wait_for_ready,
-            timeout,
-            metadata,
-        )

bumble/transport/emulated_bluetooth_vhci_pb2.py

@@ -1,46 +0,0 @@
-# Copyright 2021-2023 Google LLC
-#
-# Licensed under the Apache License, Version 2.0 (the "License");
-# you may not use this file except in compliance with the License.
-# You may obtain a copy of the License at
-#
-#      https://www.apache.org/licenses/LICENSE-2.0
-#
-# Unless required by applicable law or agreed to in writing, software
-# distributed under the License is distributed on an "AS IS" BASIS,
-# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-# See the License for the specific language governing permissions and
-# limitations under the License.
-
-# -*- coding: utf-8 -*-
-# Generated by the protocol buffer compiler.  DO NOT EDIT!
-# source: emulated_bluetooth_vhci.proto
-"""Generated protocol buffer code."""
-from google.protobuf.internal import builder as _builder
-from google.protobuf import descriptor as _descriptor
-from google.protobuf import descriptor_pool as _descriptor_pool
-from google.protobuf import symbol_database as _symbol_database
-
-# @@protoc_insertion_point(imports)
-
-_sym_db = _symbol_database.Default()
-
-
-from . import emulated_bluetooth_packets_pb2 as emulated__bluetooth__packets__pb2
-
-
-DESCRIPTOR = _descriptor_pool.Default().AddSerializedFile(
-    b'\n\x1d\x65mulated_bluetooth_vhci.proto\x12\x1b\x61ndroid.emulation.bluetooth\x1a emulated_bluetooth_packets.proto2y\n\x15VhciForwardingService\x12`\n\nattachVhci\x12&.android.emulation.bluetooth.HCIPacket\x1a&.android.emulation.bluetooth.HCIPacket(\x01\x30\x01\x42J\n\x1f\x63om.android.emulation.bluetoothP\x01\xf8\x01\x01\xa2\x02\x03\x41\x45\x42\xaa\x02\x1b\x41ndroid.Emulation.Bluetoothb\x06proto3'
-)
-
-_builder.BuildMessageAndEnumDescriptors(DESCRIPTOR, globals())
-_builder.BuildTopDescriptorsAndMessages(
-    DESCRIPTOR, 'emulated_bluetooth_vhci_pb2', globals()
-)
-if _descriptor._USE_C_DESCRIPTORS == False:
-
-    DESCRIPTOR._options = None
-    DESCRIPTOR._serialized_options = b'\n\037com.android.emulation.bluetoothP\001\370\001\001\242\002\003AEB\252\002\033Android.Emulation.Bluetooth'
-    _VHCIFORWARDINGSERVICE._serialized_start = 96
-    _VHCIFORWARDINGSERVICE._serialized_end = 217
-# @@protoc_insertion_point(module_scope)

bumble/transport/emulated_bluetooth_vhci_pb2.pyi

@@ -1,19 +0,0 @@
-# Copyright 2021-2023 Google LLC
-#
-# Licensed under the Apache License, Version 2.0 (the "License");
-# you may not use this file except in compliance with the License.
-# You may obtain a copy of the License at
-#
-#      https://www.apache.org/licenses/LICENSE-2.0
-#
-# Unless required by applicable law or agreed to in writing, software
-# distributed under the License is distributed on an "AS IS" BASIS,
-# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-# See the License for the specific language governing permissions and
-# limitations under the License.
-
-import emulated_bluetooth_packets_pb2 as _emulated_bluetooth_packets_pb2
-from google.protobuf import descriptor as _descriptor
-from typing import ClassVar as _ClassVar
-
-DESCRIPTOR: _descriptor.FileDescriptor

bumble/transport/grpc_protobuf/common_pb2.py

@@ -0,0 +1,25 @@
+# -*- coding: utf-8 -*-
+# Generated by the protocol buffer compiler.  DO NOT EDIT!
+# source: common.proto
+"""Generated protocol buffer code."""
+from google.protobuf.internal import builder as _builder
+from google.protobuf import descriptor as _descriptor
+from google.protobuf import descriptor_pool as _descriptor_pool
+from google.protobuf import symbol_database as _symbol_database
+# @@protoc_insertion_point(imports)
+
+_sym_db = _symbol_database.Default()
+
+
+
+
+DESCRIPTOR = _descriptor_pool.Default().AddSerializedFile(b'\n\x0c\x63ommon.proto\x12\rnetsim.common*=\n\x08\x43hipKind\x12\x0f\n\x0bUNSPECIFIED\x10\x00\x12\r\n\tBLUETOOTH\x10\x01\x12\x08\n\x04WIFI\x10\x02\x12\x07\n\x03UWB\x10\x03\x62\x06proto3')
+
+_builder.BuildMessageAndEnumDescriptors(DESCRIPTOR, globals())
+_builder.BuildTopDescriptorsAndMessages(DESCRIPTOR, 'common_pb2', globals())
+if _descriptor._USE_C_DESCRIPTORS == False:
+
+  DESCRIPTOR._options = None
+  _CHIPKIND._serialized_start=31
+  _CHIPKIND._serialized_end=92
+# @@protoc_insertion_point(module_scope)

bumble/transport/grpc_protobuf/common_pb2.pyi

@@ -0,0 +1,12 @@
+from google.protobuf.internal import enum_type_wrapper as _enum_type_wrapper
+from google.protobuf import descriptor as _descriptor
+from typing import ClassVar as _ClassVar
+
+BLUETOOTH: ChipKind
+DESCRIPTOR: _descriptor.FileDescriptor
+UNSPECIFIED: ChipKind
+UWB: ChipKind
+WIFI: ChipKind
+
+class ChipKind(int, metaclass=_enum_type_wrapper.EnumTypeWrapper):
+    __slots__ = []

bumble/transport/grpc_protobuf/common_pb2_grpc.py

@@ -0,0 +1,4 @@
+# Generated by the gRPC Python protocol compiler plugin. DO NOT EDIT!
+"""Client and server classes corresponding to protobuf-defined services."""
+import grpc
+

bumble/transport/grpc_protobuf/emulated_bluetooth_device_pb2.pyi

@@ -0,0 +1,158 @@
+from . import grpc_endpoint_description_pb2 as _grpc_endpoint_description_pb2
+from google.protobuf import empty_pb2 as _empty_pb2
+from google.protobuf.internal import containers as _containers
+from google.protobuf.internal import enum_type_wrapper as _enum_type_wrapper
+from google.protobuf import descriptor as _descriptor
+from google.protobuf import message as _message
+from typing import ClassVar as _ClassVar, Iterable as _Iterable, Mapping as _Mapping, Optional as _Optional, Union as _Union
+
+DESCRIPTOR: _descriptor.FileDescriptor
+
+class Advertisement(_message.Message):
+    __slots__ = ["connection_mode", "device_name", "discovery_mode"]
+    class ConnectionMode(int, metaclass=_enum_type_wrapper.EnumTypeWrapper):
+        __slots__ = []
+    class DiscoveryMode(int, metaclass=_enum_type_wrapper.EnumTypeWrapper):
+        __slots__ = []
+    CONNECTION_MODE_DIRECTED: Advertisement.ConnectionMode
+    CONNECTION_MODE_FIELD_NUMBER: _ClassVar[int]
+    CONNECTION_MODE_NON_CONNECTABLE: Advertisement.ConnectionMode
+    CONNECTION_MODE_UNDIRECTED: Advertisement.ConnectionMode
+    CONNECTION_MODE_UNSPECIFIED: Advertisement.ConnectionMode
+    DEVICE_NAME_FIELD_NUMBER: _ClassVar[int]
+    DISCOVERY_MODE_FIELD_NUMBER: _ClassVar[int]
+    DISCOVERY_MODE_GENERAL: Advertisement.DiscoveryMode
+    DISCOVERY_MODE_LIMITED: Advertisement.DiscoveryMode
+    DISCOVERY_MODE_NON_DISCOVERABLE: Advertisement.DiscoveryMode
+    DISCOVERY_MODE_UNSPECIFIED: Advertisement.DiscoveryMode
+    connection_mode: Advertisement.ConnectionMode
+    device_name: str
+    discovery_mode: Advertisement.DiscoveryMode
+    def __init__(self, device_name: _Optional[str] = ..., connection_mode: _Optional[_Union[Advertisement.ConnectionMode, str]] = ..., discovery_mode: _Optional[_Union[Advertisement.DiscoveryMode, str]] = ...) -> None: ...
+
+class CallbackIdentifier(_message.Message):
+    __slots__ = ["identity"]
+    IDENTITY_FIELD_NUMBER: _ClassVar[int]
+    identity: str
+    def __init__(self, identity: _Optional[str] = ...) -> None: ...
+
+class CharacteristicValueRequest(_message.Message):
+    __slots__ = ["callback_device_id", "callback_id", "data", "from_device"]
+    CALLBACK_DEVICE_ID_FIELD_NUMBER: _ClassVar[int]
+    CALLBACK_ID_FIELD_NUMBER: _ClassVar[int]
+    DATA_FIELD_NUMBER: _ClassVar[int]
+    FROM_DEVICE_FIELD_NUMBER: _ClassVar[int]
+    callback_device_id: CallbackIdentifier
+    callback_id: Uuid
+    data: bytes
+    from_device: DeviceIdentifier
+    def __init__(self, callback_device_id: _Optional[_Union[CallbackIdentifier, _Mapping]] = ..., from_device: _Optional[_Union[DeviceIdentifier, _Mapping]] = ..., callback_id: _Optional[_Union[Uuid, _Mapping]] = ..., data: _Optional[bytes] = ...) -> None: ...
+
+class CharacteristicValueResponse(_message.Message):
+    __slots__ = ["data", "status"]
+    class GattStatus(int, metaclass=_enum_type_wrapper.EnumTypeWrapper):
+        __slots__ = []
+    DATA_FIELD_NUMBER: _ClassVar[int]
+    GATT_STATUS_FAILURE: CharacteristicValueResponse.GattStatus
+    GATT_STATUS_SUCCESS: CharacteristicValueResponse.GattStatus
+    GATT_STATUS_UNSPECIFIED: CharacteristicValueResponse.GattStatus
+    STATUS_FIELD_NUMBER: _ClassVar[int]
+    data: bytes
+    status: CharacteristicValueResponse.GattStatus
+    def __init__(self, status: _Optional[_Union[CharacteristicValueResponse.GattStatus, str]] = ..., data: _Optional[bytes] = ...) -> None: ...
+
+class ConnectionStateChange(_message.Message):
+    __slots__ = ["callback_device_id", "from_device", "new_state"]
+    class ConnectionState(int, metaclass=_enum_type_wrapper.EnumTypeWrapper):
+        __slots__ = []
+    CALLBACK_DEVICE_ID_FIELD_NUMBER: _ClassVar[int]
+    CONNECTION_STATE_CONNECTED: ConnectionStateChange.ConnectionState
+    CONNECTION_STATE_DISCONNECTED: ConnectionStateChange.ConnectionState
+    CONNECTION_STATE_UNDEFINED: ConnectionStateChange.ConnectionState
+    FROM_DEVICE_FIELD_NUMBER: _ClassVar[int]
+    NEW_STATE_FIELD_NUMBER: _ClassVar[int]
+    callback_device_id: CallbackIdentifier
+    from_device: DeviceIdentifier
+    new_state: ConnectionStateChange.ConnectionState
+    def __init__(self, callback_device_id: _Optional[_Union[CallbackIdentifier, _Mapping]] = ..., from_device: _Optional[_Union[DeviceIdentifier, _Mapping]] = ..., new_state: _Optional[_Union[ConnectionStateChange.ConnectionState, str]] = ...) -> None: ...
+
+class DeviceIdentifier(_message.Message):
+    __slots__ = ["address"]
+    ADDRESS_FIELD_NUMBER: _ClassVar[int]
+    address: str
+    def __init__(self, address: _Optional[str] = ...) -> None: ...
+
+class GattCharacteristic(_message.Message):
+    __slots__ = ["callback_id", "permissions", "properties", "uuid"]
+    class Permissions(int, metaclass=_enum_type_wrapper.EnumTypeWrapper):
+        __slots__ = []
+    class Properties(int, metaclass=_enum_type_wrapper.EnumTypeWrapper):
+        __slots__ = []
+    CALLBACK_ID_FIELD_NUMBER: _ClassVar[int]
+    PERMISSIONS_FIELD_NUMBER: _ClassVar[int]
+    PERMISSION_READ: GattCharacteristic.Permissions
+    PERMISSION_READ_ENCRYPTED: GattCharacteristic.Permissions
+    PERMISSION_READ_ENCRYPTED_MITM: GattCharacteristic.Permissions
+    PERMISSION_UNSPECIFIED: GattCharacteristic.Permissions
+    PERMISSION_WRITE: GattCharacteristic.Permissions
+    PERMISSION_WRITE_ENCRYPTED: GattCharacteristic.Permissions
+    PERMISSION_WRITE_ENCRYPTED_MITM: GattCharacteristic.Permissions
+    PERMISSION_WRITE_SIGNED: GattCharacteristic.Permissions
+    PERMISSION_WRITE_SIGNED_MITM: GattCharacteristic.Permissions
+    PROPERTIES_FIELD_NUMBER: _ClassVar[int]
+    PROPERTY_BROADCAST: GattCharacteristic.Properties
+    PROPERTY_EXTENDED_PROPS: GattCharacteristic.Properties
+    PROPERTY_INDICATE: GattCharacteristic.Properties
+    PROPERTY_NOTIFY: GattCharacteristic.Properties
+    PROPERTY_READ: GattCharacteristic.Properties
+    PROPERTY_SIGNED_WRITE: GattCharacteristic.Properties
+    PROPERTY_UNSPECIFIED: GattCharacteristic.Properties
+    PROPERTY_WRITE: GattCharacteristic.Properties
+    PROPERTY_WRITE_NO_RESPONSE: GattCharacteristic.Properties
+    UUID_FIELD_NUMBER: _ClassVar[int]
+    callback_id: Uuid
+    permissions: int
+    properties: int
+    uuid: Uuid
+    def __init__(self, uuid: _Optional[_Union[Uuid, _Mapping]] = ..., properties: _Optional[int] = ..., permissions: _Optional[int] = ..., callback_id: _Optional[_Union[Uuid, _Mapping]] = ...) -> None: ...
+
+class GattDevice(_message.Message):
+    __slots__ = ["advertisement", "endpoint", "profile"]
+    ADVERTISEMENT_FIELD_NUMBER: _ClassVar[int]
+    ENDPOINT_FIELD_NUMBER: _ClassVar[int]
+    PROFILE_FIELD_NUMBER: _ClassVar[int]
+    advertisement: Advertisement
+    endpoint: _grpc_endpoint_description_pb2.Endpoint
+    profile: GattProfile
+    def __init__(self, endpoint: _Optional[_Union[_grpc_endpoint_description_pb2.Endpoint, _Mapping]] = ..., advertisement: _Optional[_Union[Advertisement, _Mapping]] = ..., profile: _Optional[_Union[GattProfile, _Mapping]] = ...) -> None: ...
+
+class GattProfile(_message.Message):
+    __slots__ = ["services"]
+    SERVICES_FIELD_NUMBER: _ClassVar[int]
+    services: _containers.RepeatedCompositeFieldContainer[GattService]
+    def __init__(self, services: _Optional[_Iterable[_Union[GattService, _Mapping]]] = ...) -> None: ...
+
+class GattService(_message.Message):
+    __slots__ = ["characteristics", "service_type", "uuid"]
+    class ServiceType(int, metaclass=_enum_type_wrapper.EnumTypeWrapper):
+        __slots__ = []
+    CHARACTERISTICS_FIELD_NUMBER: _ClassVar[int]
+    SERVICE_TYPE_FIELD_NUMBER: _ClassVar[int]
+    SERVICE_TYPE_PRIMARY: GattService.ServiceType
+    SERVICE_TYPE_SECONDARY: GattService.ServiceType
+    SERVICE_TYPE_UNSPECIFIED: GattService.ServiceType
+    UUID_FIELD_NUMBER: _ClassVar[int]
+    characteristics: _containers.RepeatedCompositeFieldContainer[GattCharacteristic]
+    service_type: GattService.ServiceType
+    uuid: Uuid
+    def __init__(self, uuid: _Optional[_Union[Uuid, _Mapping]] = ..., service_type: _Optional[_Union[GattService.ServiceType, str]] = ..., characteristics: _Optional[_Iterable[_Union[GattCharacteristic, _Mapping]]] = ...) -> None: ...
+
+class Uuid(_message.Message):
+    __slots__ = ["id", "lsb", "msb"]
+    ID_FIELD_NUMBER: _ClassVar[int]
+    LSB_FIELD_NUMBER: _ClassVar[int]
+    MSB_FIELD_NUMBER: _ClassVar[int]
+    id: int
+    lsb: int
+    msb: int
+    def __init__(self, id: _Optional[int] = ..., lsb: _Optional[int] = ..., msb: _Optional[int] = ...) -> None: ...

bumble/transport/grpc_protobuf/emulated_bluetooth_device_pb2_grpc.py

@@ -0,0 +1,193 @@
+# Generated by the gRPC Python protocol compiler plugin. DO NOT EDIT!
+"""Client and server classes corresponding to protobuf-defined services."""
+import grpc
+
+from . import emulated_bluetooth_device_pb2 as emulated__bluetooth__device__pb2
+from google.protobuf import empty_pb2 as google_dot_protobuf_dot_empty__pb2
+
+
+class GattDeviceServiceStub(object):
+    """You can provide your own GattDevice by implementing this service
+    and registering it with the android emulator.
+
+    The device will appear as a real bluetooth device, and you will
+    receive callbacks when the bluetooth system wants to
+    read, write or observe a characteristic.
+    """
+
+    def __init__(self, channel):
+        """Constructor.
+
+        Args:
+            channel: A grpc.Channel.
+        """
+        self.OnCharacteristicReadRequest = channel.unary_unary(
+                '/android.emulation.bluetooth.GattDeviceService/OnCharacteristicReadRequest',
+                request_serializer=emulated__bluetooth__device__pb2.CharacteristicValueRequest.SerializeToString,
+                response_deserializer=emulated__bluetooth__device__pb2.CharacteristicValueResponse.FromString,
+                )
+        self.OnCharacteristicWriteRequest = channel.unary_unary(
+                '/android.emulation.bluetooth.GattDeviceService/OnCharacteristicWriteRequest',
+                request_serializer=emulated__bluetooth__device__pb2.CharacteristicValueRequest.SerializeToString,
+                response_deserializer=emulated__bluetooth__device__pb2.CharacteristicValueResponse.FromString,
+                )
+        self.OnCharacteristicObserveRequest = channel.unary_stream(
+                '/android.emulation.bluetooth.GattDeviceService/OnCharacteristicObserveRequest',
+                request_serializer=emulated__bluetooth__device__pb2.CharacteristicValueRequest.SerializeToString,
+                response_deserializer=emulated__bluetooth__device__pb2.CharacteristicValueResponse.FromString,
+                )
+        self.OnConnectionStateChange = channel.unary_unary(
+                '/android.emulation.bluetooth.GattDeviceService/OnConnectionStateChange',
+                request_serializer=emulated__bluetooth__device__pb2.ConnectionStateChange.SerializeToString,
+                response_deserializer=google_dot_protobuf_dot_empty__pb2.Empty.FromString,
+                )
+
+
+class GattDeviceServiceServicer(object):
+    """You can provide your own GattDevice by implementing this service
+    and registering it with the android emulator.
+
+    The device will appear as a real bluetooth device, and you will
+    receive callbacks when the bluetooth system wants to
+    read, write or observe a characteristic.
+    """
+
+    def OnCharacteristicReadRequest(self, request, context):
+        """A remote client has requested to read a local characteristic.
+
+        Return the current observed value.
+        """
+        context.set_code(grpc.StatusCode.UNIMPLEMENTED)
+        context.set_details('Method not implemented!')
+        raise NotImplementedError('Method not implemented!')
+
+    def OnCharacteristicWriteRequest(self, request, context):
+        """A remote client has requested to write to a local characteristic.
+
+        Return the current observed value.
+        """
+        context.set_code(grpc.StatusCode.UNIMPLEMENTED)
+        context.set_details('Method not implemented!')
+        raise NotImplementedError('Method not implemented!')
+
+    def OnCharacteristicObserveRequest(self, request, context):
+        """Listens for notifications from the emulated device, the device should
+        write to the stream with a response when a change has occurred.
+        """
+        context.set_code(grpc.StatusCode.UNIMPLEMENTED)
+        context.set_details('Method not implemented!')
+        raise NotImplementedError('Method not implemented!')
+
+    def OnConnectionStateChange(self, request, context):
+        """A remote device has been connected or disconnected.
+        """
+        context.set_code(grpc.StatusCode.UNIMPLEMENTED)
+        context.set_details('Method not implemented!')
+        raise NotImplementedError('Method not implemented!')
+
+
+def add_GattDeviceServiceServicer_to_server(servicer, server):
+    rpc_method_handlers = {
+            'OnCharacteristicReadRequest': grpc.unary_unary_rpc_method_handler(
+                    servicer.OnCharacteristicReadRequest,
+                    request_deserializer=emulated__bluetooth__device__pb2.CharacteristicValueRequest.FromString,
+                    response_serializer=emulated__bluetooth__device__pb2.CharacteristicValueResponse.SerializeToString,
+            ),
+            'OnCharacteristicWriteRequest': grpc.unary_unary_rpc_method_handler(
+                    servicer.OnCharacteristicWriteRequest,
+                    request_deserializer=emulated__bluetooth__device__pb2.CharacteristicValueRequest.FromString,
+                    response_serializer=emulated__bluetooth__device__pb2.CharacteristicValueResponse.SerializeToString,
+            ),
+            'OnCharacteristicObserveRequest': grpc.unary_stream_rpc_method_handler(
+                    servicer.OnCharacteristicObserveRequest,
+                    request_deserializer=emulated__bluetooth__device__pb2.CharacteristicValueRequest.FromString,
+                    response_serializer=emulated__bluetooth__device__pb2.CharacteristicValueResponse.SerializeToString,
+            ),
+            'OnConnectionStateChange': grpc.unary_unary_rpc_method_handler(
+                    servicer.OnConnectionStateChange,
+                    request_deserializer=emulated__bluetooth__device__pb2.ConnectionStateChange.FromString,
+                    response_serializer=google_dot_protobuf_dot_empty__pb2.Empty.SerializeToString,
+            ),
+    }
+    generic_handler = grpc.method_handlers_generic_handler(
+            'android.emulation.bluetooth.GattDeviceService', rpc_method_handlers)
+    server.add_generic_rpc_handlers((generic_handler,))
+
+
+ # This class is part of an EXPERIMENTAL API.
+class GattDeviceService(object):
+    """You can provide your own GattDevice by implementing this service
+    and registering it with the android emulator.
+
+    The device will appear as a real bluetooth device, and you will
+    receive callbacks when the bluetooth system wants to
+    read, write or observe a characteristic.
+    """
+
+    @staticmethod
+    def OnCharacteristicReadRequest(request,
+            target,
+            options=(),
+            channel_credentials=None,
+            call_credentials=None,
+            insecure=False,
+            compression=None,
+            wait_for_ready=None,
+            timeout=None,
+            metadata=None):
+        return grpc.experimental.unary_unary(request, target, '/android.emulation.bluetooth.GattDeviceService/OnCharacteristicReadRequest',
+            emulated__bluetooth__device__pb2.CharacteristicValueRequest.SerializeToString,
+            emulated__bluetooth__device__pb2.CharacteristicValueResponse.FromString,
+            options, channel_credentials,
+            insecure, call_credentials, compression, wait_for_ready, timeout, metadata)
+
+    @staticmethod
+    def OnCharacteristicWriteRequest(request,
+            target,
+            options=(),
+            channel_credentials=None,
+            call_credentials=None,
+            insecure=False,
+            compression=None,
+            wait_for_ready=None,
+            timeout=None,
+            metadata=None):
+        return grpc.experimental.unary_unary(request, target, '/android.emulation.bluetooth.GattDeviceService/OnCharacteristicWriteRequest',
+            emulated__bluetooth__device__pb2.CharacteristicValueRequest.SerializeToString,
+            emulated__bluetooth__device__pb2.CharacteristicValueResponse.FromString,
+            options, channel_credentials,
+            insecure, call_credentials, compression, wait_for_ready, timeout, metadata)
+
+    @staticmethod
+    def OnCharacteristicObserveRequest(request,
+            target,
+            options=(),
+            channel_credentials=None,
+            call_credentials=None,
+            insecure=False,
+            compression=None,
+            wait_for_ready=None,
+            timeout=None,
+            metadata=None):
+        return grpc.experimental.unary_stream(request, target, '/android.emulation.bluetooth.GattDeviceService/OnCharacteristicObserveRequest',
+            emulated__bluetooth__device__pb2.CharacteristicValueRequest.SerializeToString,
+            emulated__bluetooth__device__pb2.CharacteristicValueResponse.FromString,
+            options, channel_credentials,
+            insecure, call_credentials, compression, wait_for_ready, timeout, metadata)
+
+    @staticmethod
+    def OnConnectionStateChange(request,
+            target,
+            options=(),
+            channel_credentials=None,
+            call_credentials=None,
+            insecure=False,
+            compression=None,
+            wait_for_ready=None,
+            timeout=None,
+            metadata=None):
+        return grpc.experimental.unary_unary(request, target, '/android.emulation.bluetooth.GattDeviceService/OnConnectionStateChange',
+            emulated__bluetooth__device__pb2.ConnectionStateChange.SerializeToString,
+            google_dot_protobuf_dot_empty__pb2.Empty.FromString,
+            options, channel_credentials,
+            insecure, call_credentials, compression, wait_for_ready, timeout, metadata)

bumble/transport/grpc_protobuf/emulated_bluetooth_packets_pb2.py

@@ -0,0 +1,28 @@
+# -*- coding: utf-8 -*-
+# Generated by the protocol buffer compiler.  DO NOT EDIT!
+# source: emulated_bluetooth_packets.proto
+"""Generated protocol buffer code."""
+from google.protobuf.internal import builder as _builder
+from google.protobuf import descriptor as _descriptor
+from google.protobuf import descriptor_pool as _descriptor_pool
+from google.protobuf import symbol_database as _symbol_database
+# @@protoc_insertion_point(imports)
+
+_sym_db = _symbol_database.Default()
+
+
+
+
+DESCRIPTOR = _descriptor_pool.Default().AddSerializedFile(b'\n emulated_bluetooth_packets.proto\x12\x1b\x61ndroid.emulation.bluetooth\"\xfb\x01\n\tHCIPacket\x12?\n\x04type\x18\x01 \x01(\x0e\x32\x31.android.emulation.bluetooth.HCIPacket.PacketType\x12\x0e\n\x06packet\x18\x02 \x01(\x0c\"\x9c\x01\n\nPacketType\x12\x1b\n\x17PACKET_TYPE_UNSPECIFIED\x10\x00\x12\x1b\n\x17PACKET_TYPE_HCI_COMMAND\x10\x01\x12\x13\n\x0fPACKET_TYPE_ACL\x10\x02\x12\x13\n\x0fPACKET_TYPE_SCO\x10\x03\x12\x15\n\x11PACKET_TYPE_EVENT\x10\x04\x12\x13\n\x0fPACKET_TYPE_ISO\x10\x05\x42J\n\x1f\x63om.android.emulation.bluetoothP\x01\xf8\x01\x01\xa2\x02\x03\x41\x45\x42\xaa\x02\x1b\x41ndroid.Emulation.Bluetoothb\x06proto3')
+
+_builder.BuildMessageAndEnumDescriptors(DESCRIPTOR, globals())
+_builder.BuildTopDescriptorsAndMessages(DESCRIPTOR, 'emulated_bluetooth_packets_pb2', globals())
+if _descriptor._USE_C_DESCRIPTORS == False:
+
+  DESCRIPTOR._options = None
+  DESCRIPTOR._serialized_options = b'\n\037com.android.emulation.bluetoothP\001\370\001\001\242\002\003AEB\252\002\033Android.Emulation.Bluetooth'
+  _HCIPACKET._serialized_start=66
+  _HCIPACKET._serialized_end=317
+  _HCIPACKET_PACKETTYPE._serialized_start=161
+  _HCIPACKET_PACKETTYPE._serialized_end=317
+# @@protoc_insertion_point(module_scope)

bumble/transport/grpc_protobuf/emulated_bluetooth_packets_pb2.pyi

@@ -1,17 +1,3 @@
-# Copyright 2021-2023 Google LLC
-#
-# Licensed under the Apache License, Version 2.0 (the "License");
-# you may not use this file except in compliance with the License.
-# You may obtain a copy of the License at
-#
-#      https://www.apache.org/licenses/LICENSE-2.0
-#
-# Unless required by applicable law or agreed to in writing, software
-# distributed under the License is distributed on an "AS IS" BASIS,
-# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-# See the License for the specific language governing permissions and
-# limitations under the License.
-
 from google.protobuf.internal import enum_type_wrapper as _enum_type_wrapper
 from google.protobuf import descriptor as _descriptor
 from google.protobuf import message as _message
@@ -21,7 +7,6 @@ DESCRIPTOR: _descriptor.FileDescriptor
 
 class HCIPacket(_message.Message):
     __slots__ = ["packet", "type"]
-
     class PacketType(int, metaclass=_enum_type_wrapper.EnumTypeWrapper):
         __slots__ = []
     PACKET_FIELD_NUMBER: _ClassVar[int]
@@ -34,8 +19,4 @@ class HCIPacket(_message.Message):
     TYPE_FIELD_NUMBER: _ClassVar[int]
     packet: bytes
     type: HCIPacket.PacketType
-    def __init__(
-        self,
-        type: _Optional[_Union[HCIPacket.PacketType, str]] = ...,
-        packet: _Optional[bytes] = ...,
-    ) -> None: ...
+    def __init__(self, type: _Optional[_Union[HCIPacket.PacketType, str]] = ..., packet: _Optional[bytes] = ...) -> None: ...

bumble/transport/grpc_protobuf/emulated_bluetooth_packets_pb2_grpc.py

@@ -0,0 +1,4 @@
+# Generated by the gRPC Python protocol compiler plugin. DO NOT EDIT!
+"""Client and server classes corresponding to protobuf-defined services."""
+import grpc
+

bumble/transport/grpc_protobuf/emulated_bluetooth_pb2.py

@@ -0,0 +1,32 @@
+# -*- coding: utf-8 -*-
+# Generated by the protocol buffer compiler.  DO NOT EDIT!
+# source: emulated_bluetooth.proto
+"""Generated protocol buffer code."""
+from google.protobuf.internal import builder as _builder
+from google.protobuf import descriptor as _descriptor
+from google.protobuf import descriptor_pool as _descriptor_pool
+from google.protobuf import symbol_database as _symbol_database
+# @@protoc_insertion_point(imports)
+
+_sym_db = _symbol_database.Default()
+
+
+from . import emulated_bluetooth_packets_pb2 as emulated__bluetooth__packets__pb2
+from . import emulated_bluetooth_device_pb2 as emulated__bluetooth__device__pb2
+
+
+DESCRIPTOR = _descriptor_pool.Default().AddSerializedFile(b'\n\x18\x65mulated_bluetooth.proto\x12\x1b\x61ndroid.emulation.bluetooth\x1a emulated_bluetooth_packets.proto\x1a\x1f\x65mulated_bluetooth_device.proto\"\x19\n\x07RawData\x12\x0e\n\x06packet\x18\x01 \x01(\x0c\"a\n\x12RegistrationStatus\x12K\n\x12\x63\x61llback_device_id\x18\x01 \x01(\x0b\x32/.android.emulation.bluetooth.CallbackIdentifier2\xbb\x03\n\x18\x45mulatedBluetoothService\x12\x64\n\x12registerClassicPhy\x12$.android.emulation.bluetooth.RawData\x1a$.android.emulation.bluetooth.RawData(\x01\x30\x01\x12`\n\x0eregisterBlePhy\x12$.android.emulation.bluetooth.RawData\x1a$.android.emulation.bluetooth.RawData(\x01\x30\x01\x12g\n\x11registerHCIDevice\x12&.android.emulation.bluetooth.HCIPacket\x1a&.android.emulation.bluetooth.HCIPacket(\x01\x30\x01\x12n\n\x12registerGattDevice\x12\'.android.emulation.bluetooth.GattDevice\x1a/.android.emulation.bluetooth.RegistrationStatusB\"\n\x1e\x63om.android.emulator.bluetoothP\x01\x62\x06proto3')
+
+_builder.BuildMessageAndEnumDescriptors(DESCRIPTOR, globals())
+_builder.BuildTopDescriptorsAndMessages(DESCRIPTOR, 'emulated_bluetooth_pb2', globals())
+if _descriptor._USE_C_DESCRIPTORS == False:
+
+  DESCRIPTOR._options = None
+  DESCRIPTOR._serialized_options = b'\n\036com.android.emulator.bluetoothP\001'
+  _RAWDATA._serialized_start=124
+  _RAWDATA._serialized_end=149
+  _REGISTRATIONSTATUS._serialized_start=151
+  _REGISTRATIONSTATUS._serialized_end=248
+  _EMULATEDBLUETOOTHSERVICE._serialized_start=251
+  _EMULATEDBLUETOOTHSERVICE._serialized_end=694
+# @@protoc_insertion_point(module_scope)

bumble/transport/grpc_protobuf/emulated_bluetooth_pb2.pyi

@@ -0,0 +1,19 @@
+from . import emulated_bluetooth_packets_pb2 as _emulated_bluetooth_packets_pb2
+from . import emulated_bluetooth_device_pb2 as _emulated_bluetooth_device_pb2
+from google.protobuf import descriptor as _descriptor
+from google.protobuf import message as _message
+from typing import ClassVar as _ClassVar, Mapping as _Mapping, Optional as _Optional, Union as _Union
+
+DESCRIPTOR: _descriptor.FileDescriptor
+
+class RawData(_message.Message):
+    __slots__ = ["packet"]
+    PACKET_FIELD_NUMBER: _ClassVar[int]
+    packet: bytes
+    def __init__(self, packet: _Optional[bytes] = ...) -> None: ...
+
+class RegistrationStatus(_message.Message):
+    __slots__ = ["callback_device_id"]
+    CALLBACK_DEVICE_ID_FIELD_NUMBER: _ClassVar[int]
+    callback_device_id: _emulated_bluetooth_device_pb2.CallbackIdentifier
+    def __init__(self, callback_device_id: _Optional[_Union[_emulated_bluetooth_device_pb2.CallbackIdentifier, _Mapping]] = ...) -> None: ...

bumble/transport/grpc_protobuf/emulated_bluetooth_pb2_grpc.py

@@ -0,0 +1,237 @@
+# Generated by the gRPC Python protocol compiler plugin. DO NOT EDIT!
+"""Client and server classes corresponding to protobuf-defined services."""
+import grpc
+
+from . import emulated_bluetooth_device_pb2 as emulated__bluetooth__device__pb2
+from . import emulated_bluetooth_packets_pb2 as emulated__bluetooth__packets__pb2
+from . import emulated_bluetooth_pb2 as emulated__bluetooth__pb2
+
+
+class EmulatedBluetoothServiceStub(object):
+    """An Emulated Bluetooth Service exposes the emulated bluetooth chip from the
+    android emulator. It allows you to register emulated bluetooth devices and
+    control the packets that are exchanged between the device and the world.
+
+    This service enables you to establish a "virtual network" of emulated
+    bluetooth devices that can interact with each other.
+
+    Note: This is not yet finalized, it is likely that these definitions will
+    evolve.
+    """
+
+    def __init__(self, channel):
+        """Constructor.
+
+        Args:
+            channel: A grpc.Channel.
+        """
+        self.registerClassicPhy = channel.stream_stream(
+                '/android.emulation.bluetooth.EmulatedBluetoothService/registerClassicPhy',
+                request_serializer=emulated__bluetooth__pb2.RawData.SerializeToString,
+                response_deserializer=emulated__bluetooth__pb2.RawData.FromString,
+                )
+        self.registerBlePhy = channel.stream_stream(
+                '/android.emulation.bluetooth.EmulatedBluetoothService/registerBlePhy',
+                request_serializer=emulated__bluetooth__pb2.RawData.SerializeToString,
+                response_deserializer=emulated__bluetooth__pb2.RawData.FromString,
+                )
+        self.registerHCIDevice = channel.stream_stream(
+                '/android.emulation.bluetooth.EmulatedBluetoothService/registerHCIDevice',
+                request_serializer=emulated__bluetooth__packets__pb2.HCIPacket.SerializeToString,
+                response_deserializer=emulated__bluetooth__packets__pb2.HCIPacket.FromString,
+                )
+        self.registerGattDevice = channel.unary_unary(
+                '/android.emulation.bluetooth.EmulatedBluetoothService/registerGattDevice',
+                request_serializer=emulated__bluetooth__device__pb2.GattDevice.SerializeToString,
+                response_deserializer=emulated__bluetooth__pb2.RegistrationStatus.FromString,
+                )
+
+
+class EmulatedBluetoothServiceServicer(object):
+    """An Emulated Bluetooth Service exposes the emulated bluetooth chip from the
+    android emulator. It allows you to register emulated bluetooth devices and
+    control the packets that are exchanged between the device and the world.
+
+    This service enables you to establish a "virtual network" of emulated
+    bluetooth devices that can interact with each other.
+
+    Note: This is not yet finalized, it is likely that these definitions will
+    evolve.
+    """
+
+    def registerClassicPhy(self, request_iterator, context):
+        """Connect device to link layer. This will establish a direct connection
+        to the emulated bluetooth chip and configure the following:
+
+        - Each connection creates a new device and attaches it to the link layer
+        - Link Layer packets are transmitted directly to the phy
+
+        This should be used for classic connections.
+
+        This is used to directly connect various android emulators together.
+        For example a wear device can connect to an android emulator through
+        this.
+        """
+        context.set_code(grpc.StatusCode.UNIMPLEMENTED)
+        context.set_details('Method not implemented!')
+        raise NotImplementedError('Method not implemented!')
+
+    def registerBlePhy(self, request_iterator, context):
+        """Connect device to link layer. This will establish a direct connection
+        to root canal and execute the following:
+
+        - Each connection creates a new device and attaches it to the link layer
+        - Link Layer packets are transmitted directly to the phy
+
+        This should be used for BLE connections.
+
+        This is used to directly connect various android emulators together.
+        For example a wear device can connect to an android emulator through
+        this.
+        """
+        context.set_code(grpc.StatusCode.UNIMPLEMENTED)
+        context.set_details('Method not implemented!')
+        raise NotImplementedError('Method not implemented!')
+
+    def registerHCIDevice(self, request_iterator, context):
+        """Connect the device to the emulated bluetooth chip. The device will
+        participate in the network. You can configure the chip to scan, advertise
+        and setup connections with other devices that are connected to the
+        network.
+
+        This is usually used when you have a need for an emulated bluetooth chip
+        and have a bluetooth stack that can interpret and handle the packets
+        correctly.
+
+        For example the apache nimble stack can use this endpoint as the
+        transport layer.
+        """
+        context.set_code(grpc.StatusCode.UNIMPLEMENTED)
+        context.set_details('Method not implemented!')
+        raise NotImplementedError('Method not implemented!')
+
+    def registerGattDevice(self, request, context):
+        """Registers an emulated bluetooth device. The emulator will reach out to
+        the emulated device to read/write and subscribe to properties.
+
+        The following gRPC error codes can be returned:
+        -  FAILED_PRECONDITION (code 9):
+        - root canal is not available on this device
+        - unable to reach the endpoint for the GattDevice
+        -  INTERNAL (code 13) if there was an internal emulator failure.
+
+        The device will not be discoverable in case of an error.
+        """
+        context.set_code(grpc.StatusCode.UNIMPLEMENTED)
+        context.set_details('Method not implemented!')
+        raise NotImplementedError('Method not implemented!')
+
+
+def add_EmulatedBluetoothServiceServicer_to_server(servicer, server):
+    rpc_method_handlers = {
+            'registerClassicPhy': grpc.stream_stream_rpc_method_handler(
+                    servicer.registerClassicPhy,
+                    request_deserializer=emulated__bluetooth__pb2.RawData.FromString,
+                    response_serializer=emulated__bluetooth__pb2.RawData.SerializeToString,
+            ),
+            'registerBlePhy': grpc.stream_stream_rpc_method_handler(
+                    servicer.registerBlePhy,
+                    request_deserializer=emulated__bluetooth__pb2.RawData.FromString,
+                    response_serializer=emulated__bluetooth__pb2.RawData.SerializeToString,
+            ),
+            'registerHCIDevice': grpc.stream_stream_rpc_method_handler(
+                    servicer.registerHCIDevice,
+                    request_deserializer=emulated__bluetooth__packets__pb2.HCIPacket.FromString,
+                    response_serializer=emulated__bluetooth__packets__pb2.HCIPacket.SerializeToString,
+            ),
+            'registerGattDevice': grpc.unary_unary_rpc_method_handler(
+                    servicer.registerGattDevice,
+                    request_deserializer=emulated__bluetooth__device__pb2.GattDevice.FromString,
+                    response_serializer=emulated__bluetooth__pb2.RegistrationStatus.SerializeToString,
+            ),
+    }
+    generic_handler = grpc.method_handlers_generic_handler(
+            'android.emulation.bluetooth.EmulatedBluetoothService', rpc_method_handlers)
+    server.add_generic_rpc_handlers((generic_handler,))
+
+
+ # This class is part of an EXPERIMENTAL API.
+class EmulatedBluetoothService(object):
+    """An Emulated Bluetooth Service exposes the emulated bluetooth chip from the
+    android emulator. It allows you to register emulated bluetooth devices and
+    control the packets that are exchanged between the device and the world.
+
+    This service enables you to establish a "virtual network" of emulated
+    bluetooth devices that can interact with each other.
+
+    Note: This is not yet finalized, it is likely that these definitions will
+    evolve.
+    """
+
+    @staticmethod
+    def registerClassicPhy(request_iterator,
+            target,
+            options=(),
+            channel_credentials=None,
+            call_credentials=None,
+            insecure=False,
+            compression=None,
+            wait_for_ready=None,
+            timeout=None,
+            metadata=None):
+        return grpc.experimental.stream_stream(request_iterator, target, '/android.emulation.bluetooth.EmulatedBluetoothService/registerClassicPhy',
+            emulated__bluetooth__pb2.RawData.SerializeToString,
+            emulated__bluetooth__pb2.RawData.FromString,
+            options, channel_credentials,
+            insecure, call_credentials, compression, wait_for_ready, timeout, metadata)
+
+    @staticmethod
+    def registerBlePhy(request_iterator,
+            target,
+            options=(),
+            channel_credentials=None,
+            call_credentials=None,
+            insecure=False,
+            compression=None,
+            wait_for_ready=None,
+            timeout=None,
+            metadata=None):
+        return grpc.experimental.stream_stream(request_iterator, target, '/android.emulation.bluetooth.EmulatedBluetoothService/registerBlePhy',
+            emulated__bluetooth__pb2.RawData.SerializeToString,
+            emulated__bluetooth__pb2.RawData.FromString,
+            options, channel_credentials,
+            insecure, call_credentials, compression, wait_for_ready, timeout, metadata)
+
+    @staticmethod
+    def registerHCIDevice(request_iterator,
+            target,
+            options=(),
+            channel_credentials=None,
+            call_credentials=None,
+            insecure=False,
+            compression=None,
+            wait_for_ready=None,
+            timeout=None,
+            metadata=None):
+        return grpc.experimental.stream_stream(request_iterator, target, '/android.emulation.bluetooth.EmulatedBluetoothService/registerHCIDevice',
+            emulated__bluetooth__packets__pb2.HCIPacket.SerializeToString,
+            emulated__bluetooth__packets__pb2.HCIPacket.FromString,
+            options, channel_credentials,
+            insecure, call_credentials, compression, wait_for_ready, timeout, metadata)
+
+    @staticmethod
+    def registerGattDevice(request,
+            target,
+            options=(),
+            channel_credentials=None,
+            call_credentials=None,
+            insecure=False,
+            compression=None,
+            wait_for_ready=None,
+            timeout=None,
+            metadata=None):
+        return grpc.experimental.unary_unary(request, target, '/android.emulation.bluetooth.EmulatedBluetoothService/registerGattDevice',
+            emulated__bluetooth__device__pb2.GattDevice.SerializeToString,
+            emulated__bluetooth__pb2.RegistrationStatus.FromString,
+            options, channel_credentials,
+            insecure, call_credentials, compression, wait_for_ready, timeout, metadata)

bumble/transport/grpc_protobuf/emulated_bluetooth_vhci_pb2.py

@@ -0,0 +1,27 @@
+# -*- coding: utf-8 -*-
+# Generated by the protocol buffer compiler.  DO NOT EDIT!
+# source: emulated_bluetooth_vhci.proto
+"""Generated protocol buffer code."""
+from google.protobuf.internal import builder as _builder
+from google.protobuf import descriptor as _descriptor
+from google.protobuf import descriptor_pool as _descriptor_pool
+from google.protobuf import symbol_database as _symbol_database
+# @@protoc_insertion_point(imports)
+
+_sym_db = _symbol_database.Default()
+
+
+from . import emulated_bluetooth_packets_pb2 as emulated__bluetooth__packets__pb2
+
+
+DESCRIPTOR = _descriptor_pool.Default().AddSerializedFile(b'\n\x1d\x65mulated_bluetooth_vhci.proto\x12\x1b\x61ndroid.emulation.bluetooth\x1a emulated_bluetooth_packets.proto2y\n\x15VhciForwardingService\x12`\n\nattachVhci\x12&.android.emulation.bluetooth.HCIPacket\x1a&.android.emulation.bluetooth.HCIPacket(\x01\x30\x01\x42J\n\x1f\x63om.android.emulation.bluetoothP\x01\xf8\x01\x01\xa2\x02\x03\x41\x45\x42\xaa\x02\x1b\x41ndroid.Emulation.Bluetoothb\x06proto3')
+
+_builder.BuildMessageAndEnumDescriptors(DESCRIPTOR, globals())
+_builder.BuildTopDescriptorsAndMessages(DESCRIPTOR, 'emulated_bluetooth_vhci_pb2', globals())
+if _descriptor._USE_C_DESCRIPTORS == False:
+
+  DESCRIPTOR._options = None
+  DESCRIPTOR._serialized_options = b'\n\037com.android.emulation.bluetoothP\001\370\001\001\242\002\003AEB\252\002\033Android.Emulation.Bluetooth'
+  _VHCIFORWARDINGSERVICE._serialized_start=96
+  _VHCIFORWARDINGSERVICE._serialized_end=217
+# @@protoc_insertion_point(module_scope)

bumble/transport/grpc_protobuf/emulated_bluetooth_vhci_pb2.pyi

@@ -0,0 +1,5 @@
+import emulated_bluetooth_packets_pb2 as _emulated_bluetooth_packets_pb2
+from google.protobuf import descriptor as _descriptor
+from typing import ClassVar as _ClassVar
+
+DESCRIPTOR: _descriptor.FileDescriptor

bumble/transport/grpc_protobuf/emulated_bluetooth_vhci_pb2_grpc.py

@@ -1,17 +1,3 @@
-# Copyright 2021-2023 Google LLC
-#
-# Licensed under the Apache License, Version 2.0 (the "License");
-# you may not use this file except in compliance with the License.
-# You may obtain a copy of the License at
-#
-#      https://www.apache.org/licenses/LICENSE-2.0
-#
-# Unless required by applicable law or agreed to in writing, software
-# distributed under the License is distributed on an "AS IS" BASIS,
-# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-# See the License for the specific language governing permissions and
-# limitations under the License.
-
 # Generated by the gRPC Python protocol compiler plugin. DO NOT EDIT!
 """Client and server classes corresponding to protobuf-defined services."""
 import grpc
@@ -35,10 +21,10 @@ class VhciForwardingServiceStub(object):
             channel: A grpc.Channel.
         """
         self.attachVhci = channel.stream_stream(
-            '/android.emulation.bluetooth.VhciForwardingService/attachVhci',
-            request_serializer=emulated__bluetooth__packets__pb2.HCIPacket.SerializeToString,
-            response_deserializer=emulated__bluetooth__packets__pb2.HCIPacket.FromString,
-        )
+                '/android.emulation.bluetooth.VhciForwardingService/attachVhci',
+                request_serializer=emulated__bluetooth__packets__pb2.HCIPacket.SerializeToString,
+                response_deserializer=emulated__bluetooth__packets__pb2.HCIPacket.FromString,
+                )
 
 
 class VhciForwardingServiceServicer(object):
@@ -75,19 +61,18 @@ class VhciForwardingServiceServicer(object):
 
 def add_VhciForwardingServiceServicer_to_server(servicer, server):
     rpc_method_handlers = {
-        'attachVhci': grpc.stream_stream_rpc_method_handler(
-            servicer.attachVhci,
-            request_deserializer=emulated__bluetooth__packets__pb2.HCIPacket.FromString,
-            response_serializer=emulated__bluetooth__packets__pb2.HCIPacket.SerializeToString,
-        ),
+            'attachVhci': grpc.stream_stream_rpc_method_handler(
+                    servicer.attachVhci,
+                    request_deserializer=emulated__bluetooth__packets__pb2.HCIPacket.FromString,
+                    response_serializer=emulated__bluetooth__packets__pb2.HCIPacket.SerializeToString,
+            ),
     }
     generic_handler = grpc.method_handlers_generic_handler(
-        'android.emulation.bluetooth.VhciForwardingService', rpc_method_handlers
-    )
+            'android.emulation.bluetooth.VhciForwardingService', rpc_method_handlers)
     server.add_generic_rpc_handlers((generic_handler,))
 
 
-# This class is part of an EXPERIMENTAL API.
+ # This class is part of an EXPERIMENTAL API.
 class VhciForwardingService(object):
     """This is a service which allows you to directly intercept the VHCI packets
     that are coming and going to the device before they are delivered to
@@ -98,30 +83,18 @@ class VhciForwardingService(object):
     """
 
     @staticmethod
-    def attachVhci(
-        request_iterator,
-        target,
-        options=(),
-        channel_credentials=None,
-        call_credentials=None,
-        insecure=False,
-        compression=None,
-        wait_for_ready=None,
-        timeout=None,
-        metadata=None,
-    ):
-        return grpc.experimental.stream_stream(
-            request_iterator,
+    def attachVhci(request_iterator,
             target,
-            '/android.emulation.bluetooth.VhciForwardingService/attachVhci',
+            options=(),
+            channel_credentials=None,
+            call_credentials=None,
+            insecure=False,
+            compression=None,
+            wait_for_ready=None,
+            timeout=None,
+            metadata=None):
+        return grpc.experimental.stream_stream(request_iterator, target, '/android.emulation.bluetooth.VhciForwardingService/attachVhci',
             emulated__bluetooth__packets__pb2.HCIPacket.SerializeToString,
             emulated__bluetooth__packets__pb2.HCIPacket.FromString,
-            options,
-            channel_credentials,
-            insecure,
-            call_credentials,
-            compression,
-            wait_for_ready,
-            timeout,
-            metadata,
-        )
+            options, channel_credentials,
+            insecure, call_credentials, compression, wait_for_ready, timeout, metadata)

bumble/transport/grpc_protobuf/grpc_endpoint_description_pb2.py

@@ -0,0 +1,30 @@
+# -*- coding: utf-8 -*-
+# Generated by the protocol buffer compiler.  DO NOT EDIT!
+# source: grpc_endpoint_description.proto
+"""Generated protocol buffer code."""
+from google.protobuf.internal import builder as _builder
+from google.protobuf import descriptor as _descriptor
+from google.protobuf import descriptor_pool as _descriptor_pool
+from google.protobuf import symbol_database as _symbol_database
+# @@protoc_insertion_point(imports)
+
+_sym_db = _symbol_database.Default()
+
+
+
+
+DESCRIPTOR = _descriptor_pool.Default().AddSerializedFile(b'\n\x1fgrpc_endpoint_description.proto\x12\x18\x61ndroid.emulation.remote\"V\n\x0b\x43redentials\x12\x16\n\x0epem_root_certs\x18\x01 \x01(\t\x12\x17\n\x0fpem_private_key\x18\x02 \x01(\t\x12\x16\n\x0epem_cert_chain\x18\x03 \x01(\t\"$\n\x06Header\x12\x0b\n\x03key\x18\x01 \x01(\t\x12\r\n\x05value\x18\x02 \x01(\t\"\x96\x01\n\x08\x45ndpoint\x12\x0e\n\x06target\x18\x01 \x01(\t\x12>\n\x0ftls_credentials\x18\x02 \x01(\x0b\x32%.android.emulation.remote.Credentials\x12:\n\x10required_headers\x18\x03 \x03(\x0b\x32 .android.emulation.remote.HeaderB \n\x1c\x63om.android.emulation.remoteP\x01\x62\x06proto3')
+
+_builder.BuildMessageAndEnumDescriptors(DESCRIPTOR, globals())
+_builder.BuildTopDescriptorsAndMessages(DESCRIPTOR, 'grpc_endpoint_description_pb2', globals())
+if _descriptor._USE_C_DESCRIPTORS == False:
+
+  DESCRIPTOR._options = None
+  DESCRIPTOR._serialized_options = b'\n\034com.android.emulation.remoteP\001'
+  _CREDENTIALS._serialized_start=61
+  _CREDENTIALS._serialized_end=147
+  _HEADER._serialized_start=149
+  _HEADER._serialized_end=185
+  _ENDPOINT._serialized_start=188
+  _ENDPOINT._serialized_end=338
+# @@protoc_insertion_point(module_scope)

bumble/transport/grpc_protobuf/grpc_endpoint_description_pb2.pyi

@@ -0,0 +1,34 @@
+from google.protobuf.internal import containers as _containers
+from google.protobuf import descriptor as _descriptor
+from google.protobuf import message as _message
+from typing import ClassVar as _ClassVar, Iterable as _Iterable, Mapping as _Mapping, Optional as _Optional, Union as _Union
+
+DESCRIPTOR: _descriptor.FileDescriptor
+
+class Credentials(_message.Message):
+    __slots__ = ["pem_cert_chain", "pem_private_key", "pem_root_certs"]
+    PEM_CERT_CHAIN_FIELD_NUMBER: _ClassVar[int]
+    PEM_PRIVATE_KEY_FIELD_NUMBER: _ClassVar[int]
+    PEM_ROOT_CERTS_FIELD_NUMBER: _ClassVar[int]
+    pem_cert_chain: str
+    pem_private_key: str
+    pem_root_certs: str
+    def __init__(self, pem_root_certs: _Optional[str] = ..., pem_private_key: _Optional[str] = ..., pem_cert_chain: _Optional[str] = ...) -> None: ...
+
+class Endpoint(_message.Message):
+    __slots__ = ["required_headers", "target", "tls_credentials"]
+    REQUIRED_HEADERS_FIELD_NUMBER: _ClassVar[int]
+    TARGET_FIELD_NUMBER: _ClassVar[int]
+    TLS_CREDENTIALS_FIELD_NUMBER: _ClassVar[int]
+    required_headers: _containers.RepeatedCompositeFieldContainer[Header]
+    target: str
+    tls_credentials: Credentials
+    def __init__(self, target: _Optional[str] = ..., tls_credentials: _Optional[_Union[Credentials, _Mapping]] = ..., required_headers: _Optional[_Iterable[_Union[Header, _Mapping]]] = ...) -> None: ...
+
+class Header(_message.Message):
+    __slots__ = ["key", "value"]
+    KEY_FIELD_NUMBER: _ClassVar[int]
+    VALUE_FIELD_NUMBER: _ClassVar[int]
+    key: str
+    value: str
+    def __init__(self, key: _Optional[str] = ..., value: _Optional[str] = ...) -> None: ...

bumble/transport/grpc_protobuf/grpc_endpoint_description_pb2_grpc.py

@@ -0,0 +1,4 @@
+# Generated by the gRPC Python protocol compiler plugin. DO NOT EDIT!
+"""Client and server classes corresponding to protobuf-defined services."""
+import grpc
+

bumble/transport/grpc_protobuf/hci_packet_pb2.py

@@ -0,0 +1,28 @@
+# -*- coding: utf-8 -*-
+# Generated by the protocol buffer compiler.  DO NOT EDIT!
+# source: hci_packet.proto
+"""Generated protocol buffer code."""
+from google.protobuf.internal import builder as _builder
+from google.protobuf import descriptor as _descriptor
+from google.protobuf import descriptor_pool as _descriptor_pool
+from google.protobuf import symbol_database as _symbol_database
+# @@protoc_insertion_point(imports)
+
+_sym_db = _symbol_database.Default()
+
+
+
+
+DESCRIPTOR = _descriptor_pool.Default().AddSerializedFile(b'\n\x10hci_packet.proto\x12\rnetsim.packet\"\xb2\x01\n\tHCIPacket\x12\x38\n\x0bpacket_type\x18\x01 \x01(\x0e\x32#.netsim.packet.HCIPacket.PacketType\x12\x0e\n\x06packet\x18\x02 \x01(\x0c\"[\n\nPacketType\x12\x1a\n\x16HCI_PACKET_UNSPECIFIED\x10\x00\x12\x0b\n\x07\x43OMMAND\x10\x01\x12\x07\n\x03\x41\x43L\x10\x02\x12\x07\n\x03SCO\x10\x03\x12\t\n\x05\x45VENT\x10\x04\x12\x07\n\x03ISO\x10\x05\x42J\n\x1f\x63om.android.emulation.bluetoothP\x01\xf8\x01\x01\xa2\x02\x03\x41\x45\x42\xaa\x02\x1b\x41ndroid.Emulation.Bluetoothb\x06proto3')
+
+_builder.BuildMessageAndEnumDescriptors(DESCRIPTOR, globals())
+_builder.BuildTopDescriptorsAndMessages(DESCRIPTOR, 'hci_packet_pb2', globals())
+if _descriptor._USE_C_DESCRIPTORS == False:
+
+  DESCRIPTOR._options = None
+  DESCRIPTOR._serialized_options = b'\n\037com.android.emulation.bluetoothP\001\370\001\001\242\002\003AEB\252\002\033Android.Emulation.Bluetooth'
+  _HCIPACKET._serialized_start=36
+  _HCIPACKET._serialized_end=214
+  _HCIPACKET_PACKETTYPE._serialized_start=123
+  _HCIPACKET_PACKETTYPE._serialized_end=214
+# @@protoc_insertion_point(module_scope)

bumble/transport/grpc_protobuf/hci_packet_pb2.pyi

@@ -0,0 +1,22 @@
+from google.protobuf.internal import enum_type_wrapper as _enum_type_wrapper
+from google.protobuf import descriptor as _descriptor
+from google.protobuf import message as _message
+from typing import ClassVar as _ClassVar, Optional as _Optional, Union as _Union
+
+DESCRIPTOR: _descriptor.FileDescriptor
+
+class HCIPacket(_message.Message):
+    __slots__ = ["packet", "packet_type"]
+    class PacketType(int, metaclass=_enum_type_wrapper.EnumTypeWrapper):
+        __slots__ = []
+    ACL: HCIPacket.PacketType
+    COMMAND: HCIPacket.PacketType
+    EVENT: HCIPacket.PacketType
+    HCI_PACKET_UNSPECIFIED: HCIPacket.PacketType
+    ISO: HCIPacket.PacketType
+    PACKET_FIELD_NUMBER: _ClassVar[int]
+    PACKET_TYPE_FIELD_NUMBER: _ClassVar[int]
+    SCO: HCIPacket.PacketType
+    packet: bytes
+    packet_type: HCIPacket.PacketType
+    def __init__(self, packet_type: _Optional[_Union[HCIPacket.PacketType, str]] = ..., packet: _Optional[bytes] = ...) -> None: ...

bumble/transport/grpc_protobuf/hci_packet_pb2_grpc.py

@@ -0,0 +1,4 @@
+# Generated by the gRPC Python protocol compiler plugin. DO NOT EDIT!
+"""Client and server classes corresponding to protobuf-defined services."""
+import grpc
+

bumble/transport/grpc_protobuf/packet_streamer_pb2.py

@@ -0,0 +1,31 @@
+# -*- coding: utf-8 -*-
+# Generated by the protocol buffer compiler.  DO NOT EDIT!
+# source: packet_streamer.proto
+"""Generated protocol buffer code."""
+from google.protobuf.internal import builder as _builder
+from google.protobuf import descriptor as _descriptor
+from google.protobuf import descriptor_pool as _descriptor_pool
+from google.protobuf import symbol_database as _symbol_database
+# @@protoc_insertion_point(imports)
+
+_sym_db = _symbol_database.Default()
+
+
+from . import hci_packet_pb2 as hci__packet__pb2
+from . import startup_pb2 as startup__pb2
+
+
+DESCRIPTOR = _descriptor_pool.Default().AddSerializedFile(b'\n\x15packet_streamer.proto\x12\rnetsim.packet\x1a\x10hci_packet.proto\x1a\rstartup.proto\"\x93\x01\n\rPacketRequest\x12\x30\n\x0cinitial_info\x18\x01 \x01(\x0b\x32\x18.netsim.startup.ChipInfoH\x00\x12.\n\nhci_packet\x18\x02 \x01(\x0b\x32\x18.netsim.packet.HCIPacketH\x00\x12\x10\n\x06packet\x18\x03 \x01(\x0cH\x00\x42\x0e\n\x0crequest_type\"t\n\x0ePacketResponse\x12\x0f\n\x05\x65rror\x18\x01 \x01(\tH\x00\x12.\n\nhci_packet\x18\x02 \x01(\x0b\x32\x18.netsim.packet.HCIPacketH\x00\x12\x10\n\x06packet\x18\x03 \x01(\x0cH\x00\x42\x0f\n\rresponse_type2b\n\x0ePacketStreamer\x12P\n\rStreamPackets\x12\x1c.netsim.packet.PacketRequest\x1a\x1d.netsim.packet.PacketResponse(\x01\x30\x01\x62\x06proto3')
+
+_builder.BuildMessageAndEnumDescriptors(DESCRIPTOR, globals())
+_builder.BuildTopDescriptorsAndMessages(DESCRIPTOR, 'packet_streamer_pb2', globals())
+if _descriptor._USE_C_DESCRIPTORS == False:
+
+  DESCRIPTOR._options = None
+  _PACKETREQUEST._serialized_start=74
+  _PACKETREQUEST._serialized_end=221
+  _PACKETRESPONSE._serialized_start=223
+  _PACKETRESPONSE._serialized_end=339
+  _PACKETSTREAMER._serialized_start=341
+  _PACKETSTREAMER._serialized_end=439
+# @@protoc_insertion_point(module_scope)

bumble/transport/grpc_protobuf/packet_streamer_pb2.pyi

@@ -0,0 +1,27 @@
+from . import hci_packet_pb2 as _hci_packet_pb2
+from . import startup_pb2 as _startup_pb2
+from google.protobuf import descriptor as _descriptor
+from google.protobuf import message as _message
+from typing import ClassVar as _ClassVar, Mapping as _Mapping, Optional as _Optional, Union as _Union
+
+DESCRIPTOR: _descriptor.FileDescriptor
+
+class PacketRequest(_message.Message):
+    __slots__ = ["hci_packet", "initial_info", "packet"]
+    HCI_PACKET_FIELD_NUMBER: _ClassVar[int]
+    INITIAL_INFO_FIELD_NUMBER: _ClassVar[int]
+    PACKET_FIELD_NUMBER: _ClassVar[int]
+    hci_packet: _hci_packet_pb2.HCIPacket
+    initial_info: _startup_pb2.ChipInfo
+    packet: bytes
+    def __init__(self, initial_info: _Optional[_Union[_startup_pb2.ChipInfo, _Mapping]] = ..., hci_packet: _Optional[_Union[_hci_packet_pb2.HCIPacket, _Mapping]] = ..., packet: _Optional[bytes] = ...) -> None: ...
+
+class PacketResponse(_message.Message):
+    __slots__ = ["error", "hci_packet", "packet"]
+    ERROR_FIELD_NUMBER: _ClassVar[int]
+    HCI_PACKET_FIELD_NUMBER: _ClassVar[int]
+    PACKET_FIELD_NUMBER: _ClassVar[int]
+    error: str
+    hci_packet: _hci_packet_pb2.HCIPacket
+    packet: bytes
+    def __init__(self, error: _Optional[str] = ..., hci_packet: _Optional[_Union[_hci_packet_pb2.HCIPacket, _Mapping]] = ..., packet: _Optional[bytes] = ...) -> None: ...

bumble/transport/grpc_protobuf/packet_streamer_pb2_grpc.py

@@ -0,0 +1,109 @@
+# Generated by the gRPC Python protocol compiler plugin. DO NOT EDIT!
+"""Client and server classes corresponding to protobuf-defined services."""
+import grpc
+
+from . import packet_streamer_pb2 as packet__streamer__pb2
+
+
+class PacketStreamerStub(object):
+    """*
+    This is the packet service for the network simulator.
+
+    Android Virtual Devices (AVDs) and accessory devices use this service to
+    connect to the network simulator and pass packets back and forth.
+
+    AVDs running in a guest VM are built with virtual controllers for each radio
+    chip. These controllers route chip requests to host emulators (qemu and
+    crosvm) using virtio and from there they are forwarded to this gRpc service.
+
+    This setup provides a transparent radio environment across AVDs and
+    accessories because the network simulator contains libraries to emulate
+    Bluetooth, 80211MAC, UWB, and Rtt chips.
+
+    """
+
+    def __init__(self, channel):
+        """Constructor.
+
+        Args:
+            channel: A grpc.Channel.
+        """
+        self.StreamPackets = channel.stream_stream(
+                '/netsim.packet.PacketStreamer/StreamPackets',
+                request_serializer=packet__streamer__pb2.PacketRequest.SerializeToString,
+                response_deserializer=packet__streamer__pb2.PacketResponse.FromString,
+                )
+
+
+class PacketStreamerServicer(object):
+    """*
+    This is the packet service for the network simulator.
+
+    Android Virtual Devices (AVDs) and accessory devices use this service to
+    connect to the network simulator and pass packets back and forth.
+
+    AVDs running in a guest VM are built with virtual controllers for each radio
+    chip. These controllers route chip requests to host emulators (qemu and
+    crosvm) using virtio and from there they are forwarded to this gRpc service.
+
+    This setup provides a transparent radio environment across AVDs and
+    accessories because the network simulator contains libraries to emulate
+    Bluetooth, 80211MAC, UWB, and Rtt chips.
+
+    """
+
+    def StreamPackets(self, request_iterator, context):
+        """Attach a virtual radio controller to the network simulation.
+        """
+        context.set_code(grpc.StatusCode.UNIMPLEMENTED)
+        context.set_details('Method not implemented!')
+        raise NotImplementedError('Method not implemented!')
+
+
+def add_PacketStreamerServicer_to_server(servicer, server):
+    rpc_method_handlers = {
+            'StreamPackets': grpc.stream_stream_rpc_method_handler(
+                    servicer.StreamPackets,
+                    request_deserializer=packet__streamer__pb2.PacketRequest.FromString,
+                    response_serializer=packet__streamer__pb2.PacketResponse.SerializeToString,
+            ),
+    }
+    generic_handler = grpc.method_handlers_generic_handler(
+            'netsim.packet.PacketStreamer', rpc_method_handlers)
+    server.add_generic_rpc_handlers((generic_handler,))
+
+
+ # This class is part of an EXPERIMENTAL API.
+class PacketStreamer(object):
+    """*
+    This is the packet service for the network simulator.
+
+    Android Virtual Devices (AVDs) and accessory devices use this service to
+    connect to the network simulator and pass packets back and forth.
+
+    AVDs running in a guest VM are built with virtual controllers for each radio
+    chip. These controllers route chip requests to host emulators (qemu and
+    crosvm) using virtio and from there they are forwarded to this gRpc service.
+
+    This setup provides a transparent radio environment across AVDs and
+    accessories because the network simulator contains libraries to emulate
+    Bluetooth, 80211MAC, UWB, and Rtt chips.
+
+    """
+
+    @staticmethod
+    def StreamPackets(request_iterator,
+            target,
+            options=(),
+            channel_credentials=None,
+            call_credentials=None,
+            insecure=False,
+            compression=None,
+            wait_for_ready=None,
+            timeout=None,
+            metadata=None):
+        return grpc.experimental.stream_stream(request_iterator, target, '/netsim.packet.PacketStreamer/StreamPackets',
+            packet__streamer__pb2.PacketRequest.SerializeToString,
+            packet__streamer__pb2.PacketResponse.FromString,
+            options, channel_credentials,
+            insecure, call_credentials, compression, wait_for_ready, timeout, metadata)

bumble/transport/grpc_protobuf/startup_pb2.py

@@ -0,0 +1,32 @@
+# -*- coding: utf-8 -*-
+# Generated by the protocol buffer compiler.  DO NOT EDIT!
+# source: startup.proto
+"""Generated protocol buffer code."""
+from google.protobuf.internal import builder as _builder
+from google.protobuf import descriptor as _descriptor
+from google.protobuf import descriptor_pool as _descriptor_pool
+from google.protobuf import symbol_database as _symbol_database
+# @@protoc_insertion_point(imports)
+
+_sym_db = _symbol_database.Default()
+
+
+from . import common_pb2 as common__pb2
+
+
+DESCRIPTOR = _descriptor_pool.Default().AddSerializedFile(b'\n\rstartup.proto\x12\x0enetsim.startup\x1a\x0c\x63ommon.proto\"\x7f\n\x0bStartupInfo\x12\x33\n\x07\x64\x65vices\x18\x01 \x03(\x0b\x32\".netsim.startup.StartupInfo.Device\x1a;\n\x06\x44\x65vice\x12\x0c\n\x04name\x18\x01 \x01(\t\x12#\n\x05\x63hips\x18\x02 \x03(\x0b\x32\x14.netsim.startup.Chip\"<\n\x08\x43hipInfo\x12\x0c\n\x04name\x18\x01 \x01(\t\x12\"\n\x04\x63hip\x18\x02 \x01(\x0b\x32\x14.netsim.startup.Chip\"\x96\x01\n\x04\x43hip\x12%\n\x04kind\x18\x01 \x01(\x0e\x32\x17.netsim.common.ChipKind\x12\n\n\x02id\x18\x02 \x01(\t\x12\x14\n\x0cmanufacturer\x18\x03 \x01(\t\x12\x14\n\x0cproduct_name\x18\x04 \x01(\t\x12\r\n\x05\x66\x64_in\x18\x05 \x01(\x05\x12\x0e\n\x06\x66\x64_out\x18\x06 \x01(\x05\x12\x10\n\x08loopback\x18\x07 \x01(\x08\x62\x06proto3')
+
+_builder.BuildMessageAndEnumDescriptors(DESCRIPTOR, globals())
+_builder.BuildTopDescriptorsAndMessages(DESCRIPTOR, 'startup_pb2', globals())
+if _descriptor._USE_C_DESCRIPTORS == False:
+
+  DESCRIPTOR._options = None
+  _STARTUPINFO._serialized_start=47
+  _STARTUPINFO._serialized_end=174
+  _STARTUPINFO_DEVICE._serialized_start=115
+  _STARTUPINFO_DEVICE._serialized_end=174
+  _CHIPINFO._serialized_start=176
+  _CHIPINFO._serialized_end=236
+  _CHIP._serialized_start=239
+  _CHIP._serialized_end=389
+# @@protoc_insertion_point(module_scope)

bumble/transport/grpc_protobuf/startup_pb2.pyi

@@ -0,0 +1,46 @@
+from . import common_pb2 as _common_pb2
+from google.protobuf.internal import containers as _containers
+from google.protobuf import descriptor as _descriptor
+from google.protobuf import message as _message
+from typing import ClassVar as _ClassVar, Iterable as _Iterable, Mapping as _Mapping, Optional as _Optional, Union as _Union
+
+DESCRIPTOR: _descriptor.FileDescriptor
+
+class Chip(_message.Message):
+    __slots__ = ["fd_in", "fd_out", "id", "kind", "loopback", "manufacturer", "product_name"]
+    FD_IN_FIELD_NUMBER: _ClassVar[int]
+    FD_OUT_FIELD_NUMBER: _ClassVar[int]
+    ID_FIELD_NUMBER: _ClassVar[int]
+    KIND_FIELD_NUMBER: _ClassVar[int]
+    LOOPBACK_FIELD_NUMBER: _ClassVar[int]
+    MANUFACTURER_FIELD_NUMBER: _ClassVar[int]
+    PRODUCT_NAME_FIELD_NUMBER: _ClassVar[int]
+    fd_in: int
+    fd_out: int
+    id: str
+    kind: _common_pb2.ChipKind
+    loopback: bool
+    manufacturer: str
+    product_name: str
+    def __init__(self, kind: _Optional[_Union[_common_pb2.ChipKind, str]] = ..., id: _Optional[str] = ..., manufacturer: _Optional[str] = ..., product_name: _Optional[str] = ..., fd_in: _Optional[int] = ..., fd_out: _Optional[int] = ..., loopback: bool = ...) -> None: ...
+
+class ChipInfo(_message.Message):
+    __slots__ = ["chip", "name"]
+    CHIP_FIELD_NUMBER: _ClassVar[int]
+    NAME_FIELD_NUMBER: _ClassVar[int]
+    chip: Chip
+    name: str
+    def __init__(self, name: _Optional[str] = ..., chip: _Optional[_Union[Chip, _Mapping]] = ...) -> None: ...
+
+class StartupInfo(_message.Message):
+    __slots__ = ["devices"]
+    class Device(_message.Message):
+        __slots__ = ["chips", "name"]
+        CHIPS_FIELD_NUMBER: _ClassVar[int]
+        NAME_FIELD_NUMBER: _ClassVar[int]
+        chips: _containers.RepeatedCompositeFieldContainer[Chip]
+        name: str
+        def __init__(self, name: _Optional[str] = ..., chips: _Optional[_Iterable[_Union[Chip, _Mapping]]] = ...) -> None: ...
+    DEVICES_FIELD_NUMBER: _ClassVar[int]
+    devices: _containers.RepeatedCompositeFieldContainer[StartupInfo.Device]
+    def __init__(self, devices: _Optional[_Iterable[_Union[StartupInfo.Device, _Mapping]]] = ...) -> None: ...

bumble/transport/grpc_protobuf/startup_pb2_grpc.py

@@ -0,0 +1,4 @@
+# Generated by the gRPC Python protocol compiler plugin. DO NOT EDIT!
+"""Client and server classes corresponding to protobuf-defined services."""
+import grpc
+

bumble/transport/usb.py

@@ -206,10 +206,11 @@ async def open_usb_transport(spec):
                     logger.debug('OUT transfer likely already completed')
 
     class UsbPacketSource(asyncio.Protocol, ParserSource):
-        def __init__(self, context, device, acl_in, events_in):
+        def __init__(self, context, device, metadata, acl_in, events_in):
             super().__init__()
             self.context = context
             self.device = device
+            self.metadata = metadata
             self.acl_in = acl_in
             self.events_in = events_in
             self.loop = asyncio.get_running_loop()
@@ -510,6 +511,10 @@ async def open_usb_transport(spec):
             f'events_in=0x{events_in:02X}, '
         )
 
+        device_metadata = {
+            'vendor_id': found.getVendorID(),
+            'product_id': found.getProductID(),
+        }
         device = found.open()
 
         # Auto-detach the kernel driver if supported
@@ -535,7 +540,7 @@ async def open_usb_transport(spec):
             except usb1.USBError:
                 logger.warning('failed to set configuration')
 
-        source = UsbPacketSource(context, device, acl_in, events_in)
+        source = UsbPacketSource(context, device, device_metadata, acl_in, events_in)
         sink = UsbPacketSink(device, acl_out)
         return UsbTransport(context, device, interface, setting, source, sink)
     except usb1.USBError as error:

bumble/transport/ws_server.py

@@ -43,7 +43,7 @@ async def open_ws_server_transport(spec):
         def __init__(self):
             source = ParserSource()
             sink = PumpedPacketSink(self.send_packet)
-            self.connection = asyncio.get_running_loop().create_future()
+            self.connection = None
             self.server = None
 
             super().__init__(source, sink)
@@ -63,7 +63,7 @@ async def open_ws_server_transport(spec):
                 f'new connection on {connection.local_address} '
                 f'from {connection.remote_address}'
             )
-            self.connection.set_result(connection)
+            self.connection = connection
             # pylint: disable=no-member
             try:
                 async for packet in connection:
@@ -74,12 +74,14 @@ async def open_ws_server_transport(spec):
             except websockets.WebSocketException as error:
                 logger.debug(f'exception while receiving packet: {error}')
 
-            # Wait for a new connection
-            self.connection = asyncio.get_running_loop().create_future()
+            # We're now disconnected
+            self.connection = None
 
         async def send_packet(self, packet):
-            connection = await self.connection
-            return await connection.send(packet)
+            if self.connection is None:
+                logger.debug('no connection, dropping packet')
+                return
+            return await self.connection.send(packet)
 
     local_host, local_port = spec.split(':')
     transport = WsServerTransport()

docs/mkdocs/mkdocs.yml

@@ -36,6 +36,9 @@ nav:
     - HCI Socket: transports/hci_socket.md
     - Android Emulator: transports/android_emulator.md
     - File: transports/file.md
+  - Drivers:
+    - Overview: drivers/index.md
+    - Realtek: drivers/realtek.md
   - API:
     - Guide: api/guide.md
     - Examples: api/examples.md
@@ -44,6 +47,7 @@ nav:
     - Overview: apps_and_tools/index.md
     - Console: apps_and_tools/console.md
     - Bench: apps_and_tools/bench.md
+    - Speaker: apps_and_tools/speaker.md
     - HCI Bridge: apps_and_tools/hci_bridge.md
     - Golden Gate Bridge: apps_and_tools/gg_bridge.md
     - Show: apps_and_tools/show.md

docs/mkdocs/requirements.txt

@@ -2,5 +2,5 @@
 mkdocs == 1.4.0
 mkdocs-material == 8.5.6
 mkdocs-material-extensions == 1.0.3
-pymdown-extensions == 9.6
+pymdown-extensions == 10.0
 mkdocstrings-python == 0.7.1

docs/mkdocs/src/apps_and_tools/index.md

@@ -11,4 +11,5 @@ These include:
   * [HCI Bridge](hci_bridge.md) - a HCI transport bridge to connect two HCI transports and filter/snoop the HCI packets
   * [Golden Gate Bridge](gg_bridge.md) - a bridge between GATT and UDP to use with the Golden Gate "stack tool"
   * [Show](show.md) - Parse a file with HCI packets and print the details of each packet in a human readable form
+  * [Speaker](speaker.md) - Virtual Bluetooth speaker, with a command line and browser-based UI.
   * [Link Relay](link_relay.md) - WebSocket relay for virtual RemoteLink instances to communicate with each other.

docs/mkdocs/src/apps_and_tools/speaker.md

@@ -0,0 +1,86 @@
+SPEAKER APP
+===========
+
+![logo](../images/speaker_screenshot.png){ width=400 height=320 }
+
+The Speaker app is virtual Bluetooth speaker (A2DP sink).
+The app runs as a command-line executable, but also offers an optional simple
+web-browser-based user interface.
+
+# General Usage
+You can invoke the app either as `bumble-speaker` when installed as command
+from `pip`, or `python3 apps/speaker/speaker.py` when running from a source
+distribution.
+
+```
+Usage: speaker.py [OPTIONS] TRANSPORT
+
+  Run the speaker.
+
+Options:
+  --codec [sbc|aac]          [default: aac]
+  --discover                 Discover remote endpoints once connected
+  --output NAME              Send audio to this named output (may be used more
+                             than once for multiple outputs)
+  --ui-port HTTP_PORT        HTTP port for the UI server  [default: 7654]
+  --connect ADDRESS_OR_NAME  Address or name to connect to
+  --device-config FILENAME   Device configuration file
+  --help                     Show this message and exit.
+```
+
+# Connection
+By default, the virtual speaker will wait for another device (like a phone or
+computer) to connect to it (and possibly pair). Alternatively, the speaker can
+be told to initiate a connection to a remote device, using the `--connect` 
+option.
+
+# Outputs
+The speaker can have one or more outputs. By default, the only output is a text
+display on the console, as well as a browser-based user interface if connected.
+In addition, a file output can be used, in which case the received audio data is
+saved to a specified file.
+Finally, if the host computer on which your are running the application has `ffplay`
+as an available command line executable, the `@ffplay` output can be selected, in 
+which case the received audio will be played on the computer's builtin speakers via
+a pipe to `ffplay`. (see the [ffplay documentation](https://www.ffmpeg.org/ffplay.html)
+for details)
+
+# Web User Interface
+When the speaker app starts, it prints out on the console the local URL at which you
+may point a browser (Chrome recommended for full functionality). The console line
+specifying the local UI URL will look like:
+```
+UI HTTP server at http://127.0.0.1:7654
+```
+
+By default, the web UI will show the status of the connection, as well as a realtime
+graph of the received audio bandwidth.
+In order to also hear the received audio, you need to click the `Audio on` button
+(this is due to the fact that most browsers will require some user interface with the
+page before granting access to the audio output APIs).
+
+# Examples
+
+In the following examples, we use a single USB Bluetooth controllers `usb:0`. Other 
+transports can be used of course.
+
+!!! example "Start the speaker and wait for a connection"
+    ```
+    $ bumble-speaker usb:0
+    ```
+
+!!! example "Start the speaker and save the AAC audio to a file named `audio.aac`."
+    ```
+    $ bumble-speaker --output audio.aac usb:0
+    ```
+
+!!! example "Start the speaker and save the SBC audio to a file named `audio.sbc`."
+    ```
+    $ bumble-speaker --codec sbc --output audio.sbc usb:0
+    ```
+
+!!! example "Start the speaker and connect it to a phone at address `B8:7B:C5:05:57:ED`."
+    ```
+    $ bumble-speaker --connect B8:7B:C5:05:57:ED usb:0
+    ```
+

docs/mkdocs/src/drivers/index.md

@@ -0,0 +1,10 @@
+DRIVERS
+=======
+
+Some Bluetooth controllers require a driver to function properly.
+This may include, for instance, loading a Firmware image or patch,
+loading a configuration.
+
+Drivers included in the module are:
+
+  * [Realtek](realtek.md): Loading of Firmware and Config for Realtek USB dongles.

docs/mkdocs/src/drivers/realtek.md

@@ -0,0 +1,62 @@
+REALTEK DRIVER
+==============
+
+This driver supports loading firmware images and optional config data to 
+USB dongles with a Realtek chipset.
+A number of USB dongles are supported, but likely not all.
+When using a USB dongle, the USB product ID and manufacturer ID are used
+to find whether a matching set of firmware image and config data
+is needed for that specific model. If a match exists, the driver will try
+load the firmware image and, if needed, config data.
+The driver will look for those files by name, in order, in:
+
+  * The directory specified by the environment variable `BUMBLE_RTK_FIRMWARE_DIR`
+    if set.
+  * The directory `<package-dir>/drivers/rtk_fw` where `<package-dir>` is the directory
+    where the `bumble` package is installed.
+  * The current directory.
+
+
+Obtaining Firmware Images and Config Data
+-----------------------------------------
+
+Firmware images and config data may be obtained from a variety of online
+sources.
+To facilitate finding a downloading the, the utility program `bumble-rtk-fw-download`
+may be used.
+
+```
+Usage: bumble-rtk-fw-download [OPTIONS]
+
+  Download RTK firmware images and configs.
+
+Options:
+  --output-dir TEXT               Output directory where the files will be
+                                  saved  [default: .]
+  --source [linux-kernel|realtek-opensource|linux-from-scratch]
+                                  [default: linux-kernel]
+  --single TEXT                   Only download a single image set, by its
+                                  base name
+  --force                         Overwrite files if they already exist
+  --parse                         Parse the FW image after saving
+  --help                          Show this message and exit.
+```
+
+Utility
+-------
+
+The `bumble-rtk-util` utility may be used to interact with a Realtek USB dongle
+and/or firmware images.
+
+```
+Usage: bumble-rtk-util [OPTIONS] COMMAND [ARGS]...
+
+Options:
+  --help  Show this message and exit.
+
+Commands:
+  drop   Drop a firmware image from the USB dongle.
+  info   Get the firmware info from a USB dongle.
+  load   Load a firmware image into the USB dongle.
+  parse  Parse a firmware image.
+```

docs/mkdocs/src/platforms/android.md

@@ -9,19 +9,20 @@ The two main use cases are:
 
   * Connecting the Bumble host stack to the Android emulator's virtual controller.
   * Using Bumble as an HCI bridge to connect the Android emulator to a physical
-    Bluetooth controller, such as a USB dongle
+    Bluetooth controller, such as a USB dongle, or other HCI transport.
 
 !!! warning
     Bluetooth support in the Android emulator is a recent feature that may still
     be evolving. The information contained here be somewhat out of sync with the
     version of the emulator you are using.
-    You will need version 31.3.8.0 or later.
+    You will need version 33.1.4.0 or later.
 
 The Android emulator supports Bluetooth in two ways: either by exposing virtual
 Bluetooth controllers to which you can connect a virtual Bluetooth host stack, or
-by exposing an way to connect your own virtual controller to the Android Bluetooth
+by exposing a way to connect your own virtual controller to the Android Bluetooth
 stack via a virtual HCI interface.
-Both ways are controlled via gRPC requests to the Android emulator.
+Both ways are controlled via gRPC requests to the Android emulator controller and/or
+from the Android emulator.
 
 ## Launching the Emulator
 
@@ -33,48 +34,82 @@ the command line.
     For details on how to launch the Android emulator from the command line,
     visit [this Android Studio user guide page](https://developer.android.com/studio/run/emulator-commandline)
 
-The `-grpc <port>` command line option may be used to select a gRPC port other than the default.
+The `-packet-streamer-endpoint <endpoint>` command line option may be used to enable
+Bluetooth emulation and tell the emulator which virtual controller to connect to. 
 
-## Connecting to Root Canal
+## Connecting to Netsim
 
-The Android emulator's virtual Bluetooth controller is called **Root Canal**.
-Multiple instances of Root Canal virtual controllers can be instantiated, they
-communicate link layer packets between them, thus creating a virtual radio network.
-Configuring a Bumble Device instance to use Root Canal as a virtual controller
+If the emulator doesn't have Bluetooth emulation enabled by default, use the 
+`-packet-streamer-endpoint default` option to tell it to connect to Netsim.
+If Netsim is not running, the emulator will start it automatically.
+
+The Android emulator's virtual Bluetooth controller is called **Netsim**.
+Netsim runs as a background process and allows multiple clients to connect to it,
+each connecting to its own virtual controller instance hosted by Netsim. All the
+clients connected to the same Netsim process can then "talk" to each other over a
+virtual radio link layer.
+Netsim supports other wireless protocols than Bluetooth, but the relevant part here
+is Bluetooth. The virtual Bluetooth controller used by Netsim is sometimes referred to
+as **Root Canal**.
+
+Configuring a Bumble Device instance to use netsim as a virtual controller
 allows that virtual device to communicate with the Android Bluetooth stack, and
 through it with Android applications as well as system-managed profiles.
-To connect a Bumble host stack to a Root Canal virtual controller instance, use
-the bumble `android-emulator` transport in `host` mode (the default).
+To connect a Bumble host stack to a netsim virtual controller instance, use
+the Bumble `android-netsim` transport in `host` mode (the default).
 
-!!! example "Run the example GATT server connected to the emulator"
+!!! example "Run the example GATT server connected to the emulator via Netsim"
     ``` shell
-    $ python run_gatt_server.py device1.json android-emulator
+    $ python run_gatt_server.py device1.json android-netsim
     ```
 
+By default, the Bumble `android-netsim` transport will try to automatically discover
+the port number on which the netsim process is exposing its gRPC server interface. If
+that discovery process fails, or if you want to specify the interface manually, you 
+can pass a `hostname` and `port` as parameters to the transport, as: `android-netsim:<host>:<port>`.
+
+!!! example "Run the example GATT server connected to the emulator via Netsim on a localhost, port 8877"
+    ``` shell
+    $ python run_gatt_server.py device1.json android-netsim:localhost:8877
+    ```
+
+### Multiple Instances
+
+If you want to connect multiple Bumble devices to netsim, it may be useful to give each one
+a netsim controller with a specific name. This can be done using the `name=<name>` transport option.
+For example: `android-netsim:localhost:8877,name=bumble1`
+
 ## Connecting a Custom Virtual Controller
 
 This is an advanced use case, which may not be officially supported, but should work in recent
 versions of the emulator.
-You will likely need to start the emulator from the command line, in order to specify the `-forward-vhci` option (unless the emulator offers a way to control that feature from a user/ui menu).
 
-!!! example "Launch the emulator with VHCI forwarding"
-    In this example, we launch an emulator AVD named "Tiramisu"
-    ```shell
-    $ emulator -forward-vhci -avd Tiramisu
-    ```
+The first step is to run the Bumble HCI bridge, specifying netsim as the "host" end of the 
+bridge, and another controller (typically a USB Bluetooth dongle, but any other supported
+transport can work as well) as the "controller" end of the bridge.
 
-!!! tip
-    Attaching a virtual controller use the VHCI forwarder while the Android Bluetooth stack
-    is running isn't supported. So you need to disable Bluetooth in your running Android guest
-    before attaching the virtual controller, then re-enable it once attached.
-
-To connect a virtual controller to the Android Bluetooth stack, use the bumble `android-emulator` transport in `controller` mode. For example, using the default gRPC port, the transport name would be: `android-emulator:mode=controller`.
+To connect a virtual controller to the Android Bluetooth stack, use the bumble `android-netsim` transport in `controller` mode. For example, with port number 8877, the transport name would be: `android-netsim:_:8877,mode=controller`.
 
 !!! example "Connect the Android emulator to the first USB Bluetooth dongle, using the `hci_bridge` application"
     ```shell
-    $ bumble-hci-bridge android-emulator:mode=controller usb:0
+    $ bumble-hci-bridge android-netsim:_:8877,mode=controller usb:0
     ```
 
+Then, you can start the emulator and tell it to connect to this bridge, instead of netsim.
+You will likely need to start the emulator from the command line, in order to specify the `-packet-streamer-endpoint <hostname>:<port>` option (unless the emulator offers a way to control that feature from a user/ui menu).
+
+!!! example "Launch the emulator with a netsim replacement"
+    In this example, we launch an emulator AVD named "Tiramisu", with a Bumble HCI bridge running
+    on port 8877.
+    ```shell
+    $ emulator -packet-streamer-endpoint localhost:8877 -avd Tiramisu
+    ```
+
+!!! tip
+    Attaching a virtual controller while the Android Bluetooth stack is running may not be well supported. So you may need to disable Bluetooth in your running Android guest
+    before attaching the virtual controller, then re-enable it once attached.
+
+
 ## Other Tools
 
 The `show` application that's included with Bumble can be used to parse and pretty-print the HCI packets

docs/mkdocs/src/transports/android_emulator.md

@@ -1,22 +1,41 @@
 ANDROID EMULATOR TRANSPORT
 ==========================
 
-The Android emulator transport either connects, as a host, to a "Root Canal" virtual controller
-("host" mode), or attaches a virtual controller to the Android Bluetooth host stack ("controller" mode).
+!!! warning
+    Bluetooth support in the Android emulator has recently changed. The older mode, using
+    the `android-emulator` transport name with Bumble, while still implemented, is now
+    obsolete, and may not be supported by recent versions of the emulator.
+    Use the `android-netsim` transport name instead.
+
+
+The Android "netsim" transport either connects, as a host, to a **Netsim** virtual controller
+("host" mode), or acts as a virtual controller itself ("controller" mode) accepting host
+connections.
 
 ## Moniker
-The moniker syntax for an Android Emulator transport is: `android-emulator:[mode=<host|controller>][<hostname>:<port>]`, where
-the `mode` parameter can specify running as a host or a controller, and `<hostname>:<port>` can specify a host name (or IP address) and TCP port number on which to reach the gRPC server for the emulator.
-Both the `mode=<host|controller>` and `<hostname>:<port>` parameters are optional (so the moniker `android-emulator` by itself is a valid moniker, which will create a transport in `host` mode, connected to `localhost` on the default gRPC port for the emulator).
+The moniker syntax for an Android Emulator "netsim" transport is: `android-netsim:[<host>:<port>][<options>]`,
+where `<options>` is a ','-separated list of `<name>=<value>` pairs`.
+The `mode` parameter name can specify running as a host or a controller, and `<hostname>:<port>` can specify a host name (or IP address) and TCP port number on which to reach the gRPC server for the emulator (in "host" mode), or to accept gRPC connections (in "controller" mode).
+Both the `mode=<host|controller>` and `<hostname>:<port>` parameters are optional (so the moniker `android-netsim` by itself is a valid moniker, which will create a transport in `host` mode, connected to `localhost` on the default gRPC port for the Netsim background process).
 
 !!! example Example
-    `android-emulator`
-    connect as a host to the emulator on localhost:8554
+    `android-netsim`
+    connect as a host to Netsim on the gRPC port discovered automatically.
 
 !!! example Example
-    `android-emulator:mode=controller`
-    connect as a controller to the emulator on localhost:8554
+    `android-netsim:_:8555,mode=controller`
+    Run as a controller, accepting gRPC connection on port 8555.
 
 !!! example Example
-    `android-emulator:localhost:8555`
-    connect as a host to the emulator on localhost:8555
+    `android-netsim:localhost:8555`
+    connect as a host to Netsim on localhost:8555
+
+!!! example Example
+    `android-netsim:localhost:8555`
+    connect as a host to Netsim on localhost:8555
+
+!!! example Example
+    `android-netsim:name=bumble1234`
+    connect as a host to Netsim on the discovered gRPC port, using `bumble1234` as the 
+    controller instance name.
+

docs/mkdocs/src/transports/index.md

@@ -16,5 +16,6 @@ Several types of transports are supported:
   * [PTY](pty.md): a PTY (pseudo terminal) is used to send/receive HCI packets. This is convenient to expose a virtual controller as if it were an HCI UART
   * [VHCI](vhci.md): used to attach a virtual controller to a Bluetooth stack on platforms that support it.
   * [HCI Socket](hci_socket.md): an HCI socket, on platforms that support it, to send/receive HCI packets to/from an HCI controller managed by the OS.
-  * [Android Emulator](android_emulator.md): a gRPC connection to an Android emulator is used to setup either an HCI interface to the emulator's "Root Canal" virtual controller, or attach a virtual controller to the Android Bluetooth host stack.
+  * [Android Emulator](android_emulator.md): a gRPC connection to the Android emulator's "netsim"
+  virtual controller, or from the Android emulator, is used to setup either an HCI interface to the emulator's "netsim" virtual controller, or serve as a virtual controller for the Android Bluetooth host stack.
   * [File](file.md): HCI packets are read/written to a file-like node in the filesystem.

docs/mkdocs/src/transports/ws_client.md

@@ -1,11 +1,11 @@
-UDP TRANSPORT
-=============
+WEBSOCKET CLIENT TRANSPORT
+==========================
 
-The UDP transport is a UDP socket, receiving packets on a specified port number, and sending packets to a specified host and port number.
+The WebSocket Client transport is WebSocket connection to a WebSocket server over which HCI packets
+are sent and received.
 
 ## Moniker
-The moniker syntax for a UDP transport is: `udp:<local-host>:<local-port>,<remote-host>:<remote-port>`.
+The moniker syntax for a WebSocket Client transport is: `ws-client:<ws-url>`
 
 !!! example
-    `udp:0.0.0.0:9000,127.0.0.1:9001`
-    UDP transport where packets are received on port `9000` and sent to `127.0.0.1` on port `9001`
+    `ws-client:ws://localhost:1234/some/path`

docs/mkdocs/src/transports/ws_server.md

@@ -1,11 +1,13 @@
-UDP TRANSPORT
-=============
+WEBSOCKET SERVER TRANSPORT
+==========================
 
-The UDP transport is a UDP socket, receiving packets on a specified port number, and sending packets to a specified host and port number.
+The WebSocket Server transport is WebSocket server that accepts connections from a WebSocket
+client. HCI packets are sent and received over the connection.
 
 ## Moniker
-The moniker syntax for a UDP transport is: `udp:<local-host>:<local-port>,<remote-host>:<remote-port>`.
+The moniker syntax for a WebSocket Server transport is: `ws-server:<host>:<port>`,
+where `<host>` may be the address of a local network interface, or `_`to accept connections on all local network interfaces. `<port>` is the TCP port number on which to accept connections.
+
 
 !!! example
-    `udp:0.0.0.0:9000,127.0.0.1:9001`
-    UDP transport where packets are received on port `9000` and sent to `127.0.0.1` on port `9001`
+    `ws-server:_:9001`

examples/a2dp_sink1.json

@@ -1,5 +1,6 @@
 {
     "name": "Bumble Speaker",
+    "address": "F0:F1:F2:F3:F4:F5",
     "class_of_device": 2360324,
     "keystore": "JsonKeyStore"
 }

examples/hfp_handsfree.json

@@ -1,4 +1,6 @@
 {
     "name": "Bumble Hands-Free",
-    "class_of_device": 2360324
+    "class_of_device": 2360324,
+    "keystore": "JsonKeyStore",
+    "le_enabled": false
 }

examples/run_classic_connect.py

@@ -23,7 +23,7 @@ from bumble.colors import color
 
 from bumble.device import Device
 from bumble.transport import open_transport_or_link
-from bumble.core import BT_BR_EDR_TRANSPORT, BT_L2CAP_PROTOCOL_ID
+from bumble.core import BT_BR_EDR_TRANSPORT, BT_L2CAP_PROTOCOL_ID, CommandTimeoutError
 from bumble.sdp import (
     Client as SDP_Client,
     SDP_PUBLIC_BROWSE_ROOT,
@@ -48,62 +48,70 @@ async def main():
         # Create a device
         device = Device.from_config_file_with_hci(sys.argv[1], hci_source, hci_sink)
         device.classic_enabled = True
+        device.le_enabled = False
         await device.power_on()
 
-    async def connect(target_address):
-        print(f'=== Connecting to {target_address}...')
-        connection = await device.connect(target_address, transport=BT_BR_EDR_TRANSPORT)
-        print(f'=== Connected to {connection.peer_address}!')
-
-        # Connect to the SDP Server
-        sdp_client = SDP_Client(device)
-        await sdp_client.connect(connection)
-
-        # List all services in the root browse group
-        service_record_handles = await sdp_client.search_services(
-            [SDP_PUBLIC_BROWSE_ROOT]
-        )
-        print(color('\n==================================', 'blue'))
-        print(color('SERVICES:', 'yellow'), service_record_handles)
-
-        # For each service in the root browse group, get all its attributes
-        for service_record_handle in service_record_handles:
-            attributes = await sdp_client.get_attributes(
-                service_record_handle, [SDP_ALL_ATTRIBUTES_RANGE]
-            )
-            print(color(f'SERVICE {service_record_handle:04X} attributes:', 'yellow'))
-            for attribute in attributes:
-                print('  ', attribute.to_string(with_colors=True))
-
-        # Search for services with an L2CAP service attribute
-        search_result = await sdp_client.search_attributes(
-            [BT_L2CAP_PROTOCOL_ID], [SDP_ALL_ATTRIBUTES_RANGE]
-        )
-        print(color('\n==================================', 'blue'))
-        print(color('SEARCH RESULTS:', 'yellow'))
-        for attribute_list in search_result:
-            print(color('SERVICE:', 'green'))
-            print(
-                '  '
-                + '\n  '.join(
-                    [
-                        attribute.to_string(with_colors=True)
-                        for attribute in attribute_list
-                    ]
+        async def connect(target_address):
+            print(f'=== Connecting to {target_address}...')
+            try:
+                connection = await device.connect(
+                    target_address, transport=BT_BR_EDR_TRANSPORT
                 )
+            except CommandTimeoutError:
+                print('!!! Connection timed out')
+                return
+            print(f'=== Connected to {connection.peer_address}!')
+
+            # Connect to the SDP Server
+            sdp_client = SDP_Client(device)
+            await sdp_client.connect(connection)
+
+            # List all services in the root browse group
+            service_record_handles = await sdp_client.search_services(
+                [SDP_PUBLIC_BROWSE_ROOT]
             )
+            print(color('\n==================================', 'blue'))
+            print(color('SERVICES:', 'yellow'), service_record_handles)
 
-        await sdp_client.disconnect()
-        await hci_source.wait_for_termination()
+            # For each service in the root browse group, get all its attributes
+            for service_record_handle in service_record_handles:
+                attributes = await sdp_client.get_attributes(
+                    service_record_handle, [SDP_ALL_ATTRIBUTES_RANGE]
+                )
+                print(
+                    color(f'SERVICE {service_record_handle:04X} attributes:', 'yellow')
+                )
+                for attribute in attributes:
+                    print('  ', attribute.to_string(with_colors=True))
 
-    # Connect to a peer
-    target_addresses = sys.argv[3:]
-    await asyncio.wait(
-        [
-            asyncio.create_task(connect(target_address))
-            for target_address in target_addresses
-        ]
-    )
+            # Search for services with an L2CAP service attribute
+            search_result = await sdp_client.search_attributes(
+                [BT_L2CAP_PROTOCOL_ID], [SDP_ALL_ATTRIBUTES_RANGE]
+            )
+            print(color('\n==================================', 'blue'))
+            print(color('SEARCH RESULTS:', 'yellow'))
+            for attribute_list in search_result:
+                print(color('SERVICE:', 'green'))
+                print(
+                    '  '
+                    + '\n  '.join(
+                        [
+                            attribute.to_string(with_colors=True)
+                            for attribute in attribute_list
+                        ]
+                    )
+                )
+
+            await sdp_client.disconnect()
+
+        # Connect to a peer
+        target_addresses = sys.argv[3:]
+        await asyncio.wait(
+            [
+                asyncio.create_task(connect(target_address))
+                for target_address in target_addresses
+            ]
+        )
 
 
 # -----------------------------------------------------------------------------

examples/run_scanner.py

@@ -62,7 +62,7 @@ async def main():
             print(
                 f'>>> {color(advertisement.address, address_color)} '
                 f'[{color(address_type_string, type_color)}]'
-                f'{address_qualifier}:{separator}RSSI:{advertisement.rssi}'
+                f'{address_qualifier}:{separator}RSSI: {advertisement.rssi}'
                 f'{separator}'
                 f'{advertisement.data.to_string(separator)}'
             )

examples/speaker.json

@@ -0,0 +1,5 @@
+{
+    "name": "Bumble Speaker",
+    "class_of_device": 2360324,
+    "keystore": "JsonKeyStore"
+}

pyproject.toml

@@ -13,6 +13,9 @@ testpaths = [
 
 [tool.pylint.master]
 init-hook = 'import sys; sys.path.append(".")'
+ignore-paths = [
+    '.*_pb2(_grpc)?.py'
+]
 
 [tool.pylint.messages_control]
 max-line-length = "88"
@@ -37,44 +40,35 @@ disable = [
     "too-many-statements",
 ]
 
-ignore = [
-    "emulated_bluetooth_pb2.py",
-    "emulated_bluetooth_pb2_grpc.py",
-    "emulated_bluetooth_vhci_pb2_grpc.py",
-    "emulated_bluetooth_packets_pb2.py",
-    "emulated_bluetooth_vhci_pb2.py"
-]
+[tool.pylint.main]
+ignore="pandora" # FIXME: pylint does not support stubs yet:
 
 [tool.pylint.typecheck]
 signature-mutators="AsyncRunner.run_in_task"
 
 [tool.black]
 skip-string-normalization = true
+extend-exclude = '''
+(
+  .*_pb2(_grpc)?.py  # exclude autogenerated Protocol Buffer files anywhere in the project
+)
+'''
+
+[tool.mypy]
+exclude = ['bumble/transport/grpc_protobuf']
 
 [[tool.mypy.overrides]]
-module = "bumble.transport.emulated_bluetooth_pb2_grpc"
-ignore_missing_imports = true
-
-[[tool.mypy.overrides]]
-module = "bumble.transport.emulated_bluetooth_packets_pb2"
+module = "bumble.transport.grpc_protobuf.*"
 ignore_errors = true
 
 [[tool.mypy.overrides]]
 module = "aioconsole.*"
 ignore_missing_imports = true
 
-[[tool.mypy.overrides]]
-module = "colors.*"
-ignore_missing_imports = true
-
 [[tool.mypy.overrides]]
 module = "construct.*"
 ignore_missing_imports = true
 
-[[tool.mypy.overrides]]
-module = "emulated_bluetooth_packets_pb2.*"
-ignore_missing_imports = true
-
 [[tool.mypy.overrides]]
 module = "grpc.*"
 ignore_missing_imports = true

rust/.gitignore

@@ -0,0 +1,2 @@
+/target
+/.idea

rust/CHANGELOG.md

@@ -0,0 +1,7 @@
+# Next
+
+- Code-gen company ID table
+
+# 0.1.0
+
+- Initial release