USB TRANSPORT ============= The USB transport interfaces with a local Bluetooth USB dongle. ## Moniker The moniker for a USB transport is either: * `usb:` * `usb::` * `usb::/` * `usb::#` * `usb:-` with `` as a 0-based index (0 being the first one) to select amongst all the matching devices when there are more than one. In the `usb:` form, matching devices are the ones supporting Bluetooth HCI, as declared by their Class, Subclass and Protocol. In the `usb::#` form, matching devices are the ones with the specified `` and `` identification. `` and `` are a vendor ID and product ID in hexadecimal. with `` as a list of all port numbers from root separated with dots `.` In addition, if the moniker ends with the symbol "!", the device will be used in "forced" mode: the first USB interface of the device will be used, regardless of the interface class/subclass. This may be useful for some devices that use a custom class/subclass but may nonetheless work as-is. !!! examples `usb:04b4:f901` The USB dongle with `` equal to `04b4` and `` equal to `f901` `usb:0` The first Bluetooth HCI dongle that's declared as such by Class/Subclass/Protocol `usb:04b4:f901/0016A45B05D8` The USB dongle with `` equal to `04b4`, `` equal to `f901` and `` equal to `0016A45B05D8` `usb:04b4:f901/#1` The second USB dongle with `` equal to `04b4` and `` equal to `f901` `usb:0B05:17CB!` The BT USB dongle vendor=0B05 and product=17CB, in "forced" mode. `usb:3-3.4.1` The BT USB dongle on bus 3 on port path 3, 4, 1. ## Alternative The library includes two different implementations of the USB transport, implemented using different python bindings for `libusb`. Using the transport prefix `pyusb:` instead of `usb:` selects the implementation based on [PyUSB](https://pypi.org/project/pyusb/), using the synchronous API of `libusb`, whereas the default implementation is based on [libusb1](https://pypi.org/project/libusb1/), using the asynchronous API of `libusb`. In order to use the alternative PyUSB-based implementation, you need to ensure that you have installed that python module, as it isn't installed by default as a dependency of Bumble. ## Libusb The `libusb-1.0` shared library is required to use both `usb` and `pyusb` transports. This library should be installed automatically with Bumble, as part of the `libusb_package` Python package. If your OS or architecture is not supported by `libusb_package`, you can install a system-wide library with `brew install libusb` for Mac or `apt install libusb-1.0-0` for Linux. ## Listing Available USB Devices ### With `usb_probe` You can use the [`usb_probe`](../apps_and_tools/usb_probe.md) tool to list all the USB devices attached to your host computer. The tool will also show the `usb:XXX` transport name(s) you can use to reference each device. ### With `lsusb` On Linux and macOS, the `lsusb` tool serves a similar purpose to Bumble's own `usb_probe` tool (without the Bumble specifics) #### Installing lsusb On Mac: `brew install lsusb` On Linux: `sudo apt-get install usbutils` #### Using lsusb ``` $ lsusb Bus 004 Device 001: ID 1d6b:0003 Linux Foundation 3.0 root hub Bus 003 Device 014: ID 0b05:17cb ASUSTek Computer, Inc. Broadcom BCM20702A0 Bluetooth ``` The device id for the Bluetooth interface in this case is `0b05:17cb`.