Assuming your using Linux and
libusb-1.0 as a
PyUSB's backend library.
According to the libusb documentation:
// Detach a kernel driver from an interface.
// If successful, you will then be able to claim the interface and perform I/O.
int libusb_detach_kernel_driver (libusb_device_handle *dev,
// Re-attach an interface's kernel driver, which was previously
// detached using libusb_detach_kernel_driver().
int libusb_attach_kernel_driver(libusb_device_handle *dev,
So basically, you need to call
detach_kernel_driver first to detach already attached kernel driver (if any) from the device's interface, so you can communicate with it in your code (it's either your code or some kernel driver talking to the device's interface). When you're done, you may want to call
attach_kernel_driver to re-attach the kernel driver again.
I believe there's no need to call any of those C functions/Python methods if you can ensure that no kernel driver is loaded for a given device (or manually unload it before running your code).
I just got this piece of code (based on your sample) working. Note: for simplicity I've hardcoded 0 as interface number for
attach_kernel_driver - you should make it smarter, I suppose.
dev = usb.core.find(idVendor=0x0403, idProduct=0x6001)
reattach = False
reattach = True
cfg = dev.get_active_configuration()
interface_number = cfg[(0,0)].bInterfaceNumber
alternate_settting = usb.control.get_interface(dev, interface_number)
intf = usb.util.find_descriptor(cfg, bInterfaceNumber = interface_number,
bAlternateSetting = alternate_settting)
ep = usb.util.find_descriptor(intf,custom_match = \
lambda e: \
usb.util.endpoint_direction(e.bEndpointAddress) == \
# This is needed to release interface, otherwise attach_kernel_driver fails
# due to "Resource busy"
# It may raise USBError if there's e.g. no kernel driver loaded at all