libusb
1.0.27
A cross-platform user library to access USB devices
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If you're using libusb in your application, you're probably wanting to perform I/O with devices - you want to perform USB data transfers.
libusb offers two separate interfaces for device I/O. This page aims to introduce the two in order to help you decide which one is more suitable for your application. You can also choose to use both interfaces in your application by considering each transfer on a case-by-case basis.
Once you have read through the following discussion, you should consult the detailed API documentation pages for the details:
At a logical level, USB transfers typically happen in two parts. For example, when reading data from a endpoint:
or when writing data to an endpoint:
There may be an indefinite delay between the two steps. Consider a fictional USB input device with a button that the user can press. In order to determine when the button is pressed, you would likely submit a request to read data on a bulk or interrupt endpoint and wait for data to arrive. Data will arrive when the button is pressed by the user, which is potentially hours later.
libusb offers both a synchronous and an asynchronous interface to performing USB transfers. The main difference is that the synchronous interface combines both steps indicated above into a single function call, whereas the asynchronous interface separates them.
The synchronous I/O interface allows you to perform a USB transfer with a single function call. When the function call returns, the transfer has completed and you can parse the results.
If you have used libusb-0.1 before, this I/O style will seem familiar to you. libusb-0.1 only offered a synchronous interface.
In our input device example, to read button presses you might write code in the following style:
The main advantage of this model is simplicity: you did everything with a single simple function call.
However, this interface has its limitations. Your application will sleep inside libusb_bulk_transfer() until the transaction has completed. If it takes the user 3 hours to press the button, your application will be sleeping for that long. Execution will be tied up inside the library - the entire thread will be useless for that duration.
Another issue is that by tying up the thread with that single transaction there is no possibility of performing I/O with multiple endpoints and/or multiple devices simultaneously, unless you resort to creating one thread per transaction.
Additionally, there is no opportunity to cancel the transfer after the request has been submitted.
For details on how to use the synchronous API, see the synchronous I/O API documentation pages.
Asynchronous I/O is the most significant new feature in libusb-1.0. Although it is a more complex interface, it solves all the issues detailed above.
Instead of providing which functions that block until the I/O has complete, libusb's asynchronous interface presents non-blocking functions which begin a transfer and then return immediately. Your application passes a callback function pointer to this non-blocking function, which libusb will call with the results of the transaction when it has completed.
Transfers which have been submitted through the non-blocking functions can be cancelled with a separate function call.
The non-blocking nature of this interface allows you to be simultaneously performing I/O to multiple endpoints on multiple devices, without having to use threads.
This added flexibility does come with some complications though:
Internally, libusb's synchronous interface is expressed in terms of function calls to the asynchronous interface.
For details on how to use the asynchronous API, see the asynchronous I/O API documentation pages.