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While understanding each by itself (or maybe not), looks like I'm far from understanding the practical differences between the two.

Per my understanding, a BSP is a package of drivers and configuration settings that allows a kernel image to boot up a board (and is part of it). The individual device driver, operates on a specific component (HW), interfacing on one side with the core kernel and on the other side with the device itself.

Looking at the Linux kernel, it is unclear to me where the BSP role starts and the device driver role ends. Specifically, I am used to see one BSP per board per image, however, the generic Linux Kernel may be loaded on any architecture family with the same image (it is clear that for different families there are different images: x86, amd64, arm, etc...), where the specific board and peripherals drivers are loaded per need from the initrd.

Is there a BSP for the common Linux Kernel distributions? Or is BSP relevant just for special cases boards?

Is this behavior similar on other kernels? VxWorks?

And the last one, is it common to merge different BSP/s in order to generate a single image that will fit different boards?

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Is it true to say that a BSP contains the list of needed device drivers, and makes sure they are added to the image? But does not contain the device drivers themselves... – EdwardH Aug 5 '12 at 18:38

3 Answers 3

Based on my experience, BSP is a much larger scope. it includes bootloader, rootfs, kernel and drivers etc, which means having a BSP makes your board capable of booting itself up. Drivers make devices working and are just a part of BSP.

Drivers is not equal to BSP.

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I see the relationship between BSPs and devices drivers as "has-a". Board support packages include device drivers.

The differences between BSPs & kernels isn't easy to distinguish. A kernel translates instructions to the hardware. Kernels are often written to particular families of hardware, so they're not as portable or generic as they seem. It amounts to different permutations of the code for each architecture family.

The BSP acts as sort of the inverse: it provides the tools & instructions to work with that board's specific set of hardware. In specific, controlled situations, the kernel could do this work. But the BSP enables any compatible kernel/OS/application stack to use that board, by following its configuration instructions.

If you just need to access CPU cycles & memory, maybe a few protocols (USB, ethernet, a couple video types), a kernel with wide architecture support is fantastic, and there was a time when the breadth of that hardware abstraction was penultimately valued. But now, consider that the board may have a suite of sensors (accelerometer, magnetometer, gyroscope, light, proximity, atmospheric pressure, etc), telephony, there may be multiple CPUs, multiple GPUs, and so on. A kernel can be written to provide VGA/DVI/HDMI/DisplayPort, and several permutations of CPU/GPU combinations, if/when someone uses those particular hardware packages, but it's not practical to write support for all theoretical contexts, compared to utilizing a BSP that's built for a specific board. And even then, that would be for one kernel; the board is capable of supporting Linux, Windows, Android, Symbian, whatever.

That's why efforts like Yocto exist, to further decouple kernel & hardware. BSPs make hardware sets extensible beyond a kernel/os/app stack or two, while kernels make a particular os/app stack portable over multiple HW architectures.

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Board support package includes everything that is needed to use the board by an application. These include device drivers for the devices on the board and utility software for application programmers. A windowing environment is also available on multi-media boards. System engineers can further add extensions to the board. Some applications require re-implementing some part of the bsp for enhancements. Here the bsp plays a role of a reference implementation or a starting point for such requirements.

The confusion lies in the business model. The reference or development board is not an end/consumer product like a mobile device. It plays an important role to design and develop a product like iPhone or Samsung Galaxy.

A generic bsp will lack optimization in most cases therefore you can only expect a generic bsp for the newbie model or where optimization is left for you to be done. In case of cheap boards the bsp is quite generic because the producer will put less investment into it.

Don't stress much on terms of kernel and user-space as there are micro-kernels also available. Here the drivers are part of user-space! Again think of a low power board which only has one piece of code without any kernel. So it boils down to software that supports the board to do it's job.

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