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I was wondering how, exactly, one is able to read and write directly to and from I/O devices using assembly or C with no system libraries. I know, for instance, that you can render to text-based VGA in x86 real mode by writing character data to 0xB8000. But how do you gain access to other devices, on other CPU architectures? Are they all memory-mapped from the start, or are there tricks to get them to be when you need them?

Specifically, I would like to know, in C or ARM asm, how would I read/write to vga in text mode, a usb port, and a ps/2 port. I don't need to know about the standard communication protocols, I can figure that out on my own. I would just like to know how to identify and communicate with ports and other devices.

For the compiler and assembler, I am using a cross-compiled GNU toolchain running on x86_64 as the host architecture. I don't have any libraries or an operating system on the target machine, so I am really just making flat binaries and writing them to the boot sector of an sd card. The hardware is a raspberry pi model b.

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    I guess you are basically asking how does an OS accomplish those things. You can look at ARM Linux to see how it's done there. – jxh May 22 '13 at 20:58
  • I've tried, but deciphering kernel code is difficult to say the least – jepugs May 22 '13 at 21:00
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    Posting the small parts of the code you don't understand or can't follow and asking about it would probably be a better way for you to get to the answers you want. – jxh May 22 '13 at 21:01
  • @dwelch This is a bare-metal question, I do believe that I even said that in the OP. And I was wondering specifically HOW you would talk to a peripheral. The cited example with vga, as Ben Brammer pointed out, is only viable in x86 real mode, whereas I'm programming for ARM, where I don't even know how to talk to the video card. – jepugs May 22 '13 at 21:30
  • @dwelch So now we come back to my original question: how do I map devices to memory, and how do I "indirectly" talk to usb? – jepugs May 22 '13 at 21:33
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If you are asking this level of question, vga text mode is a long long way away from the first thing you should be trying. Although that depends on your platform of course. If this is a raspberry pi, then I would still start with blinking leds and then the uart, then do video if you so desire, video on the raspberry pi is quite trivial. Text mode, there isnt, you have to draw the pixels, but with a little experience with raster based fonts (do this on your x86 machine make bitmaps or print strings of xxes and 00s or something) you can easily come up with a font set and then for each character just draw the pixels.

The language has little to do with it, C or asm work fine, most folks do C and asm only when needed, that is the recommendation I would give as well.

I have many bare metal examples (github.com/dwelch67), one of which for the gba does a little bit of font stuff with an 8x8 font, which you can steal from me I dont care. I have yet to actually do the raspberry pi video stuff, but there are soo many examples, you go through one gyration to get a pointer in the arm address space (And set the video mode, etc) and then it is just a matter of writing pixel data to that memory range and the gpu echos it to the video card.

the beaglebone black or one of the allwinner cards (pcduino, apc.io) (I would avoid those due to lack of documentation) could be used, they have different video interfaces than the raspberry pi, so more work is involved. I have yet to figure out the beaglebone black for bare metal, and have some allwinner info but have not done any real bare metal there. So dont buy unless you know someone else has done it. Actually the early ipods, classi gen 1 - at least 5, the ipod nano gen 1, are not hard to do video with if video is really what you are after. The gameboy advance is pretty easy and there are gazillions of examples and visualboyadvance is a good simulator so you dont really need hardware you can start writing arm code to draw pixels right now.

the hawkboard and pandaboard are also something you might want to look at I think both have video, I have a couple of hawkboards and bare metal is easy, dont have a pandaboard. I have also used a open-rd board, dont remember what it has on it...

If you want a pc like experience with pcie cards that is a lot more work you have to setup the root complex, reset and train the endpoints, configure them, then you can talk to them and depending on the video chip/board determines how much work is involved in even the simplest video task. (if the video card uses system memory then you have to bring that up, if it is ddr then pcie is very trivial compared to bringing up ddr).

start with the game boy advance simulator.

  • This is everything I could have asked for and more! Thank you very much. – jepugs May 22 '13 at 22:23
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Actually, what you say about VGA is only partly true; in real mode, that is correct. History lesson: the reason that DOS only provided 640K of memory was to reserve the remaining addressable memory for device drivers. This is the same reason that the Linux kernel is compressed; until the processor is switched into protected mode, in which case, every process has it's own virtual memory space. Device drivers (basically) work by, at some level, translating calls to the driver to actual getting and putting of data to the hardware buffer of the device.

tl;dr. What you're asking is specific to the hardware and OS you're writing to. Sorry I can't be more specific.

  • Sorry about the inaccuracy in the OP, I meant that I could write to vga on x86 cpus in real mode with memory mapped I/O. However, ARM has neither real mode nor protected mode, and I have no OS. Given these things, there surely must be a way to at the very least find out what hardware is available. I mean, the linux kernel does it. – jepugs May 22 '13 at 21:06
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You could start by a) choosing an assembly architecture e.g. MIPS or likewise. If you have not programmed assembly before I suggest you choose MIPS since it is easier than x86 and then b) looking at how to transfer data with the serial port to begin with since this illustrates memory-mapped i/o that is used. FPGA is a nice way to learn this if you are training.

To write to hardware, you do write to certain memory addresses using memory-mapped i/o. I could not find any documentation how ARm does it, but in Nios 2 assembly, which is a RISC, writing to hardware is for example: writing the value 0x17 to address 0x810 will light LEDs LEDR4, LEDR2, LEDR1, and LEDR0 and the serial port also has a memory address that you can write transmit data to.

  • I've already done (a), and I'm asking here for the answer to (b). – jepugs May 22 '13 at 21:20
  • @jepugs Good, I'll try to expand on (b) with an updated answer a.s.a.p. I see you tagged the question ARM so you want to know about RISC architecture but I don't know how similar ARM and MIPS are, I only know MIPS and not x86 or ARM. – Niklas Rosencrantz May 22 '13 at 21:26

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