I have read about BIOS interrupts, and know that they can be accessed only in 8086 real mode.

My questions:

  • Are there any other interrupts also available ? I have read about DOS interrupts, but I am confused as to if they are available in real mode also, and what is the list of DOS interrupts.

  • Once we enter protected mode, what happens to the BIOS interrupt table stored at 0x00 ? Is it replaces, or is it present but just not accessible ?

  • BIOS interrupts like 0x13 or 0x19, how are they implemented ? Is it in software or through the processor ?
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    Use Ralph Brown's interrupt list for the canonical reference. What is actually implemented entirely depends on the DOS emulator you use. – Hans Passant Dec 31 '13 at 15:43
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    A very useful reference (that I use to look up interrupts) can be found at ctyme.com/intr/int.htm. Simply click on the interrupt number in the table to be given a HUGE list of different functions that can be called. – Adrian Collado Feb 28 '14 at 5:13

In real mode, you have 256 different SOFTWARE TRIGGERED interrupts. In the early days of BIOS and DOS, they were used as not much more than a "jump address" table. For example, DOS used INT 21 mainly, so applications could be coded to use the INT 21 processor instruction instead of a CALL 1234:5678 - the real address would change with each new version of DOS, but the INT 21 stayed. When dos booted up, it would put the address of its real handler function into that slot of the interrupt table.

The INT XX processor instruction can use interrupt numbers from 0 to 255, so all of them are available. If there was anything useful in the corresponding interrupt table slot was another thing - there were lots of resident programs however, that used some specific interrupt (which led to collisions if you loaded more than one of these programs).

Apart from this are the HARDWARE interrupts - these are not triggered by software, but by an external device like your keyboard, floppy or hard disk, when they wanted to tell the processor "i need some service". So for example, when you pressed a key on the keyboard, the keyboard controller triggers interrupt 9 (not sure about the number, it's a long time ago, but interrupts 8-15 were reserved for hardware). When booting, the BIOS would put the address of its keyboard-handling-procedure into the corresponding entry of the interrupt table. Whenever you pressed a key, the keyboard controller triggered interrupt 9, which made the processor look up the corresponding address in the interrupt table, call it - this transfers control to the bios - the bios did whatever is neccesary to get the actual key from the keyboard, then returned to the application, which had no idea what hat happened.

So to answer your first question: There are 256 interrupts. 0-7 were used for processor-internal stuff. 07-0F were triggered by hardware. 10-1F were reserved for the Bios, and DOS used 20-27. The rest of them were unused, which means, no valid procedure entry point was stored for them in the interrupt table. (This became very murky later, i'm oversimplifying here).

2nd question: Once you enter protected mode, the interrupt table is replaced by the OS that puts the processor in protected mode, because the BIOS routines were written for the 8086 which did not have a protected mode, often aren't safe to use if not in real mode, and don't handle multitasking well. Any decent OS just has to do this kind of stuff itself. And interrupts from 20-27, which were used by DOS, just have no replacement for them in others OSes. So you can't run dos executables on Linux, apart from not being able to run them, they wouldn't work if they use dos interrupts.

3rd question: The BIOS interrupts themselves are purely software, but they trigger hardware events. Interrupt 13 was for the floppy/hard disk. A program that wanted to read sectors directly from the floppy would fill the processor registers with some predefined values, call interrupt 13 (thus jump into the BIOS routine, the address of which was put into the interrupt table when the BIOS booted), and let the bios do its work. No hardware stuff yet. WITHIN the interrupt handler, of course, the bios would read and write the hardware ports of the floppy controller, but the application didn't have to know about the details.

  • Thank you for a very-well detailed and clear answer. So if I'm building my own OS, I won't be having any of those DOS interrupts and would have to load them up on my own, is that correct ? – Cygnus Dec 31 '13 at 16:53
  • And apart from the BIOS and DOS interrupts, who loads the others ? – Cygnus Dec 31 '13 at 17:33
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    Yes. When your OS boots, you can rely on the BIOS interrupts being set up, but everything else, you have to do yourself. For example, you would be able to read/write your hard disk using interrupt 13h, but assigning the disk sectors to files, and managing directories, is what your OS has to do. Basically you're replacing dos. If you want to, you can make your OS as lookalike to MS-DOS as possible by using interrupts from 20h on in a compatible way (FreeDos does that), or you can invent a totally different way to communicate between applications and your OS. – Guntram Blohm supports Monica Dec 31 '13 at 17:33
  • DOS interrupts are available in DOS. (A 16-bit program in Windows will be able to use them as well, as it's running in a virtual 8086 mode and Windows tries to present an environment just like the olden days.) They're not there before the OS starts loading, though...and if you're building your own OS, they're not there at all unless you put them in.

  • Once you switch to protected mode, you're basically running off the interrupt descriptor table (IDT) you set up during the switch. The old table is still there, because its format is different enough that you can't just go overwriting it without risking trouble if an interrupt occurs before the switch. And you'd generally keep it around for a couple of reasons anyway, including its usefulness in case you have to switch back to real mode for some reason. (Windows 9x used to do this. Some drivers were 16-bit, and no one wanted to update them...so Windows had the ability to have those drivers run in real mode.) But it's not used while the processor is in protected mode.

  • The processor is not directly involved in the actual handling of interrupts. It doesn't even know what type of computer it's running in. Basically, it just sees an entry in the IDT and calls that interrupt handler.

  • Thank you for this excellent answer. However, doesn't your point for 2 conflict with what Guntram Blohm has written ? Or am I misinterpreting something ? – Cygnus Dec 31 '13 at 16:55
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    @Cygnus: The apparent conflict is due to points of view. As far as the processor is concerned, once it's in protected mode, the protected-mode table is the real table, and the real-mode one is just a bunch of bytes. So one could say the protected-mode table "replaces" the real-mode one; even if you're not overwriting the old one, it'd no longer make sense to the processor til you switched back to real mode. – cHao Dec 31 '13 at 17:27
  • Okay. So an OS is free to over-write the old table it wants to ? – Cygnus Dec 31 '13 at 17:28
  • Both of us are correct ;-) I was thinking of Linux which sets up everything itself, and doesn't have any reason to keep the old table. cHao was thinking of early windows OSes, which would use the old table for compatibility reasons. In both, while the system is running in protected mode, the DOS interrupt table isn't used. But while Linux overwrites it to never come back, Windows keeps it and switches back to real mode from time to time. – Guntram Blohm supports Monica Dec 31 '13 at 17:30
  • @Cygnus: If it has no plans to ever switch back to real mode -- or, if it plans to have all its own real-mode interrupt handlers (even for stuff the BIOS would normally handle) -- then yes, it can safely overwrite the old table. – cHao Dec 31 '13 at 17:30

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