cfenollosa_os-tutorial/19-interrupts-irqs
2015-03-20 11:40:31 +01:00
..
cpu Updated gitignore 2015-03-20 11:40:31 +01:00
kernel lesson 19, IRQs 2015-03-17 20:18:06 +01:00
boot lesson 19, IRQs 2015-03-17 20:18:06 +01:00
drivers lesson 19, IRQs 2015-03-17 20:18:06 +01:00
Makefile lesson 19, IRQs 2015-03-17 20:18:06 +01:00
README.md updated README 19 2015-03-19 20:09:45 +01:00

Concepts you may want to Google beforehand: IRQs, PIC, polling

Goal: Finish the interrupts implementation and CPU timer

When the CPU boots, the PIC maps IRQs 0-7 to INT 0x8-0xF and IRQs 8-15 to INT 0x70-0x77. This conflicts with the ISRs we programmed last lesson. Since we programmed ISRs 0-31, it is standard to remap the IRQs to ISRs 32-47.

The PICs are communicated with via I/O ports (see lesson 15). The Master PIC has command 0x20 and data 0x21, while the slave has command 0xA0 and data 0xA1.

The code for remapping the PICs is weird and includes some masks, so check this article if you're curious. Otherwise, just look at cpu/isr.c, new code after we set the IDT gates for the ISRs. After that, we add the IDT gates for IRQs.

Now we jump to assembler, at interrupt.asm. The first task is to add global definitions for the IRQ symbols we just used in the C code. Look at the end of the global statements.

Then, add the IRQ handlers. Same interrupt.asm, at the bottom. Notice how they jump to a new common stub: irq_common_stub (next step)

We then create this irq_common_stub which is very similar to the ISR one. It is located at the top of interrupt.asm, and it also defines a new [extern irq_handler]

Now back to C code, to write the irq_handler() in isr.c. It sends some EOIs to the PICs and calls the appropriate handler, which is stored in an array named interrupt_handlers and defined at the top of the file. The new structs are defined in isr.h. We will also use a simple function to register the interrupt handlers.

That was a lot of work, but now we can define our first IRQ handler!

There are no changes in kernel.c, so there is nothing new to run and see. Please move on to the next lesson to check those shiny new IRQs.