In x86 32 bit, ISR information is stored in an IDT. The IDT is not simply a list of addresses, and is not necessarily stored at the address 0. For a description of the IDT format, see the OSDev Wiki page. The location of the IDT is determined by the OS, and it might not be accessible to user mode software. Assuming you do have the right to modify it, you can get the location of the IDT using the
In 32 bit mode,
sidt will store 6 bytes worth of data at the specified location. I used
-6(%esp) for my example, which will store the data just below the current stack. The low two bytes are the length of the IDT, in bytes, and the next 4 (in 32 bit mode) are the address of the IDT. Since each IDT entry is 8 bytes long, the location of the entry you want would be
0x33*8 bytes after the start of the IDT. Before modifying the entry, you should ensure the IDT actually contains that entry (it is at least
0x34*8 bytes long).
Here is an example which finds the IDT, ensures it is long enough, and sets the entry for interrupt 0x33.
sidt -6(%esp) // Get the location and size of the IDT
cmpw $0x34*8, -6(%esp) // Make sure the IDT is long enough
jb IDT_too_short // and handle the error if it isn't
mov -4(%esp), %ebx // Get the IDT's address
add $0x33*8, %ebx // and move to the entry for 0x33
mov $OSTickISR, %eax // Get the ISR's address
mov %ax, (%ebx) // Store the low 16 bits of the ISR's address
movw $ISR_CS, 2(%ebx) // Store the code segment which should be used with this ISR
movb $0, 4(%ebx) // This has to be 0
movb $0xEE, 5(%ebx) // See the OSDev link for information on this byte.
// 0xEE is most common for interrupts available from user mode
shr $16, %eax
mov %ax, 6(%ebx) // Store the high 16 bits of the ISR's address