jos/kern/trapentry.S

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ArmAsm
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/* See COPYRIGHT for copyright information. */
#include <inc/mmu.h>
#include <inc/memlayout.h>
#include <inc/trap.h>
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#include <kern/picirq.h>
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###################################################################
# exceptions/interrupts
###################################################################
/* TRAPHANDLER defines a globally-visible function for handling a trap.
* It pushes a trap number onto the stack, then jumps to _alltraps.
* Use TRAPHANDLER for traps where the CPU automatically pushes an error code.
*
* You shouldn't call a TRAPHANDLER function from C, but you may
* need to _declare_ one in C (for instance, to get a function pointer
* during IDT setup). You can declare the function with
* void NAME();
* where NAME is the argument passed to TRAPHANDLER.
*/
#define TRAPHANDLER(name, num) \
.globl name; /* define global symbol for 'name' */ \
.type name, @function; /* symbol type is function */ \
.align 2; /* align function definition */ \
name: /* function starts here */ \
pushl $(num); \
jmp _alltraps
/* Use TRAPHANDLER_NOEC for traps where the CPU doesn't push an error code.
* It pushes a 0 in place of the error code, so the trap frame has the same
* format in either case.
*/
#define TRAPHANDLER_NOEC(name, num) \
.globl name; \
.type name, @function; \
.align 2; \
name: \
pushl $0; \
pushl $(num); \
jmp _alltraps
.text
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.globl sysenter_handler
sysenter_handler:
push %ebp // holds env's stack pointer
push %esi // holds the env's return addr
push %edi
push %ebx
push %ecx
push %edx
push %eax
call syscall
add $0x14, %esp
pop %edx
pop %ecx
sysexit
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/*
* Lab 3: Your code here for generating entry points for the different traps.
*/
TRAPHANDLER_NOEC(t_divide, T_DIVIDE);
TRAPHANDLER_NOEC(t_debug, T_DEBUG);
TRAPHANDLER_NOEC(t_nmi, T_NMI);
TRAPHANDLER_NOEC(t_brkpt, T_BRKPT);
TRAPHANDLER_NOEC(t_oflow, T_OFLOW);
TRAPHANDLER_NOEC(t_bound, T_OFLOW);
TRAPHANDLER_NOEC(t_illop, T_OFLOW);
TRAPHANDLER_NOEC(t_device, T_OFLOW);
TRAPHANDLER(t_dblflt, T_OFLOW);
TRAPHANDLER(t_tss, T_TSS);
TRAPHANDLER(t_segnp, T_SEGNP);
TRAPHANDLER(t_stack, T_STACK);
TRAPHANDLER(t_gpflt, T_GPFLT);
TRAPHANDLER(t_pgflt, T_PGFLT);
TRAPHANDLER_NOEC(t_fperr, T_FPERR);
TRAPHANDLER(t_align, T_ALIGN);
TRAPHANDLER_NOEC(t_mchk, T_MCHK);
TRAPHANDLER_NOEC(t_simderr, T_SIMDERR);
TRAPHANDLER_NOEC(t_syscall, T_SYSCALL);
TRAPHANDLER(t_default, T_DEFAULT);
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TRAPHANDLER_NOEC(irq_timer, IRQ_OFFSET + IRQ_TIMER);
TRAPHANDLER_NOEC(irq_kbd, IRQ_OFFSET + IRQ_KBD);
TRAPHANDLER_NOEC(irq_serial, IRQ_OFFSET + IRQ_SERIAL);
TRAPHANDLER_NOEC(irq_spurious, IRQ_OFFSET + IRQ_SPURIOUS);
TRAPHANDLER_NOEC(irq_ide, IRQ_OFFSET + IRQ_IDE);
TRAPHANDLER_NOEC(irq_error, IRQ_OFFSET + IRQ_ERROR);
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// HINT 1 : TRAPHANDLER_NOEC(t_divide, T_DIVIDE);
// Do something like this if there is no error code for the trap
// HINT 2 : TRAPHANDLER(t_dblflt, T_DBLFLT);
// Do something like this if the trap includes an error code..
// HINT 3 : READ Intel's manual to check if the trap includes an error code
// or not...
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/*
* Lab 3: Your code here for _alltraps
*/
.globl _alltraps
_alltraps:
sub $0x2, %esp
pushw %ds
sub $0x2, %esp
pushw %es
pushal
mov $(GD_KD), %eax
movw %ax, %ds
movw %ax, %es
pushl %esp
call trap