X-Git-Url: https://scm.lunaixsky.com/lunaix-os.git/blobdiff_plain/8fdcd1575a97862975fa019f09c00453a2a7d8bb..de334342a8a134a7c5b15e175d1c2ff87e6dbb2a:/lunaix-os/kernel/asm/x86/interrupt.S diff --git a/lunaix-os/kernel/asm/x86/interrupt.S b/lunaix-os/kernel/asm/x86/interrupt.S index e941983..17236f8 100644 --- a/lunaix-os/kernel/asm/x86/interrupt.S +++ b/lunaix-os/kernel/asm/x86/interrupt.S @@ -4,17 +4,6 @@ #include #define __ASM_INTR_DIAGNOSIS -.macro isr_template vector, no_error_code=1 - .global _asm_isr\vector - .type _asm_isr\vector, @function - _asm_isr\vector: - .if \no_error_code - pushl $0x0 - .endif - pushl $\vector - jmp interrupt_wrapper -.endm - #ifdef __ASM_INTR_DIAGNOSIS .section .bss .global debug_resv @@ -22,22 +11,14 @@ .skip 16 #endif -.section .text - isr_template FAULT_DIVISION_ERROR - isr_template FAULT_GENERAL_PROTECTION, no_error_code=0 - isr_template FAULT_PAGE_FAULT, no_error_code=0 - isr_template FAULT_STACK_SEG_FAULT, no_error_code=0 - - isr_template LUNAIX_SYS_PANIC - isr_template LUNAIX_SYS_CALL - - isr_template APIC_ERROR_IV - isr_template APIC_LINT0_IV - isr_template APIC_TIMER_IV - isr_template APIC_SPIV_IV - isr_template RTC_TIMER_IV - isr_template PC_KBD_IV +.section .bss + .align 16 + lo_tmp_stack: + .skip 128 + tmp_stack: +.section .text + .global interrupt_wrapper interrupt_wrapper: /* Stack layout (layout of struct isr_param) @@ -111,6 +92,12 @@ soft_iret: movl %eax, %esp +#ifdef __ASM_INTR_DIAGNOSIS + movl %eax, (debug_resv + 8) + movl 56(%esp), %eax + movl %eax, (debug_resv + 4) +#endif + popl %eax popl %ebx popl %ecx @@ -128,40 +115,51 @@ addl $8, %esp -#ifdef __ASM_INTR_DIAGNOSIS pushl %eax +#ifdef __ASM_INTR_DIAGNOSIS movl 4(%esp), %eax movl %eax, debug_resv - popl %eax #endif + # 处理TSS.ESP的一些边界条件。如果是正常iret(即从内核模式*优雅地*退出) + # 那么TSS.ESP0应该为iret进行弹栈后,%esp的值。 + # 所以这里的边界条件是:如返回用户模式,iret会额外弹出8个字节(ss,esp) + movl 8(%esp), %eax + andl $3, %eax + setnz %al + shll $3, %eax + addl $16, %eax + addl %esp, %eax + movl %eax, (_tss + 4) + popl %eax iret .global switch_to switch_to: # 约定 - # arg1: 目标进程PCB地址 (next) - popl %ecx # next - - call signal_dispatch # kernel/signal.c - movl %eax, %edx + # arg1: 目标进程PCB地址 (next + popl %ebx # next movl __current, %eax - movl 88(%eax), %ebx # __current->pagetable - movl 88(%ecx), %eax # next->pagetable + movl 88(%eax), %ecx # __current->pagetable + movl 88(%ebx), %eax # next->pagetable - cmpl %ebx, %eax # if(next->pagtable != __current->pagetable) { + cmpl %ecx, %eax # if(next->pagtable != __current->pagetable) { jz 1f movl %eax, %cr3 # cpu_lcr3(next->pagetable) # } 1: - movl %ecx, __current # __current = next + movl %ebx, __current # __current = next + + # 我们已经处在了新的地址空间,为了避免影响其先前的栈布局 + # 需要使用一个临时的栈空间 + movl $tmp_stack, %esp + call signal_dispatch # kernel/signal.c - test %edx, %edx # do we have signal to handle? + test %eax, %eax # do we have signal to handle? jz 1f - movl %edx, %eax jmp handle_signal 1: - leal 8(%ecx), %eax + leal 8(%ebx), %eax jmp soft_iret .global handle_signal @@ -170,7 +168,7 @@ # 注意2:handle_signal在调用之前,须确保proc_sig已经写入用户栈! leal 8(%eax), %ebx # arg1 in %eax: addr of proc_sig structure in user stack - pushl 72(%ebx) # proc_sig->prev_context.ss + pushl $UDATA_SEG # proc_sig->prev_context.ss pushl %eax # esp pushl 64(%ebx) # proc_sig->prev_context.eflags pushl $UCODE_SEG # cs