Mercurial > hg > Members > menikon > CbC_xv6
view src/arm.h @ 1:cc14476ac479
Add Dockerfile
author | Tatsuki IHA <e125716@ie.u-ryukyu.ac.jp> |
---|---|
date | Fri, 26 May 2017 23:33:07 +0900 |
parents | 83c23a36980d |
children |
line wrap: on
line source
#ifndef ARM_INCLUDE #define ARM_INCLUDE #include "device/versatile_pb.h" // trap frame: in ARM, there are seven modes. Among the 16 regular registers, // r13 (sp), r14(lr), r15(pc) are banked in all modes. // 1. In xv6_a, all kernel level activities (e.g., Syscall and IRQ) happens // in the SVC mode. CPU is put in different modes by different events. We // switch them to the SVC mode, by shoving the trapframe to the kernel stack. // 2. during the context switched, the banked user space registers should also // be saved/restored. // // Here is an example: // 1. a user app issues a syscall (via SWI), its user-space registers are // saved on its kernel stack, syscall is being served. // 2. an interrupt happens, it preempted the syscall. the app's kernel-space // registers are again saved on its stack. // 3. interrupt service ended, and execution returns to the syscall. // 4. kernel decides to reschedule (context switch), it saves the kernel states // and switches to a new process (including user-space banked registers) #ifndef __ASSEMBLER__ struct trapframe { uint sp_usr; // user mode sp uint lr_usr; // user mode lr uint r14_svc; // r14_svc (r14_svc == pc if SWI) uint spsr; uint r0; uint r1; uint r2; uint r3; uint r4; uint r5; uint r6; uint r7; uint r8; uint r9; uint r10; uint r11; uint r12; uint pc; // (lr on entry) instruction to resume execution }; #endif // cpsr/spsr bits #define NO_INT 0xc0 #define DIS_INT 0x80 // ARM has 7 modes and banked registers #define MODE_MASK 0x1f #define USR_MODE 0x10 #define FIQ_MODE 0x11 #define IRQ_MODE 0x12 #define SVC_MODE 0x13 #define ABT_MODE 0x17 #define UND_MODE 0x1b #define SYS_MODE 0x1f // vector table #define TRAP_RESET 0 #define TRAP_UND 1 #define TRAP_SWI 2 #define TRAP_IABT 3 #define TRAP_DABT 4 #define TRAP_NA 5 #define TRAP_IRQ 6 #define TRAP_FIQ 7 #endif