minix/kernel/arch/i386/sconst.h

142 lines
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C
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Complete ovehaul of mode switching code - after a trap to kernel, the code automatically switches to kernel stack, in the future local to the CPU - k_reenter variable replaced by a test whether the CS is kernel cs or not. The information is passed further if needed. Removes a global variable which would need to be cpu local - no need for global variables describing the exception or trap context. This information is kept on stack and a pointer to this structure is passed to the C code as a single structure - removed loadedcr3 variable and its use replaced by reading the %cr3 register - no need to redisable interrupts in restart() as they are already disabled. - unified handling of traps that push and don't push errorcode - removed save() function as the process context is not saved directly to process table but saved as required by the trap code. Essentially it means that save() code is inlined everywhere not only in the exception handling routine - returning from syscall is more arch independent - it sets the retger in C - top of the x86 stack contains the current CPU id and pointer to the currently scheduled process (the one right interrupted) so the mode switch code can find where to save the context without need to use proc_ptr which will be cpu local in the future and therefore difficult to access in assembler and expensive to access in general - some more clean up of level0 code. No need to read-back the argument passed in %eax from the proc structure. The mode switch code does not clobber %the general registers and hence we can just call what is in %eax - many assebly macros in sconst.h as they will be reused by the apic assembly
2009-11-06 10:08:26 +01:00
#ifndef __SCONST_H__
#define __SCONST_H__
#include "../../const.h"
/* Miscellaneous constants used in assembler code. */
W = _WORD_SIZE /* Machine word size. */
2005-04-21 16:53:53 +02:00
/* Offsets in struct proc. They MUST match proc.h. */
P_STACKBASE = 0
GSREG = P_STACKBASE
FSREG = GSREG+2 /* 386 introduces FS and GS segments*/
ESREG = FSREG+2
DSREG = ESREG+2
DIREG = DSREG+2
SIREG = DIREG+W
BPREG = SIREG+W
STREG = BPREG+W /* hole for another SP*/
BXREG = STREG+W
DXREG = BXREG+W
CXREG = DXREG+W
AXREG = CXREG+W
RETADR = AXREG+W /* return address for save() call*/
PCREG = RETADR+W
CSREG = PCREG+W
PSWREG = CSREG+W
SPREG = PSWREG+W
SSREG = SPREG+W
P_STACKTOP = SSREG+W
FP_SAVE_AREA_P = P_STACKTOP
P_LDT_SEL = FP_SAVE_AREA_P + 532
P_CR3 = P_LDT_SEL+W
P_LDT = P_CR3+W
P_MISC_FLAGS = P_LDT + 50
Msize = 9 /* size of a message in 32-bit words*/
Complete ovehaul of mode switching code - after a trap to kernel, the code automatically switches to kernel stack, in the future local to the CPU - k_reenter variable replaced by a test whether the CS is kernel cs or not. The information is passed further if needed. Removes a global variable which would need to be cpu local - no need for global variables describing the exception or trap context. This information is kept on stack and a pointer to this structure is passed to the C code as a single structure - removed loadedcr3 variable and its use replaced by reading the %cr3 register - no need to redisable interrupts in restart() as they are already disabled. - unified handling of traps that push and don't push errorcode - removed save() function as the process context is not saved directly to process table but saved as required by the trap code. Essentially it means that save() code is inlined everywhere not only in the exception handling routine - returning from syscall is more arch independent - it sets the retger in C - top of the x86 stack contains the current CPU id and pointer to the currently scheduled process (the one right interrupted) so the mode switch code can find where to save the context without need to use proc_ptr which will be cpu local in the future and therefore difficult to access in assembler and expensive to access in general - some more clean up of level0 code. No need to read-back the argument passed in %eax from the proc structure. The mode switch code does not clobber %the general registers and hence we can just call what is in %eax - many assebly macros in sconst.h as they will be reused by the apic assembly
2009-11-06 10:08:26 +01:00
/*
* offset to current process pointer right after trap, we assume we always have
* error code on the stack
*/
#define CURR_PROC_PTR 20
/*
* tests whether the interrupt was triggered in kernel. If so, jump to the
* label. Displacement tell the macro ha far is the CS value saved by the trap
* from the current %esp. The kernel code segment selector has the lower 3 bits
* zeroed
*/
#define TEST_INT_IN_KERNEL(displ, label) \
cmpl $CS_SELECTOR, displ(%esp) ;\
je label ;
/*
* saves the basic interrupt context (no error code) to the process structure
*
* displ is the displacement of %esp from the original stack after trap
* pptr is the process structure pointer
* tmp is an available temporary register
*/
#define SAVE_TRAP_CTX(displ, pptr, tmp) \
movl (0 + displ)(%esp), tmp ;\
movl tmp, PCREG(pptr) ;\
movl (4 + displ)(%esp), tmp ;\
movl tmp, CSREG(pptr) ;\
movl (8 + displ)(%esp), tmp ;\
movl tmp, PSWREG(pptr) ;\
movl (12 + displ)(%esp), tmp ;\
movl tmp, SPREG(pptr) ;\
movl tmp, STREG(pptr) ;\
movl (16 + displ)(%esp), tmp ;\
movl tmp, SSREG(pptr) ;
#define SAVE_SEGS(pptr) \
mov %ds, %ss:DSREG(pptr) ;\
mov %es, %ss:ESREG(pptr) ;\
mov %fs, %ss:FSREG(pptr) ;\
mov %gs, %ss:GSREG(pptr) ;
#define RESTORE_SEGS(pptr) \
movw %ss:DSREG(pptr), %ds ;\
movw %ss:ESREG(pptr), %es ;\
movw %ss:FSREG(pptr), %fs ;\
movw %ss:GSREG(pptr), %gs ;
/*
* restore kernel segments, %ss is kernnel data segment, %cs is aready set and
* %fs, %gs are not used
*/
#define RESTORE_KERNEL_SEGS \
mov %ss, %si ;\
mov %si, %ds ;\
mov %si, %es ;
#define SAVE_GP_REGS(pptr) \
mov %eax, %ss:AXREG(pptr) ;\
mov %ecx, %ss:CXREG(pptr) ;\
mov %edx, %ss:DXREG(pptr) ;\
mov %ebx, %ss:BXREG(pptr) ;\
mov %esi, %ss:SIREG(pptr) ;\
mov %edi, %ss:DIREG(pptr) ;
#define RESTORE_GP_REGS(pptr) \
movl %ss:AXREG(pptr), %eax ;\
movl %ss:CXREG(pptr), %ecx ;\
movl %ss:DXREG(pptr), %edx ;\
movl %ss:BXREG(pptr), %ebx ;\
movl %ss:SIREG(pptr), %esi ;\
movl %ss:DIREG(pptr), %edi ;
/*
* save the context of the interrupted process to the structure in the process
* table. It pushses the %ebp to stack to get a scratch register. After %esi is
* saved, we can use it to get the saved %ebp from stack and save it to the
* final location
*
* displ is the stack displacement. In case of an exception, there are two extra
* value on the stack - error code and the exception number
*/
#define SAVE_PROCESS_CTX_NON_LAZY(displ) \
Complete ovehaul of mode switching code - after a trap to kernel, the code automatically switches to kernel stack, in the future local to the CPU - k_reenter variable replaced by a test whether the CS is kernel cs or not. The information is passed further if needed. Removes a global variable which would need to be cpu local - no need for global variables describing the exception or trap context. This information is kept on stack and a pointer to this structure is passed to the C code as a single structure - removed loadedcr3 variable and its use replaced by reading the %cr3 register - no need to redisable interrupts in restart() as they are already disabled. - unified handling of traps that push and don't push errorcode - removed save() function as the process context is not saved directly to process table but saved as required by the trap code. Essentially it means that save() code is inlined everywhere not only in the exception handling routine - returning from syscall is more arch independent - it sets the retger in C - top of the x86 stack contains the current CPU id and pointer to the currently scheduled process (the one right interrupted) so the mode switch code can find where to save the context without need to use proc_ptr which will be cpu local in the future and therefore difficult to access in assembler and expensive to access in general - some more clean up of level0 code. No need to read-back the argument passed in %eax from the proc structure. The mode switch code does not clobber %the general registers and hence we can just call what is in %eax - many assebly macros in sconst.h as they will be reused by the apic assembly
2009-11-06 10:08:26 +01:00
push %ebp ;\
;\
movl (CURR_PROC_PTR + 4 + displ)(%esp), %ebp ;\
;\
/* save the segment registers */ \
SAVE_SEGS(%ebp) ;\
\
SAVE_GP_REGS(%ebp) ;\
pop %esi /* get the orig %ebp and save it */ ;\
mov %esi, %ss:BPREG(%ebp) ;\
\
RESTORE_KERNEL_SEGS ;\
SAVE_TRAP_CTX(displ, %ebp, %esi) ;
Complete ovehaul of mode switching code - after a trap to kernel, the code automatically switches to kernel stack, in the future local to the CPU - k_reenter variable replaced by a test whether the CS is kernel cs or not. The information is passed further if needed. Removes a global variable which would need to be cpu local - no need for global variables describing the exception or trap context. This information is kept on stack and a pointer to this structure is passed to the C code as a single structure - removed loadedcr3 variable and its use replaced by reading the %cr3 register - no need to redisable interrupts in restart() as they are already disabled. - unified handling of traps that push and don't push errorcode - removed save() function as the process context is not saved directly to process table but saved as required by the trap code. Essentially it means that save() code is inlined everywhere not only in the exception handling routine - returning from syscall is more arch independent - it sets the retger in C - top of the x86 stack contains the current CPU id and pointer to the currently scheduled process (the one right interrupted) so the mode switch code can find where to save the context without need to use proc_ptr which will be cpu local in the future and therefore difficult to access in assembler and expensive to access in general - some more clean up of level0 code. No need to read-back the argument passed in %eax from the proc structure. The mode switch code does not clobber %the general registers and hence we can just call what is in %eax - many assebly macros in sconst.h as they will be reused by the apic assembly
2009-11-06 10:08:26 +01:00
#define SAVE_PROCESS_CTX(displ) \
SAVE_PROCESS_CTX_NON_LAZY(displ) ;\
push %ebp ;\
call lazy_fpu ;\
add $4, %esp ;
Complete ovehaul of mode switching code - after a trap to kernel, the code automatically switches to kernel stack, in the future local to the CPU - k_reenter variable replaced by a test whether the CS is kernel cs or not. The information is passed further if needed. Removes a global variable which would need to be cpu local - no need for global variables describing the exception or trap context. This information is kept on stack and a pointer to this structure is passed to the C code as a single structure - removed loadedcr3 variable and its use replaced by reading the %cr3 register - no need to redisable interrupts in restart() as they are already disabled. - unified handling of traps that push and don't push errorcode - removed save() function as the process context is not saved directly to process table but saved as required by the trap code. Essentially it means that save() code is inlined everywhere not only in the exception handling routine - returning from syscall is more arch independent - it sets the retger in C - top of the x86 stack contains the current CPU id and pointer to the currently scheduled process (the one right interrupted) so the mode switch code can find where to save the context without need to use proc_ptr which will be cpu local in the future and therefore difficult to access in assembler and expensive to access in general - some more clean up of level0 code. No need to read-back the argument passed in %eax from the proc structure. The mode switch code does not clobber %the general registers and hence we can just call what is in %eax - many assebly macros in sconst.h as they will be reused by the apic assembly
2009-11-06 10:08:26 +01:00
#endif /* __SCONST_H__ */