original_kernel/arch/cris/arch-v32/mm/mmu.S

211 lines
5.6 KiB
ArmAsm

; WARNING : The refill handler has been modified, see below !!!
/*
* Copyright (C) 2003 Axis Communications AB
*
* Authors: Mikael Starvik (starvik@axis.com)
*
* Code for the fault low-level handling routines.
*
*/
#include <asm/page.h>
#include <asm/pgtable.h>
; Save all register. Must save in same order as struct pt_regs.
.macro SAVE_ALL
subq 12, $sp
move $erp, [$sp]
subq 4, $sp
move $srp, [$sp]
subq 4, $sp
move $ccs, [$sp]
subq 4, $sp
move $spc, [$sp]
subq 4, $sp
move $mof, [$sp]
subq 4, $sp
move $srs, [$sp]
subq 4, $sp
move.d $acr, [$sp]
subq 14*4, $sp
movem $r13, [$sp]
subq 4, $sp
move.d $r10, [$sp]
.endm
; Bus fault handler. Extracts relevant information and calls mm subsystem
; to handle the fault.
.macro MMU_BUS_FAULT_HANDLER handler, mmu, we, ex
.globl \handler
\handler:
SAVE_ALL
move \mmu, $srs ; Select MMU support register bank
move.d $sp, $r11 ; regs
moveq 1, $r12 ; protection fault
moveq \we, $r13 ; write exception?
orq \ex << 1, $r13 ; execute?
move $s3, $r10 ; rw_mm_cause
and.d ~8191, $r10 ; Get faulting page start address
jsr do_page_fault
nop
ba ret_from_intr
nop
.endm
; Refill handler. Three cases may occur:
; 1. PMD and PTE exists in mm subsystem but not in TLB
; 2. PMD exists but not PTE
; 3. PMD doesn't exist
; The code below handles case 1 and calls the mm subsystem for case 2 and 3.
; Do not touch this code without very good reasons and extensive testing.
; Note that the code is optimized to minimize stalls (makes the code harder
; to read).
;
; WARNING !!!
; Modified by Mikael Asker 060725: added a workaround for strange TLB
; behavior. If the same PTE is present in more than one set, the TLB
; doesn't recognize it and we get stuck in a loop of refill exceptions.
; The workaround detects such loops and exits them by flushing
; the TLB contents. The problem and workaround were verified
; in VCS by Mikael Starvik.
;
; Each page is 8 KB. Each PMD holds 8192/4 PTEs (each PTE is 4 bytes) so each
; PMD holds 16 MB of virtual memory.
; Bits 0-12 : Offset within a page
; Bits 13-23 : PTE offset within a PMD
; Bits 24-31 : PMD offset within the PGD
.macro MMU_REFILL_HANDLER handler, mmu
.data
1: .dword 0 ; refill_count
; == 0 <=> last_refill_cause is invalid
2: .dword 0 ; last_refill_cause
.text
.globl \handler
\handler:
subq 4, $sp
; (The pipeline stalls for one cycle; $sp used as address in the next cycle.)
move $srs, [$sp]
subq 4, $sp
move \mmu, $srs ; Select MMU support register bank
move.d $acr, [$sp]
subq 12, $sp
move.d 1b, $acr ; Point to refill_count
movem $r2, [$sp]
test.d [$acr] ; refill_count == 0 ?
beq 5f ; yes, last_refill_cause is invalid
move.d $acr, $r1
; last_refill_cause is valid, investigate cause
addq 4, $r1 ; Point to last_refill_cause
move $s3, $r0 ; Get rw_mm_cause
move.d [$r1], $r2 ; Get last_refill_cause
cmp.d $r0, $r2 ; rw_mm_cause == last_refill_cause ?
beq 6f ; yes, increment count
moveq 1, $r2
; rw_mm_cause != last_refill_cause
move.d $r2, [$acr] ; refill_count = 1
move.d $r0, [$r1] ; last_refill_cause = rw_mm_cause
3: ; Probably not in a loop, continue normal processing
#ifdef CONFIG_SMP
move $s7, $acr ; PGD
#else
move.d per_cpu__current_pgd, $acr ; PGD
#endif
; Look up PMD in PGD
lsrq 24, $r0 ; Get PMD index into PGD (bit 24-31)
move.d [$acr], $acr ; PGD for the current process
addi $r0.d, $acr, $acr
move $s3, $r0 ; rw_mm_cause
move.d [$acr], $acr ; Get PMD
beq 8f
; Look up PTE in PMD
lsrq PAGE_SHIFT, $r0
and.w PAGE_MASK, $acr ; Remove PMD flags
and.d 0x7ff, $r0 ; Get PTE index into PMD (bit 13-23)
addi $r0.d, $acr, $acr
move.d [$acr], $acr ; Get PTE
beq 9f
movem [$sp], $r2 ; Restore r0-r2 in delay slot
addq 12, $sp
; Store in TLB
move $acr, $s5
4: ; Return
move.d [$sp+], $acr
move [$sp], $srs
addq 4, $sp
rete
rfe
5: ; last_refill_cause is invalid
moveq 1, $r2
addq 4, $r1 ; Point to last_refill_cause
move.d $r2, [$acr] ; refill_count = 1
move $s3, $r0 ; Get rw_mm_cause
ba 3b ; Continue normal processing
move.d $r0,[$r1] ; last_refill_cause = rw_mm_cause
6: ; rw_mm_cause == last_refill_cause
move.d [$acr], $r2 ; Get refill_count
cmpq 4, $r2 ; refill_count > 4 ?
bhi 7f ; yes
addq 1, $r2 ; refill_count++
ba 3b ; Continue normal processing
move.d $r2, [$acr]
7: ; refill_count > 4, error
move.d $acr, $r0 ; Save pointer to refill_count
clear.d [$r0] ; refill_count = 0
;; rewind the short stack
movem [$sp], $r2 ; Restore r0-r2
addq 12, $sp
move.d [$sp+], $acr
move [$sp], $srs
addq 4, $sp
;; Keep it simple (slow), save all the regs.
SAVE_ALL
jsr __flush_tlb_all
nop
ba ret_from_intr ; Return
nop
8: ; PMD missing, let the mm subsystem fix it up.
movem [$sp], $r2 ; Restore r0-r2
9: ; PTE missing, let the mm subsystem fix it up.
addq 12, $sp
move.d [$sp+], $acr
move [$sp], $srs
addq 4, $sp
SAVE_ALL
move \mmu, $srs
move.d $sp, $r11 ; regs
clear.d $r12 ; Not a protection fault
move.w PAGE_MASK, $acr
move $s3, $r10 ; rw_mm_cause
btstq 9, $r10 ; Check if write access
smi $r13
and.w PAGE_MASK, $r10 ; Get VPN (virtual address)
jsr do_page_fault
and.w $acr, $r10
; Return
ba ret_from_intr
nop
.endm
; This is the MMU bus fault handlers.
MMU_REFILL_HANDLER i_mmu_refill, 1
MMU_BUS_FAULT_HANDLER i_mmu_invalid, 1, 0, 0
MMU_BUS_FAULT_HANDLER i_mmu_access, 1, 0, 0
MMU_BUS_FAULT_HANDLER i_mmu_execute, 1, 0, 1
MMU_REFILL_HANDLER d_mmu_refill, 2
MMU_BUS_FAULT_HANDLER d_mmu_invalid, 2, 0, 0
MMU_BUS_FAULT_HANDLER d_mmu_access, 2, 0, 0
MMU_BUS_FAULT_HANDLER d_mmu_write, 2, 1, 0