freebsd-dev/sys/powerpc/booke/locore.S
Justin Hibbits cbc3c68d9a Add a kdb show command to print arbitrary SPRs on PowerPC
Summary:
There is often a need at the debugger to print arbitrary special
purpose registers (SPRs) on PowerPC.  Using a rewritable asm stub, print any SPR
provided on the command line.

Note, as there is no checking in this, attempting to print a nonexistent SPR
may cause a Program exception (illegal instruction, or boundedly undefined).

Note also that this relies on the kernel text pages being writable.  If in the
future this is made not the case, this will need to be reworked.

Test Plan:
Printing the Processor Version Register (PVR, SPR 287):

db> show spr 11f
SPR 287(11f): 80240012

Differential Revision: https://reviews.freebsd.org/D7403
2016-08-13 18:46:49 +00:00

881 lines
17 KiB
ArmAsm

/*-
* Copyright (C) 2007-2009 Semihalf, Rafal Jaworowski <raj@semihalf.com>
* Copyright (C) 2006 Semihalf, Marian Balakowicz <m8@semihalf.com>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN
* NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
* TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* $FreeBSD$
*/
#include "assym.s"
#include "opt_hwpmc_hooks.h"
#include <machine/asm.h>
#include <machine/hid.h>
#include <machine/param.h>
#include <machine/spr.h>
#include <machine/pte.h>
#include <machine/trap.h>
#include <machine/vmparam.h>
#include <machine/tlb.h>
#define TMPSTACKSZ 16384
.text
.globl btext
btext:
/*
* This symbol is here for the benefit of kvm_mkdb, and is supposed to
* mark the start of kernel text.
*/
.globl kernel_text
kernel_text:
/*
* Startup entry. Note, this must be the first thing in the text segment!
*/
.text
.globl __start
__start:
/*
* Assumptions on the boot loader:
* - System memory starts from physical address 0
* - It's mapped by a single TLB1 entry
* - TLB1 mapping is 1:1 pa to va
* - Kernel is loaded at 64MB boundary
* - All PID registers are set to the same value
* - CPU is running in AS=0
*
* Registers contents provided by the loader(8):
* r1 : stack pointer
* r3 : metadata pointer
*
* We rearrange the TLB1 layout as follows:
* - Find TLB1 entry we started in
* - Make sure it's protected, invalidate other entries
* - Create temp entry in the second AS (make sure it's not TLB[1])
* - Switch to temp mapping
* - Map 64MB of RAM in TLB1[1]
* - Use AS=1, set EPN to KERNBASE and RPN to kernel load address
* - Switch to to TLB1[1] mapping
* - Invalidate temp mapping
*
* locore registers use:
* r1 : stack pointer
* r2 : trace pointer (AP only, for early diagnostics)
* r3-r27 : scratch registers
* r28 : temp TLB1 entry
* r29 : initial TLB1 entry we started in
* r30-r31 : arguments (metadata pointer)
*/
/*
* Keep arguments in r30 & r31 for later use.
*/
mr %r30, %r3
mr %r31, %r4
/*
* Initial cleanup
*/
li %r3, PSL_DE /* Keep debug exceptions for CodeWarrior. */
mtmsr %r3
isync
/*
* Initial HIDs configuration
*/
1:
mfpvr %r3
rlwinm %r3, %r3, 16, 16, 31
lis %r4, HID0_E500_DEFAULT_SET@h
ori %r4, %r4, HID0_E500_DEFAULT_SET@l
/* Check for e500mc and e5500 */
cmpli 0, 0, %r3, FSL_E500mc
bne 2f
lis %r4, HID0_E500MC_DEFAULT_SET@h
ori %r4, %r4, HID0_E500MC_DEFAULT_SET@l
b 3f
2:
cmpli 0, 0, %r3, FSL_E5500
bne 3f
lis %r4, HID0_E5500_DEFAULT_SET@h
ori %r4, %r4, HID0_E5500_DEFAULT_SET@l
3:
mtspr SPR_HID0, %r4
isync
/*
* E500mc and E5500 do not have HID1 register, so skip HID1 setup on
* this core.
*/
cmpli 0, 0, %r3, FSL_E500mc
beq 1f
cmpli 0, 0, %r3, FSL_E5500
beq 1f
lis %r3, HID1_E500_DEFAULT_SET@h
ori %r3, %r3, HID1_E500_DEFAULT_SET@l
mtspr SPR_HID1, %r3
isync
1:
/* Invalidate all entries in TLB0 */
li %r3, 0
bl tlb_inval_all
cmpwi %r30, 0
beq done_mapping
/*
* Locate the TLB1 entry that maps this code
*/
bl 1f
1: mflr %r3
bl tlb1_find_current /* the entry found is returned in r29 */
bl tlb1_inval_all_but_current
/*
* Create temporary mapping in AS=1 and switch to it
*/
bl tlb1_temp_mapping_as1
mfmsr %r3
ori %r3, %r3, (PSL_IS | PSL_DS)
bl 2f
2: mflr %r4
addi %r4, %r4, (3f - 2b)
mtspr SPR_SRR0, %r4
mtspr SPR_SRR1, %r3
rfi /* Switch context */
/*
* Invalidate initial entry
*/
3:
mr %r3, %r29
bl tlb1_inval_entry
/*
* Setup final mapping in TLB1[1] and switch to it
*/
/* Final kernel mapping, map in 64 MB of RAM */
lis %r3, MAS0_TLBSEL1@h /* Select TLB1 */
li %r4, 0 /* Entry 0 */
rlwimi %r3, %r4, 16, 10, 15
mtspr SPR_MAS0, %r3
isync
li %r3, (TLB_SIZE_64M << MAS1_TSIZE_SHIFT)@l
oris %r3, %r3, (MAS1_VALID | MAS1_IPROT)@h
mtspr SPR_MAS1, %r3 /* note TS was not filled, so it's TS=0 */
isync
lis %r3, KERNBASE@h
ori %r3, %r3, KERNBASE@l /* EPN = KERNBASE */
#ifdef SMP
ori %r3, %r3, (_TLB_ENTRY_SHARED | MAS2_M)@l /* WIMGE = 0b00100 */
#endif
mtspr SPR_MAS2, %r3
isync
/* Discover phys load address */
bl 3f
3: mflr %r4 /* Use current address */
rlwinm %r4, %r4, 0, 0, 5 /* 64MB alignment mask */
ori %r4, %r4, (MAS3_SX | MAS3_SW | MAS3_SR)@l
mtspr SPR_MAS3, %r4 /* Set RPN and protection */
isync
bl zero_mas7
bl zero_mas8
tlbwe
isync
msync
/* Switch to the above TLB1[1] mapping */
bl 4f
4: mflr %r4
rlwinm %r4, %r4, 0, 8, 31 /* Current offset from kernel load address */
rlwinm %r3, %r3, 0, 0, 19
add %r4, %r4, %r3 /* Convert to kernel virtual address */
addi %r4, %r4, (5f - 4b)
li %r3, PSL_DE /* Note AS=0 */
mtspr SPR_SRR0, %r4
mtspr SPR_SRR1, %r3
rfi
/*
* Invalidate temp mapping
*/
5:
mr %r3, %r28
bl tlb1_inval_entry
done_mapping:
/*
* Setup a temporary stack
*/
bl 1f
.long tmpstack-.
1: mflr %r1
lwz %r2,0(%r1)
add %r1,%r1,%r2
addi %r1, %r1, (TMPSTACKSZ - 16)
/*
* Relocate kernel
*/
bl 1f
.long _DYNAMIC-.
.long _GLOBAL_OFFSET_TABLE_-.
1: mflr %r5
lwz %r3,0(%r5) /* _DYNAMIC in %r3 */
add %r3,%r3,%r5
lwz %r4,4(%r5) /* GOT pointer */
add %r4,%r4,%r5
lwz %r4,4(%r4) /* got[0] is _DYNAMIC link addr */
subf %r4,%r4,%r3 /* subtract to calculate relocbase */
bl elf_reloc_self
/*
* Initialise exception vector offsets
*/
bl ivor_setup
/*
* Set up arguments and jump to system initialization code
*/
mr %r3, %r30
mr %r4, %r31
/* Prepare core */
bl booke_init
/* Switch to thread0.td_kstack now */
mr %r1, %r3
li %r3, 0
stw %r3, 0(%r1)
/* Machine independet part, does not return */
bl mi_startup
/* NOT REACHED */
5: b 5b
#ifdef SMP
/************************************************************************/
/* AP Boot page */
/************************************************************************/
.text
.globl __boot_page
.align 12
__boot_page:
bl 1f
.globl bp_trace
bp_trace:
.long 0
.globl bp_kernload
bp_kernload:
.long 0
/*
* Initial configuration
*/
1:
mflr %r31 /* r31 hold the address of bp_trace */
/* Set HIDs */
mfpvr %r3
rlwinm %r3, %r3, 16, 16, 31
/* HID0 for E500 is default */
lis %r4, HID0_E500_DEFAULT_SET@h
ori %r4, %r4, HID0_E500_DEFAULT_SET@l
cmpli 0, 0, %r3, FSL_E500mc
bne 2f
lis %r4, HID0_E500MC_DEFAULT_SET@h
ori %r4, %r4, HID0_E500MC_DEFAULT_SET@l
b 3f
2:
cmpli 0, 0, %r3, FSL_E5500
bne 3f
lis %r4, HID0_E5500_DEFAULT_SET@h
ori %r4, %r4, HID0_E5500_DEFAULT_SET@l
3:
mtspr SPR_HID0, %r4
isync
/* Enable branch prediction */
li %r3, BUCSR_BPEN
mtspr SPR_BUCSR, %r3
isync
/* Invalidate all entries in TLB0 */
li %r3, 0
bl tlb_inval_all
/*
* Find TLB1 entry which is translating us now
*/
bl 2f
2: mflr %r3
bl tlb1_find_current /* the entry number found is in r29 */
bl tlb1_inval_all_but_current
/*
* Create temporary translation in AS=1 and switch to it
*/
bl tlb1_temp_mapping_as1
mfmsr %r3
ori %r3, %r3, (PSL_IS | PSL_DS)
bl 3f
3: mflr %r4
addi %r4, %r4, (4f - 3b)
mtspr SPR_SRR0, %r4
mtspr SPR_SRR1, %r3
rfi /* Switch context */
/*
* Invalidate initial entry
*/
4:
mr %r3, %r29
bl tlb1_inval_entry
/*
* Setup final mapping in TLB1[1] and switch to it
*/
/* Final kernel mapping, map in 64 MB of RAM */
lis %r3, MAS0_TLBSEL1@h /* Select TLB1 */
li %r4, 0 /* Entry 0 */
rlwimi %r3, %r4, 16, 4, 15
mtspr SPR_MAS0, %r3
isync
li %r3, (TLB_SIZE_64M << MAS1_TSIZE_SHIFT)@l
oris %r3, %r3, (MAS1_VALID | MAS1_IPROT)@h
mtspr SPR_MAS1, %r3 /* note TS was not filled, so it's TS=0 */
isync
lis %r3, KERNBASE@h
ori %r3, %r3, KERNBASE@l /* EPN = KERNBASE */
ori %r3, %r3, (_TLB_ENTRY_SHARED | MAS2_M)@l /* WIMGE = 0b00100 */
mtspr SPR_MAS2, %r3
isync
/* Retrieve kernel load [physical] address from bp_kernload */
bl 5f
.long bp_kernload
.long __boot_page
5: mflr %r3
lwz %r4, 0(%r3)
lwz %r5, 4(%r3)
rlwinm %r3, %r3, 0, 0, 19
sub %r4, %r4, %r5 /* offset of bp_kernload within __boot_page */
lwzx %r3, %r4, %r3
/* Set RPN and protection */
ori %r3, %r3, (MAS3_SX | MAS3_SW | MAS3_SR)@l
mtspr SPR_MAS3, %r3
isync
bl zero_mas7
bl zero_mas8
tlbwe
isync
msync
/* Switch to the final mapping */
bl 6f
6: mflr %r3
rlwinm %r3, %r3, 0, 0xfff /* Offset from boot page start */
add %r3, %r3, %r5 /* Make this virtual address */
addi %r3, %r3, (7f - 6b)
li %r4, 0 /* Note AS=0 */
mtspr SPR_SRR0, %r3
mtspr SPR_SRR1, %r4
rfi
7:
/*
* At this point we're running at virtual addresses KERNBASE and beyond so
* it's allowed to directly access all locations the kernel was linked
* against.
*/
/*
* Invalidate temp mapping
*/
mr %r3, %r28
bl tlb1_inval_entry
/*
* Setup a temporary stack
*/
bl 1f
.long tmpstack-.
1: mflr %r1
lwz %r2,0(%r1)
add %r1,%r1,%r2
stw %r1, 0(%r1)
addi %r1, %r1, (TMPSTACKSZ - 16)
/*
* Initialise exception vector offsets
*/
bl ivor_setup
/*
* Assign our pcpu instance
*/
bl 1f
.long ap_pcpu-.
1: mflr %r4
lwz %r3, 0(%r4)
add %r3, %r3, %r4
lwz %r3, 0(%r3)
mtsprg0 %r3
bl pmap_bootstrap_ap
bl cpudep_ap_bootstrap
/* Switch to the idle thread's kstack */
mr %r1, %r3
bl machdep_ap_bootstrap
/* NOT REACHED */
6: b 6b
#endif /* SMP */
#if defined (BOOKE_E500)
/*
* Invalidate all entries in the given TLB.
*
* r3 TLBSEL
*/
tlb_inval_all:
rlwinm %r3, %r3, 3, (1 << 3) /* TLBSEL */
ori %r3, %r3, (1 << 2) /* INVALL */
tlbivax 0, %r3
isync
msync
tlbsync
msync
blr
/*
* expects address to look up in r3, returns entry number in r29
*
* FIXME: the hidden assumption is we are now running in AS=0, but we should
* retrieve actual AS from MSR[IS|DS] and put it in MAS6[SAS]
*/
tlb1_find_current:
mfspr %r17, SPR_PID0
slwi %r17, %r17, MAS6_SPID0_SHIFT
mtspr SPR_MAS6, %r17
isync
tlbsx 0, %r3
mfspr %r17, SPR_MAS0
rlwinm %r29, %r17, 16, 26, 31 /* MAS0[ESEL] -> r29 */
/* Make sure we have IPROT set on the entry */
mfspr %r17, SPR_MAS1
oris %r17, %r17, MAS1_IPROT@h
mtspr SPR_MAS1, %r17
isync
tlbwe
isync
msync
blr
/*
* Invalidates a single entry in TLB1.
*
* r3 ESEL
* r4-r5 scratched
*/
tlb1_inval_entry:
lis %r4, MAS0_TLBSEL1@h /* Select TLB1 */
rlwimi %r4, %r3, 16, 10, 15 /* Select our entry */
mtspr SPR_MAS0, %r4
isync
tlbre
li %r5, 0 /* MAS1[V] = 0 */
mtspr SPR_MAS1, %r5
isync
tlbwe
isync
msync
blr
/*
* r29 current entry number
* r28 returned temp entry
* r3-r5 scratched
*/
tlb1_temp_mapping_as1:
/* Read our current translation */
lis %r3, MAS0_TLBSEL1@h /* Select TLB1 */
rlwimi %r3, %r29, 16, 10, 15 /* Select our current entry */
mtspr SPR_MAS0, %r3
isync
tlbre
/*
* Prepare and write temp entry
*
* FIXME this is not robust against overflow i.e. when the current
* entry is the last in TLB1
*/
lis %r3, MAS0_TLBSEL1@h /* Select TLB1 */
addi %r28, %r29, 1 /* Use next entry. */
rlwimi %r3, %r28, 16, 10, 15 /* Select temp entry */
mtspr SPR_MAS0, %r3
isync
mfspr %r5, SPR_MAS1
li %r4, 1 /* AS=1 */
rlwimi %r5, %r4, 12, 19, 19
li %r4, 0 /* Global mapping, TID=0 */
rlwimi %r5, %r4, 16, 8, 15
oris %r5, %r5, (MAS1_VALID | MAS1_IPROT)@h
mtspr SPR_MAS1, %r5
isync
mflr %r3
bl zero_mas7
bl zero_mas8
mtlr %r3
tlbwe
isync
msync
blr
/*
* Loops over TLB1, invalidates all entries skipping the one which currently
* maps this code.
*
* r29 current entry
* r3-r5 scratched
*/
tlb1_inval_all_but_current:
mr %r6, %r3
mfspr %r3, SPR_TLB1CFG /* Get number of entries */
andi. %r3, %r3, TLBCFG_NENTRY_MASK@l
li %r4, 0 /* Start from Entry 0 */
1: lis %r5, MAS0_TLBSEL1@h
rlwimi %r5, %r4, 16, 10, 15
mtspr SPR_MAS0, %r5
isync
tlbre
mfspr %r5, SPR_MAS1
cmpw %r4, %r29 /* our current entry? */
beq 2f
rlwinm %r5, %r5, 0, 2, 31 /* clear VALID and IPROT bits */
mtspr SPR_MAS1, %r5
isync
tlbwe
isync
msync
2: addi %r4, %r4, 1
cmpw %r4, %r3 /* Check if this is the last entry */
bne 1b
blr
/*
* MAS7 and MAS8 conditional zeroing.
*/
.globl zero_mas7
zero_mas7:
mfpvr %r20
rlwinm %r20, %r20, 16, 16, 31
cmpli 0, 0, %r20, FSL_E500v1
beq 1f
li %r20, 0
mtspr SPR_MAS7, %r20
isync
1:
blr
.globl zero_mas8
zero_mas8:
mfpvr %r20
rlwinm %r20, %r20, 16, 16, 31
cmpli 0, 0, %r20, FSL_E500mc
beq 1f
cmpli 0, 0, %r20, FSL_E5500
beq 1f
blr
1:
li %r20, 0
mtspr SPR_MAS8, %r20
isync
blr
#endif
#ifdef SMP
.globl __boot_tlb1
/*
* The __boot_tlb1 table is used to hold BSP TLB1 entries
* marked with _TLB_ENTRY_SHARED flag during AP bootstrap.
* The BSP fills in the table in tlb_ap_prep() function. Next,
* AP loads its contents to TLB1 hardware in pmap_bootstrap_ap().
*/
__boot_tlb1:
.space TLB1_MAX_ENTRIES * TLB_ENTRY_SIZE
__boot_page_padding:
/*
* Boot page needs to be exactly 4K, with the last word of this page
* acting as the reset vector, so we need to stuff the remainder.
* Upon release from holdoff CPU fetches the last word of the boot
* page.
*/
.space 4092 - (__boot_page_padding - __boot_page)
b __boot_page
#endif /* SMP */
/************************************************************************/
/* locore subroutines */
/************************************************************************/
/*
* Cache disable/enable/inval sequences according
* to section 2.16 of E500CORE RM.
*/
ENTRY(dcache_inval)
/* Invalidate d-cache */
mfspr %r3, SPR_L1CSR0
ori %r3, %r3, (L1CSR0_DCFI | L1CSR0_DCLFR)@l
msync
isync
mtspr SPR_L1CSR0, %r3
isync
1: mfspr %r3, SPR_L1CSR0
andi. %r3, %r3, L1CSR0_DCFI
bne 1b
blr
ENTRY(dcache_disable)
/* Disable d-cache */
mfspr %r3, SPR_L1CSR0
li %r4, L1CSR0_DCE@l
not %r4, %r4
and %r3, %r3, %r4
msync
isync
mtspr SPR_L1CSR0, %r3
isync
blr
ENTRY(dcache_enable)
/* Enable d-cache */
mfspr %r3, SPR_L1CSR0
oris %r3, %r3, (L1CSR0_DCPE | L1CSR0_DCE)@h
ori %r3, %r3, (L1CSR0_DCPE | L1CSR0_DCE)@l
msync
isync
mtspr SPR_L1CSR0, %r3
isync
blr
ENTRY(icache_inval)
/* Invalidate i-cache */
mfspr %r3, SPR_L1CSR1
ori %r3, %r3, (L1CSR1_ICFI | L1CSR1_ICLFR)@l
isync
mtspr SPR_L1CSR1, %r3
isync
1: mfspr %r3, SPR_L1CSR1
andi. %r3, %r3, L1CSR1_ICFI
bne 1b
blr
ENTRY(icache_disable)
/* Disable i-cache */
mfspr %r3, SPR_L1CSR1
li %r4, L1CSR1_ICE@l
not %r4, %r4
and %r3, %r3, %r4
isync
mtspr SPR_L1CSR1, %r3
isync
blr
ENTRY(icache_enable)
/* Enable i-cache */
mfspr %r3, SPR_L1CSR1
oris %r3, %r3, (L1CSR1_ICPE | L1CSR1_ICE)@h
ori %r3, %r3, (L1CSR1_ICPE | L1CSR1_ICE)@l
isync
mtspr SPR_L1CSR1, %r3
isync
blr
/*
* L2 cache disable/enable/inval sequences for E500mc.
*/
ENTRY(l2cache_inval)
mfspr %r3, SPR_L2CSR0
oris %r3, %r3, (L2CSR0_L2FI | L2CSR0_L2LFC)@h
ori %r3, %r3, (L2CSR0_L2FI | L2CSR0_L2LFC)@l
isync
mtspr SPR_L2CSR0, %r3
isync
1: mfspr %r3, SPR_L2CSR0
andis. %r3, %r3, L2CSR0_L2FI@h
bne 1b
blr
ENTRY(l2cache_enable)
mfspr %r3, SPR_L2CSR0
oris %r3, %r3, (L2CSR0_L2E | L2CSR0_L2PE)@h
isync
mtspr SPR_L2CSR0, %r3
isync
blr
/*
* Branch predictor setup.
*/
ENTRY(bpred_enable)
mfspr %r3, SPR_BUCSR
ori %r3, %r3, BUCSR_BBFI
isync
mtspr SPR_BUCSR, %r3
isync
ori %r3, %r3, BUCSR_BPEN
isync
mtspr SPR_BUCSR, %r3
isync
blr
ENTRY(dataloss_erratum_access)
/* Lock two cache lines into I-Cache */
sync
mfspr %r11, SPR_L1CSR1
rlwinm %r11, %r11, 0, ~L1CSR1_ICUL
sync
isync
mtspr SPR_L1CSR1, %r11
isync
lis %r8, 2f@h
ori %r8, %r8, 2f@l
icbtls 0, 0, %r8
addi %r9, %r8, 64
sync
mfspr %r11, SPR_L1CSR1
3: andi. %r11, %r11, L1CSR1_ICUL
bne 3b
icbtls 0, 0, %r9
sync
mfspr %r11, SPR_L1CSR1
3: andi. %r11, %r11, L1CSR1_ICUL
bne 3b
b 2f
.align 6
/* Inside a locked cacheline, wait a while, write, then wait a while */
2: sync
mfspr %r5, TBR_TBL
4: addis %r11, %r5, 0x100000@h /* wait around one million timebase ticks */
mfspr %r5, TBR_TBL
subf. %r5, %r5, %r11
bgt 4b
stw %r4, 0(%r3)
mfspr %r5, TBR_TBL
4: addis %r11, %r5, 0x100000@h /* wait around one million timebase ticks */
mfspr %r5, TBR_TBL
subf. %r5, %r5, %r11
bgt 4b
sync
/*
* Fill out the rest of this cache line and the next with nops,
* to ensure that nothing outside the locked area will be
* fetched due to a branch.
*/
.rept 19
nop
.endr
icblc 0, 0, %r8
icblc 0, 0, %r9
blr
/*
* XXX: This should be moved to a shared AIM/booke asm file, if one ever is
* created.
*/
ENTRY(get_spr)
mfspr %r3, 0
blr
/************************************************************************/
/* Data section */
/************************************************************************/
.data
.align 3
GLOBAL(__startkernel)
.long begin
GLOBAL(__endkernel)
.long end
.align 4
tmpstack:
.space TMPSTACKSZ
tmpstackbound:
.space 10240 /* XXX: this really should not be necessary */
/*
* Compiled KERNBASE locations
*/
.globl kernbase
.set kernbase, KERNBASE
#include <powerpc/booke/trap_subr.S>