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linux/arch/ia64/kernel/relocate_kernel.S

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/*
* arch/ia64/kernel/relocate_kernel.S
*
* Relocate kexec'able kernel and start it
*
* Copyright (C) 2005 Hewlett-Packard Development Company, L.P.
* Copyright (C) 2005 Khalid Aziz <khalid.aziz@hp.com>
* Copyright (C) 2005 Intel Corp, Zou Nan hai <nanhai.zou@intel.com>
*
* This source code is licensed under the GNU General Public License,
* Version 2. See the file COPYING for more details.
*/
#include <asm/asmmacro.h>
#include <asm/kregs.h>
#include <asm/page.h>
#include <asm/pgtable.h>
#include <asm/mca_asm.h>
/* Must be relocatable PIC code callable as a C function
*/
GLOBAL_ENTRY(relocate_new_kernel)
.prologue
alloc r31=ar.pfs,4,0,0,0
.body
.reloc_entry:
{
rsm psr.i| psr.ic
mov r2=ip
}
;;
{
flushrs // must be first insn in group
srlz.i
}
;;
dep r2=0,r2,61,3 //to physical address
;;
//first switch to physical mode
add r3=1f-.reloc_entry, r2
movl r16 = IA64_PSR_AC|IA64_PSR_BN|IA64_PSR_IC
mov ar.rsc=0 // put RSE in enforced lazy mode
;;
add sp=(memory_stack_end - 16 - .reloc_entry),r2
add r8=(register_stack - .reloc_entry),r2
;;
mov r18=ar.rnat
mov ar.bspstore=r8
;;
mov cr.ipsr=r16
mov cr.iip=r3
mov cr.ifs=r0
srlz.i
;;
mov ar.rnat=r18
[IA64] kdump: Mask INIT first in panic-kdump path Summary: Asserting INIT might block kdump if the system is already going to start kdump via panic. Description: INIT can interrupt anywhere in panic path, so it can interrupt in middle of kdump kicked by panic. Therefore there is a race if kdump is kicked concurrently, via Panic and via INIT. INIT could fail to invoke kdump if the system is already going to start kdump via panic. It could not restart kdump from INIT handler if some of cpus are already playing dead with INIT masked. It also means that INIT could block kdump's progress if no monarch is entered in the INIT rendezvous. Panic+INIT is a rare, but possible situation since it can be assumed that the kernel or an internal agent decides to panic the unstable system while another external agent decides to send an INIT to the system at same time. How to reproduce: Assert INIT just after panic, before all other cpus have frozen Expected results: continue kdump invoked by panic, or restart kdump from INIT Actual results: might be hang, crashdump not retrieved Proposed Fix: This patch masks INIT first in panic path to take the initiative on kdump, and reuse atomic value kdump_in_progress to make sure there is only one initiator of kdump. All INITs asserted later should be used only for freezing all other cpus. This mask will be removed soon by rfi in relocate_kernel.S, before jump into kdump kernel, after all cpus are frozen and no-op INIT handler is registered. So if INIT was in the interval while it is masked, it will pend on the system and will received just after the rfi, and handled by the no-op handler. If there was a MCA event while psr.mc is 1, in theory the event will pend on the system and will received just after the rfi same as above. MCA handler is unregistered here at the time, so received MCA will not reach to OS_MCA and will result in warmboot by SAL. Note that codes in this masked interval are relatively simpler than that in MCA/INIT handler which also executed with the mask. So it can be said that probability of error in this interval is supposed not so higher than that in MCA/INIT handler. Signed-off-by: Hidetoshi Seto <seto.hidetoshi@jp.fujitsu.com> Cc: Vivek Goyal <vgoyal@redhat.com> Cc: Haren Myneni <hbabu@us.ibm.com> Cc: kexec@lists.infradead.org Acked-by: Fenghua Yu <fenghua.yu@intel.com> Signed-off-by: Tony Luck <tony.luck@intel.com>
2009-08-06 21:51:57 +00:00
rfi // note: this unmask MCA/INIT (psr.mc)
;;
1:
//physical mode code begin
mov b6=in1
dep r28=0,in2,61,3 //to physical address
// purge all TC entries
#define O(member) IA64_CPUINFO_##member##_OFFSET
GET_THIS_PADDR(r2, ia64_cpu_info) // load phys addr of cpu_info into r2
;;
addl r17=O(PTCE_STRIDE),r2
addl r2=O(PTCE_BASE),r2
;;
ld8 r18=[r2],(O(PTCE_COUNT)-O(PTCE_BASE));; // r18=ptce_base
ld4 r19=[r2],4 // r19=ptce_count[0]
ld4 r21=[r17],4 // r21=ptce_stride[0]
;;
ld4 r20=[r2] // r20=ptce_count[1]
ld4 r22=[r17] // r22=ptce_stride[1]
mov r24=r0
;;
adds r20=-1,r20
;;
#undef O
2:
cmp.ltu p6,p7=r24,r19
(p7) br.cond.dpnt.few 4f
mov ar.lc=r20
3:
ptc.e r18
;;
add r18=r22,r18
br.cloop.sptk.few 3b
;;
add r18=r21,r18
add r24=1,r24
;;
br.sptk.few 2b
4:
srlz.i
;;
// purge TR entry for kernel text and data
movl r16=KERNEL_START
mov r18=KERNEL_TR_PAGE_SHIFT<<2
;;
ptr.i r16, r18
ptr.d r16, r18
;;
srlz.i
;;
// purge TR entry for pal code
mov r16=in3
mov r18=IA64_GRANULE_SHIFT<<2
;;
ptr.i r16,r18
;;
srlz.i
;;
// purge TR entry for stack
mov r16=IA64_KR(CURRENT_STACK)
;;
shl r16=r16,IA64_GRANULE_SHIFT
movl r19=PAGE_OFFSET
;;
add r16=r19,r16
mov r18=IA64_GRANULE_SHIFT<<2
;;
ptr.d r16,r18
;;
srlz.i
;;
//copy segments
movl r16=PAGE_MASK
mov r30=in0 // in0 is page_list
br.sptk.few .dest_page
;;
.loop:
ld8 r30=[in0], 8;;
.dest_page:
tbit.z p0, p6=r30, 0;; // 0x1 dest page
(p6) and r17=r30, r16
(p6) br.cond.sptk.few .loop;;
tbit.z p0, p6=r30, 1;; // 0x2 indirect page
(p6) and in0=r30, r16
(p6) br.cond.sptk.few .loop;;
tbit.z p0, p6=r30, 2;; // 0x4 end flag
(p6) br.cond.sptk.few .end_loop;;
tbit.z p6, p0=r30, 3;; // 0x8 source page
(p6) br.cond.sptk.few .loop
and r18=r30, r16
// simple copy page, may optimize later
movl r14=PAGE_SIZE/8 - 1;;
mov ar.lc=r14;;
1:
ld8 r14=[r18], 8;;
st8 [r17]=r14;;
fc.i r17
add r17=8, r17
br.ctop.sptk.few 1b
br.sptk.few .loop
;;
.end_loop:
sync.i // for fc.i
;;
srlz.i
;;
srlz.d
;;
br.call.sptk.many b0=b6;;
.align 32
memory_stack:
.fill 8192, 1, 0
memory_stack_end:
register_stack:
.fill 8192, 1, 0
register_stack_end:
relocate_new_kernel_end:
END(relocate_new_kernel)
.global relocate_new_kernel_size
relocate_new_kernel_size:
data8 relocate_new_kernel_end - relocate_new_kernel
GLOBAL_ENTRY(ia64_dump_cpu_regs)
.prologue
alloc loc0=ar.pfs,1,2,0,0
.body
mov ar.rsc=0 // put RSE in enforced lazy mode
add loc1=4*8, in0 // save r4 and r5 first
;;
{
flushrs // flush dirty regs to backing store
srlz.i
}
st8 [loc1]=r4, 8
;;
st8 [loc1]=r5, 8
;;
add loc1=32*8, in0
mov r4=ar.rnat
;;
st8 [in0]=r0, 8 // r0
st8 [loc1]=r4, 8 // rnat
mov r5=pr
;;
st8 [in0]=r1, 8 // r1
st8 [loc1]=r5, 8 // pr
mov r4=b0
;;
st8 [in0]=r2, 8 // r2
st8 [loc1]=r4, 8 // b0
mov r5=b1;
;;
st8 [in0]=r3, 24 // r3
st8 [loc1]=r5, 8 // b1
mov r4=b2
;;
st8 [in0]=r6, 8 // r6
st8 [loc1]=r4, 8 // b2
mov r5=b3
;;
st8 [in0]=r7, 8 // r7
st8 [loc1]=r5, 8 // b3
mov r4=b4
;;
st8 [in0]=r8, 8 // r8
st8 [loc1]=r4, 8 // b4
mov r5=b5
;;
st8 [in0]=r9, 8 // r9
st8 [loc1]=r5, 8 // b5
mov r4=b6
;;
st8 [in0]=r10, 8 // r10
st8 [loc1]=r5, 8 // b6
mov r5=b7
;;
st8 [in0]=r11, 8 // r11
st8 [loc1]=r5, 8 // b7
mov r4=b0
;;
st8 [in0]=r12, 8 // r12
st8 [loc1]=r4, 8 // ip
mov r5=loc0
;;
st8 [in0]=r13, 8 // r13
extr.u r5=r5, 0, 38 // ar.pfs.pfm
mov r4=r0 // user mask
;;
st8 [in0]=r14, 8 // r14
st8 [loc1]=r5, 8 // cfm
;;
st8 [in0]=r15, 8 // r15
st8 [loc1]=r4, 8 // user mask
mov r5=ar.rsc
;;
st8 [in0]=r16, 8 // r16
st8 [loc1]=r5, 8 // ar.rsc
mov r4=ar.bsp
;;
st8 [in0]=r17, 8 // r17
st8 [loc1]=r4, 8 // ar.bsp
mov r5=ar.bspstore
;;
st8 [in0]=r18, 8 // r18
st8 [loc1]=r5, 8 // ar.bspstore
mov r4=ar.rnat
;;
st8 [in0]=r19, 8 // r19
st8 [loc1]=r4, 8 // ar.rnat
mov r5=ar.ccv
;;
st8 [in0]=r20, 8 // r20
st8 [loc1]=r5, 8 // ar.ccv
mov r4=ar.unat
;;
st8 [in0]=r21, 8 // r21
st8 [loc1]=r4, 8 // ar.unat
mov r5 = ar.fpsr
;;
st8 [in0]=r22, 8 // r22
st8 [loc1]=r5, 8 // ar.fpsr
mov r4 = ar.unat
;;
st8 [in0]=r23, 8 // r23
st8 [loc1]=r4, 8 // unat
mov r5 = ar.fpsr
;;
st8 [in0]=r24, 8 // r24
st8 [loc1]=r5, 8 // fpsr
mov r4 = ar.pfs
;;
st8 [in0]=r25, 8 // r25
st8 [loc1]=r4, 8 // ar.pfs
mov r5 = ar.lc
;;
st8 [in0]=r26, 8 // r26
st8 [loc1]=r5, 8 // ar.lc
mov r4 = ar.ec
;;
st8 [in0]=r27, 8 // r27
st8 [loc1]=r4, 8 // ar.ec
mov r5 = ar.csd
;;
st8 [in0]=r28, 8 // r28
st8 [loc1]=r5, 8 // ar.csd
mov r4 = ar.ssd
;;
st8 [in0]=r29, 8 // r29
st8 [loc1]=r4, 8 // ar.ssd
;;
st8 [in0]=r30, 8 // r30
;;
st8 [in0]=r31, 8 // r31
mov ar.pfs=loc0
;;
br.ret.sptk.many rp
END(ia64_dump_cpu_regs)