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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
synced 2024-12-27 07:45:06 +07:00
7326749801
As it turns out, the unwind code is slightly broken, and probably has been for a while. The problem is in the dumping of the exception stack, which is intended to dump the contents of the pt_regs struct at each level in the call stack where an exception was taken and routed to a routine marked as __exception (which means its stack frame is right below the pt_regs struct on the stack). 'Right below the pt_regs struct' is ill defined, though: the unwind code assigns 'frame pointer + 0x10' to the .sp member of the stackframe struct at each level, and dump_backtrace() happily dereferences that as the pt_regs pointer when encountering an __exception routine. However, the actual size of the stack frame created by this routine (which could be one of many __exception routines we have in the kernel) is not known, and so frame.sp is pretty useless to figure out where struct pt_regs really is. So it seems the only way to ensure that we can find our struct pt_regs when walking the stack frames is to put it at a known fixed offset of the stack frame pointer that is passed to such __exception routines. The simplest way to do that is to put it inside pt_regs itself, which is the main change implemented by this patch. As a bonus, doing this allows us to get rid of a fair amount of cruft related to walking from one stack to the other, which is especially nice since we intend to introduce yet another stack for overflow handling once we add support for vmapped stacks. It also fixes an inconsistency where we only add a stack frame pointing to ELR_EL1 if we are executing from the IRQ stack but not when we are executing from the task stack. To consistly identify exceptions regs even in the presence of exceptions taken from entry code, we must check whether the next frame was created by entry text, rather than whether the current frame was crated by exception text. To avoid backtracing using PCs that fall in the idmap, or are controlled by userspace, we must explcitly zero the FP and LR in startup paths, and must ensure that the frame embedded in pt_regs is zeroed upon entry from EL0. To avoid these NULL entries showin in the backtrace, unwind_frame() is updated to avoid them. Signed-off-by: Ard Biesheuvel <ard.biesheuvel@linaro.org> [Mark: compare current frame against .entry.text, avoid bogus PCs] Signed-off-by: Mark Rutland <mark.rutland@arm.com> Cc: Catalin Marinas <catalin.marinas@arm.com> Cc: James Morse <james.morse@arm.com> Cc: Will Deacon <will.deacon@arm.com>
159 lines
7.2 KiB
C
159 lines
7.2 KiB
C
/*
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* Based on arch/arm/kernel/asm-offsets.c
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*
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* Copyright (C) 1995-2003 Russell King
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* 2001-2002 Keith Owens
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* Copyright (C) 2012 ARM Ltd.
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License version 2 as
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* published by the Free Software Foundation.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <linux/sched.h>
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#include <linux/mm.h>
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#include <linux/dma-mapping.h>
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#include <linux/kvm_host.h>
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#include <linux/suspend.h>
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#include <asm/cpufeature.h>
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#include <asm/thread_info.h>
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#include <asm/memory.h>
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#include <asm/smp_plat.h>
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#include <asm/suspend.h>
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#include <asm/vdso_datapage.h>
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#include <linux/kbuild.h>
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#include <linux/arm-smccc.h>
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int main(void)
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{
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DEFINE(TSK_ACTIVE_MM, offsetof(struct task_struct, active_mm));
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BLANK();
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DEFINE(TSK_TI_FLAGS, offsetof(struct task_struct, thread_info.flags));
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DEFINE(TSK_TI_PREEMPT, offsetof(struct task_struct, thread_info.preempt_count));
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DEFINE(TSK_TI_ADDR_LIMIT, offsetof(struct task_struct, thread_info.addr_limit));
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#ifdef CONFIG_ARM64_SW_TTBR0_PAN
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DEFINE(TSK_TI_TTBR0, offsetof(struct task_struct, thread_info.ttbr0));
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#endif
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DEFINE(TSK_STACK, offsetof(struct task_struct, stack));
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BLANK();
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DEFINE(THREAD_CPU_CONTEXT, offsetof(struct task_struct, thread.cpu_context));
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BLANK();
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DEFINE(S_X0, offsetof(struct pt_regs, regs[0]));
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DEFINE(S_X1, offsetof(struct pt_regs, regs[1]));
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DEFINE(S_X2, offsetof(struct pt_regs, regs[2]));
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DEFINE(S_X3, offsetof(struct pt_regs, regs[3]));
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DEFINE(S_X4, offsetof(struct pt_regs, regs[4]));
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DEFINE(S_X5, offsetof(struct pt_regs, regs[5]));
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DEFINE(S_X6, offsetof(struct pt_regs, regs[6]));
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DEFINE(S_X7, offsetof(struct pt_regs, regs[7]));
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DEFINE(S_X8, offsetof(struct pt_regs, regs[8]));
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DEFINE(S_X10, offsetof(struct pt_regs, regs[10]));
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DEFINE(S_X12, offsetof(struct pt_regs, regs[12]));
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DEFINE(S_X14, offsetof(struct pt_regs, regs[14]));
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DEFINE(S_X16, offsetof(struct pt_regs, regs[16]));
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DEFINE(S_X18, offsetof(struct pt_regs, regs[18]));
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DEFINE(S_X20, offsetof(struct pt_regs, regs[20]));
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DEFINE(S_X22, offsetof(struct pt_regs, regs[22]));
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DEFINE(S_X24, offsetof(struct pt_regs, regs[24]));
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DEFINE(S_X26, offsetof(struct pt_regs, regs[26]));
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DEFINE(S_X28, offsetof(struct pt_regs, regs[28]));
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DEFINE(S_LR, offsetof(struct pt_regs, regs[30]));
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DEFINE(S_SP, offsetof(struct pt_regs, sp));
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#ifdef CONFIG_COMPAT
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DEFINE(S_COMPAT_SP, offsetof(struct pt_regs, compat_sp));
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#endif
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DEFINE(S_PSTATE, offsetof(struct pt_regs, pstate));
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DEFINE(S_PC, offsetof(struct pt_regs, pc));
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DEFINE(S_ORIG_X0, offsetof(struct pt_regs, orig_x0));
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DEFINE(S_SYSCALLNO, offsetof(struct pt_regs, syscallno));
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DEFINE(S_ORIG_ADDR_LIMIT, offsetof(struct pt_regs, orig_addr_limit));
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DEFINE(S_STACKFRAME, offsetof(struct pt_regs, stackframe));
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DEFINE(S_FRAME_SIZE, sizeof(struct pt_regs));
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BLANK();
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DEFINE(MM_CONTEXT_ID, offsetof(struct mm_struct, context.id.counter));
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BLANK();
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DEFINE(VMA_VM_MM, offsetof(struct vm_area_struct, vm_mm));
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DEFINE(VMA_VM_FLAGS, offsetof(struct vm_area_struct, vm_flags));
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BLANK();
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DEFINE(VM_EXEC, VM_EXEC);
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BLANK();
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DEFINE(PAGE_SZ, PAGE_SIZE);
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BLANK();
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DEFINE(DMA_BIDIRECTIONAL, DMA_BIDIRECTIONAL);
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DEFINE(DMA_TO_DEVICE, DMA_TO_DEVICE);
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DEFINE(DMA_FROM_DEVICE, DMA_FROM_DEVICE);
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BLANK();
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DEFINE(CLOCK_REALTIME, CLOCK_REALTIME);
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DEFINE(CLOCK_MONOTONIC, CLOCK_MONOTONIC);
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DEFINE(CLOCK_MONOTONIC_RAW, CLOCK_MONOTONIC_RAW);
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DEFINE(CLOCK_REALTIME_RES, MONOTONIC_RES_NSEC);
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DEFINE(CLOCK_REALTIME_COARSE, CLOCK_REALTIME_COARSE);
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DEFINE(CLOCK_MONOTONIC_COARSE,CLOCK_MONOTONIC_COARSE);
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DEFINE(CLOCK_COARSE_RES, LOW_RES_NSEC);
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DEFINE(NSEC_PER_SEC, NSEC_PER_SEC);
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BLANK();
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DEFINE(VDSO_CS_CYCLE_LAST, offsetof(struct vdso_data, cs_cycle_last));
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DEFINE(VDSO_RAW_TIME_SEC, offsetof(struct vdso_data, raw_time_sec));
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DEFINE(VDSO_RAW_TIME_NSEC, offsetof(struct vdso_data, raw_time_nsec));
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DEFINE(VDSO_XTIME_CLK_SEC, offsetof(struct vdso_data, xtime_clock_sec));
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DEFINE(VDSO_XTIME_CLK_NSEC, offsetof(struct vdso_data, xtime_clock_nsec));
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DEFINE(VDSO_XTIME_CRS_SEC, offsetof(struct vdso_data, xtime_coarse_sec));
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DEFINE(VDSO_XTIME_CRS_NSEC, offsetof(struct vdso_data, xtime_coarse_nsec));
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DEFINE(VDSO_WTM_CLK_SEC, offsetof(struct vdso_data, wtm_clock_sec));
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DEFINE(VDSO_WTM_CLK_NSEC, offsetof(struct vdso_data, wtm_clock_nsec));
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DEFINE(VDSO_TB_SEQ_COUNT, offsetof(struct vdso_data, tb_seq_count));
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DEFINE(VDSO_CS_MONO_MULT, offsetof(struct vdso_data, cs_mono_mult));
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DEFINE(VDSO_CS_RAW_MULT, offsetof(struct vdso_data, cs_raw_mult));
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DEFINE(VDSO_CS_SHIFT, offsetof(struct vdso_data, cs_shift));
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DEFINE(VDSO_TZ_MINWEST, offsetof(struct vdso_data, tz_minuteswest));
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DEFINE(VDSO_TZ_DSTTIME, offsetof(struct vdso_data, tz_dsttime));
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DEFINE(VDSO_USE_SYSCALL, offsetof(struct vdso_data, use_syscall));
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BLANK();
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DEFINE(TVAL_TV_SEC, offsetof(struct timeval, tv_sec));
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DEFINE(TVAL_TV_USEC, offsetof(struct timeval, tv_usec));
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DEFINE(TSPEC_TV_SEC, offsetof(struct timespec, tv_sec));
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DEFINE(TSPEC_TV_NSEC, offsetof(struct timespec, tv_nsec));
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BLANK();
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DEFINE(TZ_MINWEST, offsetof(struct timezone, tz_minuteswest));
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DEFINE(TZ_DSTTIME, offsetof(struct timezone, tz_dsttime));
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BLANK();
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DEFINE(CPU_BOOT_STACK, offsetof(struct secondary_data, stack));
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DEFINE(CPU_BOOT_TASK, offsetof(struct secondary_data, task));
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BLANK();
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#ifdef CONFIG_KVM_ARM_HOST
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DEFINE(VCPU_CONTEXT, offsetof(struct kvm_vcpu, arch.ctxt));
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DEFINE(CPU_GP_REGS, offsetof(struct kvm_cpu_context, gp_regs));
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DEFINE(CPU_USER_PT_REGS, offsetof(struct kvm_regs, regs));
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DEFINE(CPU_FP_REGS, offsetof(struct kvm_regs, fp_regs));
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DEFINE(VCPU_FPEXC32_EL2, offsetof(struct kvm_vcpu, arch.ctxt.sys_regs[FPEXC32_EL2]));
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DEFINE(VCPU_HOST_CONTEXT, offsetof(struct kvm_vcpu, arch.host_cpu_context));
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#endif
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#ifdef CONFIG_CPU_PM
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DEFINE(CPU_SUSPEND_SZ, sizeof(struct cpu_suspend_ctx));
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DEFINE(CPU_CTX_SP, offsetof(struct cpu_suspend_ctx, sp));
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DEFINE(MPIDR_HASH_MASK, offsetof(struct mpidr_hash, mask));
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DEFINE(MPIDR_HASH_SHIFTS, offsetof(struct mpidr_hash, shift_aff));
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DEFINE(SLEEP_STACK_DATA_SYSTEM_REGS, offsetof(struct sleep_stack_data, system_regs));
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DEFINE(SLEEP_STACK_DATA_CALLEE_REGS, offsetof(struct sleep_stack_data, callee_saved_regs));
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#endif
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DEFINE(ARM_SMCCC_RES_X0_OFFS, offsetof(struct arm_smccc_res, a0));
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DEFINE(ARM_SMCCC_RES_X2_OFFS, offsetof(struct arm_smccc_res, a2));
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DEFINE(ARM_SMCCC_QUIRK_ID_OFFS, offsetof(struct arm_smccc_quirk, id));
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DEFINE(ARM_SMCCC_QUIRK_STATE_OFFS, offsetof(struct arm_smccc_quirk, state));
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BLANK();
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DEFINE(HIBERN_PBE_ORIG, offsetof(struct pbe, orig_address));
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DEFINE(HIBERN_PBE_ADDR, offsetof(struct pbe, address));
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DEFINE(HIBERN_PBE_NEXT, offsetof(struct pbe, next));
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DEFINE(ARM64_FTR_SYSVAL, offsetof(struct arm64_ftr_reg, sys_val));
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return 0;
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}
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