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35af0d469c
Inline assembly code changed in this patch should really use "Q" constraint "Memory reference without index register and with short displacement". The kernel build with kasan instrumentation enabled might occasionally break otherwise (due to stack instrumentation). Signed-off-by: Vasily Gorbik <gor@linux.ibm.com> Signed-off-by: Martin Schwidefsky <schwidefsky@de.ibm.com>
178 lines
5.9 KiB
C
178 lines
5.9 KiB
C
// SPDX-License-Identifier: GPL-2.0
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/*
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* In-kernel vector facility support functions
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*
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* Copyright IBM Corp. 2015
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* Author(s): Hendrik Brueckner <brueckner@linux.vnet.ibm.com>
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*/
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#include <linux/kernel.h>
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#include <linux/cpu.h>
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#include <linux/sched.h>
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#include <asm/fpu/types.h>
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#include <asm/fpu/api.h>
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asm(".include \"asm/vx-insn.h\"\n");
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void __kernel_fpu_begin(struct kernel_fpu *state, u32 flags)
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{
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/*
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* Limit the save to the FPU/vector registers already
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* in use by the previous context
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*/
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flags &= state->mask;
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if (flags & KERNEL_FPC)
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/* Save floating point control */
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asm volatile("stfpc %0" : "=Q" (state->fpc));
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if (!MACHINE_HAS_VX) {
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if (flags & KERNEL_VXR_V0V7) {
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/* Save floating-point registers */
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asm volatile("std 0,%0" : "=Q" (state->fprs[0]));
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asm volatile("std 1,%0" : "=Q" (state->fprs[1]));
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asm volatile("std 2,%0" : "=Q" (state->fprs[2]));
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asm volatile("std 3,%0" : "=Q" (state->fprs[3]));
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asm volatile("std 4,%0" : "=Q" (state->fprs[4]));
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asm volatile("std 5,%0" : "=Q" (state->fprs[5]));
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asm volatile("std 6,%0" : "=Q" (state->fprs[6]));
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asm volatile("std 7,%0" : "=Q" (state->fprs[7]));
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asm volatile("std 8,%0" : "=Q" (state->fprs[8]));
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asm volatile("std 9,%0" : "=Q" (state->fprs[9]));
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asm volatile("std 10,%0" : "=Q" (state->fprs[10]));
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asm volatile("std 11,%0" : "=Q" (state->fprs[11]));
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asm volatile("std 12,%0" : "=Q" (state->fprs[12]));
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asm volatile("std 13,%0" : "=Q" (state->fprs[13]));
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asm volatile("std 14,%0" : "=Q" (state->fprs[14]));
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asm volatile("std 15,%0" : "=Q" (state->fprs[15]));
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}
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return;
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}
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/* Test and save vector registers */
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asm volatile (
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/*
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* Test if any vector register must be saved and, if so,
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* test if all register can be saved.
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*/
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" la 1,%[vxrs]\n" /* load save area */
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" tmll %[m],30\n" /* KERNEL_VXR */
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" jz 7f\n" /* no work -> done */
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" jo 5f\n" /* -> save V0..V31 */
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/*
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* Test for special case KERNEL_FPU_MID only. In this
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* case a vstm V8..V23 is the best instruction
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*/
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" chi %[m],12\n" /* KERNEL_VXR_MID */
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" jne 0f\n" /* -> save V8..V23 */
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" VSTM 8,23,128,1\n" /* vstm %v8,%v23,128(%r1) */
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" j 7f\n"
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/* Test and save the first half of 16 vector registers */
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"0: tmll %[m],6\n" /* KERNEL_VXR_LOW */
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" jz 3f\n" /* -> KERNEL_VXR_HIGH */
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" jo 2f\n" /* 11 -> save V0..V15 */
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" brc 2,1f\n" /* 10 -> save V8..V15 */
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" VSTM 0,7,0,1\n" /* vstm %v0,%v7,0(%r1) */
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" j 3f\n"
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"1: VSTM 8,15,128,1\n" /* vstm %v8,%v15,128(%r1) */
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" j 3f\n"
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"2: VSTM 0,15,0,1\n" /* vstm %v0,%v15,0(%r1) */
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/* Test and save the second half of 16 vector registers */
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"3: tmll %[m],24\n" /* KERNEL_VXR_HIGH */
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" jz 7f\n"
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" jo 6f\n" /* 11 -> save V16..V31 */
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" brc 2,4f\n" /* 10 -> save V24..V31 */
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" VSTM 16,23,256,1\n" /* vstm %v16,%v23,256(%r1) */
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" j 7f\n"
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"4: VSTM 24,31,384,1\n" /* vstm %v24,%v31,384(%r1) */
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" j 7f\n"
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"5: VSTM 0,15,0,1\n" /* vstm %v0,%v15,0(%r1) */
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"6: VSTM 16,31,256,1\n" /* vstm %v16,%v31,256(%r1) */
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"7:"
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: [vxrs] "=Q" (*(struct vx_array *) &state->vxrs)
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: [m] "d" (flags)
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: "1", "cc");
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}
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EXPORT_SYMBOL(__kernel_fpu_begin);
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void __kernel_fpu_end(struct kernel_fpu *state, u32 flags)
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{
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/*
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* Limit the restore to the FPU/vector registers of the
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* previous context that have been overwritte by the
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* current context
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*/
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flags &= state->mask;
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if (flags & KERNEL_FPC)
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/* Restore floating-point controls */
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asm volatile("lfpc %0" : : "Q" (state->fpc));
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if (!MACHINE_HAS_VX) {
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if (flags & KERNEL_VXR_V0V7) {
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/* Restore floating-point registers */
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asm volatile("ld 0,%0" : : "Q" (state->fprs[0]));
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asm volatile("ld 1,%0" : : "Q" (state->fprs[1]));
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asm volatile("ld 2,%0" : : "Q" (state->fprs[2]));
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asm volatile("ld 3,%0" : : "Q" (state->fprs[3]));
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asm volatile("ld 4,%0" : : "Q" (state->fprs[4]));
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asm volatile("ld 5,%0" : : "Q" (state->fprs[5]));
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asm volatile("ld 6,%0" : : "Q" (state->fprs[6]));
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asm volatile("ld 7,%0" : : "Q" (state->fprs[7]));
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asm volatile("ld 8,%0" : : "Q" (state->fprs[8]));
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asm volatile("ld 9,%0" : : "Q" (state->fprs[9]));
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asm volatile("ld 10,%0" : : "Q" (state->fprs[10]));
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asm volatile("ld 11,%0" : : "Q" (state->fprs[11]));
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asm volatile("ld 12,%0" : : "Q" (state->fprs[12]));
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asm volatile("ld 13,%0" : : "Q" (state->fprs[13]));
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asm volatile("ld 14,%0" : : "Q" (state->fprs[14]));
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asm volatile("ld 15,%0" : : "Q" (state->fprs[15]));
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}
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return;
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}
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/* Test and restore (load) vector registers */
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asm volatile (
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/*
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* Test if any vector register must be loaded and, if so,
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* test if all registers can be loaded at once.
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*/
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" la 1,%[vxrs]\n" /* load restore area */
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" tmll %[m],30\n" /* KERNEL_VXR */
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" jz 7f\n" /* no work -> done */
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" jo 5f\n" /* -> restore V0..V31 */
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/*
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* Test for special case KERNEL_FPU_MID only. In this
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* case a vlm V8..V23 is the best instruction
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*/
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" chi %[m],12\n" /* KERNEL_VXR_MID */
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" jne 0f\n" /* -> restore V8..V23 */
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" VLM 8,23,128,1\n" /* vlm %v8,%v23,128(%r1) */
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" j 7f\n"
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/* Test and restore the first half of 16 vector registers */
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"0: tmll %[m],6\n" /* KERNEL_VXR_LOW */
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" jz 3f\n" /* -> KERNEL_VXR_HIGH */
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" jo 2f\n" /* 11 -> restore V0..V15 */
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" brc 2,1f\n" /* 10 -> restore V8..V15 */
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" VLM 0,7,0,1\n" /* vlm %v0,%v7,0(%r1) */
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" j 3f\n"
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"1: VLM 8,15,128,1\n" /* vlm %v8,%v15,128(%r1) */
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" j 3f\n"
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"2: VLM 0,15,0,1\n" /* vlm %v0,%v15,0(%r1) */
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/* Test and restore the second half of 16 vector registers */
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"3: tmll %[m],24\n" /* KERNEL_VXR_HIGH */
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" jz 7f\n"
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" jo 6f\n" /* 11 -> restore V16..V31 */
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" brc 2,4f\n" /* 10 -> restore V24..V31 */
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" VLM 16,23,256,1\n" /* vlm %v16,%v23,256(%r1) */
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" j 7f\n"
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"4: VLM 24,31,384,1\n" /* vlm %v24,%v31,384(%r1) */
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" j 7f\n"
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"5: VLM 0,15,0,1\n" /* vlm %v0,%v15,0(%r1) */
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"6: VLM 16,31,256,1\n" /* vlm %v16,%v31,256(%r1) */
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"7:"
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: [vxrs] "=Q" (*(struct vx_array *) &state->vxrs)
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: [m] "d" (flags)
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: "1", "cc");
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}
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EXPORT_SYMBOL(__kernel_fpu_end);
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