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43e5146436
Hyper-v XMM fast hypercalls use XMM registers to pass input/output parameters. To access these, hyperv.c can reuse some FPU register accessors defined in emulator.c. Move them to a common location so both can access them. While at it, reorder the parameters of these accessor methods to make them more readable. Cc: Alexander Graf <graf@amazon.com> Cc: Evgeny Iakovlev <eyakovl@amazon.de> Signed-off-by: Siddharth Chandrasekaran <sidcha@amazon.de> Message-Id: <01a85a6560714d4d3637d3d86e5eba65073318fa.1622019133.git.sidcha@amazon.de> Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>
141 lines
4.5 KiB
C
141 lines
4.5 KiB
C
/* SPDX-License-Identifier: GPL-2.0 */
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#ifndef __KVM_FPU_H_
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#define __KVM_FPU_H_
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#include <asm/fpu/api.h>
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typedef u32 __attribute__((vector_size(16))) sse128_t;
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#define __sse128_u union { sse128_t vec; u64 as_u64[2]; u32 as_u32[4]; }
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#define sse128_lo(x) ({ __sse128_u t; t.vec = x; t.as_u64[0]; })
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#define sse128_hi(x) ({ __sse128_u t; t.vec = x; t.as_u64[1]; })
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#define sse128_l0(x) ({ __sse128_u t; t.vec = x; t.as_u32[0]; })
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#define sse128_l1(x) ({ __sse128_u t; t.vec = x; t.as_u32[1]; })
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#define sse128_l2(x) ({ __sse128_u t; t.vec = x; t.as_u32[2]; })
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#define sse128_l3(x) ({ __sse128_u t; t.vec = x; t.as_u32[3]; })
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#define sse128(lo, hi) ({ __sse128_u t; t.as_u64[0] = lo; t.as_u64[1] = hi; t.vec; })
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static inline void _kvm_read_sse_reg(int reg, sse128_t *data)
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{
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switch (reg) {
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case 0: asm("movdqa %%xmm0, %0" : "=m"(*data)); break;
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case 1: asm("movdqa %%xmm1, %0" : "=m"(*data)); break;
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case 2: asm("movdqa %%xmm2, %0" : "=m"(*data)); break;
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case 3: asm("movdqa %%xmm3, %0" : "=m"(*data)); break;
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case 4: asm("movdqa %%xmm4, %0" : "=m"(*data)); break;
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case 5: asm("movdqa %%xmm5, %0" : "=m"(*data)); break;
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case 6: asm("movdqa %%xmm6, %0" : "=m"(*data)); break;
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case 7: asm("movdqa %%xmm7, %0" : "=m"(*data)); break;
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#ifdef CONFIG_X86_64
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case 8: asm("movdqa %%xmm8, %0" : "=m"(*data)); break;
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case 9: asm("movdqa %%xmm9, %0" : "=m"(*data)); break;
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case 10: asm("movdqa %%xmm10, %0" : "=m"(*data)); break;
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case 11: asm("movdqa %%xmm11, %0" : "=m"(*data)); break;
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case 12: asm("movdqa %%xmm12, %0" : "=m"(*data)); break;
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case 13: asm("movdqa %%xmm13, %0" : "=m"(*data)); break;
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case 14: asm("movdqa %%xmm14, %0" : "=m"(*data)); break;
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case 15: asm("movdqa %%xmm15, %0" : "=m"(*data)); break;
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#endif
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default: BUG();
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}
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}
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static inline void _kvm_write_sse_reg(int reg, const sse128_t *data)
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{
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switch (reg) {
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case 0: asm("movdqa %0, %%xmm0" : : "m"(*data)); break;
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case 1: asm("movdqa %0, %%xmm1" : : "m"(*data)); break;
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case 2: asm("movdqa %0, %%xmm2" : : "m"(*data)); break;
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case 3: asm("movdqa %0, %%xmm3" : : "m"(*data)); break;
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case 4: asm("movdqa %0, %%xmm4" : : "m"(*data)); break;
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case 5: asm("movdqa %0, %%xmm5" : : "m"(*data)); break;
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case 6: asm("movdqa %0, %%xmm6" : : "m"(*data)); break;
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case 7: asm("movdqa %0, %%xmm7" : : "m"(*data)); break;
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#ifdef CONFIG_X86_64
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case 8: asm("movdqa %0, %%xmm8" : : "m"(*data)); break;
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case 9: asm("movdqa %0, %%xmm9" : : "m"(*data)); break;
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case 10: asm("movdqa %0, %%xmm10" : : "m"(*data)); break;
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case 11: asm("movdqa %0, %%xmm11" : : "m"(*data)); break;
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case 12: asm("movdqa %0, %%xmm12" : : "m"(*data)); break;
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case 13: asm("movdqa %0, %%xmm13" : : "m"(*data)); break;
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case 14: asm("movdqa %0, %%xmm14" : : "m"(*data)); break;
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case 15: asm("movdqa %0, %%xmm15" : : "m"(*data)); break;
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#endif
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default: BUG();
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}
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}
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static inline void _kvm_read_mmx_reg(int reg, u64 *data)
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{
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switch (reg) {
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case 0: asm("movq %%mm0, %0" : "=m"(*data)); break;
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case 1: asm("movq %%mm1, %0" : "=m"(*data)); break;
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case 2: asm("movq %%mm2, %0" : "=m"(*data)); break;
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case 3: asm("movq %%mm3, %0" : "=m"(*data)); break;
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case 4: asm("movq %%mm4, %0" : "=m"(*data)); break;
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case 5: asm("movq %%mm5, %0" : "=m"(*data)); break;
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case 6: asm("movq %%mm6, %0" : "=m"(*data)); break;
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case 7: asm("movq %%mm7, %0" : "=m"(*data)); break;
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default: BUG();
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}
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}
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static inline void _kvm_write_mmx_reg(int reg, const u64 *data)
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{
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switch (reg) {
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case 0: asm("movq %0, %%mm0" : : "m"(*data)); break;
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case 1: asm("movq %0, %%mm1" : : "m"(*data)); break;
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case 2: asm("movq %0, %%mm2" : : "m"(*data)); break;
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case 3: asm("movq %0, %%mm3" : : "m"(*data)); break;
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case 4: asm("movq %0, %%mm4" : : "m"(*data)); break;
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case 5: asm("movq %0, %%mm5" : : "m"(*data)); break;
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case 6: asm("movq %0, %%mm6" : : "m"(*data)); break;
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case 7: asm("movq %0, %%mm7" : : "m"(*data)); break;
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default: BUG();
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}
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}
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static inline void kvm_fpu_get(void)
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{
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fpregs_lock();
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fpregs_assert_state_consistent();
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if (test_thread_flag(TIF_NEED_FPU_LOAD))
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switch_fpu_return();
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}
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static inline void kvm_fpu_put(void)
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{
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fpregs_unlock();
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}
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static inline void kvm_read_sse_reg(int reg, sse128_t *data)
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{
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kvm_fpu_get();
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_kvm_read_sse_reg(reg, data);
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kvm_fpu_put();
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}
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static inline void kvm_write_sse_reg(int reg, const sse128_t *data)
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{
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kvm_fpu_get();
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_kvm_write_sse_reg(reg, data);
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kvm_fpu_put();
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}
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static inline void kvm_read_mmx_reg(int reg, u64 *data)
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{
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kvm_fpu_get();
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_kvm_read_mmx_reg(reg, data);
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kvm_fpu_put();
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}
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static inline void kvm_write_mmx_reg(int reg, const u64 *data)
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{
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kvm_fpu_get();
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_kvm_write_mmx_reg(reg, data);
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kvm_fpu_put();
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}
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#endif
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