diff --git a/cipher/asm-common-aarch64.h b/cipher/asm-common-aarch64.h index 451539e8..d3f7801c 100644 --- a/cipher/asm-common-aarch64.h +++ b/cipher/asm-common-aarch64.h @@ -1,108 +1,130 @@ /* asm-common-aarch64.h - Common macros for AArch64 assembly * * Copyright (C) 2018 Martin Storsjö * * This file is part of Libgcrypt. * * Libgcrypt is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as * published by the Free Software Foundation; either version 2.1 of * the License, or (at your option) any later version. * * Libgcrypt is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this program; if not, see . */ #ifndef GCRY_ASM_COMMON_AARCH64_H #define GCRY_ASM_COMMON_AARCH64_H #include #ifdef HAVE_GCC_ASM_ELF_DIRECTIVES # define ELF(...) __VA_ARGS__ #else # define ELF(...) /*_*/ #endif #ifdef __APPLE__ #define GET_DATA_POINTER(reg, name) \ adrp reg, name@GOTPAGE ; \ add reg, reg, name@GOTPAGEOFF ; #elif defined(_WIN32) #define GET_DATA_POINTER(reg, name) \ adrp reg, name ; \ add reg, reg, #:lo12:name ; #else #define GET_DATA_POINTER(reg, name) \ adrp reg, :got:name ; \ ldr reg, [reg, #:got_lo12:name] ; #endif #ifdef HAVE_GCC_ASM_CFI_DIRECTIVES /* CFI directives to emit DWARF stack unwinding information. */ # define CFI_STARTPROC() .cfi_startproc # define CFI_ENDPROC() .cfi_endproc # define CFI_REMEMBER_STATE() .cfi_remember_state # define CFI_RESTORE_STATE() .cfi_restore_state # define CFI_ADJUST_CFA_OFFSET(off) .cfi_adjust_cfa_offset off # define CFI_REL_OFFSET(reg,off) .cfi_rel_offset reg, off # define CFI_DEF_CFA_REGISTER(reg) .cfi_def_cfa_register reg # define CFI_REGISTER(ro,rn) .cfi_register ro, rn # define CFI_RESTORE(reg) .cfi_restore reg /* CFA expressions are used for pointing CFA and registers to * SP relative offsets. */ # define DW_REGNO_SP 31 /* Fixed length encoding used for integers for now. */ # define DW_SLEB128_7BIT(value) \ 0x00|((value) & 0x7f) # define DW_SLEB128_28BIT(value) \ 0x80|((value)&0x7f), \ 0x80|(((value)>>7)&0x7f), \ 0x80|(((value)>>14)&0x7f), \ 0x00|(((value)>>21)&0x7f) # define CFI_CFA_ON_STACK(rsp_offs,cfa_depth) \ .cfi_escape \ 0x0f, /* DW_CFA_def_cfa_expression */ \ DW_SLEB128_7BIT(11), /* length */ \ 0x8f, /* DW_OP_breg31, rsp + constant */ \ DW_SLEB128_28BIT(rsp_offs), \ 0x06, /* DW_OP_deref */ \ 0x23, /* DW_OP_plus_constu */ \ DW_SLEB128_28BIT((cfa_depth)+8) # define CFI_REG_ON_STACK(regno,rsp_offs) \ .cfi_escape \ 0x10, /* DW_CFA_expression */ \ DW_SLEB128_7BIT(regno), \ DW_SLEB128_7BIT(5), /* length */ \ 0x8f, /* DW_OP_breg31, rsp + constant */ \ DW_SLEB128_28BIT(rsp_offs) #else # define CFI_STARTPROC() # define CFI_ENDPROC() # define CFI_REMEMBER_STATE() # define CFI_RESTORE_STATE() # define CFI_ADJUST_CFA_OFFSET(off) # define CFI_REL_OFFSET(reg,off) # define CFI_DEF_CFA_REGISTER(reg) # define CFI_REGISTER(ro,rn) # define CFI_RESTORE(reg) # define CFI_CFA_ON_STACK(rsp_offs,cfa_depth) # define CFI_REG_ON_STACK(reg,rsp_offs) #endif /* 'ret' instruction replacement for straight-line speculation mitigation */ #define ret_spec_stop \ ret; dsb sy; isb; +#define CLEAR_REG(reg) movi reg.16b, #0; + +#define VPUSH_ABI \ + stp d8, d9, [sp, #-16]!; \ + CFI_ADJUST_CFA_OFFSET(16); \ + stp d10, d11, [sp, #-16]!; \ + CFI_ADJUST_CFA_OFFSET(16); \ + stp d12, d13, [sp, #-16]!; \ + CFI_ADJUST_CFA_OFFSET(16); \ + stp d14, d15, [sp, #-16]!; \ + CFI_ADJUST_CFA_OFFSET(16); + +#define VPOP_ABI \ + ldp d14, d15, [sp], #16; \ + CFI_ADJUST_CFA_OFFSET(-16); \ + ldp d12, d13, [sp], #16; \ + CFI_ADJUST_CFA_OFFSET(-16); \ + ldp d10, d11, [sp], #16; \ + CFI_ADJUST_CFA_OFFSET(-16); \ + ldp d8, d9, [sp], #16; \ + CFI_ADJUST_CFA_OFFSET(-16); + #endif /* GCRY_ASM_COMMON_AARCH64_H */ diff --git a/cipher/cipher-gcm-armv8-aarch64-ce.S b/cipher/cipher-gcm-armv8-aarch64-ce.S index e6714249..687fabe3 100644 --- a/cipher/cipher-gcm-armv8-aarch64-ce.S +++ b/cipher/cipher-gcm-armv8-aarch64-ce.S @@ -1,652 +1,630 @@ /* cipher-gcm-armv8-aarch64-ce.S - ARM/CE accelerated GHASH * Copyright (C) 2016 Jussi Kivilinna * * This file is part of Libgcrypt. * * Libgcrypt is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as * published by the Free Software Foundation; either version 2.1 of * the License, or (at your option) any later version. * * Libgcrypt is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this program; if not, see . */ #include "asm-common-aarch64.h" #if defined(__AARCH64EL__) && \ defined(HAVE_COMPATIBLE_GCC_AARCH64_PLATFORM_AS) && \ defined(HAVE_GCC_INLINE_ASM_AARCH64_CRYPTO) .cpu generic+simd+crypto .text /* Constants */ .align 4 gcry_gcm_reduction_constant: .Lrconst: .quad 0x87 /* Register macros */ #define rhash v0 #define rr0 v1 #define rr1 v2 #define rbuf v3 #define rbuf1 v4 #define rbuf2 v5 #define rbuf3 v6 #define rbuf4 v7 #define rbuf5 v8 #define rr2 v9 #define rr3 v10 #define rr4 v11 #define rr5 v12 #define rr6 v13 #define rr7 v14 #define rr8 v15 #define rr9 v16 #define rrconst v18 #define rh1 v19 #define rh2 v20 #define rh3 v21 #define rh4 v22 #define rh5 v23 #define rh6 v24 #define t0 v25 #define t1 v26 #define t2 v27 #define t3 v28 #define t4 v29 #define t5 v30 #define vZZ v31 /* GHASH macros */ /* See "Gouvêa, C. P. L. & López, J. Implementing GCM on ARMv8. Topics in * Cryptology — CT-RSA 2015" for details. */ /* Input: 'a' and 'b', Output: 'r0:r1' (low 128-bits in r0, high in r1) */ #define PMUL_128x128(r0, r1, a, b, T0, T1, interleave_op) \ ext T0.16b, b.16b, b.16b, #8; \ pmull r0.1q, a.1d, b.1d; \ pmull2 r1.1q, a.2d, b.2d; \ pmull T1.1q, a.1d, T0.1d; \ pmull2 T0.1q, a.2d, T0.2d; \ interleave_op; \ eor T0.16b, T0.16b, T1.16b; \ ext T1.16b, vZZ.16b, T0.16b, #8; \ ext T0.16b, T0.16b, vZZ.16b, #8; \ eor r0.16b, r0.16b, T1.16b; \ eor r1.16b, r1.16b, T0.16b; /* Input: 'aA' and 'bA', Output: 'r0A:r1A' (low 128-bits in r0A, high in r1A) * Input: 'aB' and 'bB', Output: 'r0B:r1B' (low 128-bits in r0B, high in r1B) * Input: 'aC' and 'bC', Output: 'r0C:r1C' (low 128-bits in r0C, high in r1C) */ #define PMUL_128x128_3(r0A, r1A, aA, bA, t0A, t1A, \ r0B, r1B, aB, bB, t0B, t1B, \ r0C, r1C, aC, bC, t0C, t1C, interleave_op) \ ext t0A.16b, bA.16b, bA.16b, #8; \ pmull r0A.1q, aA.1d, bA.1d; \ pmull2 r1A.1q, aA.2d, bA.2d; \ ext t0B.16b, bB.16b, bB.16b, #8; \ pmull r0B.1q, aB.1d, bB.1d; \ pmull2 r1B.1q, aB.2d, bB.2d; \ ext t0C.16b, bC.16b, bC.16b, #8; \ pmull r0C.1q, aC.1d, bC.1d; \ pmull2 r1C.1q, aC.2d, bC.2d; \ pmull t1A.1q, aA.1d, t0A.1d; \ pmull2 t0A.1q, aA.2d, t0A.2d; \ pmull t1B.1q, aB.1d, t0B.1d; \ pmull2 t0B.1q, aB.2d, t0B.2d; \ pmull t1C.1q, aC.1d, t0C.1d; \ pmull2 t0C.1q, aC.2d, t0C.2d; \ eor t0A.16b, t0A.16b, t1A.16b; \ eor t0B.16b, t0B.16b, t1B.16b; \ eor t0C.16b, t0C.16b, t1C.16b; \ interleave_op; \ ext t1A.16b, vZZ.16b, t0A.16b, #8; \ ext t0A.16b, t0A.16b, vZZ.16b, #8; \ ext t1B.16b, vZZ.16b, t0B.16b, #8; \ ext t0B.16b, t0B.16b, vZZ.16b, #8; \ ext t1C.16b, vZZ.16b, t0C.16b, #8; \ ext t0C.16b, t0C.16b, vZZ.16b, #8; \ eor r0A.16b, r0A.16b, t1A.16b; \ eor r1A.16b, r1A.16b, t0A.16b; \ eor r0B.16b, r0B.16b, t1B.16b; \ eor r1B.16b, r1B.16b, t0B.16b; \ eor r0C.16b, r0C.16b, t1C.16b; \ eor r1C.16b, r1C.16b, t0C.16b; \ /* Input: 'r0:r1', Output: 'a' */ #define REDUCTION(a, r0, r1, rconst, T0, T1, interleave_op1, interleave_op2, \ interleave_op3) \ pmull2 T0.1q, r1.2d, rconst.2d; \ interleave_op1; \ ext T1.16b, T0.16b, vZZ.16b, #8; \ ext T0.16b, vZZ.16b, T0.16b, #8; \ interleave_op2; \ eor r1.16b, r1.16b, T1.16b; \ eor r0.16b, r0.16b, T0.16b; \ pmull T0.1q, r1.1d, rconst.1d; \ interleave_op3; \ eor a.16b, r0.16b, T0.16b; /* Other functional macros */ #define _(...) __VA_ARGS__ #define __ _() -#define CLEAR_REG(reg) movi reg.16b, #0; - -#define VPUSH_ABI \ - stp d8, d9, [sp, #-16]!; \ - CFI_ADJUST_CFA_OFFSET(16); \ - stp d10, d11, [sp, #-16]!; \ - CFI_ADJUST_CFA_OFFSET(16); \ - stp d12, d13, [sp, #-16]!; \ - CFI_ADJUST_CFA_OFFSET(16); \ - stp d14, d15, [sp, #-16]!; \ - CFI_ADJUST_CFA_OFFSET(16); - -#define VPOP_ABI \ - ldp d14, d15, [sp], #16; \ - CFI_ADJUST_CFA_OFFSET(-16); \ - ldp d12, d13, [sp], #16; \ - CFI_ADJUST_CFA_OFFSET(-16); \ - ldp d10, d11, [sp], #16; \ - CFI_ADJUST_CFA_OFFSET(-16); \ - ldp d8, d9, [sp], #16; \ - CFI_ADJUST_CFA_OFFSET(-16); - /* * unsigned int _gcry_ghash_armv8_ce_pmull (void *gcm_key, byte *result, * const byte *buf, size_t nblocks, * void *gcm_table); */ .align 3 .globl _gcry_ghash_armv8_ce_pmull ELF(.type _gcry_ghash_armv8_ce_pmull,%function;) _gcry_ghash_armv8_ce_pmull: /* input: * x0: gcm_key * x1: result/hash * x2: buf * x3: nblocks * x4: gcm_table */ CFI_STARTPROC(); cbz x3, .Ldo_nothing; GET_DATA_POINTER(x5, .Lrconst) eor vZZ.16b, vZZ.16b, vZZ.16b ld1 {rhash.16b}, [x1] ld1 {rh1.16b}, [x0] rbit rhash.16b, rhash.16b /* bit-swap */ ld1r {rrconst.2d}, [x5] cmp x3, #6 b.lo .Less_than_6 add x6, x4, #64 VPUSH_ABI ld1 {rh2.16b-rh5.16b}, [x4] ld1 {rh6.16b}, [x6] sub x3, x3, #6 ld1 {rbuf.16b-rbuf2.16b}, [x2], #(3*16) ld1 {rbuf3.16b-rbuf5.16b}, [x2], #(3*16) rbit rbuf.16b, rbuf.16b /* bit-swap */ rbit rbuf1.16b, rbuf1.16b /* bit-swap */ rbit rbuf2.16b, rbuf2.16b /* bit-swap */ rbit rbuf3.16b, rbuf3.16b /* bit-swap */ rbit rbuf4.16b, rbuf4.16b /* bit-swap */ rbit rbuf5.16b, rbuf5.16b /* bit-swap */ eor rhash.16b, rhash.16b, rbuf.16b cmp x3, #6 b.lo .Lend_6 .Loop_6: /* (in1) * H⁵ => rr0:rr1 */ /* (in2) * H⁴ => rr2:rr3 */ /* (in0 ^ hash) * H⁶ => rr4:rr5 */ PMUL_128x128_3(rr0, rr1, rbuf1, rh5, t0, t1, rr2, rr3, rbuf2, rh4, t2, t3, rr4, rr5, rhash, rh6, t4, t5, _(sub x3, x3, #6)) ld1 {rbuf.16b-rbuf2.16b}, [x2], #(3*16) cmp x3, #6 eor rr0.16b, rr0.16b, rr2.16b eor rr1.16b, rr1.16b, rr3.16b /* (in3) * H³ => rr2:rr3 */ /* (in4) * H² => rr6:rr7 */ /* (in5) * H¹ => rr8:rr9 */ PMUL_128x128_3(rr2, rr3, rbuf3, rh3, t0, t1, rr6, rr7, rbuf4, rh2, t2, t3, rr8, rr9, rbuf5, rh1, t4, t5, _(eor rr0.16b, rr0.16b, rr4.16b; eor rr1.16b, rr1.16b, rr5.16b)) eor rr0.16b, rr0.16b, rr2.16b eor rr1.16b, rr1.16b, rr3.16b rbit rbuf.16b, rbuf.16b eor rr0.16b, rr0.16b, rr6.16b eor rr1.16b, rr1.16b, rr7.16b rbit rbuf1.16b, rbuf1.16b eor rr0.16b, rr0.16b, rr8.16b eor rr1.16b, rr1.16b, rr9.16b ld1 {rbuf3.16b-rbuf5.16b}, [x2], #(3*16) REDUCTION(rhash, rr0, rr1, rrconst, t0, t1, _(rbit rbuf2.16b, rbuf2.16b), _(rbit rbuf3.16b, rbuf3.16b), _(rbit rbuf4.16b, rbuf4.16b)) rbit rbuf5.16b, rbuf5.16b eor rhash.16b, rhash.16b, rbuf.16b b.hs .Loop_6 .Lend_6: /* (in1) * H⁵ => rr0:rr1 */ /* (in0 ^ hash) * H⁶ => rr2:rr3 */ /* (in2) * H⁴ => rr4:rr5 */ PMUL_128x128_3(rr0, rr1, rbuf1, rh5, t0, t1, rr2, rr3, rhash, rh6, t2, t3, rr4, rr5, rbuf2, rh4, t4, t5, __) eor rr0.16b, rr0.16b, rr2.16b eor rr1.16b, rr1.16b, rr3.16b eor rr0.16b, rr0.16b, rr4.16b eor rr1.16b, rr1.16b, rr5.16b /* (in3) * H³ => rhash:rbuf */ /* (in4) * H² => rr6:rr7 */ /* (in5) * H¹ => rr8:rr9 */ PMUL_128x128_3(rhash, rbuf, rbuf3, rh3, t0, t1, rr6, rr7, rbuf4, rh2, t2, t3, rr8, rr9, rbuf5, rh1, t4, t5, _(CLEAR_REG(rh4); CLEAR_REG(rh5); CLEAR_REG(rh6))) eor rr0.16b, rr0.16b, rhash.16b eor rr1.16b, rr1.16b, rbuf.16b eor rr0.16b, rr0.16b, rr6.16b eor rr1.16b, rr1.16b, rr7.16b eor rr0.16b, rr0.16b, rr8.16b eor rr1.16b, rr1.16b, rr9.16b REDUCTION(rhash, rr0, rr1, rrconst, t0, t1, _(CLEAR_REG(rh2); CLEAR_REG(rh3); CLEAR_REG(rr2); CLEAR_REG(rbuf2); CLEAR_REG(rbuf3)), _(CLEAR_REG(rr3); CLEAR_REG(rr4); CLEAR_REG(rr5); CLEAR_REG(rr6); CLEAR_REG(rr7)), _(CLEAR_REG(rr8); CLEAR_REG(rr9); CLEAR_REG(rbuf1); CLEAR_REG(rbuf2))) CLEAR_REG(rbuf4) CLEAR_REG(rbuf5) CLEAR_REG(t2) CLEAR_REG(t3) CLEAR_REG(t4) CLEAR_REG(t5) VPOP_ABI cbz x3, .Ldone .Less_than_6: /* Handle remaining blocks. */ ld1 {rbuf.16b}, [x2], #16 sub x3, x3, #1 rbit rbuf.16b, rbuf.16b /* bit-swap */ eor rhash.16b, rhash.16b, rbuf.16b cbz x3, .Lend .Loop: PMUL_128x128(rr0, rr1, rh1, rhash, t0, t1, _(ld1 {rbuf.16b}, [x2], #16)) REDUCTION(rhash, rr0, rr1, rrconst, t0, t1, _(sub x3, x3, #1), _(rbit rbuf.16b, rbuf.16b), __) eor rhash.16b, rhash.16b, rbuf.16b cbnz x3, .Loop .Lend: PMUL_128x128(rr0, rr1, rh1, rhash, t0, t1, _(CLEAR_REG(rbuf))) REDUCTION(rhash, rr0, rr1, rrconst, t0, t1, __, _(CLEAR_REG(rh1)), __) .Ldone: CLEAR_REG(rr1) CLEAR_REG(rr0) rbit rhash.16b, rhash.16b /* bit-swap */ CLEAR_REG(t0) CLEAR_REG(t1) st1 {rhash.2d}, [x1] CLEAR_REG(rhash) .Ldo_nothing: mov x0, #0 ret_spec_stop CFI_ENDPROC() ELF(.size _gcry_ghash_armv8_ce_pmull,.-_gcry_ghash_armv8_ce_pmull;) /* * unsigned int _gcry_polyval_armv8_ce_pmull (void *gcm_key, byte *result, * const byte *buf, size_t nblocks, * void *gcm_table); */ .align 3 .globl _gcry_polyval_armv8_ce_pmull ELF(.type _gcry_polyval_armv8_ce_pmull,%function;) _gcry_polyval_armv8_ce_pmull: /* input: * x0: gcm_key * x1: result/hash * x2: buf * x3: nblocks * x4: gcm_table */ CFI_STARTPROC(); cbz x3, .Lpolyval_do_nothing; GET_DATA_POINTER(x5, .Lrconst) eor vZZ.16b, vZZ.16b, vZZ.16b ld1 {rhash.16b}, [x1] ld1 {rh1.16b}, [x0] rbit rhash.16b, rhash.16b /* bit-swap */ ld1r {rrconst.2d}, [x5] cmp x3, #6 b.lo .Lpolyval_less_than_6 add x6, x4, #64 VPUSH_ABI ld1 {rh2.16b-rh5.16b}, [x4] ld1 {rh6.16b}, [x6] sub x3, x3, #6 ld1 {rbuf.16b-rbuf2.16b}, [x2], #(3*16) ld1 {rbuf3.16b-rbuf5.16b}, [x2], #(3*16) rev64 rbuf.16b, rbuf.16b /* byte-swap */ rev64 rbuf1.16b, rbuf1.16b /* byte-swap */ rev64 rbuf2.16b, rbuf2.16b /* byte-swap */ rev64 rbuf3.16b, rbuf3.16b /* byte-swap */ rev64 rbuf4.16b, rbuf4.16b /* byte-swap */ rev64 rbuf5.16b, rbuf5.16b /* byte-swap */ ext rbuf.16b, rbuf.16b, rbuf.16b, #8 /* byte-swap */ ext rbuf1.16b, rbuf1.16b, rbuf1.16b, #8 /* byte-swap */ ext rbuf2.16b, rbuf2.16b, rbuf2.16b, #8 /* byte-swap */ ext rbuf3.16b, rbuf3.16b, rbuf3.16b, #8 /* byte-swap */ ext rbuf4.16b, rbuf4.16b, rbuf4.16b, #8 /* byte-swap */ ext rbuf5.16b, rbuf5.16b, rbuf5.16b, #8 /* byte-swap */ rbit rbuf.16b, rbuf.16b /* bit-swap */ rbit rbuf1.16b, rbuf1.16b /* bit-swap */ rbit rbuf2.16b, rbuf2.16b /* bit-swap */ rbit rbuf3.16b, rbuf3.16b /* bit-swap */ rbit rbuf4.16b, rbuf4.16b /* bit-swap */ rbit rbuf5.16b, rbuf5.16b /* bit-swap */ eor rhash.16b, rhash.16b, rbuf.16b cmp x3, #6 b.lo .Lpolyval_end_6 .Lpolyval_loop_6: /* (in1) * H⁵ => rr0:rr1 */ /* (in2) * H⁴ => rr2:rr3 */ /* (in0 ^ hash) * H⁶ => rr4:rr5 */ PMUL_128x128_3(rr0, rr1, rbuf1, rh5, t0, t1, rr2, rr3, rbuf2, rh4, t2, t3, rr4, rr5, rhash, rh6, t4, t5, _(sub x3, x3, #6)) ld1 {rbuf.16b-rbuf2.16b}, [x2], #(3*16) cmp x3, #6 eor rr0.16b, rr0.16b, rr2.16b eor rr1.16b, rr1.16b, rr3.16b /* (in3) * H³ => rr2:rr3 */ /* (in4) * H² => rr6:rr7 */ /* (in5) * H¹ => rr8:rr9 */ PMUL_128x128_3(rr2, rr3, rbuf3, rh3, t0, t1, rr6, rr7, rbuf4, rh2, t2, t3, rr8, rr9, rbuf5, rh1, t4, t5, _(eor rr0.16b, rr0.16b, rr4.16b; eor rr1.16b, rr1.16b, rr5.16b)) rev64 rbuf.16b, rbuf.16b /* byte-swap */ rev64 rbuf1.16b, rbuf1.16b /* byte-swap */ rev64 rbuf2.16b, rbuf2.16b /* byte-swap */ ext rbuf.16b, rbuf.16b, rbuf.16b, #8 /* byte-swap */ ext rbuf1.16b, rbuf1.16b, rbuf1.16b, #8 /* byte-swap */ ext rbuf2.16b, rbuf2.16b, rbuf2.16b, #8 /* byte-swap */ eor rr0.16b, rr0.16b, rr2.16b eor rr1.16b, rr1.16b, rr3.16b rbit rbuf.16b, rbuf.16b /* bit-swap */ eor rr0.16b, rr0.16b, rr6.16b eor rr1.16b, rr1.16b, rr7.16b rbit rbuf1.16b, rbuf1.16b /* bit-swap */ eor rr0.16b, rr0.16b, rr8.16b eor rr1.16b, rr1.16b, rr9.16b ld1 {rbuf3.16b-rbuf5.16b}, [x2], #(3*16) REDUCTION(rhash, rr0, rr1, rrconst, t0, t1, _(rbit rbuf2.16b, rbuf2.16b), /* bit-swap */ _(rev64 rbuf3.16b, rbuf3.16b), /* byte-swap */ _(rev64 rbuf4.16b, rbuf4.16b)) /* byte-swap */ rev64 rbuf5.16b, rbuf5.16b /* byte-swap */ ext rbuf3.16b, rbuf3.16b, rbuf3.16b, #8 /* byte-swap */ eor rhash.16b, rhash.16b, rbuf.16b ext rbuf4.16b, rbuf4.16b, rbuf4.16b, #8 /* byte-swap */ ext rbuf5.16b, rbuf5.16b, rbuf5.16b, #8 /* byte-swap */ rbit rbuf3.16b, rbuf3.16b /* bit-swap */ rbit rbuf4.16b, rbuf4.16b /* bit-swap */ rbit rbuf5.16b, rbuf5.16b /* bit-swap */ b.hs .Lpolyval_loop_6 .Lpolyval_end_6: /* (in1) * H⁵ => rr0:rr1 */ /* (in0 ^ hash) * H⁶ => rr2:rr3 */ /* (in2) * H⁴ => rr4:rr5 */ PMUL_128x128_3(rr0, rr1, rbuf1, rh5, t0, t1, rr2, rr3, rhash, rh6, t2, t3, rr4, rr5, rbuf2, rh4, t4, t5, __) eor rr0.16b, rr0.16b, rr2.16b eor rr1.16b, rr1.16b, rr3.16b eor rr0.16b, rr0.16b, rr4.16b eor rr1.16b, rr1.16b, rr5.16b /* (in3) * H³ => rhash:rbuf */ /* (in4) * H² => rr6:rr7 */ /* (in5) * H¹ => rr8:rr9 */ PMUL_128x128_3(rhash, rbuf, rbuf3, rh3, t0, t1, rr6, rr7, rbuf4, rh2, t2, t3, rr8, rr9, rbuf5, rh1, t4, t5, _(CLEAR_REG(rh4); CLEAR_REG(rh5); CLEAR_REG(rh6))) eor rr0.16b, rr0.16b, rhash.16b eor rr1.16b, rr1.16b, rbuf.16b eor rr0.16b, rr0.16b, rr6.16b eor rr1.16b, rr1.16b, rr7.16b eor rr0.16b, rr0.16b, rr8.16b eor rr1.16b, rr1.16b, rr9.16b REDUCTION(rhash, rr0, rr1, rrconst, t0, t1, _(CLEAR_REG(rh2); CLEAR_REG(rh3); CLEAR_REG(rr2); CLEAR_REG(rbuf2); CLEAR_REG(rbuf3)), _(CLEAR_REG(rr3); CLEAR_REG(rr4); CLEAR_REG(rr5); CLEAR_REG(rr6); CLEAR_REG(rr7)), _(CLEAR_REG(rr8); CLEAR_REG(rr9); CLEAR_REG(rbuf1); CLEAR_REG(rbuf2))) CLEAR_REG(rbuf4) CLEAR_REG(rbuf5) CLEAR_REG(t2) CLEAR_REG(t3) CLEAR_REG(t4) CLEAR_REG(t5) VPOP_ABI cbz x3, .Lpolyval_done .Lpolyval_less_than_6: /* Handle remaining blocks. */ ld1 {rbuf.16b}, [x2], #16 sub x3, x3, #1 rev64 rbuf.16b, rbuf.16b /* byte-swap */ ext rbuf.16b, rbuf.16b, rbuf.16b, #8 /* byte-swap */ rbit rbuf.16b, rbuf.16b /* bit-swap */ eor rhash.16b, rhash.16b, rbuf.16b cbz x3, .Lpolyval_end .Lpolyval_loop: PMUL_128x128(rr0, rr1, rh1, rhash, t0, t1, _(ld1 {rbuf.16b}, [x2], #16)) REDUCTION(rhash, rr0, rr1, rrconst, t0, t1, _(sub x3, x3, #1; rev64 rbuf.16b, rbuf.16b), /* byte-swap */ _(ext rbuf.16b, rbuf.16b, rbuf.16b, #8), /* byte-swap */ _(rbit rbuf.16b, rbuf.16b)) /* bit-swap */ eor rhash.16b, rhash.16b, rbuf.16b cbnz x3, .Lpolyval_loop .Lpolyval_end: PMUL_128x128(rr0, rr1, rh1, rhash, t0, t1, _(CLEAR_REG(rbuf))) REDUCTION(rhash, rr0, rr1, rrconst, t0, t1, __, _(CLEAR_REG(rh1)), __) .Lpolyval_done: CLEAR_REG(rr1) CLEAR_REG(rr0) rbit rhash.16b, rhash.16b /* bit-swap */ CLEAR_REG(t0) CLEAR_REG(t1) st1 {rhash.2d}, [x1] CLEAR_REG(rhash) .Lpolyval_do_nothing: mov x0, #0 ret_spec_stop CFI_ENDPROC() ELF(.size _gcry_polyval_armv8_ce_pmull,.-_gcry_polyval_armv8_ce_pmull;) /* * void _gcry_ghash_setup_armv8_ce_pmull (void *gcm_key, void *gcm_table); */ .align 3 .globl _gcry_ghash_setup_armv8_ce_pmull ELF(.type _gcry_ghash_setup_armv8_ce_pmull,%function;) _gcry_ghash_setup_armv8_ce_pmull: /* input: * x0: gcm_key * x1: gcm_table */ CFI_STARTPROC() GET_DATA_POINTER(x2, .Lrconst) eor vZZ.16b, vZZ.16b, vZZ.16b /* H¹ */ ld1 {rh1.16b}, [x0] rbit rh1.16b, rh1.16b st1 {rh1.16b}, [x0] ld1r {rrconst.2d}, [x2] /* H² */ PMUL_128x128(rr0, rr1, rh1, rh1, t0, t1, __) REDUCTION(rh2, rr0, rr1, rrconst, t0, t1, __, __, __) /* H³ */ PMUL_128x128(rr0, rr1, rh2, rh1, t0, t1, __) REDUCTION(rh3, rr0, rr1, rrconst, t0, t1, __, __, __) /* H⁴ */ PMUL_128x128(rr0, rr1, rh2, rh2, t0, t1, __) REDUCTION(rh4, rr0, rr1, rrconst, t0, t1, __, __, __) /* H⁵ */ PMUL_128x128(rr0, rr1, rh2, rh3, t0, t1, __) REDUCTION(rh5, rr0, rr1, rrconst, t0, t1, __, __, __) /* H⁶ */ PMUL_128x128(rr0, rr1, rh3, rh3, t0, t1, __) REDUCTION(rh6, rr0, rr1, rrconst, t0, t1, __, __, __) st1 {rh2.16b-rh4.16b}, [x1], #(3*16) st1 {rh5.16b-rh6.16b}, [x1] ret_spec_stop CFI_ENDPROC() ELF(.size _gcry_ghash_setup_armv8_ce_pmull,.-_gcry_ghash_setup_armv8_ce_pmull;) #endif