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34b8ab091f
Since ARMv8.1 supplement introduced LSE atomic instructions back in 2016, lets add support for STADD and use that in favor of LDXR / STXR loop for the XADD mapping if available. STADD is encoded as an alias for LDADD with XZR as the destination register, therefore add LDADD to the instruction encoder along with STADD as special case and use it in the JIT for CPUs that advertise LSE atomics in CPUID register. If immediate offset in the BPF XADD insn is 0, then use dst register directly instead of temporary one. Signed-off-by: Daniel Borkmann <daniel@iogearbox.net> Acked-by: Jean-Philippe Brucker <jean-philippe.brucker@arm.com> Acked-by: Will Deacon <will.deacon@arm.com> Signed-off-by: Alexei Starovoitov <ast@kernel.org>
201 lines
8.3 KiB
C
201 lines
8.3 KiB
C
/*
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* BPF JIT compiler for ARM64
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*
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* Copyright (C) 2014-2016 Zi Shen Lim <zlim.lnx@gmail.com>
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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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#ifndef _BPF_JIT_H
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#define _BPF_JIT_H
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#include <asm/insn.h>
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/* 5-bit Register Operand */
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#define A64_R(x) AARCH64_INSN_REG_##x
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#define A64_FP AARCH64_INSN_REG_FP
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#define A64_LR AARCH64_INSN_REG_LR
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#define A64_ZR AARCH64_INSN_REG_ZR
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#define A64_SP AARCH64_INSN_REG_SP
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#define A64_VARIANT(sf) \
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((sf) ? AARCH64_INSN_VARIANT_64BIT : AARCH64_INSN_VARIANT_32BIT)
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/* Compare & branch (immediate) */
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#define A64_COMP_BRANCH(sf, Rt, offset, type) \
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aarch64_insn_gen_comp_branch_imm(0, offset, Rt, A64_VARIANT(sf), \
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AARCH64_INSN_BRANCH_COMP_##type)
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#define A64_CBZ(sf, Rt, imm19) A64_COMP_BRANCH(sf, Rt, (imm19) << 2, ZERO)
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#define A64_CBNZ(sf, Rt, imm19) A64_COMP_BRANCH(sf, Rt, (imm19) << 2, NONZERO)
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/* Conditional branch (immediate) */
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#define A64_COND_BRANCH(cond, offset) \
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aarch64_insn_gen_cond_branch_imm(0, offset, cond)
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#define A64_COND_EQ AARCH64_INSN_COND_EQ /* == */
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#define A64_COND_NE AARCH64_INSN_COND_NE /* != */
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#define A64_COND_CS AARCH64_INSN_COND_CS /* unsigned >= */
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#define A64_COND_HI AARCH64_INSN_COND_HI /* unsigned > */
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#define A64_COND_LS AARCH64_INSN_COND_LS /* unsigned <= */
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#define A64_COND_CC AARCH64_INSN_COND_CC /* unsigned < */
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#define A64_COND_GE AARCH64_INSN_COND_GE /* signed >= */
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#define A64_COND_GT AARCH64_INSN_COND_GT /* signed > */
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#define A64_COND_LE AARCH64_INSN_COND_LE /* signed <= */
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#define A64_COND_LT AARCH64_INSN_COND_LT /* signed < */
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#define A64_B_(cond, imm19) A64_COND_BRANCH(cond, (imm19) << 2)
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/* Unconditional branch (immediate) */
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#define A64_BRANCH(offset, type) aarch64_insn_gen_branch_imm(0, offset, \
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AARCH64_INSN_BRANCH_##type)
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#define A64_B(imm26) A64_BRANCH((imm26) << 2, NOLINK)
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#define A64_BL(imm26) A64_BRANCH((imm26) << 2, LINK)
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/* Unconditional branch (register) */
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#define A64_BR(Rn) aarch64_insn_gen_branch_reg(Rn, AARCH64_INSN_BRANCH_NOLINK)
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#define A64_BLR(Rn) aarch64_insn_gen_branch_reg(Rn, AARCH64_INSN_BRANCH_LINK)
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#define A64_RET(Rn) aarch64_insn_gen_branch_reg(Rn, AARCH64_INSN_BRANCH_RETURN)
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/* Load/store register (register offset) */
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#define A64_LS_REG(Rt, Rn, Rm, size, type) \
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aarch64_insn_gen_load_store_reg(Rt, Rn, Rm, \
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AARCH64_INSN_SIZE_##size, \
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AARCH64_INSN_LDST_##type##_REG_OFFSET)
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#define A64_STRB(Wt, Xn, Xm) A64_LS_REG(Wt, Xn, Xm, 8, STORE)
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#define A64_LDRB(Wt, Xn, Xm) A64_LS_REG(Wt, Xn, Xm, 8, LOAD)
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#define A64_STRH(Wt, Xn, Xm) A64_LS_REG(Wt, Xn, Xm, 16, STORE)
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#define A64_LDRH(Wt, Xn, Xm) A64_LS_REG(Wt, Xn, Xm, 16, LOAD)
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#define A64_STR32(Wt, Xn, Xm) A64_LS_REG(Wt, Xn, Xm, 32, STORE)
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#define A64_LDR32(Wt, Xn, Xm) A64_LS_REG(Wt, Xn, Xm, 32, LOAD)
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#define A64_STR64(Xt, Xn, Xm) A64_LS_REG(Xt, Xn, Xm, 64, STORE)
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#define A64_LDR64(Xt, Xn, Xm) A64_LS_REG(Xt, Xn, Xm, 64, LOAD)
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/* Load/store register pair */
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#define A64_LS_PAIR(Rt, Rt2, Rn, offset, ls, type) \
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aarch64_insn_gen_load_store_pair(Rt, Rt2, Rn, offset, \
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AARCH64_INSN_VARIANT_64BIT, \
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AARCH64_INSN_LDST_##ls##_PAIR_##type)
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/* Rn -= 16; Rn[0] = Rt; Rn[8] = Rt2; */
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#define A64_PUSH(Rt, Rt2, Rn) A64_LS_PAIR(Rt, Rt2, Rn, -16, STORE, PRE_INDEX)
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/* Rt = Rn[0]; Rt2 = Rn[8]; Rn += 16; */
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#define A64_POP(Rt, Rt2, Rn) A64_LS_PAIR(Rt, Rt2, Rn, 16, LOAD, POST_INDEX)
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/* Load/store exclusive */
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#define A64_SIZE(sf) \
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((sf) ? AARCH64_INSN_SIZE_64 : AARCH64_INSN_SIZE_32)
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#define A64_LSX(sf, Rt, Rn, Rs, type) \
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aarch64_insn_gen_load_store_ex(Rt, Rn, Rs, A64_SIZE(sf), \
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AARCH64_INSN_LDST_##type)
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/* Rt = [Rn]; (atomic) */
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#define A64_LDXR(sf, Rt, Rn) \
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A64_LSX(sf, Rt, Rn, A64_ZR, LOAD_EX)
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/* [Rn] = Rt; (atomic) Rs = [state] */
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#define A64_STXR(sf, Rt, Rn, Rs) \
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A64_LSX(sf, Rt, Rn, Rs, STORE_EX)
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/* LSE atomics */
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#define A64_STADD(sf, Rn, Rs) \
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aarch64_insn_gen_stadd(Rn, Rs, A64_SIZE(sf))
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/* Add/subtract (immediate) */
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#define A64_ADDSUB_IMM(sf, Rd, Rn, imm12, type) \
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aarch64_insn_gen_add_sub_imm(Rd, Rn, imm12, \
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A64_VARIANT(sf), AARCH64_INSN_ADSB_##type)
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/* Rd = Rn OP imm12 */
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#define A64_ADD_I(sf, Rd, Rn, imm12) A64_ADDSUB_IMM(sf, Rd, Rn, imm12, ADD)
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#define A64_SUB_I(sf, Rd, Rn, imm12) A64_ADDSUB_IMM(sf, Rd, Rn, imm12, SUB)
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/* Rd = Rn */
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#define A64_MOV(sf, Rd, Rn) A64_ADD_I(sf, Rd, Rn, 0)
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/* Bitfield move */
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#define A64_BITFIELD(sf, Rd, Rn, immr, imms, type) \
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aarch64_insn_gen_bitfield(Rd, Rn, immr, imms, \
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A64_VARIANT(sf), AARCH64_INSN_BITFIELD_MOVE_##type)
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/* Signed, with sign replication to left and zeros to right */
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#define A64_SBFM(sf, Rd, Rn, ir, is) A64_BITFIELD(sf, Rd, Rn, ir, is, SIGNED)
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/* Unsigned, with zeros to left and right */
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#define A64_UBFM(sf, Rd, Rn, ir, is) A64_BITFIELD(sf, Rd, Rn, ir, is, UNSIGNED)
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/* Rd = Rn << shift */
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#define A64_LSL(sf, Rd, Rn, shift) ({ \
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int sz = (sf) ? 64 : 32; \
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A64_UBFM(sf, Rd, Rn, (unsigned)-(shift) % sz, sz - 1 - (shift)); \
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})
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/* Rd = Rn >> shift */
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#define A64_LSR(sf, Rd, Rn, shift) A64_UBFM(sf, Rd, Rn, shift, (sf) ? 63 : 31)
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/* Rd = Rn >> shift; signed */
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#define A64_ASR(sf, Rd, Rn, shift) A64_SBFM(sf, Rd, Rn, shift, (sf) ? 63 : 31)
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/* Zero extend */
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#define A64_UXTH(sf, Rd, Rn) A64_UBFM(sf, Rd, Rn, 0, 15)
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#define A64_UXTW(sf, Rd, Rn) A64_UBFM(sf, Rd, Rn, 0, 31)
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/* Move wide (immediate) */
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#define A64_MOVEW(sf, Rd, imm16, shift, type) \
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aarch64_insn_gen_movewide(Rd, imm16, shift, \
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A64_VARIANT(sf), AARCH64_INSN_MOVEWIDE_##type)
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/* Rd = Zeros (for MOVZ);
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* Rd |= imm16 << shift (where shift is {0, 16, 32, 48});
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* Rd = ~Rd; (for MOVN); */
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#define A64_MOVN(sf, Rd, imm16, shift) A64_MOVEW(sf, Rd, imm16, shift, INVERSE)
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#define A64_MOVZ(sf, Rd, imm16, shift) A64_MOVEW(sf, Rd, imm16, shift, ZERO)
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#define A64_MOVK(sf, Rd, imm16, shift) A64_MOVEW(sf, Rd, imm16, shift, KEEP)
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/* Add/subtract (shifted register) */
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#define A64_ADDSUB_SREG(sf, Rd, Rn, Rm, type) \
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aarch64_insn_gen_add_sub_shifted_reg(Rd, Rn, Rm, 0, \
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A64_VARIANT(sf), AARCH64_INSN_ADSB_##type)
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/* Rd = Rn OP Rm */
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#define A64_ADD(sf, Rd, Rn, Rm) A64_ADDSUB_SREG(sf, Rd, Rn, Rm, ADD)
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#define A64_SUB(sf, Rd, Rn, Rm) A64_ADDSUB_SREG(sf, Rd, Rn, Rm, SUB)
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#define A64_SUBS(sf, Rd, Rn, Rm) A64_ADDSUB_SREG(sf, Rd, Rn, Rm, SUB_SETFLAGS)
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/* Rd = -Rm */
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#define A64_NEG(sf, Rd, Rm) A64_SUB(sf, Rd, A64_ZR, Rm)
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/* Rn - Rm; set condition flags */
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#define A64_CMP(sf, Rn, Rm) A64_SUBS(sf, A64_ZR, Rn, Rm)
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/* Data-processing (1 source) */
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#define A64_DATA1(sf, Rd, Rn, type) aarch64_insn_gen_data1(Rd, Rn, \
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A64_VARIANT(sf), AARCH64_INSN_DATA1_##type)
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/* Rd = BSWAPx(Rn) */
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#define A64_REV16(sf, Rd, Rn) A64_DATA1(sf, Rd, Rn, REVERSE_16)
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#define A64_REV32(sf, Rd, Rn) A64_DATA1(sf, Rd, Rn, REVERSE_32)
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#define A64_REV64(Rd, Rn) A64_DATA1(1, Rd, Rn, REVERSE_64)
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/* Data-processing (2 source) */
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/* Rd = Rn OP Rm */
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#define A64_DATA2(sf, Rd, Rn, Rm, type) aarch64_insn_gen_data2(Rd, Rn, Rm, \
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A64_VARIANT(sf), AARCH64_INSN_DATA2_##type)
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#define A64_UDIV(sf, Rd, Rn, Rm) A64_DATA2(sf, Rd, Rn, Rm, UDIV)
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#define A64_LSLV(sf, Rd, Rn, Rm) A64_DATA2(sf, Rd, Rn, Rm, LSLV)
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#define A64_LSRV(sf, Rd, Rn, Rm) A64_DATA2(sf, Rd, Rn, Rm, LSRV)
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#define A64_ASRV(sf, Rd, Rn, Rm) A64_DATA2(sf, Rd, Rn, Rm, ASRV)
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/* Data-processing (3 source) */
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/* Rd = Ra + Rn * Rm */
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#define A64_MADD(sf, Rd, Ra, Rn, Rm) aarch64_insn_gen_data3(Rd, Ra, Rn, Rm, \
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A64_VARIANT(sf), AARCH64_INSN_DATA3_MADD)
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/* Rd = Rn * Rm */
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#define A64_MUL(sf, Rd, Rn, Rm) A64_MADD(sf, Rd, A64_ZR, Rn, Rm)
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/* Logical (shifted register) */
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#define A64_LOGIC_SREG(sf, Rd, Rn, Rm, type) \
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aarch64_insn_gen_logical_shifted_reg(Rd, Rn, Rm, 0, \
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A64_VARIANT(sf), AARCH64_INSN_LOGIC_##type)
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/* Rd = Rn OP Rm */
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#define A64_AND(sf, Rd, Rn, Rm) A64_LOGIC_SREG(sf, Rd, Rn, Rm, AND)
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#define A64_ORR(sf, Rd, Rn, Rm) A64_LOGIC_SREG(sf, Rd, Rn, Rm, ORR)
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#define A64_EOR(sf, Rd, Rn, Rm) A64_LOGIC_SREG(sf, Rd, Rn, Rm, EOR)
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#define A64_ANDS(sf, Rd, Rn, Rm) A64_LOGIC_SREG(sf, Rd, Rn, Rm, AND_SETFLAGS)
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/* Rn & Rm; set condition flags */
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#define A64_TST(sf, Rn, Rm) A64_ANDS(sf, A64_ZR, Rn, Rm)
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#endif /* _BPF_JIT_H */
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