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360 lines
12 KiB
C
360 lines
12 KiB
C
/* Copyright (C) 2009-2022 Free Software Foundation, Inc.
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Contributed by ARM Ltd.
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This file is part of GDB.
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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 as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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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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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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#ifndef ARCH_AARCH64_INSN_H
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#define ARCH_AARCH64_INSN_H
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extern bool aarch64_debug;
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/* Print an "aarch64" debug statement. */
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#define aarch64_debug_printf(fmt, ...) \
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debug_prefixed_printf_cond (aarch64_debug, "aarch64", fmt, ##__VA_ARGS__)
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/* Support routines for instruction parsing. */
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/* Create a mask of X bits. */
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#define submask(x) ((1L << ((x) + 1)) - 1)
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/* Extract the bitfield from OBJ starting at bit ST and ending at bit FN. */
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#define bits(obj,st,fn) (((obj) >> (st)) & submask ((fn) - (st)))
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/* Extract bit ST from OBJ. */
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#define bit(obj,st) (((obj) >> (st)) & 1)
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/* Extract the signed bitfield from OBJ starting at bit ST and ending at
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bit FN. The result is sign-extended. */
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#define sbits(obj,st,fn) \
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((long) (bits(obj,st,fn) | ((long) bit(obj,fn) * ~ submask (fn - st))))
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/* Prologue analyzer helper macros. */
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/* Is the instruction "bti"? */
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#define IS_BTI(instruction) ((instruction & 0xffffff3f) == 0xd503241f)
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/* List of opcodes that we need for building the jump pad and relocating
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an instruction. */
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enum aarch64_opcodes
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{
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/* B 0001 01ii iiii iiii iiii iiii iiii iiii */
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/* BL 1001 01ii iiii iiii iiii iiii iiii iiii */
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/* B.COND 0101 0100 iiii iiii iiii iiii iii0 cccc */
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/* CBZ s011 0100 iiii iiii iiii iiii iiir rrrr */
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/* CBNZ s011 0101 iiii iiii iiii iiii iiir rrrr */
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/* TBZ b011 0110 bbbb biii iiii iiii iiir rrrr */
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/* TBNZ b011 0111 bbbb biii iiii iiii iiir rrrr */
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B = 0x14000000,
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BL = 0x80000000 | B,
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BCOND = 0x40000000 | B,
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CBZ = 0x20000000 | B,
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CBNZ = 0x21000000 | B,
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TBZ = 0x36000000 | B,
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TBNZ = 0x37000000 | B,
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/* BR 1101 0110 0001 1111 0000 00rr rrr0 0000 */
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/* BLR 1101 0110 0011 1111 0000 00rr rrr0 0000 */
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BR = 0xd61f0000,
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BLR = 0xd63f0000,
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/* RET 1101 0110 0101 1111 0000 00rr rrr0 0000 */
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RET = 0xd65f0000,
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/* STP s010 100o o0ii iiii irrr rrrr rrrr rrrr */
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/* LDP s010 100o o1ii iiii irrr rrrr rrrr rrrr */
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/* STP (SIMD&VFP) ss10 110o o0ii iiii irrr rrrr rrrr rrrr */
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/* LDP (SIMD&VFP) ss10 110o o1ii iiii irrr rrrr rrrr rrrr */
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STP = 0x28000000,
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LDP = 0x28400000,
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STP_SIMD_VFP = 0x04000000 | STP,
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LDP_SIMD_VFP = 0x04000000 | LDP,
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/* STR ss11 100o 00xi iiii iiii xxrr rrrr rrrr */
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/* LDR ss11 100o 01xi iiii iiii xxrr rrrr rrrr */
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/* LDRSW 1011 100o 10xi iiii iiii xxrr rrrr rrrr */
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STR = 0x38000000,
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LDR = 0x00400000 | STR,
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LDRSW = 0x80800000 | STR,
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/* LDAXR ss00 1000 0101 1111 1111 11rr rrrr rrrr */
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LDAXR = 0x085ffc00,
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/* STXR ss00 1000 000r rrrr 0111 11rr rrrr rrrr */
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STXR = 0x08007c00,
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/* STLR ss00 1000 1001 1111 1111 11rr rrrr rrrr */
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STLR = 0x089ffc00,
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/* MOV s101 0010 1xxi iiii iiii iiii iiir rrrr */
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/* MOVK s111 0010 1xxi iiii iiii iiii iiir rrrr */
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MOV = 0x52800000,
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MOVK = 0x20000000 | MOV,
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/* ADD s00o ooo1 xxxx xxxx xxxx xxxx xxxx xxxx */
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/* SUB s10o ooo1 xxxx xxxx xxxx xxxx xxxx xxxx */
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/* SUBS s11o ooo1 xxxx xxxx xxxx xxxx xxxx xxxx */
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ADD = 0x01000000,
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SUB = 0x40000000 | ADD,
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SUBS = 0x20000000 | SUB,
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/* AND s000 1010 xx0x xxxx xxxx xxxx xxxx xxxx */
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/* ORR s010 1010 xx0x xxxx xxxx xxxx xxxx xxxx */
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/* ORN s010 1010 xx1x xxxx xxxx xxxx xxxx xxxx */
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/* EOR s100 1010 xx0x xxxx xxxx xxxx xxxx xxxx */
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AND = 0x0a000000,
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ORR = 0x20000000 | AND,
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ORN = 0x00200000 | ORR,
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EOR = 0x40000000 | AND,
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/* LSLV s001 1010 110r rrrr 0010 00rr rrrr rrrr */
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/* LSRV s001 1010 110r rrrr 0010 01rr rrrr rrrr */
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/* ASRV s001 1010 110r rrrr 0010 10rr rrrr rrrr */
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LSLV = 0x1ac02000,
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LSRV = 0x00000400 | LSLV,
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ASRV = 0x00000800 | LSLV,
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/* SBFM s001 0011 0nii iiii iiii iirr rrrr rrrr */
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SBFM = 0x13000000,
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/* UBFM s101 0011 0nii iiii iiii iirr rrrr rrrr */
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UBFM = 0x40000000 | SBFM,
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/* CSINC s001 1010 100r rrrr cccc 01rr rrrr rrrr */
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CSINC = 0x9a800400,
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/* MUL s001 1011 000r rrrr 0111 11rr rrrr rrrr */
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MUL = 0x1b007c00,
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/* MSR (register) 1101 0101 0001 oooo oooo oooo ooor rrrr */
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/* MRS 1101 0101 0011 oooo oooo oooo ooor rrrr */
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MSR = 0xd5100000,
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MRS = 0x00200000 | MSR,
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/* HINT 1101 0101 0000 0011 0010 oooo ooo1 1111 */
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HINT = 0xd503201f,
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SEVL = (5 << 5) | HINT,
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WFE = (2 << 5) | HINT,
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NOP = (0 << 5) | HINT,
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};
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/* List of useful masks. */
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enum aarch64_masks
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{
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/* Used for masking out an Rn argument from an opcode. */
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CLEAR_Rn_MASK = 0xfffffc1f,
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};
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/* Representation of a general purpose register of the form xN or wN.
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This type is used by emitting functions that take registers as operands. */
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struct aarch64_register
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{
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unsigned num;
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int is64;
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};
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enum aarch64_memory_operand_type
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{
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MEMORY_OPERAND_OFFSET,
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MEMORY_OPERAND_PREINDEX,
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MEMORY_OPERAND_POSTINDEX,
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};
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/* Representation of a memory operand, used for load and store
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instructions.
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The types correspond to the following variants:
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MEMORY_OPERAND_OFFSET: LDR rt, [rn, #offset]
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MEMORY_OPERAND_PREINDEX: LDR rt, [rn, #index]!
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MEMORY_OPERAND_POSTINDEX: LDR rt, [rn], #index */
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struct aarch64_memory_operand
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{
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/* Type of the operand. */
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enum aarch64_memory_operand_type type;
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/* Index from the base register. */
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int32_t index;
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};
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/* Helper macro to mask and shift a value into a bitfield. */
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#define ENCODE(val, size, offset) \
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((uint32_t) ((val & ((1ULL << size) - 1)) << offset))
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int aarch64_decode_adr (CORE_ADDR addr, uint32_t insn, int *is_adrp,
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unsigned *rd, int32_t *offset);
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int aarch64_decode_b (CORE_ADDR addr, uint32_t insn, int *is_bl,
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int32_t *offset);
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int aarch64_decode_bcond (CORE_ADDR addr, uint32_t insn, unsigned *cond,
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int32_t *offset);
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int aarch64_decode_cb (CORE_ADDR addr, uint32_t insn, int *is64,
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int *is_cbnz, unsigned *rn, int32_t *offset);
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int aarch64_decode_tb (CORE_ADDR addr, uint32_t insn, int *is_tbnz,
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unsigned *bit, unsigned *rt, int32_t *imm);
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int aarch64_decode_ldr_literal (CORE_ADDR addr, uint32_t insn, int *is_w,
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int *is64, unsigned *rt, int32_t *offset);
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/* Data passed to each method of aarch64_insn_visitor. */
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struct aarch64_insn_data
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{
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/* The instruction address. */
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CORE_ADDR insn_addr;
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};
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/* Visit different instructions by different methods. */
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struct aarch64_insn_visitor
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{
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/* Visit instruction B/BL OFFSET. */
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void (*b) (const int is_bl, const int32_t offset,
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struct aarch64_insn_data *data);
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/* Visit instruction B.COND OFFSET. */
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void (*b_cond) (const unsigned cond, const int32_t offset,
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struct aarch64_insn_data *data);
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/* Visit instruction CBZ/CBNZ Rn, OFFSET. */
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void (*cb) (const int32_t offset, const int is_cbnz,
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const unsigned rn, int is64,
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struct aarch64_insn_data *data);
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/* Visit instruction TBZ/TBNZ Rt, #BIT, OFFSET. */
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void (*tb) (const int32_t offset, int is_tbnz,
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const unsigned rt, unsigned bit,
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struct aarch64_insn_data *data);
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/* Visit instruction ADR/ADRP Rd, OFFSET. */
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void (*adr) (const int32_t offset, const unsigned rd,
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const int is_adrp, struct aarch64_insn_data *data);
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/* Visit instruction LDR/LDRSW Rt, OFFSET. */
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void (*ldr_literal) (const int32_t offset, const int is_sw,
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const unsigned rt, const int is64,
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struct aarch64_insn_data *data);
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/* Visit instruction INSN of other kinds. */
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void (*others) (const uint32_t insn, struct aarch64_insn_data *data);
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};
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void aarch64_relocate_instruction (uint32_t insn,
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const struct aarch64_insn_visitor *visitor,
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struct aarch64_insn_data *data);
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#define can_encode_int32(val, bits) \
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(((val) >> (bits)) == 0 || ((val) >> (bits)) == -1)
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/* Write a B or BL instruction into *BUF.
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B #offset
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BL #offset
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IS_BL specifies if the link register should be updated.
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OFFSET is the immediate offset from the current PC. It is
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byte-addressed but should be 4 bytes aligned. It has a limited range of
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+/- 128MB (26 bits << 2). */
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#define emit_b(buf, is_bl, offset) \
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aarch64_emit_insn (buf, ((is_bl) ? BL : B) | (ENCODE ((offset) >> 2, 26, 0)))
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/* Write a BCOND instruction into *BUF.
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B.COND #offset
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COND specifies the condition field.
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OFFSET is the immediate offset from the current PC. It is
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byte-addressed but should be 4 bytes aligned. It has a limited range of
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+/- 1MB (19 bits << 2). */
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#define emit_bcond(buf, cond, offset) \
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aarch64_emit_insn (buf, \
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BCOND | ENCODE ((offset) >> 2, 19, 5) \
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| ENCODE ((cond), 4, 0))
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/* Write a CBZ or CBNZ instruction into *BUF.
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CBZ rt, #offset
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CBNZ rt, #offset
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IS_CBNZ distinguishes between CBZ and CBNZ instructions.
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RN is the register to test.
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OFFSET is the immediate offset from the current PC. It is
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byte-addressed but should be 4 bytes aligned. It has a limited range of
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+/- 1MB (19 bits << 2). */
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#define emit_cb(buf, is_cbnz, rt, offset) \
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aarch64_emit_insn (buf, \
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((is_cbnz) ? CBNZ : CBZ) \
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| ENCODE (rt.is64, 1, 31) /* sf */ \
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| ENCODE (offset >> 2, 19, 5) /* imm19 */ \
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| ENCODE (rt.num, 5, 0))
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/* Write a LDR instruction into *BUF.
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LDR rt, [rn, #offset]
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LDR rt, [rn, #index]!
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LDR rt, [rn], #index
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RT is the register to store.
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RN is the base address register.
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OFFSET is the immediate to add to the base address. It is limited to
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0 .. 32760 range (12 bits << 3). */
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#define emit_ldr(buf, rt, rn, operand) \
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aarch64_emit_load_store (buf, rt.is64 ? 3 : 2, LDR, rt, rn, operand)
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/* Write a LDRSW instruction into *BUF. The register size is 64-bit.
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LDRSW xt, [rn, #offset]
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LDRSW xt, [rn, #index]!
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LDRSW xt, [rn], #index
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RT is the register to store.
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RN is the base address register.
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OFFSET is the immediate to add to the base address. It is limited to
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0 .. 16380 range (12 bits << 2). */
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#define emit_ldrsw(buf, rt, rn, operand) \
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aarch64_emit_load_store (buf, 3, LDRSW, rt, rn, operand)
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/* Write a TBZ or TBNZ instruction into *BUF.
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TBZ rt, #bit, #offset
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TBNZ rt, #bit, #offset
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IS_TBNZ distinguishes between TBZ and TBNZ instructions.
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RT is the register to test.
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BIT is the index of the bit to test in register RT.
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OFFSET is the immediate offset from the current PC. It is
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byte-addressed but should be 4 bytes aligned. It has a limited range of
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+/- 32KB (14 bits << 2). */
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#define emit_tb(buf, is_tbnz, bit, rt, offset) \
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aarch64_emit_insn (buf, \
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((is_tbnz) ? TBNZ: TBZ) \
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| ENCODE (bit >> 5, 1, 31) /* b5 */ \
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| ENCODE (bit, 5, 19) /* b40 */ \
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| ENCODE (offset >> 2, 14, 5) /* imm14 */ \
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| ENCODE (rt.num, 5, 0))
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/* Write a NOP instruction into *BUF. */
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#define emit_nop(buf) aarch64_emit_insn (buf, NOP)
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int aarch64_emit_insn (uint32_t *buf, uint32_t insn);
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int aarch64_emit_load_store (uint32_t *buf, uint32_t size,
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enum aarch64_opcodes opcode,
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struct aarch64_register rt,
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struct aarch64_register rn,
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struct aarch64_memory_operand operand);
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#endif /* ARCH_AARCH64_INSN_H */
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