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linux/arch/loongarch/include/asm/inst.h
Tiezhu Yang c1474bb0b7 LoongArch: BPF: Adjust the parameter of emit_jirl() 
The branch instructions beq, bne, blt, bge, bltu, bgeu and jirl belong
to the format reg2i16, but the sequence of oprand is different for the
instruction jirl. So adjust the parameter order of emit_jirl() to make
it more readable correspond with the Instruction Set Architecture manual.

Here are the instruction formats:

  beq     rj, rd, offs16
  bne     rj, rd, offs16
  blt     rj, rd, offs16
  bge     rj, rd, offs16
  bltu    rj, rd, offs16
  bgeu    rj, rd, offs16
  jirl    rd, rj, offs16

Link: https://loongson.github.io/LoongArch-Documentation/LoongArch-Vol1-EN.html#branch-instructions
Suggested-by: Huacai Chen <chenhuacai@loongson.cn>
Signed-off-by: Tiezhu Yang <yangtiezhu@loongson.cn>
Signed-off-by: Huacai Chen <chenhuacai@loongson.cn>
2024-12-02 16:42:08 +08:00

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/* SPDX-License-Identifier: GPL-2.0 */
/*
* Copyright (C) 2020-2022 Loongson Technology Corporation Limited
*/
#ifndef _ASM_INST_H
#define _ASM_INST_H
#include <linux/bitops.h>
#include <linux/types.h>
#include <asm/asm.h>
#include <asm/ptrace.h>
#define INSN_NOP 0x03400000
#define INSN_BREAK 0x002a0000
#define INSN_HVCL 0x002b8000
#define ADDR_IMMMASK_LU52ID 0xFFF0000000000000
#define ADDR_IMMMASK_LU32ID 0x000FFFFF00000000
#define ADDR_IMMMASK_LU12IW 0x00000000FFFFF000
#define ADDR_IMMMASK_ORI 0x0000000000000FFF
#define ADDR_IMMMASK_ADDU16ID 0x00000000FFFF0000
#define ADDR_IMMSHIFT_LU52ID 52
#define ADDR_IMMSBIDX_LU52ID 11
#define ADDR_IMMSHIFT_LU32ID 32
#define ADDR_IMMSBIDX_LU32ID 19
#define ADDR_IMMSHIFT_LU12IW 12
#define ADDR_IMMSBIDX_LU12IW 19
#define ADDR_IMMSHIFT_ORI 0
#define ADDR_IMMSBIDX_ORI 63
#define ADDR_IMMSHIFT_ADDU16ID 16
#define ADDR_IMMSBIDX_ADDU16ID 15
#define ADDR_IMM(addr, INSN) \
(sign_extend64(((addr & ADDR_IMMMASK_##INSN) >> ADDR_IMMSHIFT_##INSN), ADDR_IMMSBIDX_##INSN))
enum reg0i15_op {
break_op = 0x54,
};
enum reg0i26_op {
b_op = 0x14,
bl_op = 0x15,
};
enum reg1i20_op {
lu12iw_op = 0x0a,
lu32id_op = 0x0b,
pcaddi_op = 0x0c,
pcalau12i_op = 0x0d,
pcaddu12i_op = 0x0e,
pcaddu18i_op = 0x0f,
};
enum reg1i21_op {
beqz_op = 0x10,
bnez_op = 0x11,
bceqz_op = 0x12, /* bits[9:8] = 0x00 */
bcnez_op = 0x12, /* bits[9:8] = 0x01 */
};
enum reg2_op {
revb2h_op = 0x0c,
revb4h_op = 0x0d,
revb2w_op = 0x0e,
revbd_op = 0x0f,
revh2w_op = 0x10,
revhd_op = 0x11,
extwh_op = 0x16,
extwb_op = 0x17,
cpucfg_op = 0x1b,
iocsrrdb_op = 0x19200,
iocsrrdh_op = 0x19201,
iocsrrdw_op = 0x19202,
iocsrrdd_op = 0x19203,
iocsrwrb_op = 0x19204,
iocsrwrh_op = 0x19205,
iocsrwrw_op = 0x19206,
iocsrwrd_op = 0x19207,
};
enum reg2i5_op {
slliw_op = 0x81,
srliw_op = 0x89,
sraiw_op = 0x91,
};
enum reg2i6_op {
sllid_op = 0x41,
srlid_op = 0x45,
sraid_op = 0x49,
};
enum reg2i12_op {
addiw_op = 0x0a,
addid_op = 0x0b,
lu52id_op = 0x0c,
andi_op = 0x0d,
ori_op = 0x0e,
xori_op = 0x0f,
ldb_op = 0xa0,
ldh_op = 0xa1,
ldw_op = 0xa2,
ldd_op = 0xa3,
stb_op = 0xa4,
sth_op = 0xa5,
stw_op = 0xa6,
std_op = 0xa7,
ldbu_op = 0xa8,
ldhu_op = 0xa9,
ldwu_op = 0xaa,
flds_op = 0xac,
fsts_op = 0xad,
fldd_op = 0xae,
fstd_op = 0xaf,
};
enum reg2i14_op {
llw_op = 0x20,
scw_op = 0x21,
lld_op = 0x22,
scd_op = 0x23,
ldptrw_op = 0x24,
stptrw_op = 0x25,
ldptrd_op = 0x26,
stptrd_op = 0x27,
};
enum reg2i16_op {
jirl_op = 0x13,
beq_op = 0x16,
bne_op = 0x17,
blt_op = 0x18,
bge_op = 0x19,
bltu_op = 0x1a,
bgeu_op = 0x1b,
};
enum reg2bstrd_op {
bstrinsd_op = 0x2,
bstrpickd_op = 0x3,
};
enum reg3_op {
asrtle_op = 0x02,
asrtgt_op = 0x03,
addw_op = 0x20,
addd_op = 0x21,
subw_op = 0x22,
subd_op = 0x23,
nor_op = 0x28,
and_op = 0x29,
or_op = 0x2a,
xor_op = 0x2b,
orn_op = 0x2c,
andn_op = 0x2d,
sllw_op = 0x2e,
srlw_op = 0x2f,
sraw_op = 0x30,
slld_op = 0x31,
srld_op = 0x32,
srad_op = 0x33,
mulw_op = 0x38,
mulhw_op = 0x39,
mulhwu_op = 0x3a,
muld_op = 0x3b,
mulhd_op = 0x3c,
mulhdu_op = 0x3d,
divw_op = 0x40,
modw_op = 0x41,
divwu_op = 0x42,
modwu_op = 0x43,
divd_op = 0x44,
modd_op = 0x45,
divdu_op = 0x46,
moddu_op = 0x47,
ldxb_op = 0x7000,
ldxh_op = 0x7008,
ldxw_op = 0x7010,
ldxd_op = 0x7018,
stxb_op = 0x7020,
stxh_op = 0x7028,
stxw_op = 0x7030,
stxd_op = 0x7038,
ldxbu_op = 0x7040,
ldxhu_op = 0x7048,
ldxwu_op = 0x7050,
fldxs_op = 0x7060,
fldxd_op = 0x7068,
fstxs_op = 0x7070,
fstxd_op = 0x7078,
amswapw_op = 0x70c0,
amswapd_op = 0x70c1,
amaddw_op = 0x70c2,
amaddd_op = 0x70c3,
amandw_op = 0x70c4,
amandd_op = 0x70c5,
amorw_op = 0x70c6,
amord_op = 0x70c7,
amxorw_op = 0x70c8,
amxord_op = 0x70c9,
ammaxw_op = 0x70ca,
ammaxd_op = 0x70cb,
amminw_op = 0x70cc,
ammind_op = 0x70cd,
ammaxwu_op = 0x70ce,
ammaxdu_op = 0x70cf,
amminwu_op = 0x70d0,
ammindu_op = 0x70d1,
amswapdbw_op = 0x70d2,
amswapdbd_op = 0x70d3,
amadddbw_op = 0x70d4,
amadddbd_op = 0x70d5,
amanddbw_op = 0x70d6,
amanddbd_op = 0x70d7,
amordbw_op = 0x70d8,
amordbd_op = 0x70d9,
amxordbw_op = 0x70da,
amxordbd_op = 0x70db,
ammaxdbw_op = 0x70dc,
ammaxdbd_op = 0x70dd,
ammindbw_op = 0x70de,
ammindbd_op = 0x70df,
ammaxdbwu_op = 0x70e0,
ammaxdbdu_op = 0x70e1,
ammindbwu_op = 0x70e2,
ammindbdu_op = 0x70e3,
fldgts_op = 0x70e8,
fldgtd_op = 0x70e9,
fldles_op = 0x70ea,
fldled_op = 0x70eb,
fstgts_op = 0x70ec,
fstgtd_op = 0x70ed,
fstles_op = 0x70ee,
fstled_op = 0x70ef,
ldgtb_op = 0x70f0,
ldgth_op = 0x70f1,
ldgtw_op = 0x70f2,
ldgtd_op = 0x70f3,
ldleb_op = 0x70f4,
ldleh_op = 0x70f5,
ldlew_op = 0x70f6,
ldled_op = 0x70f7,
stgtb_op = 0x70f8,
stgth_op = 0x70f9,
stgtw_op = 0x70fa,
stgtd_op = 0x70fb,
stleb_op = 0x70fc,
stleh_op = 0x70fd,
stlew_op = 0x70fe,
stled_op = 0x70ff,
};
enum reg3sa2_op {
alslw_op = 0x02,
alslwu_op = 0x03,
alsld_op = 0x16,
};
struct reg0i15_format {
unsigned int immediate : 15;
unsigned int opcode : 17;
};
struct reg0i26_format {
unsigned int immediate_h : 10;
unsigned int immediate_l : 16;
unsigned int opcode : 6;
};
struct reg1i20_format {
unsigned int rd : 5;
unsigned int immediate : 20;
unsigned int opcode : 7;
};
struct reg1i21_format {
unsigned int immediate_h : 5;
unsigned int rj : 5;
unsigned int immediate_l : 16;
unsigned int opcode : 6;
};
struct reg2_format {
unsigned int rd : 5;
unsigned int rj : 5;
unsigned int opcode : 22;
};
struct reg2i5_format {
unsigned int rd : 5;
unsigned int rj : 5;
unsigned int immediate : 5;
unsigned int opcode : 17;
};
struct reg2i6_format {
unsigned int rd : 5;
unsigned int rj : 5;
unsigned int immediate : 6;
unsigned int opcode : 16;
};
struct reg2i12_format {
unsigned int rd : 5;
unsigned int rj : 5;
unsigned int immediate : 12;
unsigned int opcode : 10;
};
struct reg2i14_format {
unsigned int rd : 5;
unsigned int rj : 5;
unsigned int immediate : 14;
unsigned int opcode : 8;
};
struct reg2i16_format {
unsigned int rd : 5;
unsigned int rj : 5;
unsigned int immediate : 16;
unsigned int opcode : 6;
};
struct reg2bstrd_format {
unsigned int rd : 5;
unsigned int rj : 5;
unsigned int lsbd : 6;
unsigned int msbd : 6;
unsigned int opcode : 10;
};
struct reg2csr_format {
unsigned int rd : 5;
unsigned int rj : 5;
unsigned int csr : 14;
unsigned int opcode : 8;
};
struct reg3_format {
unsigned int rd : 5;
unsigned int rj : 5;
unsigned int rk : 5;
unsigned int opcode : 17;
};
struct reg3sa2_format {
unsigned int rd : 5;
unsigned int rj : 5;
unsigned int rk : 5;
unsigned int immediate : 2;
unsigned int opcode : 15;
};
union loongarch_instruction {
unsigned int word;
struct reg0i15_format reg0i15_format;
struct reg0i26_format reg0i26_format;
struct reg1i20_format reg1i20_format;
struct reg1i21_format reg1i21_format;
struct reg2_format reg2_format;
struct reg2i5_format reg2i5_format;
struct reg2i6_format reg2i6_format;
struct reg2i12_format reg2i12_format;
struct reg2i14_format reg2i14_format;
struct reg2i16_format reg2i16_format;
struct reg2bstrd_format reg2bstrd_format;
struct reg2csr_format reg2csr_format;
struct reg3_format reg3_format;
struct reg3sa2_format reg3sa2_format;
};
#define LOONGARCH_INSN_SIZE sizeof(union loongarch_instruction)
enum loongarch_gpr {
LOONGARCH_GPR_ZERO = 0,
LOONGARCH_GPR_RA = 1,
LOONGARCH_GPR_TP = 2,
LOONGARCH_GPR_SP = 3,
LOONGARCH_GPR_A0 = 4, /* Reused as V0 for return value */
LOONGARCH_GPR_A1, /* Reused as V1 for return value */
LOONGARCH_GPR_A2,
LOONGARCH_GPR_A3,
LOONGARCH_GPR_A4,
LOONGARCH_GPR_A5,
LOONGARCH_GPR_A6,
LOONGARCH_GPR_A7,
LOONGARCH_GPR_T0 = 12,
LOONGARCH_GPR_T1,
LOONGARCH_GPR_T2,
LOONGARCH_GPR_T3,
LOONGARCH_GPR_T4,
LOONGARCH_GPR_T5,
LOONGARCH_GPR_T6,
LOONGARCH_GPR_T7,
LOONGARCH_GPR_T8,
LOONGARCH_GPR_FP = 22,
LOONGARCH_GPR_S0 = 23,
LOONGARCH_GPR_S1,
LOONGARCH_GPR_S2,
LOONGARCH_GPR_S3,
LOONGARCH_GPR_S4,
LOONGARCH_GPR_S5,
LOONGARCH_GPR_S6,
LOONGARCH_GPR_S7,
LOONGARCH_GPR_S8,
LOONGARCH_GPR_MAX
};
#define is_imm12_negative(val) is_imm_negative(val, 12)
static inline bool is_imm_negative(unsigned long val, unsigned int bit)
{
return val & (1UL << (bit - 1));
}
static inline bool is_break_ins(union loongarch_instruction *ip)
{
return ip->reg0i15_format.opcode == break_op;
}
static inline bool is_pc_ins(union loongarch_instruction *ip)
{
return ip->reg1i20_format.opcode >= pcaddi_op &&
ip->reg1i20_format.opcode <= pcaddu18i_op;
}
static inline bool is_branch_ins(union loongarch_instruction *ip)
{
return ip->reg1i21_format.opcode >= beqz_op &&
ip->reg1i21_format.opcode <= bgeu_op;
}
static inline bool is_ra_save_ins(union loongarch_instruction *ip)
{
/* st.d $ra, $sp, offset */
return ip->reg2i12_format.opcode == std_op &&
ip->reg2i12_format.rj == LOONGARCH_GPR_SP &&
ip->reg2i12_format.rd == LOONGARCH_GPR_RA &&
!is_imm12_negative(ip->reg2i12_format.immediate);
}
static inline bool is_stack_alloc_ins(union loongarch_instruction *ip)
{
/* addi.d $sp, $sp, -imm */
return ip->reg2i12_format.opcode == addid_op &&
ip->reg2i12_format.rj == LOONGARCH_GPR_SP &&
ip->reg2i12_format.rd == LOONGARCH_GPR_SP &&
is_imm12_negative(ip->reg2i12_format.immediate);
}
static inline bool is_self_loop_ins(union loongarch_instruction *ip, struct pt_regs *regs)
{
switch (ip->reg0i26_format.opcode) {
case b_op:
case bl_op:
if (ip->reg0i26_format.immediate_l == 0
&& ip->reg0i26_format.immediate_h == 0)
return true;
}
switch (ip->reg1i21_format.opcode) {
case beqz_op:
case bnez_op:
case bceqz_op:
if (ip->reg1i21_format.immediate_l == 0
&& ip->reg1i21_format.immediate_h == 0)
return true;
}
switch (ip->reg2i16_format.opcode) {
case beq_op:
case bne_op:
case blt_op:
case bge_op:
case bltu_op:
case bgeu_op:
if (ip->reg2i16_format.immediate == 0)
return true;
break;
case jirl_op:
if (regs->regs[ip->reg2i16_format.rj] +
((unsigned long)ip->reg2i16_format.immediate << 2) == (unsigned long)ip)
return true;
}
return false;
}
void simu_pc(struct pt_regs *regs, union loongarch_instruction insn);
void simu_branch(struct pt_regs *regs, union loongarch_instruction insn);
bool insns_not_supported(union loongarch_instruction insn);
bool insns_need_simulation(union loongarch_instruction insn);
void arch_simulate_insn(union loongarch_instruction insn, struct pt_regs *regs);
int larch_insn_read(void *addr, u32 *insnp);
int larch_insn_write(void *addr, u32 insn);
int larch_insn_patch_text(void *addr, u32 insn);
u32 larch_insn_gen_nop(void);
u32 larch_insn_gen_b(unsigned long pc, unsigned long dest);
u32 larch_insn_gen_bl(unsigned long pc, unsigned long dest);
u32 larch_insn_gen_break(int imm);
u32 larch_insn_gen_or(enum loongarch_gpr rd, enum loongarch_gpr rj, enum loongarch_gpr rk);
u32 larch_insn_gen_move(enum loongarch_gpr rd, enum loongarch_gpr rj);
u32 larch_insn_gen_lu12iw(enum loongarch_gpr rd, int imm);
u32 larch_insn_gen_lu32id(enum loongarch_gpr rd, int imm);
u32 larch_insn_gen_lu52id(enum loongarch_gpr rd, enum loongarch_gpr rj, int imm);
u32 larch_insn_gen_jirl(enum loongarch_gpr rd, enum loongarch_gpr rj, int imm);
static inline bool signed_imm_check(long val, unsigned int bit)
{
return -(1L << (bit - 1)) <= val && val < (1L << (bit - 1));
}
static inline bool unsigned_imm_check(unsigned long val, unsigned int bit)
{
return val < (1UL << bit);
}
#define DEF_EMIT_REG0I15_FORMAT(NAME, OP) \
static inline void emit_##NAME(union loongarch_instruction *insn, \
int imm) \
{ \
insn->reg0i15_format.opcode = OP; \
insn->reg0i15_format.immediate = imm; \
}
DEF_EMIT_REG0I15_FORMAT(break, break_op)
/* like emit_break(imm) but returns a constant expression */
#define __emit_break(imm) ((u32)((imm) | (break_op << 15)))
#define DEF_EMIT_REG0I26_FORMAT(NAME, OP) \
static inline void emit_##NAME(union loongarch_instruction *insn, \
int offset) \
{ \
unsigned int immediate_l, immediate_h; \
\
immediate_l = offset & 0xffff; \
offset >>= 16; \
immediate_h = offset & 0x3ff; \
\
insn->reg0i26_format.opcode = OP; \
insn->reg0i26_format.immediate_l = immediate_l; \
insn->reg0i26_format.immediate_h = immediate_h; \
}
DEF_EMIT_REG0I26_FORMAT(b, b_op)
DEF_EMIT_REG0I26_FORMAT(bl, bl_op)
#define DEF_EMIT_REG1I20_FORMAT(NAME, OP) \
static inline void emit_##NAME(union loongarch_instruction *insn, \
enum loongarch_gpr rd, int imm) \
{ \
insn->reg1i20_format.opcode = OP; \
insn->reg1i20_format.immediate = imm; \
insn->reg1i20_format.rd = rd; \
}
DEF_EMIT_REG1I20_FORMAT(lu12iw, lu12iw_op)
DEF_EMIT_REG1I20_FORMAT(lu32id, lu32id_op)
DEF_EMIT_REG1I20_FORMAT(pcaddu18i, pcaddu18i_op)
#define DEF_EMIT_REG2_FORMAT(NAME, OP) \
static inline void emit_##NAME(union loongarch_instruction *insn, \
enum loongarch_gpr rd, \
enum loongarch_gpr rj) \
{ \
insn->reg2_format.opcode = OP; \
insn->reg2_format.rd = rd; \
insn->reg2_format.rj = rj; \
}
DEF_EMIT_REG2_FORMAT(revb2h, revb2h_op)
DEF_EMIT_REG2_FORMAT(revb2w, revb2w_op)
DEF_EMIT_REG2_FORMAT(revbd, revbd_op)
DEF_EMIT_REG2_FORMAT(extwh, extwh_op)
DEF_EMIT_REG2_FORMAT(extwb, extwb_op)
#define DEF_EMIT_REG2I5_FORMAT(NAME, OP) \
static inline void emit_##NAME(union loongarch_instruction *insn, \
enum loongarch_gpr rd, \
enum loongarch_gpr rj, \
int imm) \
{ \
insn->reg2i5_format.opcode = OP; \
insn->reg2i5_format.immediate = imm; \
insn->reg2i5_format.rd = rd; \
insn->reg2i5_format.rj = rj; \
}
DEF_EMIT_REG2I5_FORMAT(slliw, slliw_op)
DEF_EMIT_REG2I5_FORMAT(srliw, srliw_op)
DEF_EMIT_REG2I5_FORMAT(sraiw, sraiw_op)
#define DEF_EMIT_REG2I6_FORMAT(NAME, OP) \
static inline void emit_##NAME(union loongarch_instruction *insn, \
enum loongarch_gpr rd, \
enum loongarch_gpr rj, \
int imm) \
{ \
insn->reg2i6_format.opcode = OP; \
insn->reg2i6_format.immediate = imm; \
insn->reg2i6_format.rd = rd; \
insn->reg2i6_format.rj = rj; \
}
DEF_EMIT_REG2I6_FORMAT(sllid, sllid_op)
DEF_EMIT_REG2I6_FORMAT(srlid, srlid_op)
DEF_EMIT_REG2I6_FORMAT(sraid, sraid_op)
#define DEF_EMIT_REG2I12_FORMAT(NAME, OP) \
static inline void emit_##NAME(union loongarch_instruction *insn, \
enum loongarch_gpr rd, \
enum loongarch_gpr rj, \
int imm) \
{ \
insn->reg2i12_format.opcode = OP; \
insn->reg2i12_format.immediate = imm; \
insn->reg2i12_format.rd = rd; \
insn->reg2i12_format.rj = rj; \
}
DEF_EMIT_REG2I12_FORMAT(addiw, addiw_op)
DEF_EMIT_REG2I12_FORMAT(addid, addid_op)
DEF_EMIT_REG2I12_FORMAT(lu52id, lu52id_op)
DEF_EMIT_REG2I12_FORMAT(andi, andi_op)
DEF_EMIT_REG2I12_FORMAT(ori, ori_op)
DEF_EMIT_REG2I12_FORMAT(xori, xori_op)
DEF_EMIT_REG2I12_FORMAT(ldb, ldb_op)
DEF_EMIT_REG2I12_FORMAT(ldh, ldh_op)
DEF_EMIT_REG2I12_FORMAT(ldw, ldw_op)
DEF_EMIT_REG2I12_FORMAT(ldbu, ldbu_op)
DEF_EMIT_REG2I12_FORMAT(ldhu, ldhu_op)
DEF_EMIT_REG2I12_FORMAT(ldwu, ldwu_op)
DEF_EMIT_REG2I12_FORMAT(ldd, ldd_op)
DEF_EMIT_REG2I12_FORMAT(stb, stb_op)
DEF_EMIT_REG2I12_FORMAT(sth, sth_op)
DEF_EMIT_REG2I12_FORMAT(stw, stw_op)
DEF_EMIT_REG2I12_FORMAT(std, std_op)
#define DEF_EMIT_REG2I14_FORMAT(NAME, OP) \
static inline void emit_##NAME(union loongarch_instruction *insn, \
enum loongarch_gpr rd, \
enum loongarch_gpr rj, \
int imm) \
{ \
insn->reg2i14_format.opcode = OP; \
insn->reg2i14_format.immediate = imm; \
insn->reg2i14_format.rd = rd; \
insn->reg2i14_format.rj = rj; \
}
DEF_EMIT_REG2I14_FORMAT(llw, llw_op)
DEF_EMIT_REG2I14_FORMAT(scw, scw_op)
DEF_EMIT_REG2I14_FORMAT(lld, lld_op)
DEF_EMIT_REG2I14_FORMAT(scd, scd_op)
DEF_EMIT_REG2I14_FORMAT(ldptrw, ldptrw_op)
DEF_EMIT_REG2I14_FORMAT(stptrw, stptrw_op)
DEF_EMIT_REG2I14_FORMAT(ldptrd, ldptrd_op)
DEF_EMIT_REG2I14_FORMAT(stptrd, stptrd_op)
#define DEF_EMIT_REG2I16_FORMAT(NAME, OP) \
static inline void emit_##NAME(union loongarch_instruction *insn, \
enum loongarch_gpr rj, \
enum loongarch_gpr rd, \
int offset) \
{ \
insn->reg2i16_format.opcode = OP; \
insn->reg2i16_format.immediate = offset; \
insn->reg2i16_format.rj = rj; \
insn->reg2i16_format.rd = rd; \
}
DEF_EMIT_REG2I16_FORMAT(beq, beq_op)
DEF_EMIT_REG2I16_FORMAT(bne, bne_op)
DEF_EMIT_REG2I16_FORMAT(blt, blt_op)
DEF_EMIT_REG2I16_FORMAT(bge, bge_op)
DEF_EMIT_REG2I16_FORMAT(bltu, bltu_op)
DEF_EMIT_REG2I16_FORMAT(bgeu, bgeu_op)
static inline void emit_jirl(union loongarch_instruction *insn,
enum loongarch_gpr rd,
enum loongarch_gpr rj,
int offset)
{
insn->reg2i16_format.opcode = jirl_op;
insn->reg2i16_format.immediate = offset;
insn->reg2i16_format.rd = rd;
insn->reg2i16_format.rj = rj;
}
#define DEF_EMIT_REG2BSTRD_FORMAT(NAME, OP) \
static inline void emit_##NAME(union loongarch_instruction *insn, \
enum loongarch_gpr rd, \
enum loongarch_gpr rj, \
int msbd, \
int lsbd) \
{ \
insn->reg2bstrd_format.opcode = OP; \
insn->reg2bstrd_format.msbd = msbd; \
insn->reg2bstrd_format.lsbd = lsbd; \
insn->reg2bstrd_format.rj = rj; \
insn->reg2bstrd_format.rd = rd; \
}
DEF_EMIT_REG2BSTRD_FORMAT(bstrpickd, bstrpickd_op)
#define DEF_EMIT_REG3_FORMAT(NAME, OP) \
static inline void emit_##NAME(union loongarch_instruction *insn, \
enum loongarch_gpr rd, \
enum loongarch_gpr rj, \
enum loongarch_gpr rk) \
{ \
insn->reg3_format.opcode = OP; \
insn->reg3_format.rd = rd; \
insn->reg3_format.rj = rj; \
insn->reg3_format.rk = rk; \
}
DEF_EMIT_REG3_FORMAT(addw, addw_op)
DEF_EMIT_REG3_FORMAT(addd, addd_op)
DEF_EMIT_REG3_FORMAT(subd, subd_op)
DEF_EMIT_REG3_FORMAT(muld, muld_op)
DEF_EMIT_REG3_FORMAT(divd, divd_op)
DEF_EMIT_REG3_FORMAT(modd, modd_op)
DEF_EMIT_REG3_FORMAT(divdu, divdu_op)
DEF_EMIT_REG3_FORMAT(moddu, moddu_op)
DEF_EMIT_REG3_FORMAT(and, and_op)
DEF_EMIT_REG3_FORMAT(or, or_op)
DEF_EMIT_REG3_FORMAT(xor, xor_op)
DEF_EMIT_REG3_FORMAT(sllw, sllw_op)
DEF_EMIT_REG3_FORMAT(slld, slld_op)
DEF_EMIT_REG3_FORMAT(srlw, srlw_op)
DEF_EMIT_REG3_FORMAT(srld, srld_op)
DEF_EMIT_REG3_FORMAT(sraw, sraw_op)
DEF_EMIT_REG3_FORMAT(srad, srad_op)
DEF_EMIT_REG3_FORMAT(ldxb, ldxb_op)
DEF_EMIT_REG3_FORMAT(ldxh, ldxh_op)
DEF_EMIT_REG3_FORMAT(ldxw, ldxw_op)
DEF_EMIT_REG3_FORMAT(ldxbu, ldxbu_op)
DEF_EMIT_REG3_FORMAT(ldxhu, ldxhu_op)
DEF_EMIT_REG3_FORMAT(ldxwu, ldxwu_op)
DEF_EMIT_REG3_FORMAT(ldxd, ldxd_op)
DEF_EMIT_REG3_FORMAT(stxb, stxb_op)
DEF_EMIT_REG3_FORMAT(stxh, stxh_op)
DEF_EMIT_REG3_FORMAT(stxw, stxw_op)
DEF_EMIT_REG3_FORMAT(stxd, stxd_op)
DEF_EMIT_REG3_FORMAT(amaddw, amaddw_op)
DEF_EMIT_REG3_FORMAT(amaddd, amaddd_op)
DEF_EMIT_REG3_FORMAT(amandw, amandw_op)
DEF_EMIT_REG3_FORMAT(amandd, amandd_op)
DEF_EMIT_REG3_FORMAT(amorw, amorw_op)
DEF_EMIT_REG3_FORMAT(amord, amord_op)
DEF_EMIT_REG3_FORMAT(amxorw, amxorw_op)
DEF_EMIT_REG3_FORMAT(amxord, amxord_op)
DEF_EMIT_REG3_FORMAT(amswapw, amswapw_op)
DEF_EMIT_REG3_FORMAT(amswapd, amswapd_op)
#define DEF_EMIT_REG3SA2_FORMAT(NAME, OP) \
static inline void emit_##NAME(union loongarch_instruction *insn, \
enum loongarch_gpr rd, \
enum loongarch_gpr rj, \
enum loongarch_gpr rk, \
int imm) \
{ \
insn->reg3sa2_format.opcode = OP; \
insn->reg3sa2_format.immediate = imm; \
insn->reg3sa2_format.rd = rd; \
insn->reg3sa2_format.rj = rj; \
insn->reg3sa2_format.rk = rk; \
}
DEF_EMIT_REG3SA2_FORMAT(alsld, alsld_op)
struct pt_regs;
void emulate_load_store_insn(struct pt_regs *regs, void __user *addr, unsigned int *pc);
unsigned long unaligned_read(void __user *addr, void *value, unsigned long n, bool sign);
unsigned long unaligned_write(void __user *addr, unsigned long value, unsigned long n);
#endif /* _ASM_INST_H */
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