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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/types.h>
#include <asm/asm.h>
#include <asm/ptrace.h>
#define INSN_NOP 0x03400000
#define INSN_BREAK 0x002a0000
#define ADDR_IMMMASK_LU52ID 0xFFF0000000000000
#define ADDR_IMMMASK_LU32ID 0x000FFFFF00000000
#define ADDR_IMMMASK_LU12IW 0x00000000FFFFF000
#define ADDR_IMMMASK_ADDU16ID 0x00000000FFFF0000
#define ADDR_IMMSHIFT_LU52ID 52
#define ADDR_IMMSHIFT_LU32ID 32
#define ADDR_IMMSHIFT_LU12IW 12
#define ADDR_IMMSHIFT_ADDU16ID 16
#define ADDR_IMM(addr, INSN) ((addr & ADDR_IMMMASK_##INSN) >> ADDR_IMMSHIFT_##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,
};
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 {
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,
};
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 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 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);
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_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, unsigned long pc, unsigned long dest);
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_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)
#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(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)
DEF_EMIT_REG2I16_FORMAT(jirl, jirl_op)
#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(addd, addd_op)
DEF_EMIT_REG3_FORMAT(subd, subd_op)
DEF_EMIT_REG3_FORMAT(muld, muld_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(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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