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/*
* This file is subject to the terms and conditions of the GNU General Public
* License. See the file "COPYING" in the main directory of this archive
* for more details.
*
* A small micro-assembler. It is intentionally kept simple, does only
* support a subset of instructions, and does not try to hide pipeline
* effects like branch delay slots.
*
* Copyright (C) 2004, 2005, 2006, 2008 Thiemo Seufer
* Copyright (C) 2005, 2007 Maciej W. Rozycki
* Copyright (C) 2006 Ralf Baechle (ralf@linux-mips.org)
* Copyright (C) 2012, 2013 MIPS Technologies, Inc. All rights reserved.
*/
enum fields {
RS = 0x001,
RT = 0x002,
RD = 0x004,
RE = 0x008,
SIMM = 0x010,
UIMM = 0x020,
BIMM = 0x040,
JIMM = 0x080,
FUNC = 0x100,
SET = 0x200,
SCIMM = 0x400,
SIMM9 = 0x800,
};
#define OP_MASK 0x3f
#define OP_SH 26
#define RD_MASK 0x1f
#define RD_SH 11
#define RE_MASK 0x1f
#define RE_SH 6
#define IMM_MASK 0xffff
#define IMM_SH 0
#define JIMM_MASK 0x3ffffff
#define JIMM_SH 0
#define FUNC_MASK 0x3f
#define FUNC_SH 0
#define SET_MASK 0x7
#define SET_SH 0
#define SIMM9_SH 7
#define SIMM9_MASK 0x1ff
enum opcode {
insn_addiu, insn_addu, insn_and, insn_andi, insn_bbit0, insn_bbit1,
insn_beq, insn_beql, insn_bgez, insn_bgezl, insn_bgtz, insn_blez,
insn_bltz, insn_bltzl, insn_bne, insn_break, insn_cache, insn_cfc1,
insn_cfcmsa, insn_ctc1, insn_ctcmsa, insn_daddiu, insn_daddu, insn_ddivu,
insn_ddivu_r6, insn_di, insn_dins, insn_dinsm, insn_dinsu, insn_divu,
insn_divu_r6, insn_dmfc0, insn_dmodu, insn_dmtc0, insn_dmultu,
insn_dmulu, insn_drotr, insn_drotr32, insn_dsbh, insn_dshd, insn_dsll,
insn_dsll32, insn_dsllv, insn_dsra, insn_dsra32, insn_dsrav, insn_dsrl,
insn_dsrl32, insn_dsrlv, insn_dsubu, insn_eret, insn_ext, insn_ins,
insn_j, insn_jal, insn_jalr, insn_jr, insn_lb, insn_lbu, insn_ld,
insn_lddir, insn_ldpte, insn_ldx, insn_lh, insn_lhu, insn_ll, insn_lld,
insn_lui, insn_lw, insn_lwu, insn_lwx, insn_mfc0, insn_mfhc0, insn_mfhi,
insn_mflo, insn_modu, insn_movn, insn_movz, insn_mtc0, insn_mthc0,
insn_mthi, insn_mtlo, insn_mul, insn_multu, insn_mulu, insn_nor,
insn_or, insn_ori, insn_pref, insn_rfe, insn_rotr, insn_sb, insn_sc,
insn_scd, insn_seleqz, insn_selnez, insn_sd, insn_sh, insn_sll,
insn_sllv, insn_slt, insn_slti, insn_sltiu, insn_sltu, insn_sra,
insn_srav, insn_srl, insn_srlv, insn_subu, insn_sw, insn_sync,
insn_syscall, insn_tlbp, insn_tlbr, insn_tlbwi, insn_tlbwr, insn_wait,
insn_wsbh, insn_xor, insn_xori, insn_yield,
insn_invalid /* insn_invalid must be last */
};
struct insn {
u32 match;
enum fields fields;
};
static inline u32 build_rs(u32 arg)
{
WARN(arg & ~RS_MASK, KERN_WARNING "Micro-assembler field overflow\n");
return (arg & RS_MASK) << RS_SH;
}
static inline u32 build_rt(u32 arg)
{
WARN(arg & ~RT_MASK, KERN_WARNING "Micro-assembler field overflow\n");
return (arg & RT_MASK) << RT_SH;
}
static inline u32 build_rd(u32 arg)
{
WARN(arg & ~RD_MASK, KERN_WARNING "Micro-assembler field overflow\n");
return (arg & RD_MASK) << RD_SH;
}
static inline u32 build_re(u32 arg)
{
WARN(arg & ~RE_MASK, KERN_WARNING "Micro-assembler field overflow\n");
return (arg & RE_MASK) << RE_SH;
}
static inline u32 build_simm(s32 arg)
{
WARN(arg > 0x7fff || arg < -0x8000,
KERN_WARNING "Micro-assembler field overflow\n");
return arg & 0xffff;
}
static inline u32 build_uimm(u32 arg)
{
WARN(arg & ~IMM_MASK, KERN_WARNING "Micro-assembler field overflow\n");
return arg & IMM_MASK;
}
static inline u32 build_scimm(u32 arg)
{
WARN(arg & ~SCIMM_MASK,
KERN_WARNING "Micro-assembler field overflow\n");
return (arg & SCIMM_MASK) << SCIMM_SH;
}
static inline u32 build_scimm9(s32 arg)
{
WARN((arg > 0xff || arg < -0x100),
KERN_WARNING "Micro-assembler field overflow\n");
return (arg & SIMM9_MASK) << SIMM9_SH;
}
static inline u32 build_func(u32 arg)
{
WARN(arg & ~FUNC_MASK, KERN_WARNING "Micro-assembler field overflow\n");
return arg & FUNC_MASK;
}
static inline u32 build_set(u32 arg)
{
WARN(arg & ~SET_MASK, KERN_WARNING "Micro-assembler field overflow\n");
return arg & SET_MASK;
}
static void build_insn(u32 **buf, enum opcode opc, ...);
#define I_u1u2u3(op) \
Ip_u1u2u3(op) \
{ \
build_insn(buf, insn##op, a, b, c); \
} \
UASM_EXPORT_SYMBOL(uasm_i##op);
#define I_s3s1s2(op) \
Ip_s3s1s2(op) \
{ \
build_insn(buf, insn##op, b, c, a); \
} \
UASM_EXPORT_SYMBOL(uasm_i##op);
#define I_u2u1u3(op) \
Ip_u2u1u3(op) \
{ \
build_insn(buf, insn##op, b, a, c); \
} \
UASM_EXPORT_SYMBOL(uasm_i##op);
#define I_u3u2u1(op) \
Ip_u3u2u1(op) \
{ \
build_insn(buf, insn##op, c, b, a); \
} \
UASM_EXPORT_SYMBOL(uasm_i##op);
#define I_u3u1u2(op) \
Ip_u3u1u2(op) \
{ \
build_insn(buf, insn##op, b, c, a); \
} \
UASM_EXPORT_SYMBOL(uasm_i##op);
#define I_u1u2s3(op) \
Ip_u1u2s3(op) \
{ \
build_insn(buf, insn##op, a, b, c); \
} \
UASM_EXPORT_SYMBOL(uasm_i##op);
#define I_u2s3u1(op) \
Ip_u2s3u1(op) \
{ \
build_insn(buf, insn##op, c, a, b); \
} \
UASM_EXPORT_SYMBOL(uasm_i##op);
#define I_u2u1s3(op) \
Ip_u2u1s3(op) \
{ \
build_insn(buf, insn##op, b, a, c); \
} \
UASM_EXPORT_SYMBOL(uasm_i##op);
#define I_u2u1msbu3(op) \
Ip_u2u1msbu3(op) \
{ \
build_insn(buf, insn##op, b, a, c+d-1, c); \
} \
UASM_EXPORT_SYMBOL(uasm_i##op);
#define I_u2u1msb32u3(op) \
Ip_u2u1msbu3(op) \
{ \
build_insn(buf, insn##op, b, a, c+d-33, c); \
} \
UASM_EXPORT_SYMBOL(uasm_i##op);
#define I_u2u1msb32msb3(op) \
Ip_u2u1msbu3(op) \
{ \
build_insn(buf, insn##op, b, a, c+d-33, c-32); \
} \
UASM_EXPORT_SYMBOL(uasm_i##op);
#define I_u2u1msbdu3(op) \
Ip_u2u1msbu3(op) \
{ \
build_insn(buf, insn##op, b, a, d-1, c); \
} \
UASM_EXPORT_SYMBOL(uasm_i##op);
#define I_u1u2(op) \
Ip_u1u2(op) \
{ \
build_insn(buf, insn##op, a, b); \
} \
UASM_EXPORT_SYMBOL(uasm_i##op);
#define I_u2u1(op) \
Ip_u1u2(op) \
{ \
build_insn(buf, insn##op, b, a); \
} \
UASM_EXPORT_SYMBOL(uasm_i##op);
#define I_u1s2(op) \
Ip_u1s2(op) \
{ \
build_insn(buf, insn##op, a, b); \
} \
UASM_EXPORT_SYMBOL(uasm_i##op);
#define I_u1(op) \
Ip_u1(op) \
{ \
build_insn(buf, insn##op, a); \
} \
UASM_EXPORT_SYMBOL(uasm_i##op);
#define I_0(op) \
Ip_0(op) \
{ \
build_insn(buf, insn##op); \
} \
UASM_EXPORT_SYMBOL(uasm_i##op);
I_u2u1s3(_addiu)
I_u3u1u2(_addu)
I_u2u1u3(_andi)
I_u3u1u2(_and)
I_u1u2s3(_beq)
I_u1u2s3(_beql)
I_u1s2(_bgez)
I_u1s2(_bgezl)
I_u1s2(_bgtz)
I_u1s2(_blez)
I_u1s2(_bltz)
I_u1s2(_bltzl)
I_u1u2s3(_bne)
I_u1(_break)
I_u2s3u1(_cache)
I_u1u2(_cfc1)
I_u2u1(_cfcmsa)
I_u1u2(_ctc1)
I_u2u1(_ctcmsa)
I_u1u2(_ddivu)
I_u3u1u2(_ddivu_r6)
I_u1u2u3(_dmfc0)
I_u3u1u2(_dmodu)
I_u1u2u3(_dmtc0)
I_u1u2(_dmultu)
I_u3u1u2(_dmulu)
I_u2u1s3(_daddiu)
I_u3u1u2(_daddu)
I_u1(_di);
I_u1u2(_divu)
I_u3u1u2(_divu_r6)
I_u2u1(_dsbh);
I_u2u1(_dshd);
I_u2u1u3(_dsll)
I_u2u1u3(_dsll32)
I_u3u2u1(_dsllv)
I_u2u1u3(_dsra)
I_u2u1u3(_dsra32)
I_u3u2u1(_dsrav)
I_u2u1u3(_dsrl)
I_u2u1u3(_dsrl32)
I_u3u2u1(_dsrlv)
I_u2u1u3(_drotr)
I_u2u1u3(_drotr32)
I_u3u1u2(_dsubu)
I_0(_eret)
I_u2u1msbdu3(_ext)
I_u2u1msbu3(_ins)
I_u1(_j)
I_u1(_jal)
I_u2u1(_jalr)
I_u1(_jr)
I_u2s3u1(_lb)
I_u2s3u1(_lbu)
I_u2s3u1(_ld)
I_u2s3u1(_lh)
I_u2s3u1(_lhu)
I_u2s3u1(_ll)
I_u2s3u1(_lld)
I_u1s2(_lui)
I_u2s3u1(_lw)
I_u2s3u1(_lwu)
I_u1u2u3(_mfc0)
I_u1u2u3(_mfhc0)
I_u3u1u2(_modu)
I_u3u1u2(_movn)
I_u3u1u2(_movz)
I_u1(_mfhi)
I_u1(_mflo)
I_u1u2u3(_mtc0)
I_u1u2u3(_mthc0)
I_u1(_mthi)
I_u1(_mtlo)
I_u3u1u2(_mul)
I_u1u2(_multu)
I_u3u1u2(_mulu)
I_u3u1u2(_nor)
I_u3u1u2(_or)
I_u2u1u3(_ori)
I_0(_rfe)
I_u2s3u1(_sb)
I_u2s3u1(_sc)
I_u2s3u1(_scd)
I_u2s3u1(_sd)
I_u3u1u2(_seleqz)
I_u3u1u2(_selnez)
I_u2s3u1(_sh)
I_u2u1u3(_sll)
I_u3u2u1(_sllv)
I_s3s1s2(_slt)
I_u2u1s3(_slti)
I_u2u1s3(_sltiu)
I_u3u1u2(_sltu)
I_u2u1u3(_sra)
I_u3u2u1(_srav)
I_u2u1u3(_srl)
I_u3u2u1(_srlv)
I_u2u1u3(_rotr)
I_u3u1u2(_subu)
I_u2s3u1(_sw)
I_u1(_sync)
I_0(_tlbp)
I_0(_tlbr)
I_0(_tlbwi)
I_0(_tlbwr)
I_u1(_wait);
I_u2u1(_wsbh)
I_u3u1u2(_xor)
I_u2u1u3(_xori)
I_u2u1(_yield)
I_u2u1msbu3(_dins);
I_u2u1msb32u3(_dinsm);
I_u2u1msb32msb3(_dinsu);
I_u1(_syscall);
I_u1u2s3(_bbit0);
I_u1u2s3(_bbit1);
I_u3u1u2(_lwx)
I_u3u1u2(_ldx)
I_u1u2(_ldpte)
I_u2u1u3(_lddir)
#ifdef CONFIG_CPU_CAVIUM_OCTEON
#include <asm/octeon/octeon.h>
void uasm_i_pref(u32 **buf, unsigned int a, signed int b,
unsigned int c)
{
if (CAVIUM_OCTEON_DCACHE_PREFETCH_WAR && a <= 24 && a != 5)
/*
* As per erratum Core-14449, replace prefetches 0-4,
* 6-24 with 'pref 28'.
*/
build_insn(buf, insn_pref, c, 28, b);
else
build_insn(buf, insn_pref, c, a, b);
}
UASM_EXPORT_SYMBOL(uasm_i_pref);
#else
I_u2s3u1(_pref)
#endif
/* Handle labels. */
void uasm_build_label(struct uasm_label **lab, u32 *addr, int lid)
{
(*lab)->addr = addr;
(*lab)->lab = lid;
(*lab)++;
}
UASM_EXPORT_SYMBOL(uasm_build_label);
int uasm_in_compat_space_p(long addr)
{
/* Is this address in 32bit compat space? */
return addr == (int)addr;
}
UASM_EXPORT_SYMBOL(uasm_in_compat_space_p);
static int uasm_rel_highest(long val)
{
#ifdef CONFIG_64BIT
return ((((val + 0x800080008000L) >> 48) & 0xffff) ^ 0x8000) - 0x8000;
#else
return 0;
#endif
}
static int uasm_rel_higher(long val)
{
#ifdef CONFIG_64BIT
return ((((val + 0x80008000L) >> 32) & 0xffff) ^ 0x8000) - 0x8000;
#else
return 0;
#endif
}
int uasm_rel_hi(long val)
{
return ((((val + 0x8000L) >> 16) & 0xffff) ^ 0x8000) - 0x8000;
}
UASM_EXPORT_SYMBOL(uasm_rel_hi);
int uasm_rel_lo(long val)
{
return ((val & 0xffff) ^ 0x8000) - 0x8000;
}
UASM_EXPORT_SYMBOL(uasm_rel_lo);
void UASM_i_LA_mostly(u32 **buf, unsigned int rs, long addr)
{
if (!uasm_in_compat_space_p(addr)) {
uasm_i_lui(buf, rs, uasm_rel_highest(addr));
if (uasm_rel_higher(addr))
uasm_i_daddiu(buf, rs, rs, uasm_rel_higher(addr));
if (uasm_rel_hi(addr)) {
uasm_i_dsll(buf, rs, rs, 16);
uasm_i_daddiu(buf, rs, rs,
uasm_rel_hi(addr));
uasm_i_dsll(buf, rs, rs, 16);
} else
uasm_i_dsll32(buf, rs, rs, 0);
} else
uasm_i_lui(buf, rs, uasm_rel_hi(addr));
}
UASM_EXPORT_SYMBOL(UASM_i_LA_mostly);
void UASM_i_LA(u32 **buf, unsigned int rs, long addr)
{
UASM_i_LA_mostly(buf, rs, addr);
if (uasm_rel_lo(addr)) {
if (!uasm_in_compat_space_p(addr))
uasm_i_daddiu(buf, rs, rs,
uasm_rel_lo(addr));
else
uasm_i_addiu(buf, rs, rs,
uasm_rel_lo(addr));
}
}
UASM_EXPORT_SYMBOL(UASM_i_LA);
/* Handle relocations. */
void uasm_r_mips_pc16(struct uasm_reloc **rel, u32 *addr, int lid)
{
(*rel)->addr = addr;
(*rel)->type = R_MIPS_PC16;
(*rel)->lab = lid;
(*rel)++;
}
UASM_EXPORT_SYMBOL(uasm_r_mips_pc16);
static inline void __resolve_relocs(struct uasm_reloc *rel,
struct uasm_label *lab);
void uasm_resolve_relocs(struct uasm_reloc *rel,
struct uasm_label *lab)
{
struct uasm_label *l;
for (; rel->lab != UASM_LABEL_INVALID; rel++)
for (l = lab; l->lab != UASM_LABEL_INVALID; l++)
if (rel->lab == l->lab)
__resolve_relocs(rel, l);
}
UASM_EXPORT_SYMBOL(uasm_resolve_relocs);
void uasm_move_relocs(struct uasm_reloc *rel, u32 *first, u32 *end,
long off)
{
for (; rel->lab != UASM_LABEL_INVALID; rel++)
if (rel->addr >= first && rel->addr < end)
rel->addr += off;
}
UASM_EXPORT_SYMBOL(uasm_move_relocs);
void uasm_move_labels(struct uasm_label *lab, u32 *first, u32 *end,
long off)
{
for (; lab->lab != UASM_LABEL_INVALID; lab++)
if (lab->addr >= first && lab->addr < end)
lab->addr += off;
}
UASM_EXPORT_SYMBOL(uasm_move_labels);
void uasm_copy_handler(struct uasm_reloc *rel, struct uasm_label *lab,
u32 *first, u32 *end, u32 *target)
{
long off = (long)(target - first);
memcpy(target, first, (end - first) * sizeof(u32));
uasm_move_relocs(rel, first, end, off);
uasm_move_labels(lab, first, end, off);
}
UASM_EXPORT_SYMBOL(uasm_copy_handler);
int uasm_insn_has_bdelay(struct uasm_reloc *rel, u32 *addr)
{
for (; rel->lab != UASM_LABEL_INVALID; rel++) {
if (rel->addr == addr
&& (rel->type == R_MIPS_PC16
|| rel->type == R_MIPS_26))
return 1;
}
return 0;
}
UASM_EXPORT_SYMBOL(uasm_insn_has_bdelay);
/* Convenience functions for labeled branches. */
void uasm_il_bltz(u32 **p, struct uasm_reloc **r, unsigned int reg,
int lid)
{
uasm_r_mips_pc16(r, *p, lid);
uasm_i_bltz(p, reg, 0);
}
UASM_EXPORT_SYMBOL(uasm_il_bltz);
void uasm_il_b(u32 **p, struct uasm_reloc **r, int lid)
{
uasm_r_mips_pc16(r, *p, lid);
uasm_i_b(p, 0);
}
UASM_EXPORT_SYMBOL(uasm_il_b);
void uasm_il_beq(u32 **p, struct uasm_reloc **r, unsigned int r1,
unsigned int r2, int lid)
{
uasm_r_mips_pc16(r, *p, lid);
uasm_i_beq(p, r1, r2, 0);
}
UASM_EXPORT_SYMBOL(uasm_il_beq);
void uasm_il_beqz(u32 **p, struct uasm_reloc **r, unsigned int reg,
int lid)
{
uasm_r_mips_pc16(r, *p, lid);
uasm_i_beqz(p, reg, 0);
}
UASM_EXPORT_SYMBOL(uasm_il_beqz);
void uasm_il_beqzl(u32 **p, struct uasm_reloc **r, unsigned int reg,
int lid)
{
uasm_r_mips_pc16(r, *p, lid);
uasm_i_beqzl(p, reg, 0);
}
UASM_EXPORT_SYMBOL(uasm_il_beqzl);
void uasm_il_bne(u32 **p, struct uasm_reloc **r, unsigned int reg1,
unsigned int reg2, int lid)
{
uasm_r_mips_pc16(r, *p, lid);
uasm_i_bne(p, reg1, reg2, 0);
}
UASM_EXPORT_SYMBOL(uasm_il_bne);
void uasm_il_bnez(u32 **p, struct uasm_reloc **r, unsigned int reg,
int lid)
{
uasm_r_mips_pc16(r, *p, lid);
uasm_i_bnez(p, reg, 0);
}
UASM_EXPORT_SYMBOL(uasm_il_bnez);
void uasm_il_bgezl(u32 **p, struct uasm_reloc **r, unsigned int reg,
int lid)
{
uasm_r_mips_pc16(r, *p, lid);
uasm_i_bgezl(p, reg, 0);
}
UASM_EXPORT_SYMBOL(uasm_il_bgezl);
void uasm_il_bgez(u32 **p, struct uasm_reloc **r, unsigned int reg,
int lid)
{
uasm_r_mips_pc16(r, *p, lid);
uasm_i_bgez(p, reg, 0);
}
UASM_EXPORT_SYMBOL(uasm_il_bgez);
void uasm_il_bbit0(u32 **p, struct uasm_reloc **r, unsigned int reg,
unsigned int bit, int lid)
{
uasm_r_mips_pc16(r, *p, lid);
uasm_i_bbit0(p, reg, bit, 0);
}
UASM_EXPORT_SYMBOL(uasm_il_bbit0);
void uasm_il_bbit1(u32 **p, struct uasm_reloc **r, unsigned int reg,
unsigned int bit, int lid)
{
uasm_r_mips_pc16(r, *p, lid);
uasm_i_bbit1(p, reg, bit, 0);
}
UASM_EXPORT_SYMBOL(uasm_il_bbit1);
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