/* * align.c - address exception handler for M32R * * Copyright (c) 2003 Hitoshi Yamamoto */ #include #include static int get_reg(struct pt_regs *regs, int nr) { int val; if (nr < 4) val = *(unsigned long *)(®s->r0 + nr); else if (nr < 7) val = *(unsigned long *)(®s->r4 + (nr - 4)); else if (nr < 13) val = *(unsigned long *)(®s->r7 + (nr - 7)); else val = *(unsigned long *)(®s->fp + (nr - 13)); return val; } static void set_reg(struct pt_regs *regs, int nr, int val) { if (nr < 4) *(unsigned long *)(®s->r0 + nr) = val; else if (nr < 7) *(unsigned long *)(®s->r4 + (nr - 4)) = val; else if (nr < 13) *(unsigned long *)(®s->r7 + (nr - 7)) = val; else *(unsigned long *)(®s->fp + (nr - 13)) = val; } #define REG1(insn) (((insn) & 0x0f00) >> 8) #define REG2(insn) ((insn) & 0x000f) #define PSW_BC 0x100 /* O- instruction */ #define ISA_LD1 0x20c0 /* ld Rdest, @Rsrc */ #define ISA_LD2 0x20e0 /* ld Rdest, @Rsrc+ */ #define ISA_LDH 0x20a0 /* ldh Rdest, @Rsrc */ #define ISA_LDUH 0x20b0 /* lduh Rdest, @Rsrc */ #define ISA_ST1 0x2040 /* st Rsrc1, @Rsrc2 */ #define ISA_ST2 0x2060 /* st Rsrc1, @+Rsrc2 */ #define ISA_ST3 0x2070 /* st Rsrc1, @-Rsrc2 */ #define ISA_STH1 0x2020 /* sth Rsrc1, @Rsrc2 */ #define ISA_STH2 0x2030 /* sth Rsrc1, @Rsrc2+ */ #ifdef CONFIG_ISA_DUAL_ISSUE /* OS instruction */ #define ISA_ADD 0x00a0 /* add Rdest, Rsrc */ #define ISA_ADDI 0x4000 /* addi Rdest, #imm8 */ #define ISA_ADDX 0x0090 /* addx Rdest, Rsrc */ #define ISA_AND 0x00c0 /* and Rdest, Rsrc */ #define ISA_CMP 0x0040 /* cmp Rsrc1, Rsrc2 */ #define ISA_CMPEQ 0x0060 /* cmpeq Rsrc1, Rsrc2 */ #define ISA_CMPU 0x0050 /* cmpu Rsrc1, Rsrc2 */ #define ISA_CMPZ 0x0070 /* cmpz Rsrc */ #define ISA_LDI 0x6000 /* ldi Rdest, #imm8 */ #define ISA_MV 0x1080 /* mv Rdest, Rsrc */ #define ISA_NEG 0x0030 /* neg Rdest, Rsrc */ #define ISA_NOP 0x7000 /* nop */ #define ISA_NOT 0x00b0 /* not Rdest, Rsrc */ #define ISA_OR 0x00e0 /* or Rdest, Rsrc */ #define ISA_SUB 0x0020 /* sub Rdest, Rsrc */ #define ISA_SUBX 0x0010 /* subx Rdest, Rsrc */ #define ISA_XOR 0x00d0 /* xor Rdest, Rsrc */ /* -S instruction */ #define ISA_MUL 0x1060 /* mul Rdest, Rsrc */ #define ISA_MULLO_A0 0x3010 /* mullo Rsrc1, Rsrc2, A0 */ #define ISA_MULLO_A1 0x3090 /* mullo Rsrc1, Rsrc2, A1 */ #define ISA_MVFACMI_A0 0x50f2 /* mvfacmi Rdest, A0 */ #define ISA_MVFACMI_A1 0x50f6 /* mvfacmi Rdest, A1 */ static int emu_addi(unsigned short insn, struct pt_regs *regs) { char imm = (char)(insn & 0xff); int dest = REG1(insn); int val; val = get_reg(regs, dest); val += imm; set_reg(regs, dest, val); return 0; } static int emu_ldi(unsigned short insn, struct pt_regs *regs) { char imm = (char)(insn & 0xff); set_reg(regs, REG1(insn), (int)imm); return 0; } static int emu_add(unsigned short insn, struct pt_regs *regs) { int dest = REG1(insn); int src = REG2(insn); int val; val = get_reg(regs, dest); val += get_reg(regs, src); set_reg(regs, dest, val); return 0; } static int emu_addx(unsigned short insn, struct pt_regs *regs) { int dest = REG1(insn); unsigned int val, tmp; val = regs->psw & PSW_BC ? 1 : 0; tmp = get_reg(regs, dest); val += tmp; val += (unsigned int)get_reg(regs, REG2(insn)); set_reg(regs, dest, val); /* C bit set */ if (val < tmp) regs->psw |= PSW_BC; else regs->psw &= ~(PSW_BC); return 0; } static int emu_and(unsigned short insn, struct pt_regs *regs) { int dest = REG1(insn); int val; val = get_reg(regs, dest); val &= get_reg(regs, REG2(insn)); set_reg(regs, dest, val); return 0; } static int emu_cmp(unsigned short insn, struct pt_regs *regs) { if (get_reg(regs, REG1(insn)) < get_reg(regs, REG2(insn))) regs->psw |= PSW_BC; else regs->psw &= ~(PSW_BC); return 0; } static int emu_cmpeq(unsigned short insn, struct pt_regs *regs) { if (get_reg(regs, REG1(insn)) == get_reg(regs, REG2(insn))) regs->psw |= PSW_BC; else regs->psw &= ~(PSW_BC); return 0; } static int emu_cmpu(unsigned short insn, struct pt_regs *regs) { if ((unsigned int)get_reg(regs, REG1(insn)) < (unsigned int)get_reg(regs, REG2(insn))) regs->psw |= PSW_BC; else regs->psw &= ~(PSW_BC); return 0; } static int emu_cmpz(unsigned short insn, struct pt_regs *regs) { if (!get_reg(regs, REG2(insn))) regs->psw |= PSW_BC; else regs->psw &= ~(PSW_BC); return 0; } static int emu_mv(unsigned short insn, struct pt_regs *regs) { int val; val = get_reg(regs, REG2(insn)); set_reg(regs, REG1(insn), val); return 0; } static int emu_neg(unsigned short insn, struct pt_regs *regs) { int val; val = get_reg(regs, REG2(insn)); set_reg(regs, REG1(insn), 0 - val); return 0; } static int emu_not(unsigned short insn, struct pt_regs *regs) { int val; val = get_reg(regs, REG2(insn)); set_reg(regs, REG1(insn), ~val); return 0; } static int emu_or(unsigned short insn, struct pt_regs *regs) { int dest = REG1(insn); int val; val = get_reg(regs, dest); val |= get_reg(regs, REG2(insn)); set_reg(regs, dest, val); return 0; } static int emu_sub(unsigned short insn, struct pt_regs *regs) { int dest = REG1(insn); int val; val = get_reg(regs, dest); val -= get_reg(regs, REG2(insn)); set_reg(regs, dest, val); return 0; } static int emu_subx(unsigned short insn, struct pt_regs *regs) { int dest = REG1(insn); unsigned int val, tmp; val = tmp = get_reg(regs, dest); val -= (unsigned int)get_reg(regs, REG2(insn)); val -= regs->psw & PSW_BC ? 1 : 0; set_reg(regs, dest, val); /* C bit set */ if (val > tmp) regs->psw |= PSW_BC; else regs->psw &= ~(PSW_BC); return 0; } static int emu_xor(unsigned short insn, struct pt_regs *regs) { int dest = REG1(insn); unsigned int val; val = (unsigned int)get_reg(regs, dest); val ^= (unsigned int)get_reg(regs, REG2(insn)); set_reg(regs, dest, val); return 0; } static int emu_mul(unsigned short insn, struct pt_regs *regs) { int dest = REG1(insn); int reg1, reg2; reg1 = get_reg(regs, dest); reg2 = get_reg(regs, REG2(insn)); __asm__ __volatile__ ( "mul %0, %1; \n\t" : "+r" (reg1) : "r" (reg2) ); set_reg(regs, dest, reg1); return 0; } static int emu_mullo_a0(unsigned short insn, struct pt_regs *regs) { int reg1, reg2; reg1 = get_reg(regs, REG1(insn)); reg2 = get_reg(regs, REG2(insn)); __asm__ __volatile__ ( "mullo %0, %1, a0; \n\t" "mvfachi %0, a0; \n\t" "mvfaclo %1, a0; \n\t" : "+r" (reg1), "+r" (reg2) ); regs->acc0h = reg1; regs->acc0l = reg2; return 0; } static int emu_mullo_a1(unsigned short insn, struct pt_regs *regs) { int reg1, reg2; reg1 = get_reg(regs, REG1(insn)); reg2 = get_reg(regs, REG2(insn)); __asm__ __volatile__ ( "mullo %0, %1, a0; \n\t" "mvfachi %0, a0; \n\t" "mvfaclo %1, a0; \n\t" : "+r" (reg1), "+r" (reg2) ); regs->acc1h = reg1; regs->acc1l = reg2; return 0; } static int emu_mvfacmi_a0(unsigned short insn, struct pt_regs *regs) { unsigned long val; val = (regs->acc0h << 16) | (regs->acc0l >> 16); set_reg(regs, REG1(insn), (int)val); return 0; } static int emu_mvfacmi_a1(unsigned short insn, struct pt_regs *regs) { unsigned long val; val = (regs->acc1h << 16) | (regs->acc1l >> 16); set_reg(regs, REG1(insn), (int)val); return 0; } static int emu_m32r2(unsigned short insn, struct pt_regs *regs) { int res = -1; if ((insn & 0x7fff) == ISA_NOP) /* nop */ return 0; switch(insn & 0x7000) { case ISA_ADDI: /* addi Rdest, #imm8 */ res = emu_addi(insn, regs); break; case ISA_LDI: /* ldi Rdest, #imm8 */ res = emu_ldi(insn, regs); break; default: break; } if (!res) return 0; switch(insn & 0x70f0) { case ISA_ADD: /* add Rdest, Rsrc */ res = emu_add(insn, regs); break; case ISA_ADDX: /* addx Rdest, Rsrc */ res = emu_addx(insn, regs); break; case ISA_AND: /* and Rdest, Rsrc */ res = emu_and(insn, regs); break; case ISA_CMP: /* cmp Rsrc1, Rsrc2 */ res = emu_cmp(insn, regs); break; case ISA_CMPEQ: /* cmpeq Rsrc1, Rsrc2 */ res = emu_cmpeq(insn, regs); break; case ISA_CMPU: /* cmpu Rsrc1, Rsrc2 */ res = emu_cmpu(insn, regs); break; case ISA_CMPZ: /* cmpz Rsrc */ res = emu_cmpz(insn, regs); break; case ISA_MV: /* mv Rdest, Rsrc */ res = emu_mv(insn, regs); break; case ISA_NEG: /* neg Rdest, Rsrc */ res = emu_neg(insn, regs); break; case ISA_NOT: /* not Rdest, Rsrc */ res = emu_not(insn, regs); break; case ISA_OR: /* or Rdest, Rsrc */ res = emu_or(insn, regs); break; case ISA_SUB: /* sub Rdest, Rsrc */ res = emu_sub(insn, regs); break; case ISA_SUBX: /* subx Rdest, Rsrc */ res = emu_subx(insn, regs); break; case ISA_XOR: /* xor Rdest, Rsrc */ res = emu_xor(insn, regs); break; case ISA_MUL: /* mul Rdest, Rsrc */ res = emu_mul(insn, regs); break; case ISA_MULLO_A0: /* mullo Rsrc1, Rsrc2 */ res = emu_mullo_a0(insn, regs); break; case ISA_MULLO_A1: /* mullo Rsrc1, Rsrc2 */ res = emu_mullo_a1(insn, regs); break; default: break; } if (!res) return 0; switch(insn & 0x70ff) { case ISA_MVFACMI_A0: /* mvfacmi Rdest */ res = emu_mvfacmi_a0(insn, regs); break; case ISA_MVFACMI_A1: /* mvfacmi Rdest */ res = emu_mvfacmi_a1(insn, regs); break; default: break; } return res; } #endif /* CONFIG_ISA_DUAL_ISSUE */ /* * ld : ?010 dest 1100 src * 0010 dest 1110 src : ld Rdest, @Rsrc+ * ldh : ?010 dest 1010 src * lduh : ?010 dest 1011 src * st : ?010 src1 0100 src2 * 0010 src1 0110 src2 : st Rsrc1, @+Rsrc2 * 0010 src1 0111 src2 : st Rsrc1, @-Rsrc2 * sth : ?010 src1 0010 src2 */ static int insn_check(unsigned long insn, struct pt_regs *regs, unsigned char **ucp) { int res = 0; /* * 32bit insn * ld Rdest, @(disp16, Rsrc) * st Rdest, @(disp16, Rsrc) */ if (insn & 0x80000000) { /* 32bit insn */ *ucp += (short)(insn & 0x0000ffff); regs->bpc += 4; } else { /* 16bit insn */ #ifdef CONFIG_ISA_DUAL_ISSUE /* parallel exec check */ if (!(regs->bpc & 0x2) && insn & 0x8000) { res = emu_m32r2((unsigned short)insn, regs); regs->bpc += 4; } else #endif /* CONFIG_ISA_DUAL_ISSUE */ regs->bpc += 2; } return res; } static int emu_ld(unsigned long insn32, struct pt_regs *regs) { unsigned char *ucp; unsigned long val; unsigned short insn16; int size, src; insn16 = insn32 >> 16; src = REG2(insn16); ucp = (unsigned char *)get_reg(regs, src); if (insn_check(insn32, regs, &ucp)) return -1; size = insn16 & 0x0040 ? 4 : 2; if (copy_from_user(&val, ucp, size)) return -1; if (size == 2) val >>= 16; /* ldh sign check */ if ((insn16 & 0x00f0) == 0x00a0 && (val & 0x8000)) val |= 0xffff0000; set_reg(regs, REG1(insn16), val); /* ld increment check */ if ((insn16 & 0xf0f0) == ISA_LD2) /* ld Rdest, @Rsrc+ */ set_reg(regs, src, (unsigned long)(ucp + 4)); return 0; } static int emu_st(unsigned long insn32, struct pt_regs *regs) { unsigned char *ucp; unsigned long val; unsigned short insn16; int size, src2; insn16 = insn32 >> 16; src2 = REG2(insn16); ucp = (unsigned char *)get_reg(regs, src2); if (insn_check(insn32, regs, &ucp)) return -1; size = insn16 & 0x0040 ? 4 : 2; val = get_reg(regs, REG1(insn16)); if (size == 2) val <<= 16; /* st inc/dec check */ if ((insn16 & 0xf0e0) == 0x2060) { if (insn16 & 0x0010) ucp -= 4; else ucp += 4; set_reg(regs, src2, (unsigned long)ucp); } if (copy_to_user(ucp, &val, size)) return -1; /* sth inc check */ if ((insn16 & 0xf0f0) == ISA_STH2) { ucp += 2; set_reg(regs, src2, (unsigned long)ucp); } return 0; } int handle_unaligned_access(unsigned long insn32, struct pt_regs *regs) { unsigned short insn16; int res; insn16 = insn32 >> 16; /* ld or st check */ if ((insn16 & 0x7000) != 0x2000) return -1; /* insn alignment check */ if ((insn16 & 0x8000) && (regs->bpc & 3)) return -1; if (insn16 & 0x0080) /* ld */ res = emu_ld(insn32, regs); else /* st */ res = emu_st(insn32, regs); return res; }