| |
| /*---------------------------------------------------------------*/ |
| /*--- begin host_ppc_defs.h ---*/ |
| /*---------------------------------------------------------------*/ |
| |
| /* |
| This file is part of Valgrind, a dynamic binary instrumentation |
| framework. |
| |
| Copyright (C) 2004-2015 OpenWorks LLP |
| info@open-works.net |
| |
| This program is free software; you can redistribute it and/or |
| modify it under the terms of the GNU General Public License as |
| published by the Free Software Foundation; either version 2 of the |
| License, or (at your option) any later version. |
| |
| This program is distributed in the hope that it will be useful, but |
| WITHOUT ANY WARRANTY; without even the implied warranty of |
| MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU |
| General Public License for more details. |
| |
| You should have received a copy of the GNU General Public License |
| along with this program; if not, write to the Free Software |
| Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA |
| 02110-1301, USA. |
| |
| The GNU General Public License is contained in the file COPYING. |
| |
| Neither the names of the U.S. Department of Energy nor the |
| University of California nor the names of its contributors may be |
| used to endorse or promote products derived from this software |
| without prior written permission. |
| */ |
| |
| #ifndef __VEX_HOST_PPC_DEFS_H |
| #define __VEX_HOST_PPC_DEFS_H |
| |
| #include "libvex_basictypes.h" |
| #include "libvex.h" // VexArch |
| #include "host_generic_regs.h" // HReg |
| |
| |
| /* --------- Registers. --------- */ |
| |
| #define ST_IN static inline |
| |
| #define GPR(_mode64, _enc, _ix64, _ix32) \ |
| mkHReg(False, (_mode64) ? HRcInt64 : HRcInt32, \ |
| (_enc), (_mode64) ? (_ix64) : (_ix32)) |
| |
| #define FPR(_mode64, _enc, _ix64, _ix32) \ |
| mkHReg(False, HRcFlt64, \ |
| (_enc), (_mode64) ? (_ix64) : (_ix32)) |
| |
| #define VR(_mode64, _enc, _ix64, _ix32) \ |
| mkHReg(False, HRcVec128, \ |
| (_enc), (_mode64) ? (_ix64) : (_ix32)) |
| |
| ST_IN HReg hregPPC_GPR3 ( Bool mode64 ) { return GPR(mode64, 3, 0, 0); } |
| ST_IN HReg hregPPC_GPR4 ( Bool mode64 ) { return GPR(mode64, 4, 1, 1); } |
| ST_IN HReg hregPPC_GPR5 ( Bool mode64 ) { return GPR(mode64, 5, 2, 2); } |
| ST_IN HReg hregPPC_GPR6 ( Bool mode64 ) { return GPR(mode64, 6, 3, 3); } |
| ST_IN HReg hregPPC_GPR7 ( Bool mode64 ) { return GPR(mode64, 7, 4, 4); } |
| ST_IN HReg hregPPC_GPR8 ( Bool mode64 ) { return GPR(mode64, 8, 5, 5); } |
| ST_IN HReg hregPPC_GPR9 ( Bool mode64 ) { return GPR(mode64, 9, 6, 6); } |
| ST_IN HReg hregPPC_GPR10 ( Bool mode64 ) { return GPR(mode64, 10, 7, 7); } |
| |
| // r11 and r12 are only allocatable in 32-bit mode. Hence the 64-bit |
| // index numbering doesn't advance for these two. |
| ST_IN HReg hregPPC_GPR11 ( Bool mode64 ) { return GPR(mode64, 11, 0, 8); } |
| ST_IN HReg hregPPC_GPR12 ( Bool mode64 ) { return GPR(mode64, 12, 0, 9); } |
| |
| ST_IN HReg hregPPC_GPR14 ( Bool mode64 ) { return GPR(mode64, 14, 8, 10); } |
| ST_IN HReg hregPPC_GPR15 ( Bool mode64 ) { return GPR(mode64, 15, 9, 11); } |
| ST_IN HReg hregPPC_GPR16 ( Bool mode64 ) { return GPR(mode64, 16, 10, 12); } |
| ST_IN HReg hregPPC_GPR17 ( Bool mode64 ) { return GPR(mode64, 17, 11, 13); } |
| ST_IN HReg hregPPC_GPR18 ( Bool mode64 ) { return GPR(mode64, 18, 12, 14); } |
| ST_IN HReg hregPPC_GPR19 ( Bool mode64 ) { return GPR(mode64, 19, 13, 15); } |
| ST_IN HReg hregPPC_GPR20 ( Bool mode64 ) { return GPR(mode64, 20, 14, 16); } |
| ST_IN HReg hregPPC_GPR21 ( Bool mode64 ) { return GPR(mode64, 21, 15, 17); } |
| ST_IN HReg hregPPC_GPR22 ( Bool mode64 ) { return GPR(mode64, 22, 16, 18); } |
| ST_IN HReg hregPPC_GPR23 ( Bool mode64 ) { return GPR(mode64, 23, 17, 19); } |
| ST_IN HReg hregPPC_GPR24 ( Bool mode64 ) { return GPR(mode64, 24, 18, 20); } |
| ST_IN HReg hregPPC_GPR25 ( Bool mode64 ) { return GPR(mode64, 25, 19, 21); } |
| ST_IN HReg hregPPC_GPR26 ( Bool mode64 ) { return GPR(mode64, 26, 20, 22); } |
| ST_IN HReg hregPPC_GPR27 ( Bool mode64 ) { return GPR(mode64, 27, 21, 23); } |
| ST_IN HReg hregPPC_GPR28 ( Bool mode64 ) { return GPR(mode64, 28, 22, 24); } |
| |
| ST_IN HReg hregPPC_FPR14 ( Bool mode64 ) { return FPR(mode64, 14, 23, 25); } |
| ST_IN HReg hregPPC_FPR15 ( Bool mode64 ) { return FPR(mode64, 15, 24, 26); } |
| ST_IN HReg hregPPC_FPR16 ( Bool mode64 ) { return FPR(mode64, 16, 25, 27); } |
| ST_IN HReg hregPPC_FPR17 ( Bool mode64 ) { return FPR(mode64, 17, 26, 28); } |
| ST_IN HReg hregPPC_FPR18 ( Bool mode64 ) { return FPR(mode64, 18, 27, 29); } |
| ST_IN HReg hregPPC_FPR19 ( Bool mode64 ) { return FPR(mode64, 19, 28, 30); } |
| ST_IN HReg hregPPC_FPR20 ( Bool mode64 ) { return FPR(mode64, 20, 29, 31); } |
| ST_IN HReg hregPPC_FPR21 ( Bool mode64 ) { return FPR(mode64, 21, 30, 32); } |
| |
| ST_IN HReg hregPPC_VR20 ( Bool mode64 ) { return VR (mode64, 20, 31, 33); } |
| ST_IN HReg hregPPC_VR21 ( Bool mode64 ) { return VR (mode64, 21, 32, 34); } |
| ST_IN HReg hregPPC_VR22 ( Bool mode64 ) { return VR (mode64, 22, 33, 35); } |
| ST_IN HReg hregPPC_VR23 ( Bool mode64 ) { return VR (mode64, 23, 34, 36); } |
| ST_IN HReg hregPPC_VR24 ( Bool mode64 ) { return VR (mode64, 24, 35, 37); } |
| ST_IN HReg hregPPC_VR25 ( Bool mode64 ) { return VR (mode64, 25, 36, 38); } |
| ST_IN HReg hregPPC_VR26 ( Bool mode64 ) { return VR (mode64, 26, 37, 39); } |
| ST_IN HReg hregPPC_VR27 ( Bool mode64 ) { return VR (mode64, 27, 38, 40); } |
| |
| ST_IN HReg hregPPC_GPR1 ( Bool mode64 ) { return GPR(mode64, 1, 39, 41); } |
| ST_IN HReg hregPPC_GPR29 ( Bool mode64 ) { return GPR(mode64, 29, 40, 42); } |
| ST_IN HReg hregPPC_GPR30 ( Bool mode64 ) { return GPR(mode64, 30, 41, 43); } |
| ST_IN HReg hregPPC_GPR31 ( Bool mode64 ) { return GPR(mode64, 31, 42, 44); } |
| ST_IN HReg hregPPC_VR29 ( Bool mode64 ) { return VR (mode64, 29, 43, 45); } |
| |
| #undef ST_IN |
| #undef GPR |
| #undef FPR |
| #undef VR |
| |
| #define StackFramePtr(_mode64) hregPPC_GPR1(_mode64) |
| #define GuestStatePtr(_mode64) hregPPC_GPR31(_mode64) |
| |
| /* Num registers used for function calls */ |
| #define PPC_N_REGPARMS 8 |
| |
| extern void ppHRegPPC ( HReg ); |
| |
| |
| /* --------- Condition codes --------- */ |
| |
| /* This gives names from bitfields in CR; hence it names BI numbers */ |
| /* Using IBM/hardware indexing convention */ |
| typedef |
| enum { |
| // CR7, which we use for integer compares |
| Pcf_7LT = 28, /* neg | lt */ |
| Pcf_7GT = 29, /* pos | gt */ |
| Pcf_7EQ = 30, /* zero | equal */ |
| Pcf_7SO = 31, /* summary overflow */ |
| Pcf_NONE = 32 /* no condition; used with Pct_ALWAYS */ |
| } |
| PPCCondFlag; |
| |
| typedef |
| enum { /* Maps bc bitfield BO */ |
| Pct_FALSE = 0x4, /* associated PPCCondFlag must not be Pcf_NONE */ |
| Pct_TRUE = 0xC, /* associated PPCCondFlag must not be Pcf_NONE */ |
| Pct_ALWAYS = 0x14 /* associated PPCCondFlag must be Pcf_NONE */ |
| } |
| PPCCondTest; |
| |
| typedef |
| struct { |
| PPCCondFlag flag; |
| PPCCondTest test; |
| } |
| PPCCondCode; |
| |
| extern const HChar* showPPCCondCode ( PPCCondCode ); |
| |
| /* constructor */ |
| extern PPCCondCode mk_PPCCondCode ( PPCCondTest, PPCCondFlag ); |
| |
| /* false->true, true->false */ |
| extern PPCCondTest invertCondTest ( PPCCondTest ); |
| |
| |
| |
| |
| /* --------- Memory address expressions (amodes). --------- */ |
| |
| typedef |
| enum { |
| Pam_IR=1, /* Immediate (signed 16-bit) + Reg */ |
| Pam_RR=2 /* Reg1 + Reg2 */ |
| } |
| PPCAModeTag; |
| |
| typedef |
| struct { |
| PPCAModeTag tag; |
| union { |
| struct { |
| HReg base; |
| Int index; |
| } IR; |
| struct { |
| HReg base; |
| HReg index; |
| } RR; |
| } Pam; |
| } |
| PPCAMode; |
| |
| extern PPCAMode* PPCAMode_IR ( Int, HReg ); |
| extern PPCAMode* PPCAMode_RR ( HReg, HReg ); |
| |
| extern PPCAMode* dopyPPCAMode ( PPCAMode* ); |
| |
| extern void ppPPCAMode ( PPCAMode* ); |
| |
| |
| /* --------- Operand, which can be a reg or a u16/s16. --------- */ |
| /* ("RH" == "Register or Halfword immediate") */ |
| typedef |
| enum { |
| Prh_Imm=3, |
| Prh_Reg=4 |
| } |
| PPCRHTag; |
| |
| typedef |
| struct { |
| PPCRHTag tag; |
| union { |
| struct { |
| Bool syned; |
| UShort imm16; |
| } Imm; |
| struct { |
| HReg reg; |
| } Reg; |
| } |
| Prh; |
| } |
| PPCRH; |
| |
| extern PPCRH* PPCRH_Imm ( Bool, UShort ); |
| extern PPCRH* PPCRH_Reg ( HReg ); |
| |
| extern void ppPPCRH ( PPCRH* ); |
| |
| |
| /* --------- Operand, which can be a reg or a u32/64. --------- */ |
| |
| typedef |
| enum { |
| Pri_Imm=5, |
| Pri_Reg=6 |
| } |
| PPCRITag; |
| |
| typedef |
| struct { |
| PPCRITag tag; |
| union { |
| ULong Imm; |
| HReg Reg; |
| } |
| Pri; |
| } |
| PPCRI; |
| |
| extern PPCRI* PPCRI_Imm ( ULong ); |
| extern PPCRI* PPCRI_Reg( HReg ); |
| |
| extern void ppPPCRI ( PPCRI* ); |
| |
| |
| /* --------- Operand, which can be a vector reg or a s6. --------- */ |
| /* ("VI" == "Vector Register or Immediate") */ |
| typedef |
| enum { |
| Pvi_Imm=7, |
| Pvi_Reg=8 |
| } |
| PPCVI5sTag; |
| |
| typedef |
| struct { |
| PPCVI5sTag tag; |
| union { |
| Char Imm5s; |
| HReg Reg; |
| } |
| Pvi; |
| } |
| PPCVI5s; |
| |
| extern PPCVI5s* PPCVI5s_Imm ( Char ); |
| extern PPCVI5s* PPCVI5s_Reg ( HReg ); |
| |
| extern void ppPPCVI5s ( PPCVI5s* ); |
| |
| |
| /* --------- Instructions. --------- */ |
| |
| /* --------- */ |
| typedef |
| enum { |
| Pun_NEG, |
| Pun_NOT, |
| Pun_CLZ32, |
| Pun_CLZ64, |
| Pun_CTZ32, |
| Pun_CTZ64, |
| Pun_EXTSW |
| } |
| PPCUnaryOp; |
| |
| extern const HChar* showPPCUnaryOp ( PPCUnaryOp ); |
| |
| |
| /* --------- */ |
| typedef |
| enum { |
| Palu_INVALID, |
| Palu_ADD, Palu_SUB, |
| Palu_AND, Palu_OR, Palu_XOR, |
| } |
| PPCAluOp; |
| |
| extern |
| const HChar* showPPCAluOp ( PPCAluOp, |
| Bool /* is the 2nd operand an immediate? */); |
| |
| |
| /* --------- */ |
| typedef |
| enum { |
| Pshft_INVALID, |
| Pshft_SHL, Pshft_SHR, Pshft_SAR, |
| } |
| PPCShftOp; |
| |
| extern |
| const HChar* showPPCShftOp ( PPCShftOp, |
| Bool /* is the 2nd operand an immediate? */, |
| Bool /* is this a 32bit or 64bit op? */ ); |
| |
| |
| /* --------- */ |
| typedef |
| enum { |
| Pfp_INVALID, |
| |
| /* Ternary */ |
| Pfp_MADDD, Pfp_MSUBD, |
| Pfp_MADDS, Pfp_MSUBS, |
| Pfp_FPADDQ, Pfp_FPADDQRNDODD, |
| Pfp_FPSUBQ, Pfp_FPSUBQRNDODD, |
| Pfp_FPMULQ, Pfp_FPMULQRNDODD, |
| Pfp_FPDIVQ, Pfp_FPDIVQRNDODD, |
| Pfp_FPMULADDQ, Pfp_FPMULADDQRNDODD, |
| Pfp_FPMULSUBQ, Pfp_FPMULSUBQRNDODD, |
| Pfp_FPNEGMULADDQ, Pfp_FPNEGMULADDQRNDODD, |
| Pfp_FPNEGMULSUBQ, Pfp_FPNEGMULSUBQRNDODD, |
| Pfp_FPSQRTQ, Pfp_FPSQRTQRNDODD, |
| Pfp_FPQTOD, Pfp_FPQTODRNDODD, |
| Pfp_FPQTOW, Pfp_FPQTOWRNDODD, |
| Pfp_FPDTOQ, |
| Pfp_IDSTOQ, |
| Pfp_IDUTOQ, |
| Pfp_TRUNCFPQTOISD, |
| Pfp_TRUNCFPQTOISW, |
| Pfp_TRUNCFPQTOIUD, |
| Pfp_TRUNCFPQTOIUW, |
| Pfp_DFPADD, Pfp_DFPADDQ, |
| Pfp_DFPSUB, Pfp_DFPSUBQ, |
| Pfp_DFPMUL, Pfp_DFPMULQ, |
| Pfp_DFPDIV, Pfp_DFPDIVQ, |
| Pfp_DQUAQ, Pfp_DRRNDQ, |
| |
| /* Binary */ |
| Pfp_ADDD, Pfp_SUBD, Pfp_MULD, Pfp_DIVD, |
| Pfp_ADDS, Pfp_SUBS, Pfp_MULS, Pfp_DIVS, |
| Pfp_DRSP, Pfp_DRDPQ, Pfp_DCTFIX, Pfp_DCTFIXQ, Pfp_DCFFIX, |
| Pfp_DQUA, Pfp_RRDTR, Pfp_DIEX, Pfp_DIEXQ, Pfp_DRINTN, |
| |
| /* Unary */ |
| Pfp_SQRT, Pfp_ABS, Pfp_NEG, Pfp_MOV, Pfp_RES, Pfp_RSQRTE, |
| Pfp_FRIN, Pfp_FRIM, Pfp_FRIP, Pfp_FRIZ, |
| Pfp_DSCLI, Pfp_DSCRI, Pfp_DSCLIQ, Pfp_DSCRIQ, Pfp_DCTDP, |
| Pfp_DCTQPQ, Pfp_DCFFIXQ, Pfp_DXEX, Pfp_DXEXQ, |
| |
| } |
| PPCFpOp; |
| |
| extern const HChar* showPPCFpOp ( PPCFpOp ); |
| |
| |
| /* --------- */ |
| typedef |
| enum { |
| Pav_INVALID, |
| |
| /* Integer Unary */ |
| Pav_MOV, /* Mov */ |
| Pav_NOT, /* Bitwise */ |
| Pav_UNPCKH8S, Pav_UNPCKH16S, /* Unpack */ |
| Pav_UNPCKL8S, Pav_UNPCKL16S, |
| Pav_UNPCKHPIX, Pav_UNPCKLPIX, |
| |
| /* Integer Binary */ |
| Pav_AND, Pav_OR, Pav_XOR, /* Bitwise */ |
| Pav_ADDU, Pav_QADDU, Pav_QADDS, |
| Pav_SUBU, Pav_QSUBU, Pav_QSUBS, |
| Pav_MULU, |
| Pav_OMULU, Pav_OMULS, Pav_EMULU, Pav_EMULS, |
| Pav_AVGU, Pav_AVGS, |
| Pav_MAXU, Pav_MAXS, |
| Pav_MINU, Pav_MINS, |
| |
| /* Compare (always affects CR field 6) */ |
| Pav_CMPEQU, Pav_CMPGTU, Pav_CMPGTS, |
| |
| /* Shift */ |
| Pav_SHL, Pav_SHR, Pav_SAR, Pav_ROTL, |
| |
| /* Pack */ |
| Pav_PACKUU, Pav_QPACKUU, Pav_QPACKSU, Pav_QPACKSS, |
| Pav_PACKPXL, |
| |
| /* Merge */ |
| Pav_MRGHI, Pav_MRGLO, |
| |
| /* Concatenation */ |
| Pav_CATODD, Pav_CATEVEN, |
| |
| /* Polynomial Multipy-Add */ |
| Pav_POLYMULADD, |
| |
| /* Cipher */ |
| Pav_CIPHERV128, Pav_CIPHERLV128, Pav_NCIPHERV128, Pav_NCIPHERLV128, |
| Pav_CIPHERSUBV128, |
| |
| /* Hash */ |
| Pav_SHA256, Pav_SHA512, |
| |
| /* BCD Arithmetic */ |
| Pav_BCDAdd, Pav_BCDSub, |
| |
| /* Conversion signed 128-bit value to signed BCD 128-bit */ |
| Pav_I128StoBCD128, |
| |
| /* Conversion signed BCD 128-bit to signed 128-bit value */ |
| Pav_BCD128toI128S, |
| |
| /* zero count */ |
| Pav_ZEROCNTBYTE, Pav_ZEROCNTWORD, Pav_ZEROCNTHALF, Pav_ZEROCNTDBL, |
| |
| /* trailing zero count */ |
| Pav_TRAILINGZEROCNTBYTE, Pav_TRAILINGZEROCNTWORD, |
| Pav_TRAILINGZEROCNTHALF, Pav_TRAILINGZEROCNTDBL, |
| |
| /* Vector bit matrix transpose by byte */ |
| Pav_BITMTXXPOSE, |
| |
| /* Vector Half-precision format to single precision conversion */ |
| Pav_F16toF32x4, |
| |
| /* Vector Single precision format to Half-precision conversion */ |
| Pav_F32toF16x4, |
| |
| /* Vector Half-precision format to Double precision conversion */ |
| Pav_F16toF64x2, |
| |
| /* Vector Double precision format to Half-precision conversion */ |
| Pav_F64toF16x2, |
| |
| /* 128 bit mult by 10 */ |
| Pav_MulI128by10, |
| |
| /* 128 bit mult by 10, carry out */ |
| Pav_MulI128by10Carry, |
| |
| /* 128 bit mult by 10 plus carry in */ |
| Pav_MulI128by10E, |
| |
| /* 128 bit mult by 10 plus carry in, carry out */ |
| Pav_MulI128by10ECarry, |
| |
| /* F128 to I128 */ |
| Pav_F128toI128S, |
| |
| /* Round F128 to F128 */ |
| Pav_ROUNDFPQ, |
| } |
| PPCAvOp; |
| |
| extern const HChar* showPPCAvOp ( PPCAvOp ); |
| |
| |
| /* --------- */ |
| typedef |
| enum { |
| Pavfp_INVALID, |
| |
| /* Floating point binary */ |
| Pavfp_ADDF, Pavfp_SUBF, Pavfp_MULF, |
| Pavfp_MAXF, Pavfp_MINF, |
| Pavfp_CMPEQF, Pavfp_CMPGTF, Pavfp_CMPGEF, |
| |
| /* Floating point unary */ |
| Pavfp_RCPF, Pavfp_RSQRTF, |
| Pavfp_CVTU2F, Pavfp_CVTS2F, Pavfp_QCVTF2U, Pavfp_QCVTF2S, |
| Pavfp_ROUNDM, Pavfp_ROUNDP, Pavfp_ROUNDN, Pavfp_ROUNDZ, |
| } |
| PPCAvFpOp; |
| |
| extern const HChar* showPPCAvFpOp ( PPCAvFpOp ); |
| |
| |
| /* --------- */ |
| typedef |
| enum { |
| Pin_LI, /* load word (32/64-bit) immediate (fake insn) */ |
| Pin_Alu, /* word add/sub/and/or/xor */ |
| Pin_Shft, /* word shl/shr/sar */ |
| Pin_AddSubC, /* add/sub with read/write carry */ |
| Pin_Cmp, /* word compare */ |
| Pin_Unary, /* not, neg, clz */ |
| Pin_MulL, /* widening multiply */ |
| Pin_Div, /* div */ |
| Pin_Call, /* call to address in register */ |
| Pin_XDirect, /* direct transfer to GA */ |
| Pin_XIndir, /* indirect transfer to GA */ |
| Pin_XAssisted, /* assisted transfer to GA */ |
| Pin_CMov, /* conditional move */ |
| Pin_Load, /* zero-extending load a 8|16|32|64 bit value from mem */ |
| Pin_LoadL, /* load-linked (lwarx/ldarx) 32|64 bit value from mem */ |
| Pin_Store, /* store a 8|16|32|64 bit value to mem */ |
| Pin_StoreC, /* store-conditional (stwcx./stdcx.) 32|64 bit val */ |
| Pin_Set, /* convert condition code to value 0 or 1 */ |
| Pin_MfCR, /* move from condition register to GPR */ |
| Pin_MFence, /* mem fence */ |
| |
| Pin_FpUnary, /* FP unary op */ |
| Pin_FpBinary, /* FP binary op */ |
| Pin_Fp128Unary, /* FP unary op for 128-bit floating point */ |
| Pin_Fp128Binary, /* FP binary op for 128-bit floating point */ |
| Pin_Fp128Trinary, /* FP trinary op for 128-bit floating point */ |
| Pin_FpMulAcc, /* FP multipy-accumulate style op */ |
| Pin_FpLdSt, /* FP load/store */ |
| Pin_FpSTFIW, /* stfiwx */ |
| Pin_FpRSP, /* FP round IEEE754 double to IEEE754 single */ |
| Pin_FpCftI, /* fcfid[u,s,us]/fctid[u]/fctiw[u] */ |
| Pin_FpCMov, /* FP floating point conditional move */ |
| Pin_FpLdFPSCR, /* mtfsf */ |
| Pin_FpCmp, /* FP compare, generating value into int reg */ |
| |
| Pin_RdWrLR, /* Read/Write Link Register */ |
| |
| Pin_AvLdSt, /* AV load/store (kludging for AMode_IR) */ |
| Pin_AvUnary, /* AV unary general reg=>reg */ |
| |
| Pin_AvBinary, /* AV binary general reg,reg=>reg */ |
| Pin_AvBinaryInt,/* AV binary reg,int=>reg */ |
| Pin_AvBin8x16, /* AV binary, 8x4 */ |
| Pin_AvBin16x8, /* AV binary, 16x4 */ |
| Pin_AvBin32x4, /* AV binary, 32x4 */ |
| Pin_AvBin64x2, /* AV binary, 64x2 */ |
| |
| Pin_AvBin32Fx4, /* AV FP binary, 32Fx4 */ |
| Pin_AvUn32Fx4, /* AV FP unary, 32Fx4 */ |
| |
| Pin_AvPerm, /* AV permute (shuffle) */ |
| Pin_AvSel, /* AV select */ |
| Pin_AvSh, /* AV shift left or right */ |
| Pin_AvShlDbl, /* AV shift-left double by imm */ |
| Pin_AvSplat, /* One elem repeated throughout dst */ |
| Pin_AvLdVSCR, /* mtvscr */ |
| Pin_AvCMov, /* AV conditional move */ |
| Pin_AvCipherV128Unary, /* AV Vector unary Cipher */ |
| Pin_AvCipherV128Binary, /* AV Vector binary Cipher */ |
| Pin_AvHashV128Binary, /* AV Vector binary Hash */ |
| Pin_AvBCDV128Binary, /* BCD Arithmetic */ |
| Pin_Dfp64Unary, /* DFP64 unary op */ |
| Pin_Dfp128Unary, /* DFP128 unary op */ |
| Pin_DfpShift, /* Decimal floating point shift by immediate value */ |
| Pin_Dfp64Binary, /* DFP64 binary op */ |
| Pin_Dfp128Binary, /* DFP128 binary op */ |
| Pin_DfpShift128, /* 128-bit Decimal floating point shift by |
| * immediate value */ |
| Pin_DfpD128toD64, /* DFP 128 to DFP 64 op */ |
| Pin_DfpI64StoD128, /* DFP signed integer to DFP 128 */ |
| Pin_DfpRound, /* D64 round to D64 */ |
| Pin_DfpRound128, /* D128 round to D128 */ |
| Pin_ExtractExpD128, /* DFP, extract 64 bit exponent */ |
| Pin_InsertExpD128, /* DFP, insert 64 bit exponent and 128 bit binary |
| * significand into a DFP 128-bit value*/ |
| Pin_Dfp64Cmp, /* DFP 64-bit compare, generating value into |
| * int reg */ |
| Pin_Dfp128Cmp, /* DFP 128-bit compare, generating value into |
| * int reg */ |
| Pin_DfpQuantize, /* D64 quantize using register value, significance |
| * round */ |
| Pin_DfpQuantize128, /* D128 quantize using register value, significance |
| * round */ |
| Pin_EvCheck, /* Event check */ |
| Pin_ProfInc /* 64-bit profile counter increment */ |
| } |
| PPCInstrTag; |
| |
| /* Destinations are on the LEFT (first operand) */ |
| |
| typedef |
| struct { |
| PPCInstrTag tag; |
| union { |
| /* Get a 32/64-bit literal into a register. |
| May turn into a number of real insns. */ |
| struct { |
| HReg dst; |
| ULong imm64; |
| } LI; |
| /* Integer add/sub/and/or/xor. Limitations: |
| - For add, the immediate, if it exists, is a signed 16. |
| - For sub, the immediate, if it exists, is a signed 16 |
| which may not be -32768, since no such instruction |
| exists, and so we have to emit addi with +32768, but |
| that is not possible. |
| - For and/or/xor, the immediate, if it exists, |
| is an unsigned 16. |
| */ |
| struct { |
| PPCAluOp op; |
| HReg dst; |
| HReg srcL; |
| PPCRH* srcR; |
| } Alu; |
| /* Integer shl/shr/sar. |
| Limitations: the immediate, if it exists, |
| is a signed 5-bit value between 1 and 31 inclusive. |
| */ |
| struct { |
| PPCShftOp op; |
| Bool sz32; /* mode64 has both 32 and 64bit shft */ |
| HReg dst; |
| HReg srcL; |
| PPCRH* srcR; |
| } Shft; |
| /* */ |
| struct { |
| Bool isAdd; /* else sub */ |
| Bool setC; /* else read carry */ |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| } AddSubC; |
| /* If signed, the immediate, if it exists, is a signed 16, |
| else it is an unsigned 16. */ |
| struct { |
| Bool syned; |
| Bool sz32; /* mode64 has both 32 and 64bit cmp */ |
| UInt crfD; |
| HReg srcL; |
| PPCRH* srcR; |
| } Cmp; |
| /* Not, Neg, Clz32/64, Extsw */ |
| struct { |
| PPCUnaryOp op; |
| HReg dst; |
| HReg src; |
| } Unary; |
| struct { |
| Bool syned; /* meaningless if hi32==False */ |
| Bool hi; /* False=>low, True=>high */ |
| Bool sz32; /* mode64 has both 32 & 64bit mull */ |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| } MulL; |
| /* ppc32 div/divu instruction. */ |
| struct { |
| Bool extended; |
| Bool syned; |
| Bool sz32; /* mode64 has both 32 & 64bit div */ |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| } Div; |
| /* Pseudo-insn. Call target (an absolute address), on given |
| condition (which could be Pct_ALWAYS). argiregs indicates |
| which of r3 .. r10 carries argument values for this call, |
| using a bit mask (1<<N is set if rN holds an arg, for N in |
| 3 .. 10 inclusive). */ |
| struct { |
| PPCCondCode cond; |
| Addr64 target; |
| UInt argiregs; |
| RetLoc rloc; /* where the return value will be */ |
| } Call; |
| /* Update the guest CIA value, then exit requesting to chain |
| to it. May be conditional. Use of Addr64 in order to cope |
| with 64-bit hosts. */ |
| struct { |
| Addr64 dstGA; /* next guest address */ |
| PPCAMode* amCIA; /* amode in guest state for CIA */ |
| PPCCondCode cond; /* can be ALWAYS */ |
| Bool toFastEP; /* chain to the slow or fast point? */ |
| } XDirect; |
| /* Boring transfer to a guest address not known at JIT time. |
| Not chainable. May be conditional. */ |
| struct { |
| HReg dstGA; |
| PPCAMode* amCIA; |
| PPCCondCode cond; /* can be ALWAYS */ |
| } XIndir; |
| /* Assisted transfer to a guest address, most general case. |
| Not chainable. May be conditional. */ |
| struct { |
| HReg dstGA; |
| PPCAMode* amCIA; |
| PPCCondCode cond; /* can be ALWAYS */ |
| IRJumpKind jk; |
| } XAssisted; |
| /* Mov src to dst on the given condition, which may not |
| be the bogus Pct_ALWAYS. */ |
| struct { |
| PPCCondCode cond; |
| HReg dst; |
| PPCRI* src; |
| } CMov; |
| /* Zero extending loads. Dst size is host word size */ |
| struct { |
| UChar sz; /* 1|2|4|8 */ |
| HReg dst; |
| PPCAMode* src; |
| } Load; |
| /* Load-and-reserve (lwarx, ldarx) */ |
| struct { |
| UChar sz; /* 4|8 */ |
| HReg dst; |
| HReg src; |
| } LoadL; |
| /* 64/32/16/8 bit stores */ |
| struct { |
| UChar sz; /* 1|2|4|8 */ |
| PPCAMode* dst; |
| HReg src; |
| } Store; |
| /* Store-conditional (stwcx., stdcx.) */ |
| struct { |
| UChar sz; /* 4|8 */ |
| HReg dst; |
| HReg src; |
| } StoreC; |
| /* Convert a ppc condition code to value 0 or 1. */ |
| struct { |
| PPCCondCode cond; |
| HReg dst; |
| } Set; |
| /* Move the entire CR to a GPR */ |
| struct { |
| HReg dst; |
| } MfCR; |
| /* Mem fence. In short, an insn which flushes all preceding |
| loads and stores as much as possible before continuing. |
| On PPC we emit a "sync". */ |
| struct { |
| } MFence; |
| |
| /* PPC Floating point */ |
| struct { |
| PPCFpOp op; |
| HReg dst; |
| HReg src; |
| } FpUnary; |
| struct { |
| PPCFpOp op; |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| } FpBinary; |
| struct { |
| PPCFpOp op; |
| HReg dst; |
| HReg src; |
| } Fp128Unary; |
| struct { |
| PPCFpOp op; |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| } Fp128Binary; |
| struct { |
| PPCFpOp op; |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| } Fp128Trinary; |
| struct { |
| PPCFpOp op; |
| HReg dst; |
| HReg srcML; |
| HReg srcMR; |
| HReg srcAcc; |
| } FpMulAcc; |
| struct { |
| Bool isLoad; |
| UChar sz; /* only 4 (IEEE single) or 8 (IEEE double) */ |
| HReg reg; |
| PPCAMode* addr; |
| } FpLdSt; |
| struct { |
| HReg addr; /* int reg */ |
| HReg data; /* float reg */ |
| } FpSTFIW; |
| /* Round 64-bit FP value to 32-bit FP value in an FP reg. */ |
| struct { |
| HReg src; |
| HReg dst; |
| } FpRSP; |
| /* fcfid[u,s,us]/fctid[u]/fctiw[u]. Only some combinations |
| of the various fields are allowed. This is asserted for |
| and documented in the code for the constructor, |
| PPCInstr_FpCftI, in host_ppc_defs.c. */ |
| struct { |
| Bool fromI; /* True== I->F, False== F->I */ |
| Bool int32; /* True== I is 32, False== I is 64 */ |
| Bool syned; |
| Bool flt64; /* True== F is 64, False== F is 32 */ |
| HReg src; |
| HReg dst; |
| } FpCftI; |
| /* FP mov src to dst on the given condition. */ |
| struct { |
| PPCCondCode cond; |
| HReg dst; |
| HReg src; |
| } FpCMov; |
| /* Load FP Status & Control Register */ |
| struct { |
| HReg src; |
| UInt dfp_rm; |
| } FpLdFPSCR; |
| /* Do a compare, generating result into an int register. */ |
| struct { |
| UChar crfD; |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| } FpCmp; |
| |
| /* Read/Write Link Register */ |
| struct { |
| Bool wrLR; |
| HReg gpr; |
| } RdWrLR; |
| |
| /* Simplistic AltiVec */ |
| struct { |
| Bool isLoad; |
| UChar sz; /* 8|16|32|128 */ |
| HReg reg; |
| PPCAMode* addr; |
| } AvLdSt; |
| struct { |
| PPCAvOp op; |
| HReg dst; |
| HReg src; |
| } AvUnary; |
| struct { |
| PPCAvOp op; |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| } AvBinary; |
| struct { |
| PPCAvOp op; |
| HReg dst; |
| HReg src; |
| PPCRI* val; |
| } AvBinaryInt; |
| struct { |
| PPCAvOp op; |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| } AvBin8x16; |
| struct { |
| PPCAvOp op; |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| } AvBin16x8; |
| struct { |
| PPCAvOp op; |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| } AvBin32x4; |
| /* Can only be generated for CPUs capable of ISA 2.07 or above */ |
| struct { |
| PPCAvOp op; |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| } AvBin64x2; |
| struct { |
| PPCAvFpOp op; |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| } AvBin32Fx4; |
| struct { |
| PPCAvFpOp op; |
| HReg dst; |
| HReg src; |
| } AvUn32Fx4; |
| /* Perm,Sel,SlDbl,Splat are all weird AV permutations */ |
| struct { |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| HReg ctl; |
| } AvPerm; |
| struct { |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| HReg ctl; |
| } AvSel; |
| struct { |
| Bool shLeft; |
| HReg dst; |
| PPCAMode* addr; |
| } AvSh; |
| struct { |
| UChar shift; |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| } AvShlDbl; |
| struct { |
| UChar sz; /* 8,16,32 */ |
| HReg dst; |
| PPCVI5s* src; |
| } AvSplat; |
| /* Mov src to dst on the given condition, which may not |
| be the bogus Xcc_ALWAYS. */ |
| struct { |
| PPCCondCode cond; |
| HReg dst; |
| HReg src; |
| } AvCMov; |
| /* Load AltiVec Status & Control Register */ |
| struct { |
| HReg src; |
| } AvLdVSCR; |
| struct { |
| PPCAvOp op; |
| HReg dst; |
| HReg src; |
| } AvCipherV128Unary; |
| struct { |
| PPCAvOp op; |
| HReg dst; |
| HReg src; |
| PPCRI* s_field; |
| } AvHashV128Binary; |
| struct { |
| PPCAvOp op; |
| HReg dst; |
| HReg src1; |
| HReg src2; |
| } AvBCDV128Binary; |
| struct { |
| PPCAvOp op; |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| } AvCipherV128Binary; |
| struct { |
| PPCFpOp op; |
| HReg dst; |
| HReg src; |
| } Dfp64Unary; |
| struct { |
| PPCFpOp op; |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| } Dfp64Binary; |
| struct { |
| PPCFpOp op; |
| HReg dst; |
| HReg src; |
| PPCRI* shift; |
| } DfpShift; |
| struct { |
| PPCFpOp op; |
| HReg dst_hi; |
| HReg dst_lo; |
| HReg src_hi; |
| HReg src_lo; |
| } Dfp128Unary; |
| struct { |
| /* The dst is used to pass the left source operand in and return |
| * the result. |
| */ |
| PPCFpOp op; |
| HReg dst_hi; |
| HReg dst_lo; |
| HReg srcR_hi; |
| HReg srcR_lo; |
| } Dfp128Binary; |
| struct { |
| PPCFpOp op; |
| HReg dst_hi; |
| HReg dst_lo; |
| HReg src_hi; |
| HReg src_lo; |
| PPCRI* shift; |
| } DfpShift128; |
| struct { |
| HReg dst; |
| HReg src; |
| PPCRI* r_rmc; |
| } DfpRound; |
| struct { |
| HReg dst_hi; |
| HReg dst_lo; |
| HReg src_hi; |
| HReg src_lo; |
| PPCRI* r_rmc; |
| } DfpRound128; |
| struct { |
| PPCFpOp op; |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| PPCRI* rmc; |
| } DfpQuantize; |
| struct { |
| PPCFpOp op; |
| HReg dst_hi; |
| HReg dst_lo; |
| HReg src_hi; |
| HReg src_lo; |
| PPCRI* rmc; |
| } DfpQuantize128; |
| struct { |
| PPCFpOp op; |
| HReg dst; |
| HReg src_hi; |
| HReg src_lo; |
| } ExtractExpD128; |
| struct { |
| PPCFpOp op; |
| HReg dst_hi; |
| HReg dst_lo; |
| HReg srcL; |
| HReg srcR_hi; |
| HReg srcR_lo; |
| } InsertExpD128; |
| struct { |
| PPCFpOp op; |
| HReg dst; |
| HReg src_hi; |
| HReg src_lo; |
| } DfpD128toD64; |
| struct { |
| PPCFpOp op; |
| HReg dst_hi; |
| HReg dst_lo; |
| HReg src; |
| } DfpI64StoD128; |
| struct { |
| UChar crfD; |
| HReg dst; |
| HReg srcL; |
| HReg srcR; |
| } Dfp64Cmp; |
| struct { |
| UChar crfD; |
| HReg dst; |
| HReg srcL_hi; |
| HReg srcL_lo; |
| HReg srcR_hi; |
| HReg srcR_lo; |
| } Dfp128Cmp; |
| struct { |
| PPCAMode* amCounter; |
| PPCAMode* amFailAddr; |
| } EvCheck; |
| struct { |
| /* No fields. The address of the counter to inc is |
| installed later, post-translation, by patching it in, |
| as it is not known at translation time. */ |
| } ProfInc; |
| } Pin; |
| } |
| PPCInstr; |
| |
| |
| extern PPCInstr* PPCInstr_LI ( HReg, ULong, Bool ); |
| extern PPCInstr* PPCInstr_Alu ( PPCAluOp, HReg, HReg, PPCRH* ); |
| extern PPCInstr* PPCInstr_Shft ( PPCShftOp, Bool sz32, HReg, HReg, PPCRH* ); |
| extern PPCInstr* PPCInstr_AddSubC ( Bool, Bool, HReg, HReg, HReg ); |
| extern PPCInstr* PPCInstr_Cmp ( Bool, Bool, UInt, HReg, PPCRH* ); |
| extern PPCInstr* PPCInstr_Unary ( PPCUnaryOp op, HReg dst, HReg src ); |
| extern PPCInstr* PPCInstr_MulL ( Bool syned, Bool hi32, Bool sz32, HReg, HReg, HReg ); |
| extern PPCInstr* PPCInstr_Div ( Bool extended, Bool syned, Bool sz32, HReg dst, HReg srcL, HReg srcR ); |
| extern PPCInstr* PPCInstr_Call ( PPCCondCode, Addr64, UInt, RetLoc ); |
| extern PPCInstr* PPCInstr_XDirect ( Addr64 dstGA, PPCAMode* amCIA, |
| PPCCondCode cond, Bool toFastEP ); |
| extern PPCInstr* PPCInstr_XIndir ( HReg dstGA, PPCAMode* amCIA, |
| PPCCondCode cond ); |
| extern PPCInstr* PPCInstr_XAssisted ( HReg dstGA, PPCAMode* amCIA, |
| PPCCondCode cond, IRJumpKind jk ); |
| extern PPCInstr* PPCInstr_CMov ( PPCCondCode, HReg dst, PPCRI* src ); |
| extern PPCInstr* PPCInstr_Load ( UChar sz, |
| HReg dst, PPCAMode* src, Bool mode64 ); |
| extern PPCInstr* PPCInstr_LoadL ( UChar sz, |
| HReg dst, HReg src, Bool mode64 ); |
| extern PPCInstr* PPCInstr_Store ( UChar sz, PPCAMode* dst, |
| HReg src, Bool mode64 ); |
| extern PPCInstr* PPCInstr_StoreC ( UChar sz, HReg dst, HReg src, |
| Bool mode64 ); |
| extern PPCInstr* PPCInstr_Set ( PPCCondCode cond, HReg dst ); |
| extern PPCInstr* PPCInstr_MfCR ( HReg dst ); |
| extern PPCInstr* PPCInstr_MFence ( void ); |
| |
| extern PPCInstr* PPCInstr_Fp128Unary ( PPCFpOp op, HReg dst, HReg src ); |
| extern PPCInstr* PPCInstr_Fp128Binary ( PPCFpOp op, HReg dst, HReg srcL, HReg srcR ); |
| extern PPCInstr* PPCInstr_Fp128Trinary ( PPCFpOp op, HReg dst, HReg srcL, |
| HReg srcR); |
| |
| extern PPCInstr* PPCInstr_FpUnary ( PPCFpOp op, HReg dst, HReg src ); |
| extern PPCInstr* PPCInstr_FpBinary ( PPCFpOp op, HReg dst, HReg srcL, HReg srcR ); |
| extern PPCInstr* PPCInstr_FpMulAcc ( PPCFpOp op, HReg dst, HReg srcML, |
| HReg srcMR, HReg srcAcc ); |
| extern PPCInstr* PPCInstr_FpLdSt ( Bool isLoad, UChar sz, HReg, PPCAMode* ); |
| extern PPCInstr* PPCInstr_FpSTFIW ( HReg addr, HReg data ); |
| extern PPCInstr* PPCInstr_FpRSP ( HReg dst, HReg src ); |
| extern PPCInstr* PPCInstr_FpCftI ( Bool fromI, Bool int32, Bool syned, |
| Bool dst64, HReg dst, HReg src ); |
| extern PPCInstr* PPCInstr_FpCMov ( PPCCondCode, HReg dst, HReg src ); |
| extern PPCInstr* PPCInstr_FpLdFPSCR ( HReg src, Bool dfp_rm ); |
| extern PPCInstr* PPCInstr_FpCmp ( HReg dst, HReg srcL, HReg srcR ); |
| |
| extern PPCInstr* PPCInstr_RdWrLR ( Bool wrLR, HReg gpr ); |
| |
| extern PPCInstr* PPCInstr_AvLdSt ( Bool isLoad, UChar sz, HReg, PPCAMode* ); |
| extern PPCInstr* PPCInstr_AvUnary ( PPCAvOp op, HReg dst, HReg src ); |
| extern PPCInstr* PPCInstr_AvBinary ( PPCAvOp op, HReg dst, HReg srcL, HReg srcR ); |
| extern PPCInstr* PPCInstr_AvBinaryInt( PPCAvOp op, HReg dst, HReg src, PPCRI* val ); |
| extern PPCInstr* PPCInstr_AvBin8x16 ( PPCAvOp op, HReg dst, HReg srcL, HReg srcR ); |
| extern PPCInstr* PPCInstr_AvBin16x8 ( PPCAvOp op, HReg dst, HReg srcL, HReg srcR ); |
| extern PPCInstr* PPCInstr_AvBin32x4 ( PPCAvOp op, HReg dst, HReg srcL, HReg srcR ); |
| extern PPCInstr* PPCInstr_AvBin64x2 ( PPCAvOp op, HReg dst, HReg srcL, HReg srcR ); |
| extern PPCInstr* PPCInstr_AvBin32Fx4 ( PPCAvFpOp op, HReg dst, HReg srcL, HReg srcR ); |
| extern PPCInstr* PPCInstr_AvUn32Fx4 ( PPCAvFpOp op, HReg dst, HReg src ); |
| extern PPCInstr* PPCInstr_AvPerm ( HReg dst, HReg srcL, HReg srcR, HReg ctl ); |
| extern PPCInstr* PPCInstr_AvSel ( HReg ctl, HReg dst, HReg srcL, HReg srcR ); |
| extern PPCInstr* PPCInstr_AvSh ( Bool shLeft, HReg dst, PPCAMode* am_addr ); |
| extern PPCInstr* PPCInstr_AvShlDbl ( UChar shift, HReg dst, HReg srcL, HReg srcR ); |
| extern PPCInstr* PPCInstr_AvSplat ( UChar sz, HReg dst, PPCVI5s* src ); |
| extern PPCInstr* PPCInstr_AvCMov ( PPCCondCode, HReg dst, HReg src ); |
| extern PPCInstr* PPCInstr_AvLdVSCR ( HReg src ); |
| extern PPCInstr* PPCInstr_AvCipherV128Unary ( PPCAvOp op, HReg dst, |
| HReg srcR ); |
| extern PPCInstr* PPCInstr_AvCipherV128Binary ( PPCAvOp op, HReg dst, |
| HReg srcL, HReg srcR ); |
| extern PPCInstr* PPCInstr_AvHashV128Binary ( PPCAvOp op, HReg dst, |
| HReg src, PPCRI* s_field ); |
| extern PPCInstr* PPCInstr_AvBCDV128Binary ( PPCAvOp op, HReg dst, |
| HReg src1, HReg src2 ); |
| extern PPCInstr* PPCInstr_Dfp64Unary ( PPCFpOp op, HReg dst, HReg src ); |
| extern PPCInstr* PPCInstr_Dfp64Binary ( PPCFpOp op, HReg dst, HReg srcL, |
| HReg srcR ); |
| extern PPCInstr* PPCInstr_DfpShift ( PPCFpOp op, HReg dst, HReg src, |
| PPCRI* shift ); |
| extern PPCInstr* PPCInstr_Dfp128Unary ( PPCFpOp op, HReg dst_hi, HReg dst_lo, |
| HReg srcR_hi, HReg srcR_lo ); |
| extern PPCInstr* PPCInstr_Dfp128Binary ( PPCFpOp op, HReg dst_hi, HReg dst_lo, |
| HReg srcR_hi, HReg srcR_lo ); |
| extern PPCInstr* PPCInstr_DfpShift128 ( PPCFpOp op, HReg dst_hi, HReg src_hi, |
| HReg dst_lo, HReg src_lo, |
| PPCRI* shift ); |
| extern PPCInstr* PPCInstr_DfpD128toD64 ( PPCFpOp op, HReg dst, |
| HReg dst_lo, HReg src_lo); |
| extern PPCInstr* PPCInstr_DfpI64StoD128 ( PPCFpOp op, HReg dst_hi, |
| HReg dst_lo, HReg src); |
| extern PPCInstr* PPCInstr_DfpRound ( HReg dst, HReg src, PPCRI* r_rmc ); |
| extern PPCInstr* PPCInstr_DfpRound128 ( HReg dst_hi, HReg dst_lo, HReg src_hi, |
| HReg src_lo, PPCRI* r_rmc ); |
| extern PPCInstr* PPCInstr_DfpQuantize ( PPCFpOp op, HReg dst, HReg srcL, |
| HReg srcR, PPCRI* rmc ); |
| extern PPCInstr* PPCInstr_DfpQuantize128 ( PPCFpOp op, HReg dst_hi, |
| HReg dst_lo, |
| HReg src_hi, |
| HReg src_lo, PPCRI* rmc ); |
| extern PPCInstr* PPCInstr_ExtractExpD128 ( PPCFpOp op, HReg dst, |
| HReg src_hi, HReg src_lo ); |
| extern PPCInstr* PPCInstr_InsertExpD128 ( PPCFpOp op, HReg dst_hi, |
| HReg dst_lo, HReg srcL, |
| HReg srcR_hi, HReg srcR_lo ); |
| extern PPCInstr* PPCInstr_Dfp64Cmp ( HReg dst, HReg srcL, HReg srcR ); |
| extern PPCInstr* PPCInstr_Dfp128Cmp ( HReg dst, HReg srcL_hi, HReg srcL_lo, |
| HReg srcR_hi, HReg srcR_lo ); |
| extern PPCInstr* PPCInstr_EvCheck ( PPCAMode* amCounter, |
| PPCAMode* amFailAddr ); |
| extern PPCInstr* PPCInstr_ProfInc ( void ); |
| |
| extern void ppPPCInstr(const PPCInstr*, Bool mode64); |
| |
| |
| /* Some functions that insulate the register allocator from details |
| of the underlying instruction set. */ |
| extern void getRegUsage_PPCInstr ( HRegUsage*, const PPCInstr*, Bool mode64 ); |
| extern void mapRegs_PPCInstr ( HRegRemap*, PPCInstr* , Bool mode64); |
| extern Bool isMove_PPCInstr ( const PPCInstr*, HReg*, HReg* ); |
| extern Int emit_PPCInstr ( /*MB_MOD*/Bool* is_profInc, |
| UChar* buf, Int nbuf, const PPCInstr* i, |
| Bool mode64, |
| VexEndness endness_host, |
| const void* disp_cp_chain_me_to_slowEP, |
| const void* disp_cp_chain_me_to_fastEP, |
| const void* disp_cp_xindir, |
| const void* disp_cp_xassisted ); |
| |
| extern void genSpill_PPC ( /*OUT*/HInstr** i1, /*OUT*/HInstr** i2, |
| HReg rreg, Int offsetB, Bool mode64 ); |
| extern void genReload_PPC ( /*OUT*/HInstr** i1, /*OUT*/HInstr** i2, |
| HReg rreg, Int offsetB, Bool mode64 ); |
| |
| extern const RRegUniverse* getRRegUniverse_PPC ( Bool mode64 ); |
| |
| extern HInstrArray* iselSB_PPC ( const IRSB*, |
| VexArch, |
| const VexArchInfo*, |
| const VexAbiInfo*, |
| Int offs_Host_EvC_Counter, |
| Int offs_Host_EvC_FailAddr, |
| Bool chainingAllowed, |
| Bool addProfInc, |
| Addr max_ga ); |
| |
| /* How big is an event check? This is kind of a kludge because it |
| depends on the offsets of host_EvC_FAILADDR and |
| host_EvC_COUNTER. */ |
| extern Int evCheckSzB_PPC (void); |
| |
| /* Perform a chaining and unchaining of an XDirect jump. */ |
| extern VexInvalRange chainXDirect_PPC ( VexEndness endness_host, |
| void* place_to_chain, |
| const void* disp_cp_chain_me_EXPECTED, |
| const void* place_to_jump_to, |
| Bool mode64 ); |
| |
| extern VexInvalRange unchainXDirect_PPC ( VexEndness endness_host, |
| void* place_to_unchain, |
| const void* place_to_jump_to_EXPECTED, |
| const void* disp_cp_chain_me, |
| Bool mode64 ); |
| |
| /* Patch the counter location into an existing ProfInc point. */ |
| extern VexInvalRange patchProfInc_PPC ( VexEndness endness_host, |
| void* place_to_patch, |
| const ULong* location_of_counter, |
| Bool mode64 ); |
| |
| |
| #endif /* ndef __VEX_HOST_PPC_DEFS_H */ |
| |
| /*---------------------------------------------------------------*/ |
| /*--- end host_ppc_defs.h ---*/ |
| /*---------------------------------------------------------------*/ |