#include "ARM_InstrInfo.h" #include #include "Config.h" namespace ARMInstrInfo { #define ak(x) ((x) << 22) enum { A_Read0 = 1 << 0, A_Read16 = 1 << 1, A_Read8 = 1 << 2, A_Read12 = 1 << 3, A_Write12 = 1 << 4, A_Write16 = 1 << 5, A_MemWriteback = 1 << 6, A_BranchAlways = 1 << 7, // for STRD/LDRD A_Read12Double = 1 << 8, A_Write12Double = 1 << 9, A_Link = 1 << 10, A_UnkOnARM7 = 1 << 11, A_SetNZ = 1 << 12, A_SetCV = 1 << 13, A_SetMaybeC = 1 << 14, A_MulFlags = 1 << 15, A_ReadC = 1 << 16, A_RRXReadC = 1 << 17, A_StaticShiftSetC = 1 << 18, A_SetC = 1 << 19, A_WriteMem = 1 << 20, A_LoadMem = 1 << 21 }; #define A_BIOP A_Read16 #define A_MONOOP 0 #define A_ARITH_LSL_IMM A_SetCV #define A_LOGIC_LSL_IMM A_StaticShiftSetC #define A_ARITH_SHIFT_IMM A_SetCV #define A_LOGIC_SHIFT_IMM A_SetC #define A_ARITH_SHIFT_REG A_SetCV #define A_LOGIC_SHIFT_REG A_SetMaybeC #define A_ARITH_IMM A_SetCV #define A_LOGIC_IMM 0 #define A_IMPLEMENT_ALU_OP(x,k,a,c) \ const u32 A_##x##_IMM = A_Write12 | c | A_##k | ak(ak_##x##_IMM); \ const u32 A_##x##_REG_LSL_IMM = A_Write12 | c | A_##k | A_Read0 | ak(ak_##x##_REG_LSL_IMM); \ const u32 A_##x##_REG_LSR_IMM = A_Write12 | c | A_##k | A_Read0 | ak(ak_##x##_REG_LSR_IMM); \ const u32 A_##x##_REG_ASR_IMM = A_Write12 | c | A_##k | A_Read0 | ak(ak_##x##_REG_ASR_IMM); \ const u32 A_##x##_REG_ROR_IMM = A_RRXReadC | A_Write12 | c | A_##k | A_Read0 | ak(ak_##x##_REG_ROR_IMM); \ const u32 A_##x##_REG_LSL_REG = A_Write12 | c | A_##k | A_Read0 | A_Read8 | ak(ak_##x##_REG_LSL_REG); \ const u32 A_##x##_REG_LSR_REG = A_Write12 | c | A_##k | A_Read0 | A_Read8 | ak(ak_##x##_REG_LSR_REG); \ const u32 A_##x##_REG_ASR_REG = A_Write12 | c | A_##k | A_Read0 | A_Read8 | ak(ak_##x##_REG_ASR_REG); \ const u32 A_##x##_REG_ROR_REG = A_Write12 | c | A_##k | A_Read0 | A_Read8 | ak(ak_##x##_REG_ROR_REG); \ \ const u32 A_##x##_IMM_S = A_SetNZ | c | A_##a##_IMM | A_Write12 | A_##k | ak(ak_##x##_IMM_S); \ const u32 A_##x##_REG_LSL_IMM_S = A_SetNZ | c | A_##a##_LSL_IMM | A_Write12 | A_##k | A_Read0 | ak(ak_##x##_REG_LSL_IMM_S); \ const u32 A_##x##_REG_LSR_IMM_S = A_SetNZ | c | A_##a##_SHIFT_IMM | A_Write12 | A_##k | A_Read0 | ak(ak_##x##_REG_LSR_IMM_S); \ const u32 A_##x##_REG_ASR_IMM_S = A_SetNZ | c | A_##a##_SHIFT_IMM | A_Write12 | A_##k | A_Read0 | ak(ak_##x##_REG_ASR_IMM_S); \ const u32 A_##x##_REG_ROR_IMM_S = A_RRXReadC | A_SetNZ | c | A_##a##_SHIFT_IMM | A_Write12 | A_##k | A_Read0 | ak(ak_##x##_REG_ROR_IMM_S); \ const u32 A_##x##_REG_LSL_REG_S = A_SetNZ | c | A_##a##_SHIFT_REG | A_Write12 | A_##k | A_Read0 | A_Read8 | ak(ak_##x##_REG_LSL_REG_S); \ const u32 A_##x##_REG_LSR_REG_S = A_SetNZ | c | A_##a##_SHIFT_REG | A_Write12 | A_##k | A_Read0 | A_Read8 | ak(ak_##x##_REG_LSR_REG_S); \ const u32 A_##x##_REG_ASR_REG_S = A_SetNZ | c | A_##a##_SHIFT_REG | A_Write12 | A_##k | A_Read0 | A_Read8 | ak(ak_##x##_REG_ASR_REG_S); \ const u32 A_##x##_REG_ROR_REG_S = A_SetNZ | c | A_##a##_SHIFT_REG | A_Write12 | A_##k | A_Read0 | A_Read8 | ak(ak_##x##_REG_ROR_REG_S); A_IMPLEMENT_ALU_OP(AND,BIOP,LOGIC,0) A_IMPLEMENT_ALU_OP(EOR,BIOP,LOGIC,0) A_IMPLEMENT_ALU_OP(SUB,BIOP,ARITH,0) A_IMPLEMENT_ALU_OP(RSB,BIOP,ARITH,0) A_IMPLEMENT_ALU_OP(ADD,BIOP,ARITH,0) A_IMPLEMENT_ALU_OP(ADC,BIOP,ARITH,A_ReadC) A_IMPLEMENT_ALU_OP(SBC,BIOP,ARITH,A_ReadC) A_IMPLEMENT_ALU_OP(RSC,BIOP,ARITH,A_ReadC) A_IMPLEMENT_ALU_OP(ORR,BIOP,LOGIC,0) A_IMPLEMENT_ALU_OP(MOV,MONOOP,LOGIC,0) A_IMPLEMENT_ALU_OP(BIC,BIOP,LOGIC,0) A_IMPLEMENT_ALU_OP(MVN,MONOOP,LOGIC,0) const u32 A_MOV_REG_LSL_IMM_DBG = A_MOV_REG_LSL_IMM; #define A_IMPLEMENT_ALU_TEST(x,a) \ const u32 A_##x##_IMM = A_SetNZ | A_Read16 | A_##a##_IMM | ak(ak_##x##_IMM); \ const u32 A_##x##_REG_LSL_IMM = A_SetNZ | A_Read16 | A_##a##_LSL_IMM | A_Read0 | ak(ak_##x##_REG_LSL_IMM); \ const u32 A_##x##_REG_LSR_IMM = A_SetNZ | A_Read16 | A_##a##_SHIFT_IMM | A_Read0 | ak(ak_##x##_REG_LSR_IMM); \ const u32 A_##x##_REG_ASR_IMM = A_SetNZ | A_Read16 | A_##a##_SHIFT_IMM | A_Read0 | ak(ak_##x##_REG_ASR_IMM); \ const u32 A_##x##_REG_ROR_IMM = A_RRXReadC | A_SetNZ | A_Read16 | A_##a##_SHIFT_IMM | A_Read0 | ak(ak_##x##_REG_ROR_IMM); \ const u32 A_##x##_REG_LSL_REG = A_SetNZ | A_Read16 | A_##a##_SHIFT_REG | A_Read0 | A_Read8 | ak(ak_##x##_REG_LSL_REG); \ const u32 A_##x##_REG_LSR_REG = A_SetNZ | A_Read16 | A_##a##_SHIFT_REG | A_Read0 | A_Read8 | ak(ak_##x##_REG_LSR_REG); \ const u32 A_##x##_REG_ASR_REG = A_SetNZ | A_Read16 | A_##a##_SHIFT_REG | A_Read0 | A_Read8 | ak(ak_##x##_REG_ASR_REG); \ const u32 A_##x##_REG_ROR_REG = A_SetNZ | A_Read16 | A_##a##_SHIFT_REG | A_Read0 | A_Read8 | ak(ak_##x##_REG_ROR_REG); A_IMPLEMENT_ALU_TEST(TST,LOGIC) A_IMPLEMENT_ALU_TEST(TEQ,LOGIC) A_IMPLEMENT_ALU_TEST(CMP,ARITH) A_IMPLEMENT_ALU_TEST(CMN,ARITH) const u32 A_MUL = A_MulFlags | A_Write16 | A_Read0 | A_Read8 | ak(ak_MUL); const u32 A_MLA = A_MulFlags | A_Write16 | A_Read0 | A_Read8 | A_Read12 | ak(ak_MLA); const u32 A_UMULL = A_MulFlags | A_Write16 | A_Write12 | A_Read0 | A_Read8 | ak(ak_UMULL); const u32 A_UMLAL = A_MulFlags | A_Write16 | A_Write12 | A_Read16 | A_Read12 | A_Read0 | A_Read8 | ak(ak_UMLAL); const u32 A_SMULL = A_MulFlags | A_Write16 | A_Write12 | A_Read0 | A_Read8 | ak(ak_SMULL); const u32 A_SMLAL = A_MulFlags | A_Write16 | A_Write12 | A_Read16 | A_Read12 | A_Read0 | A_Read8 | ak(ak_SMLAL); const u32 A_SMLAxy = A_Write16 | A_Read0 | A_Read8 | A_Read12 | ak(ak_SMLAxy); const u32 A_SMLAWy = A_Write16 | A_Read0 | A_Read8 | A_Read12 | ak(ak_SMLAWy); const u32 A_SMULWy = A_Write16 | A_Read0 | A_Read8 | ak(ak_SMULWy); const u32 A_SMLALxy = A_Write16 | A_Write12 | A_Read16 | A_Read12 | A_Read0 | A_Read8 | ak(ak_SMLALxy); const u32 A_SMULxy = A_Write16 | A_Read0 | A_Read8 | ak(ak_SMULxy); const u32 A_CLZ = A_Write12 | A_Read0 | A_UnkOnARM7 | ak(ak_CLZ); const u32 A_QADD = A_Write12 | A_Read0 | A_Read16 | A_UnkOnARM7 | ak(ak_QADD); const u32 A_QSUB = A_Write12 | A_Read0 | A_Read16 | A_UnkOnARM7 | ak(ak_QSUB); const u32 A_QDADD = A_Write12 | A_Read0 | A_Read16 | A_UnkOnARM7 | ak(ak_QDADD); const u32 A_QDSUB = A_Write12 | A_Read0 | A_Read16 | A_UnkOnARM7 | ak(ak_QDSUB); #define A_LDR A_Write12 | A_LoadMem #define A_STR A_Read12 | A_WriteMem #define A_IMPLEMENT_WB_LDRSTR(x,k) \ const u32 A_##x##_IMM = A_##k | A_Read16 | A_MemWriteback | ak(ak_##x##_IMM); \ const u32 A_##x##_REG_LSL = A_##k | A_Read16 | A_MemWriteback | A_Read0 | ak(ak_##x##_REG_LSL); \ const u32 A_##x##_REG_LSR = A_##k | A_Read16 | A_MemWriteback | A_Read0 | ak(ak_##x##_REG_LSR); \ const u32 A_##x##_REG_ASR = A_##k | A_Read16 | A_MemWriteback | A_Read0 | ak(ak_##x##_REG_ASR); \ const u32 A_##x##_REG_ROR = A_##k | A_RRXReadC | A_Read16 | A_MemWriteback | A_Read0 | ak(ak_##x##_REG_ROR); \ \ const u32 A_##x##_POST_IMM = A_##k | A_Read16 | A_Write16 | ak(ak_##x##_POST_IMM); \ const u32 A_##x##_POST_REG_LSL = A_##k | A_Read16 | A_Write16 | A_Read0 | ak(ak_##x##_POST_REG_LSL); \ const u32 A_##x##_POST_REG_LSR = A_##k | A_Read16 | A_Write16 | A_Read0 | ak(ak_##x##_POST_REG_LSR); \ const u32 A_##x##_POST_REG_ASR = A_##k | A_Read16 | A_Write16 | A_Read0 | ak(ak_##x##_POST_REG_ASR); \ const u32 A_##x##_POST_REG_ROR = A_##k | A_RRXReadC | A_Read16 | A_Write16 | A_Read0 | ak(ak_##x##_POST_REG_ROR); A_IMPLEMENT_WB_LDRSTR(STR,STR) A_IMPLEMENT_WB_LDRSTR(STRB,STR) A_IMPLEMENT_WB_LDRSTR(LDR,LDR) A_IMPLEMENT_WB_LDRSTR(LDRB,LDR) #define A_LDRD A_Write12Double | A_LoadMem #define A_STRD A_Read12Double | A_WriteMem #define A_IMPLEMENT_HD_LDRSTR(x,k) \ const u32 A_##x##_IMM = A_##k | A_Read16 | A_MemWriteback | ak(ak_##x##_IMM); \ const u32 A_##x##_REG = A_##k | A_Read16 | A_MemWriteback | A_Read0 | ak(ak_##x##_REG); \ const u32 A_##x##_POST_IMM = A_##k | A_Read16 | A_Write16 | ak(ak_##x##_POST_IMM); \ const u32 A_##x##_POST_REG = A_##k | A_Read16 | A_Write16 | A_Read0 | ak(ak_##x##_POST_REG); A_IMPLEMENT_HD_LDRSTR(STRH,STR) A_IMPLEMENT_HD_LDRSTR(LDRD,LDRD) A_IMPLEMENT_HD_LDRSTR(STRD,STRD) A_IMPLEMENT_HD_LDRSTR(LDRH,LDR) A_IMPLEMENT_HD_LDRSTR(LDRSB,LDR) A_IMPLEMENT_HD_LDRSTR(LDRSH,LDR) const u32 A_SWP = A_Write12 | A_Read16 | A_Read0 | A_LoadMem | A_WriteMem | ak(ak_SWP); const u32 A_SWPB = A_Write12 | A_Read16 | A_Read0 | A_LoadMem | A_WriteMem | ak(ak_SWPB); const u32 A_LDM = A_Read16 | A_MemWriteback | A_LoadMem | ak(ak_LDM); const u32 A_STM = A_Read16 | A_MemWriteback | A_WriteMem | ak(ak_STM); const u32 A_B = A_BranchAlways | ak(ak_B); const u32 A_BL = A_BranchAlways | A_Link | ak(ak_BL); const u32 A_BLX_IMM = A_BranchAlways | A_Link | ak(ak_BLX_IMM); const u32 A_BX = A_BranchAlways | A_Read0 | ak(ak_BX); const u32 A_BLX_REG = A_BranchAlways | A_Link | A_Read0 | ak(ak_BLX_REG); const u32 A_UNK = A_BranchAlways | A_Link | ak(ak_UNK); const u32 A_MSR_IMM = ak(ak_MSR_IMM); const u32 A_MSR_REG = A_Read0 | ak(ak_MSR_REG); const u32 A_MRS = A_Write12 | ak(ak_MRS); const u32 A_MCR = A_Read12 | ak(ak_MCR); const u32 A_MRC = A_Write12 | ak(ak_MRC); const u32 A_SVC = A_BranchAlways | A_Link | ak(ak_SVC); // THUMB #define tk(x) ((x) << 22) enum { T_Read0 = 1 << 0, T_Read3 = 1 << 1, T_Read6 = 1 << 2, T_Read8 = 1 << 3, T_Write0 = 1 << 4, T_Write8 = 1 << 5, T_ReadHi0 = 1 << 6, T_ReadHi3 = 1 << 7, T_WriteHi0 = 1 << 8, T_ReadR13 = 1 << 9, T_WriteR13 = 1 << 10, T_BranchAlways = 1 << 12, T_ReadR14 = 1 << 13, T_WriteR14 = 1 << 14, T_PopPC = 1 << 15, T_SetNZ = 1 << 16, T_SetCV = 1 << 17, T_SetMaybeC = 1 << 18, T_ReadC = 1 << 19, T_SetC = 1 << 20, T_WriteMem = 1 << 21, }; const u32 T_LSL_IMM = T_SetNZ | T_SetMaybeC | T_Write0 | T_Read3 | tk(tk_LSL_IMM); const u32 T_LSR_IMM = T_SetNZ | T_SetC | T_Write0 | T_Read3 | tk(tk_LSR_IMM); const u32 T_ASR_IMM = T_SetNZ | T_SetC | T_Write0 | T_Read3 | tk(tk_ASR_IMM); const u32 T_ADD_REG_ = T_SetNZ | T_SetCV | T_Write0 | T_Read3 | T_Read6 | tk(tk_ADD_REG_); const u32 T_SUB_REG_ = T_SetNZ | T_SetCV | T_Write0 | T_Read3 | T_Read6 | tk(tk_SUB_REG_); const u32 T_ADD_IMM_ = T_SetNZ | T_SetCV | T_Write0 | T_Read3 | tk(tk_ADD_IMM_); const u32 T_SUB_IMM_ = T_SetNZ | T_SetCV | T_Write0 | T_Read3 | tk(tk_SUB_IMM_); const u32 T_MOV_IMM = T_SetNZ | T_Write8 | tk(tk_MOV_IMM); const u32 T_CMP_IMM = T_SetNZ | T_SetCV | T_Read8 | tk(tk_CMP_IMM); const u32 T_ADD_IMM = T_SetNZ | T_SetCV | T_Write8 | T_Read8 | tk(tk_ADD_IMM); const u32 T_SUB_IMM = T_SetNZ | T_SetCV | T_Write8 | T_Read8 | tk(tk_SUB_IMM); const u32 T_AND_REG = T_SetNZ | T_Write0 | T_Read0 | T_Read3 | tk(tk_AND_REG); const u32 T_EOR_REG = T_SetNZ | T_Write0 | T_Read0 | T_Read3 | tk(tk_EOR_REG); const u32 T_LSL_REG = T_SetNZ | T_SetMaybeC | T_Write0 | T_Read0 | T_Read3 | tk(tk_LSL_REG); const u32 T_LSR_REG = T_SetNZ | T_SetMaybeC | T_Write0 | T_Read0 | T_Read3 | tk(tk_LSR_REG); const u32 T_ASR_REG = T_SetNZ | T_SetMaybeC | T_Write0 | T_Read0 | T_Read3 | tk(tk_ASR_REG); const u32 T_ADC_REG = T_ReadC | T_SetNZ | T_SetCV | T_Write0 | T_Read0 | T_Read3 | tk(tk_ADC_REG); const u32 T_SBC_REG = T_ReadC | T_SetNZ | T_SetCV | T_Write0 | T_Read0 | T_Read3 | tk(tk_SBC_REG); const u32 T_ROR_REG = T_SetNZ | T_SetMaybeC | T_Write0 | T_Read0 | T_Read3 | tk(tk_ROR_REG); const u32 T_TST_REG = T_SetNZ | T_Read0 | T_Read3 | tk(tk_TST_REG); const u32 T_NEG_REG = T_SetNZ | T_SetCV | T_Write0 | T_Read3 | tk(tk_NEG_REG); const u32 T_CMP_REG = T_SetNZ | T_SetCV | T_Read0 | T_Read3 | tk(tk_CMP_REG); const u32 T_CMN_REG = T_SetNZ | T_SetCV | T_Read0 | T_Read3 | tk(tk_CMN_REG); const u32 T_ORR_REG = T_SetNZ | T_Write0 | T_Read0 | T_Read3 | tk(tk_ORR_REG); const u32 T_MUL_REG = T_SetNZ | T_Write0 | T_Read0 | T_Read3 | tk(tk_MUL_REG); const u32 T_BIC_REG = T_SetNZ | T_Write0 | T_Read0 | T_Read3 | tk(tk_BIC_REG); const u32 T_MVN_REG = T_SetNZ | T_Write0 | T_Read3 | tk(tk_MVN_REG); const u32 T_ADD_HIREG = T_WriteHi0 | T_ReadHi0 | T_ReadHi3 | tk(tk_ADD_HIREG); const u32 T_CMP_HIREG = T_SetNZ | T_SetCV | T_ReadHi0 | T_ReadHi3 | tk(tk_CMP_HIREG); const u32 T_MOV_HIREG = T_WriteHi0 | T_ReadHi3 | tk(tk_MOV_HIREG); const u32 T_ADD_PCREL = T_Write8 | tk(tk_ADD_PCREL); const u32 T_ADD_SPREL = T_Write8 | T_ReadR13 | tk(tk_ADD_SPREL); const u32 T_ADD_SP = T_WriteR13 | T_ReadR13 | tk(tk_ADD_SP); const u32 T_LDR_PCREL = T_Write8 | tk(tk_LDR_PCREL); const u32 T_STR_REG = T_Read0 | T_Read3 | T_Read6 | T_WriteMem | tk(tk_STR_REG); const u32 T_STRB_REG = T_Read0 | T_Read3 | T_Read6 | T_WriteMem | tk(tk_STRB_REG); const u32 T_LDR_REG = T_Write0 | T_Read3 | T_Read6 | tk(tk_LDR_REG); const u32 T_LDRB_REG = T_Write0 | T_Read3 | T_Read6 | tk(tk_LDRB_REG); const u32 T_STRH_REG = T_Read0 | T_Read3 | T_Read6 | T_WriteMem | tk(tk_STRH_REG); const u32 T_LDRSB_REG = T_Write0 | T_Read3 | T_Read6 | tk(tk_LDRSB_REG); const u32 T_LDRH_REG = T_Write0 | T_Read3 | T_Read6 | tk(tk_LDRH_REG); const u32 T_LDRSH_REG = T_Write0 | T_Read3 | T_Read6 | tk(tk_LDRSH_REG); const u32 T_STR_IMM = T_Read0 | T_Read3 | T_WriteMem | tk(tk_STR_IMM); const u32 T_LDR_IMM = T_Write0 | T_Read3 | tk(tk_LDR_IMM); const u32 T_STRB_IMM = T_Read0 | T_Read3 | T_WriteMem | tk(tk_STRB_IMM); const u32 T_LDRB_IMM = T_Write0 | T_Read3 | tk(tk_LDRB_IMM); const u32 T_STRH_IMM = T_Read0 | T_Read3 | T_WriteMem | tk(tk_STRH_IMM); const u32 T_LDRH_IMM = T_Write0 | T_Read3 | tk(tk_LDRH_IMM); const u32 T_STR_SPREL = T_Read8 | T_ReadR13 | T_WriteMem | tk(tk_STR_SPREL); const u32 T_LDR_SPREL = T_Write8 | T_ReadR13 | tk(tk_LDR_SPREL); const u32 T_PUSH = T_ReadR13 | T_WriteR13 | T_WriteMem | tk(tk_PUSH); const u32 T_POP = T_PopPC | T_ReadR13 | T_WriteR13 | tk(tk_POP); const u32 T_LDMIA = T_Read8 | T_Write8 | tk(tk_LDMIA); const u32 T_STMIA = T_Read8 | T_Write8 | T_WriteMem | tk(tk_STMIA); const u32 T_BCOND = T_BranchAlways | tk(tk_BCOND); const u32 T_BX = T_BranchAlways | T_ReadHi3 | tk(tk_BX); const u32 T_BLX_REG = T_BranchAlways | T_WriteR14 | T_ReadHi3 | tk(tk_BLX_REG); const u32 T_B = T_BranchAlways | tk(tk_B); const u32 T_BL_LONG_1 = T_WriteR14 | tk(tk_BL_LONG_1); const u32 T_BL_LONG_2 = T_BranchAlways | T_ReadR14 | T_WriteR14 | tk(tk_BL_LONG_2); const u32 T_UNK = T_BranchAlways | T_WriteR14 | tk(tk_UNK); const u32 T_SVC = T_BranchAlways | T_WriteR14 | tk(tk_SVC); #define INSTRFUNC_PROTO(x) u32 x #include "ARM_InstrTable.h" #undef INSTRFUNC_PROTO Info Decode(bool thumb, u32 num, u32 instr) { const u8 FlagsReadPerCond[7] = { flag_Z, flag_C, flag_N, flag_V, flag_C | flag_Z, flag_N | flag_V, flag_Z | flag_N | flag_V}; Info res = {0}; if (thumb) { u32 data = THUMBInstrTable[(instr >> 6) & 0x3FF]; res.Kind = (data >> 22) & 0x3F; if (data & T_Read0) res.SrcRegs |= 1 << (instr & 0x7); if (data & T_Read3) res.SrcRegs |= 1 << ((instr >> 3) & 0x7); if (data & T_Read6) res.SrcRegs |= 1 << ((instr >> 6) & 0x7); if (data & T_Read8) res.SrcRegs |= 1 << ((instr >> 8) & 0x7); if (data & T_Write0) res.DstRegs |= 1 << (instr & 0x7); if (data & T_Write8) res.DstRegs |= 1 << ((instr >> 8) & 0x7); if (data & T_ReadHi0) res.SrcRegs |= 1 << ((instr & 0x7) | ((instr >> 4) & 0x8)); if (data & T_ReadHi3) res.SrcRegs |= 1 << ((instr >> 3) & 0xF); if (data & T_WriteHi0) res.DstRegs |= 1 << ((instr & 0x7) | ((instr >> 4) & 0x8)); if (data & T_ReadR13) res.SrcRegs |= (1 << 13); if (data & T_WriteR13) res.DstRegs |= (1 << 13); if (data & T_WriteR14) res.DstRegs |= (1 << 14); if (data & T_ReadR14) res.SrcRegs |= (1 << 14); if (data & T_BranchAlways) res.DstRegs |= (1 << 15); if (data & T_PopPC && instr & (1 << 8)) res.DstRegs |= 1 << 15; if (data & T_SetNZ) res.WriteFlags |= flag_N | flag_Z; if (data & T_SetCV) res.WriteFlags |= flag_C | flag_V; if (data & T_SetMaybeC) res.WriteFlags |= flag_C << 4; if (data & T_ReadC) res.ReadFlags |= flag_C; if (data & T_SetC) res.WriteFlags |= flag_C; if (data & T_WriteMem) res.SpecialKind = special_WriteMem; if (res.Kind == ARMInstrInfo::tk_LDR_PCREL) { if (!Config::JIT_LiteralOptimisations) res.SrcRegs |= 1 << 15; res.SpecialKind = special_LoadLiteral; } if (res.Kind == tk_LDMIA || res.Kind == tk_POP) { u32 set = (instr & 0xFF) & ~(res.DstRegs|res.SrcRegs); res.NotStrictlyNeeded |= set; res.DstRegs |= set; } if (res.Kind == tk_STMIA || res.Kind == tk_PUSH) { u32 set = (instr & 0xFF) & ~(res.DstRegs|res.SrcRegs); if (res.Kind == tk_PUSH && instr & (1 << 8)) set |= (1 << 14); res.NotStrictlyNeeded |= set; res.SrcRegs |= set; } res.EndBlock |= res.Branches(); if (res.Kind == tk_BCOND) res.ReadFlags |= FlagsReadPerCond[(instr >> 9) & 0x7]; return res; } else { u32 data = ARMInstrTable[((instr >> 4) & 0xF) | ((instr >> 16) & 0xFF0)]; if (num == 0 && (instr & 0xFE000000) == 0xFA000000) data = A_BLX_IMM; else if ((instr >> 28) == 0xF) data = ak(ak_Nop); if (data & A_UnkOnARM7 && num != 0) data = A_UNK; res.Kind = (data >> 22) & 0x1FF; if (res.Kind == ak_MCR) { u32 cn = (instr >> 16) & 0xF; u32 cm = instr & 0xF; u32 cpinfo = (instr >> 5) & 0x7; u32 id = (cn<<8)|(cm<<4)|cpinfo; if (id == 0x704 || id == 0x782 || id == 0x750 || id == 0x751 || id == 0x752) res.EndBlock |= true; if (id == 0x704 || id == 0x782) res.SpecialKind = special_WaitForInterrupt; } if (res.Kind == ak_MCR || res.Kind == ak_MRC) { u32 cp = ((instr >> 8) & 0xF); if ((num == 0 && cp != 15) || (num == 1 && cp != 14)) { data = A_UNK; res.Kind = ak_UNK; } } if (data & A_Read0) res.SrcRegs |= 1 << (instr & 0xF); if (data & A_Read16) res.SrcRegs |= 1 << ((instr >> 16) & 0xF); if (data & A_Read8) res.SrcRegs |= 1 << ((instr >> 8) & 0xF); if (data & A_Read12) res.SrcRegs |= 1 << ((instr >> 12) & 0xF); if (data & A_Write12) res.DstRegs |= 1 << ((instr >> 12) & 0xF); if (data & A_Write16) res.DstRegs |= 1 << ((instr >> 16) & 0xF); if (data & A_MemWriteback && instr & (1 << 21)) res.DstRegs |= 1 << ((instr >> 16) & 0xF); if (data & A_BranchAlways) res.DstRegs |= 1 << 15; if (data & A_Read12Double) { res.SrcRegs |= 1 << ((instr >> 12) & 0xF); res.SrcRegs |= 1 << (((instr >> 12) & 0xF) + 1); } if (data & A_Write12Double) { res.DstRegs |= 1 << ((instr >> 12) & 0xF); res.DstRegs |= 1 << (((instr >> 12) & 0xF) + 1); } if (data & A_Link) res.DstRegs |= 1 << 14; if (res.Kind == ak_LDM) res.DstRegs |= instr & (1 << 15); // this is right if (res.Kind == ak_STM) res.SrcRegs |= instr & (1 << 15); if (data & A_SetNZ) res.WriteFlags |= flag_N | flag_Z; if (data & A_SetCV) res.WriteFlags |= flag_C | flag_V; if (data & A_SetMaybeC) res.WriteFlags |= flag_C << 4; if ((data & A_MulFlags) && (instr & (1 << 20))) res.WriteFlags |= flag_N | flag_Z; if (data & A_ReadC) res.ReadFlags |= flag_C; if ((data & A_RRXReadC) && !((instr >> 7) & 0x1F)) res.ReadFlags |= flag_C; if ((data & A_SetC) || ((data & A_StaticShiftSetC) && ((instr >> 7) & 0x1F))) res.WriteFlags |= flag_C; if (data & A_WriteMem) res.SpecialKind = special_WriteMem; if ((data & A_LoadMem) && res.SrcRegs == (1 << 15)) res.SpecialKind = special_LoadLiteral; if (res.Kind == ak_LDM) { u16 set = (instr & 0xFFFF) & ~(res.SrcRegs|res.DstRegs|(1<<15)); res.DstRegs |= set; res.NotStrictlyNeeded |= set; } if (res.Kind == ak_STM) { u16 set = (instr & 0xFFFF) & ~(res.SrcRegs|res.DstRegs|(1<<15)); res.SrcRegs |= set; res.NotStrictlyNeeded |= set; } if ((instr >> 28) < 0xE) { // make non conditional flag sets conditional res.WriteFlags = (res.WriteFlags | (res.WriteFlags << 4)) & 0xF0; res.ReadFlags |= FlagsReadPerCond[instr >> 29]; } res.EndBlock |= res.Branches(); return res; } } }