//===-- MipsInstPrinter.cpp - Convert Mips MCInst to assembly syntax ------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This class prints an Mips MCInst to a .s file. // //===----------------------------------------------------------------------===// /* Capstone Disassembly Engine */ /* By Nguyen Anh Quynh , 2013-2015 */ #ifdef CAPSTONE_HAS_MIPS #include #include #include // debug #include #include "MipsInstPrinter.h" #include "../../MCInst.h" #include "../../utils.h" #include "../../SStream.h" #include "../../MCRegisterInfo.h" #include "MipsMapping.h" #include "MipsInstPrinter.h" static void printUnsignedImm(MCInst *MI, int opNum, SStream *O); static char *printAliasInstr(MCInst *MI, SStream *O, void *info); static char *printAlias(MCInst *MI, SStream *OS); // These enumeration declarations were originally in MipsInstrInfo.h but // had to be moved here to avoid circular dependencies between // LLVMMipsCodeGen and LLVMMipsAsmPrinter. // Mips Condition Codes typedef enum Mips_CondCode { // To be used with float branch True Mips_FCOND_F, Mips_FCOND_UN, Mips_FCOND_OEQ, Mips_FCOND_UEQ, Mips_FCOND_OLT, Mips_FCOND_ULT, Mips_FCOND_OLE, Mips_FCOND_ULE, Mips_FCOND_SF, Mips_FCOND_NGLE, Mips_FCOND_SEQ, Mips_FCOND_NGL, Mips_FCOND_LT, Mips_FCOND_NGE, Mips_FCOND_LE, Mips_FCOND_NGT, // To be used with float branch False // This conditions have the same mnemonic as the // above ones, but are used with a branch False; Mips_FCOND_T, Mips_FCOND_OR, Mips_FCOND_UNE, Mips_FCOND_ONE, Mips_FCOND_UGE, Mips_FCOND_OGE, Mips_FCOND_UGT, Mips_FCOND_OGT, Mips_FCOND_ST, Mips_FCOND_GLE, Mips_FCOND_SNE, Mips_FCOND_GL, Mips_FCOND_NLT, Mips_FCOND_GE, Mips_FCOND_NLE, Mips_FCOND_GT } Mips_CondCode; #define GET_INSTRINFO_ENUM #include "MipsGenInstrInfo.inc" static const char *getRegisterName(unsigned RegNo); static void printInstruction(MCInst *MI, SStream *O, const MCRegisterInfo *MRI); static void set_mem_access(MCInst *MI, bool status) { MI->csh->doing_mem = status; if (MI->csh->detail != CS_OPT_ON) return; if (status) { MI->flat_insn->detail->mips.operands[MI->flat_insn->detail->mips.op_count].type = MIPS_OP_MEM; MI->flat_insn->detail->mips.operands[MI->flat_insn->detail->mips.op_count].mem.base = MIPS_REG_INVALID; MI->flat_insn->detail->mips.operands[MI->flat_insn->detail->mips.op_count].mem.disp = 0; } else { // done, create the next operand slot MI->flat_insn->detail->mips.op_count++; } } static bool isReg(MCInst *MI, unsigned OpNo, unsigned R) { return (MCOperand_isReg(MCInst_getOperand(MI, OpNo)) && MCOperand_getReg(MCInst_getOperand(MI, OpNo)) == R); } static const char* MipsFCCToString(Mips_CondCode CC) { switch (CC) { default: return 0; // never reach case Mips_FCOND_F: case Mips_FCOND_T: return "f"; case Mips_FCOND_UN: case Mips_FCOND_OR: return "un"; case Mips_FCOND_OEQ: case Mips_FCOND_UNE: return "eq"; case Mips_FCOND_UEQ: case Mips_FCOND_ONE: return "ueq"; case Mips_FCOND_OLT: case Mips_FCOND_UGE: return "olt"; case Mips_FCOND_ULT: case Mips_FCOND_OGE: return "ult"; case Mips_FCOND_OLE: case Mips_FCOND_UGT: return "ole"; case Mips_FCOND_ULE: case Mips_FCOND_OGT: return "ule"; case Mips_FCOND_SF: case Mips_FCOND_ST: return "sf"; case Mips_FCOND_NGLE: case Mips_FCOND_GLE: return "ngle"; case Mips_FCOND_SEQ: case Mips_FCOND_SNE: return "seq"; case Mips_FCOND_NGL: case Mips_FCOND_GL: return "ngl"; case Mips_FCOND_LT: case Mips_FCOND_NLT: return "lt"; case Mips_FCOND_NGE: case Mips_FCOND_GE: return "nge"; case Mips_FCOND_LE: case Mips_FCOND_NLE: return "le"; case Mips_FCOND_NGT: case Mips_FCOND_GT: return "ngt"; } } static void printRegName(SStream *OS, unsigned RegNo) { SStream_concat(OS, "$%s", getRegisterName(RegNo)); } void Mips_printInst(MCInst *MI, SStream *O, void *info) { char *mnem; switch (MCInst_getOpcode(MI)) { default: break; case Mips_Save16: case Mips_SaveX16: case Mips_Restore16: case Mips_RestoreX16: return; } // Try to print any aliases first. mnem = printAliasInstr(MI, O, info); if (!mnem) { mnem = printAlias(MI, O); if (!mnem) { printInstruction(MI, O, NULL); } } if (mnem) { // fixup instruction id due to the change in alias instruction MCInst_setOpcodePub(MI, Mips_map_insn(mnem)); cs_mem_free(mnem); } } static void printOperand(MCInst *MI, unsigned OpNo, SStream *O) { MCOperand *Op; if (OpNo >= MI->size) return; Op = MCInst_getOperand(MI, OpNo); if (MCOperand_isReg(Op)) { unsigned int reg = MCOperand_getReg(Op); printRegName(O, reg); reg = Mips_map_register(reg); if (MI->csh->detail) { if (MI->csh->doing_mem) { MI->flat_insn->detail->mips.operands[MI->flat_insn->detail->mips.op_count].mem.base = reg; } else { MI->flat_insn->detail->mips.operands[MI->flat_insn->detail->mips.op_count].type = MIPS_OP_REG; MI->flat_insn->detail->mips.operands[MI->flat_insn->detail->mips.op_count].reg = reg; MI->flat_insn->detail->mips.op_count++; } } } else if (MCOperand_isImm(Op)) { int64_t imm = MCOperand_getImm(Op); if (MI->csh->doing_mem) { if (imm) { // only print Imm offset if it is not 0 printInt64(O, imm); } if (MI->csh->detail) MI->flat_insn->detail->mips.operands[MI->flat_insn->detail->mips.op_count].mem.disp = imm; } else { printInt64(O, imm); if (MI->csh->detail) { MI->flat_insn->detail->mips.operands[MI->flat_insn->detail->mips.op_count].type = MIPS_OP_IMM; MI->flat_insn->detail->mips.operands[MI->flat_insn->detail->mips.op_count].imm = imm; MI->flat_insn->detail->mips.op_count++; } } } } static void printUnsignedImm(MCInst *MI, int opNum, SStream *O) { MCOperand *MO = MCInst_getOperand(MI, opNum); if (MCOperand_isImm(MO)) { int64_t imm = MCOperand_getImm(MO); printInt64(O, imm); if (MI->csh->detail) { MI->flat_insn->detail->mips.operands[MI->flat_insn->detail->mips.op_count].type = MIPS_OP_IMM; MI->flat_insn->detail->mips.operands[MI->flat_insn->detail->mips.op_count].imm = (unsigned short int)imm; MI->flat_insn->detail->mips.op_count++; } } else printOperand(MI, opNum, O); } static void printUnsignedImm8(MCInst *MI, int opNum, SStream *O) { MCOperand *MO = MCInst_getOperand(MI, opNum); if (MCOperand_isImm(MO)) { uint8_t imm = (uint8_t)MCOperand_getImm(MO); if (imm > HEX_THRESHOLD) SStream_concat(O, "0x%x", imm); else SStream_concat(O, "%u", imm); if (MI->csh->detail) { MI->flat_insn->detail->mips.operands[MI->flat_insn->detail->mips.op_count].type = MIPS_OP_IMM; MI->flat_insn->detail->mips.operands[MI->flat_insn->detail->mips.op_count].imm = imm; MI->flat_insn->detail->mips.op_count++; } } else printOperand(MI, opNum, O); } static void printMemOperand(MCInst *MI, int opNum, SStream *O) { // Load/Store memory operands -- imm($reg) // If PIC target the target is loaded as the // pattern lw $25,%call16($28) // opNum can be invalid if instruction had reglist as operand. // MemOperand is always last operand of instruction (base + offset). switch (MCInst_getOpcode(MI)) { default: break; case Mips_SWM32_MM: case Mips_LWM32_MM: case Mips_SWM16_MM: case Mips_LWM16_MM: opNum = MCInst_getNumOperands(MI) - 2; break; } set_mem_access(MI, true); printOperand(MI, opNum + 1, O); SStream_concat0(O, "("); printOperand(MI, opNum, O); SStream_concat0(O, ")"); set_mem_access(MI, false); } // TODO??? static void printMemOperandEA(MCInst *MI, int opNum, SStream *O) { // when using stack locations for not load/store instructions // print the same way as all normal 3 operand instructions. printOperand(MI, opNum, O); SStream_concat0(O, ", "); printOperand(MI, opNum + 1, O); return; } static void printFCCOperand(MCInst *MI, int opNum, SStream *O) { MCOperand *MO = MCInst_getOperand(MI, opNum); SStream_concat0(O, MipsFCCToString((Mips_CondCode)MCOperand_getImm(MO))); } static void printRegisterPair(MCInst *MI, int opNum, SStream *O) { printRegName(O, MCOperand_getReg(MCInst_getOperand(MI, opNum))); } static char *printAlias1(const char *Str, MCInst *MI, unsigned OpNo, SStream *OS) { SStream_concat(OS, "%s\t", Str); printOperand(MI, OpNo, OS); return cs_strdup(Str); } static char *printAlias2(const char *Str, MCInst *MI, unsigned OpNo0, unsigned OpNo1, SStream *OS) { char *tmp; tmp = printAlias1(Str, MI, OpNo0, OS); SStream_concat0(OS, ", "); printOperand(MI, OpNo1, OS); return tmp; } #define GET_REGINFO_ENUM #include "MipsGenRegisterInfo.inc" static char *printAlias(MCInst *MI, SStream *OS) { switch (MCInst_getOpcode(MI)) { case Mips_BEQ: case Mips_BEQ_MM: // beq $zero, $zero, $L2 => b $L2 // beq $r0, $zero, $L2 => beqz $r0, $L2 if (isReg(MI, 0, Mips_ZERO) && isReg(MI, 1, Mips_ZERO)) return printAlias1("b", MI, 2, OS); if (isReg(MI, 1, Mips_ZERO)) return printAlias2("beqz", MI, 0, 2, OS); return NULL; case Mips_BEQ64: // beq $r0, $zero, $L2 => beqz $r0, $L2 if (isReg(MI, 1, Mips_ZERO_64)) return printAlias2("beqz", MI, 0, 2, OS); return NULL; case Mips_BNE: // bne $r0, $zero, $L2 => bnez $r0, $L2 if (isReg(MI, 1, Mips_ZERO)) return printAlias2("bnez", MI, 0, 2, OS); return NULL; case Mips_BNE64: // bne $r0, $zero, $L2 => bnez $r0, $L2 if (isReg(MI, 1, Mips_ZERO_64)) return printAlias2("bnez", MI, 0, 2, OS); return NULL; case Mips_BGEZAL: // bgezal $zero, $L1 => bal $L1 if (isReg(MI, 0, Mips_ZERO)) return printAlias1("bal", MI, 1, OS); return NULL; case Mips_BC1T: // bc1t $fcc0, $L1 => bc1t $L1 if (isReg(MI, 0, Mips_FCC0)) return printAlias1("bc1t", MI, 1, OS); return NULL; case Mips_BC1F: // bc1f $fcc0, $L1 => bc1f $L1 if (isReg(MI, 0, Mips_FCC0)) return printAlias1("bc1f", MI, 1, OS); return NULL; case Mips_JALR: // jalr $ra, $r1 => jalr $r1 if (isReg(MI, 0, Mips_RA)) return printAlias1("jalr", MI, 1, OS); return NULL; case Mips_JALR64: // jalr $ra, $r1 => jalr $r1 if (isReg(MI, 0, Mips_RA_64)) return printAlias1("jalr", MI, 1, OS); return NULL; case Mips_NOR: case Mips_NOR_MM: // nor $r0, $r1, $zero => not $r0, $r1 if (isReg(MI, 2, Mips_ZERO)) return printAlias2("not", MI, 0, 1, OS); return NULL; case Mips_NOR64: // nor $r0, $r1, $zero => not $r0, $r1 if (isReg(MI, 2, Mips_ZERO_64)) return printAlias2("not", MI, 0, 1, OS); return NULL; case Mips_OR: // or $r0, $r1, $zero => move $r0, $r1 if (isReg(MI, 2, Mips_ZERO)) return printAlias2("move", MI, 0, 1, OS); return NULL; default: return NULL; } } static void printRegisterList(MCInst *MI, int opNum, SStream *O) { int i, e, reg; // - 2 because register List is always first operand of instruction and it is // always followed by memory operand (base + offset). for (i = opNum, e = MCInst_getNumOperands(MI) - 2; i != e; ++i) { if (i != opNum) SStream_concat0(O, ", "); reg = MCOperand_getReg(MCInst_getOperand(MI, i)); printRegName(O, reg); if (MI->csh->detail) { MI->flat_insn->detail->mips.operands[MI->flat_insn->detail->mips.op_count].type = MIPS_OP_REG; MI->flat_insn->detail->mips.operands[MI->flat_insn->detail->mips.op_count].reg = reg; MI->flat_insn->detail->mips.op_count++; } } } #define PRINT_ALIAS_INSTR #include "MipsGenAsmWriter.inc" #endif