/* Capstone Disassembly Engine */ /* M68K Backend by Daniel Collin 2015-2016 */ #ifdef _MSC_VER // Disable security warnings for strcat & sprintf #ifndef _CRT_SECURE_NO_WARNINGS #define _CRT_SECURE_NO_WARNINGS #endif //Banned API Usage : strcat / sprintf is a Banned API as listed in dontuse.h for //security purposes. #pragma warning(disable:28719) #endif #include // DEBUG #include #include #include "M68KInstPrinter.h" #include "M68KDisassembler.h" #include "../../cs_priv.h" #include "../../utils.h" #include "../../MCInst.h" #include "../../MCInstrDesc.h" #include "../../MCRegisterInfo.h" #ifndef CAPSTONE_DIET static const char* s_spacing = " "; static const char* s_reg_names[] = { "invalid", "d0", "d1", "d2", "d3", "d4", "d5", "d6", "d7", "a0", "a1", "a2", "a3", "a4", "a5", "a6", "a7", "fp0", "fp1", "fp2", "fp3", "fp4", "fp5", "fp6", "fp7", "pc", "sr", "ccr", "sfc", "dfc", "usp", "vbr", "cacr", "caar", "msp", "isp", "tc", "itt0", "itt1", "dtt0", "dtt1", "mmusr", "urp", "srp", "fpcr", "fpsr", "fpiar", }; static const char* s_instruction_names[] = { "invalid", "abcd", "add", "adda", "addi", "addq", "addx", "and", "andi", "asl", "asr", "bhs", "blo", "bhi", "bls", "bcc", "bcs", "bne", "beq", "bvc", "bvs", "bpl", "bmi", "bge", "blt", "bgt", "ble", "bra", "bsr", "bchg", "bclr", "bset", "btst", "bfchg", "bfclr", "bfexts", "bfextu", "bfffo", "bfins", "bfset", "bftst", "bkpt", "callm", "cas", "cas2", "chk", "chk2", "clr", "cmp", "cmpa", "cmpi", "cmpm", "cmp2", "cinvl", "cinvp", "cinva", "cpushl", "cpushp", "cpusha", "dbt", "dbf", "dbhi", "dbls", "dbcc", "dbcs", "dbne", "dbeq", "dbvc", "dbvs", "dbpl", "dbmi", "dbge", "dblt", "dbgt", "dble", "dbra", "divs", "divsl", "divu", "divul", "eor", "eori", "exg", "ext", "extb", "fabs", "fsabs", "fdabs", "facos", "fadd", "fsadd", "fdadd", "fasin", "fatan", "fatanh", "fbf", "fbeq", "fbogt", "fboge", "fbolt", "fbole", "fbogl", "fbor", "fbun", "fbueq", "fbugt", "fbuge", "fbult", "fbule", "fbne", "fbt", "fbsf", "fbseq", "fbgt", "fbge", "fblt", "fble", "fbgl", "fbgle", "fbngle", "fbngl", "fbnle", "fbnlt", "fbnge", "fbngt", "fbsne", "fbst", "fcmp", "fcos", "fcosh", "fdbf", "fdbeq", "fdbogt", "fdboge", "fdbolt", "fdbole", "fdbogl", "fdbor", "fdbun", "fdbueq", "fdbugt", "fdbuge", "fdbult", "fdbule", "fdbne", "fdbt", "fdbsf", "fdbseq", "fdbgt", "fdbge", "fdblt", "fdble", "fdbgl", "fdbgle", "fdbngle", "fdbngl", "fdbnle", "fdbnlt", "fdbnge", "fdbngt", "fdbsne", "fdbst", "fdiv", "fsdiv", "fddiv", "fetox", "fetoxm1", "fgetexp", "fgetman", "fint", "fintrz", "flog10", "flog2", "flogn", "flognp1", "fmod", "fmove", "fsmove", "fdmove", "fmovecr", "fmovem", "fmul", "fsmul", "fdmul", "fneg", "fsneg", "fdneg", "fnop", "frem", "frestore", "fsave", "fscale", "fsgldiv", "fsglmul", "fsin", "fsincos", "fsinh", "fsqrt", "fssqrt", "fdsqrt", "fsf", "fseq", "fsogt", "fsoge", "fsolt", "fsole", "fsogl", "fsor", "fsun", "fsueq", "fsugt", "fsuge", "fsult", "fsule", "fsne", "fst", "fssf", "fsseq", "fsgt", "fsge", "fslt", "fsle", "fsgl", "fsgle", "fsngle", "fsngl", "fsnle", "fsnlt", "fsnge", "fsngt", "fssne", "fsst", "fsub", "fssub", "fdsub", "ftan", "ftanh", "ftentox", "ftrapf", "ftrapeq", "ftrapogt", "ftrapoge", "ftrapolt", "ftrapole", "ftrapogl", "ftrapor", "ftrapun", "ftrapueq", "ftrapugt", "ftrapuge", "ftrapult", "ftrapule", "ftrapne", "ftrapt", "ftrapsf", "ftrapseq", "ftrapgt", "ftrapge", "ftraplt", "ftraple", "ftrapgl", "ftrapgle", "ftrapngle", "ftrapngl", "ftrapnle", "ftrapnlt", "ftrapnge", "ftrapngt", "ftrapsne", "ftrapst", "ftst", "ftwotox", "halt", "illegal", "jmp", "jsr", "lea", "link", "lpstop", "lsl", "lsr", "move", "movea", "movec", "movem", "movep", "moveq", "moves", "move16", "muls", "mulu", "nbcd", "neg", "negx", "nop", "not", "or", "ori", "pack", "pea", "pflush", "pflusha", "pflushan", "pflushn", "ploadr", "ploadw", "plpar", "plpaw", "pmove", "pmovefd", "ptestr", "ptestw", "pulse", "rems", "remu", "reset", "rol", "ror", "roxl", "roxr", "rtd", "rte", "rtm", "rtr", "rts", "sbcd", "st", "sf", "shi", "sls", "scc", "shs", "scs", "slo", "sne", "seq", "svc", "svs", "spl", "smi", "sge", "slt", "sgt", "sle", "stop", "sub", "suba", "subi", "subq", "subx", "swap", "tas", "trap", "trapv", "trapt", "trapf", "traphi", "trapls", "trapcc", "traphs", "trapcs", "traplo", "trapne", "trapeq", "trapvc", "trapvs", "trappl", "trapmi", "trapge", "traplt", "trapgt", "traple", "tst", "unlk", "unpk", }; #endif #ifndef CAPSTONE_DIET static const char* getRegName(m68k_reg reg) { return s_reg_names[(int)reg]; } static void printRegbitsRange(char* buffer, uint32_t data, const char* prefix) { unsigned int first = 0; unsigned int run_length = 0; int i; for (i = 0; i < 8; ++i) { if (data & (1 << i)) { first = i; run_length = 0; while (i < 7 && (data & (1 << (i + 1)))) { i++; run_length++; } if (buffer[0] != 0) strcat(buffer, "/"); sprintf(buffer + strlen(buffer), "%s%d", prefix, first); if (run_length > 0) sprintf(buffer + strlen(buffer), "-%s%d", prefix, first + run_length); } } } static void registerBits(SStream* O, const cs_m68k_op* op) { char buffer[128]; unsigned int data = op->register_bits; buffer[0] = 0; if (!data) { SStream_concat(O, "%s", "#$0"); return; } printRegbitsRange(buffer, data & 0xff, "d"); printRegbitsRange(buffer, (data >> 8) & 0xff, "a"); printRegbitsRange(buffer, (data >> 16) & 0xff, "fp"); SStream_concat(O, "%s", buffer); } static void registerPair(SStream* O, const cs_m68k_op* op) { SStream_concat(O, "%s:%s", s_reg_names[M68K_REG_D0 + op->reg_pair.reg_0], s_reg_names[M68K_REG_D0 + op->reg_pair.reg_1]); } static void printAddressingMode(SStream* O, unsigned int pc, const cs_m68k* inst, const cs_m68k_op* op) { switch (op->address_mode) { case M68K_AM_NONE: switch (op->type) { case M68K_OP_REG_BITS: registerBits(O, op); break; case M68K_OP_REG_PAIR: registerPair(O, op); break; case M68K_OP_REG: SStream_concat(O, "%s", s_reg_names[op->reg]); break; default: break; } break; case M68K_AM_REG_DIRECT_DATA: SStream_concat(O, "d%d", (op->reg - M68K_REG_D0)); break; case M68K_AM_REG_DIRECT_ADDR: SStream_concat(O, "a%d", (op->reg - M68K_REG_A0)); break; case M68K_AM_REGI_ADDR: SStream_concat(O, "(a%d)", (op->reg - M68K_REG_A0)); break; case M68K_AM_REGI_ADDR_POST_INC: SStream_concat(O, "(a%d)+", (op->reg - M68K_REG_A0)); break; case M68K_AM_REGI_ADDR_PRE_DEC: SStream_concat(O, "-(a%d)", (op->reg - M68K_REG_A0)); break; case M68K_AM_REGI_ADDR_DISP: SStream_concat(O, "%s$%x(a%d)", op->mem.disp < 0 ? "-" : "", abs(op->mem.disp), (op->mem.base_reg - M68K_REG_A0)); break; case M68K_AM_PCI_DISP: SStream_concat(O, "$%x(pc)", pc + 2 + op->mem.disp); break; case M68K_AM_ABSOLUTE_DATA_SHORT: SStream_concat(O, "$%x.w", op->imm); break; case M68K_AM_ABSOLUTE_DATA_LONG: SStream_concat(O, "$%x.l", op->imm); break; case M68K_AM_IMMEDIATE: if (inst->op_size.type == M68K_SIZE_TYPE_FPU) { #if defined(_KERNEL_MODE) // Issue #681: Windows kernel does not support formatting float point SStream_concat(O, "#"); break; #else if (inst->op_size.fpu_size == M68K_FPU_SIZE_SINGLE) SStream_concat(O, "#%f", op->simm); else if (inst->op_size.fpu_size == M68K_FPU_SIZE_DOUBLE) SStream_concat(O, "#%f", op->dimm); else SStream_concat(O, "#"); break; #endif } SStream_concat(O, "#$%x", op->imm); break; case M68K_AM_PCI_INDEX_8_BIT_DISP: SStream_concat(O, "$%x(pc,%s%s.%c)", pc + 2 + op->mem.disp, s_spacing, getRegName(op->mem.index_reg), op->mem.index_size ? 'l' : 'w'); break; case M68K_AM_AREGI_INDEX_8_BIT_DISP: SStream_concat(O, "%s$%x(%s,%s%s.%c)", op->mem.disp < 0 ? "-" : "", abs(op->mem.disp), getRegName(op->mem.base_reg), s_spacing, getRegName(op->mem.index_reg), op->mem.index_size ? 'l' : 'w'); break; case M68K_AM_PCI_INDEX_BASE_DISP: case M68K_AM_AREGI_INDEX_BASE_DISP: if (op->address_mode == M68K_AM_PCI_INDEX_BASE_DISP) { SStream_concat(O, "$%x", pc + 2 + op->mem.in_disp); } else { if (op->mem.in_disp > 0) SStream_concat(O, "$%x", op->mem.in_disp); } SStream_concat(O, "("); if (op->address_mode == M68K_AM_PCI_INDEX_BASE_DISP) { SStream_concat(O, "pc,%s.%c", getRegName(op->mem.index_reg), op->mem.index_size ? 'l' : 'w'); } else { if (op->mem.base_reg != M68K_REG_INVALID) SStream_concat(O, "a%d,%s", op->mem.base_reg - M68K_REG_A0, s_spacing); SStream_concat(O, "%s.%c", getRegName(op->mem.index_reg), op->mem.index_size ? 'l' : 'w'); } if (op->mem.scale > 0) SStream_concat(O, "%s*%s%d)", s_spacing, s_spacing, op->mem.scale); else SStream_concat(O, ")"); break; // It's ok to just use PCMI here as is as we set base_reg to PC in the disassembler. While this is not strictly correct it makes the code // easier and that is what actually happens when the code is executed anyway. case M68K_AM_PC_MEMI_POST_INDEX: case M68K_AM_PC_MEMI_PRE_INDEX: case M68K_AM_MEMI_PRE_INDEX: case M68K_AM_MEMI_POST_INDEX: SStream_concat(O, "(["); if (op->address_mode == M68K_AM_PC_MEMI_POST_INDEX || op->address_mode == M68K_AM_PC_MEMI_PRE_INDEX) { SStream_concat(O, "$%x", pc + 2 + op->mem.in_disp); } else { if (op->mem.in_disp > 0) SStream_concat(O, "$%x", op->mem.in_disp); } if (op->mem.base_reg != M68K_REG_INVALID) { if (op->mem.in_disp > 0) SStream_concat(O, ",%s%s", s_spacing, getRegName(op->mem.base_reg)); else SStream_concat(O, "%s", getRegName(op->mem.base_reg)); } if (op->address_mode == M68K_AM_MEMI_POST_INDEX || op->address_mode == M68K_AM_PC_MEMI_POST_INDEX) SStream_concat(O, "]"); if (op->mem.index_reg != M68K_REG_INVALID) SStream_concat(O, ",%s%s.%c", s_spacing, getRegName(op->mem.index_reg), op->mem.index_size ? 'l' : 'w'); if (op->mem.scale > 0) SStream_concat(O, "%s*%s%d", s_spacing, s_spacing, op->mem.scale); if (op->address_mode == M68K_AM_MEMI_PRE_INDEX || op->address_mode == M68K_AM_PC_MEMI_PRE_INDEX) SStream_concat(O, "]"); if (op->mem.out_disp > 0) SStream_concat(O, ",%s$%x", s_spacing, op->mem.out_disp); SStream_concat(O, ")"); break; case M68K_AM_BRANCH_DISPLACEMENT: SStream_concat(O, "$%x", pc + 2 + op->br_disp.disp); default: break; } if (op->mem.bitfield) SStream_concat(O, "{%d:%d}", op->mem.offset, op->mem.width); } #endif #define m68k_sizeof_array(array) (int)(sizeof(array)/sizeof(array[0])) #define m68k_min(a, b) (a < b) ? a : b void M68K_printInst(MCInst* MI, SStream* O, void* PrinterInfo) { #ifndef CAPSTONE_DIET m68k_info *info = (m68k_info *)PrinterInfo; cs_m68k *ext = &info->extension; cs_detail *detail = NULL; int i = 0; detail = MI->flat_insn->detail; if (detail) { int regs_read_count = m68k_min(m68k_sizeof_array(detail->regs_read), info->regs_read_count); int regs_write_count = m68k_min(m68k_sizeof_array(detail->regs_write), info->regs_write_count); int groups_count = m68k_min(m68k_sizeof_array(detail->groups), info->groups_count); memcpy(&detail->m68k, ext, sizeof(cs_m68k)); memcpy(&detail->regs_read, &info->regs_read, regs_read_count * sizeof(uint16_t)); detail->regs_read_count = regs_read_count; memcpy(&detail->regs_write, &info->regs_write, regs_write_count * sizeof(uint16_t)); detail->regs_write_count = regs_write_count; memcpy(&detail->groups, &info->groups, groups_count); detail->groups_count = groups_count; } if (MI->Opcode == M68K_INS_INVALID) { if (ext->op_count) SStream_concat(O, "dc.w $%x", ext->operands[0].imm); else SStream_concat(O, "dc.w $"); return; } SStream_concat0(O, (char*)s_instruction_names[MI->Opcode]); switch (ext->op_size.type) { case M68K_SIZE_TYPE_INVALID : break; case M68K_SIZE_TYPE_CPU : switch (ext->op_size.cpu_size) { case M68K_CPU_SIZE_BYTE: SStream_concat0(O, ".b"); break; case M68K_CPU_SIZE_WORD: SStream_concat0(O, ".w"); break; case M68K_CPU_SIZE_LONG: SStream_concat0(O, ".l"); break; case M68K_CPU_SIZE_NONE: break; } break; case M68K_SIZE_TYPE_FPU : switch (ext->op_size.fpu_size) { case M68K_FPU_SIZE_SINGLE: SStream_concat0(O, ".s"); break; case M68K_FPU_SIZE_DOUBLE: SStream_concat0(O, ".d"); break; case M68K_FPU_SIZE_EXTENDED: SStream_concat0(O, ".x"); break; case M68K_FPU_SIZE_NONE: break; } break; } SStream_concat0(O, " "); // this one is a bit spacial so we do special things if (MI->Opcode == M68K_INS_CAS2) { int reg_value_0, reg_value_1; printAddressingMode(O, info->pc, ext, &ext->operands[0]); SStream_concat0(O, ","); printAddressingMode(O, info->pc, ext, &ext->operands[1]); SStream_concat0(O, ","); reg_value_0 = ext->operands[2].register_bits >> 4; reg_value_1 = ext->operands[2].register_bits & 0xf; SStream_concat(O, "(%s):(%s)", s_reg_names[M68K_REG_D0 + reg_value_0], s_reg_names[M68K_REG_D0 + reg_value_1]); return; } for (i = 0; i < ext->op_count; ++i) { printAddressingMode(O, info->pc, ext, &ext->operands[i]); if ((i + 1) != ext->op_count) SStream_concat(O, ",%s", s_spacing); } #endif } const char* M68K_reg_name(csh handle, unsigned int reg) { #ifdef CAPSTONE_DIET return NULL; #else if (reg >= ARR_SIZE(s_reg_names)) { return NULL; } return s_reg_names[(int)reg]; #endif } void M68K_get_insn_id(cs_struct* h, cs_insn* insn, unsigned int id) { insn->id = id; // These id's matches for 68k } const char* M68K_insn_name(csh handle, unsigned int id) { #ifdef CAPSTONE_DIET return NULL; #else return s_instruction_names[id]; #endif } #ifndef CAPSTONE_DIET static name_map group_name_maps[] = { { M68K_GRP_INVALID , NULL }, { M68K_GRP_JUMP, "jump" }, { M68K_GRP_RET , "ret" }, { M68K_GRP_IRET, "iret" }, { M68K_GRP_BRANCH_RELATIVE, "branch_relative" }, }; #endif const char *M68K_group_name(csh handle, unsigned int id) { #ifndef CAPSTONE_DIET return id2name(group_name_maps, ARR_SIZE(group_name_maps), id); #else return NULL; #endif }