I64 InstEntriesCompare(CInst *tmpins1,CInst *tmpins2) { I64 i1,i2,j=0,res=0,oc_cnt1=tmpins1->opcode_cnt,oc_cnt2=tmpins2->opcode_cnt; if (tmpins1->flags&IEF_STI_LIKE) oc_cnt1--; if (tmpins2->flags&IEF_STI_LIKE) oc_cnt2--; while (TRUE) { if (jopcode[j]-tmpins2->opcode[j]) return res; j++; } else { if (res=oc_cnt1-oc_cnt2) return res; if (tmpins1->flags&IEF_STI_LIKE && tmpins2->flags&IEF_STI_LIKE) return tmpins1->opcode[j]-tmpins2->opcode[j]; if (res=tmpins1->flags&IEF_STI_LIKE - tmpins2->flags&IEF_STI_LIKE) return res; if (res=tmpins1->slash_val-tmpins2->slash_val) return res; if (res=tmpins1->flags&IEF_OP_SIZE32 - tmpins2->flags&IEF_OP_SIZE32) return res; i1=Bt(&uasm.ins64_arg_mask,tmpins1->arg1) || Bt(&uasm.ins64_arg_mask,tmpins1->arg2); i2=Bt(&uasm.ins64_arg_mask,tmpins2->arg1) || Bt(&uasm.ins64_arg_mask,tmpins2->arg2); if (res=i1-i2) return res; if (res=tmpins1->flags&IEF_48_REX - tmpins2->flags&IEF_48_REX) return res; i1=tmpins1->arg2==ARGT_IMM64 || tmpins1->arg2==ARGT_UIMM64; i2=tmpins2->arg2==ARGT_IMM64 || tmpins2->arg2==ARGT_UIMM64; return i1-i2; } } } /* U0 DumpUAsmIns(CInst *tmpins) { CHashOpcode *tmpo=tmpins(U8 *)-tmpins->ins_entry_num*sizeof(CInst) -offset(CHashOpcode.ins); "%10s:%02d,%02d SV:%02d\n",tmpo->str, tmpins->arg1,tmpins->arg2,tmpins->slash_val; } U0 DumpUAsmTables() { I64 k; "16/32 Bit Table\n"; for (k=0;k>1; //binary search tmpins=table[k]; //DumpUAsmIns(tmpins); m=0; n=0; while (TRUE) { //ief_compare_start arg1=tmpins->arg1; arg2=tmpins->arg2; oc_cnt=tmpins->opcode_cnt; if (tmpins->flags&IEF_STI_LIKE) oc_cnt--; if (nopcode_cnt-1 && tmpins->flags & IEF_PLUS_OPCODE) o1&=-8; o2=tmpins->opcode[n++]; if (m=o1-o2) goto ief_compare_done; } else switch [tmpins->uasm_slash_val] { case 0...7: if (!(m=rip[n]>>3&7-tmpins->slash_val)) { if ((Bt(&uasm.mem_arg_mask,arg1) || Bt(&uasm.mem_arg_mask,arg2)) && rip[n]&0xC0==0xC0) { m=1; goto ief_compare_done; } if (opsize==16) { if (tmpins->flags & IEF_OP_SIZE32) { m=-1; goto ief_compare_done; } } else { if (tmpins->flags & IEF_OP_SIZE16) { m=1; goto ief_compare_done; } } if (opsize==64||arg1==ARGT_M64||arg2==ARGT_M64) { if (!Bt(&uasm.ins64_arg_mask,arg1)&& !Bt(&uasm.ins64_arg_mask,arg2)&& !(tmpins->flags&IEF_48_REX)) m=1; } else { if (Bt(&uasm.ins64_arg_mask,arg1)|| Bt(&uasm.ins64_arg_mask,arg2) || tmpins->flags&IEF_48_REX) m=-1; } } else if ((Bt(&uasm.mem_arg_mask,arg1)|| Bt(&uasm.mem_arg_mask,arg2)) && rip[n]&0xC0==0xC0) m=1; goto ief_compare_done; case SV_I_REG: m=rip[n]>>3-tmpins->opcode[tmpins->opcode_cnt-1]>>3; goto ief_compare_done; case SV_STI_LIKE: if (!(m=rip[n]>>3-tmpins->opcode[tmpins->opcode_cnt-1]>>3)) m=rip[n]-tmpins->opcode[tmpins->opcode_cnt-1]; goto ief_compare_done; case SV_R_REG: case SV_NONE: m=0; if (opsize==16) { if (tmpins->flags & IEF_OP_SIZE32) { m=-1; goto ief_compare_done; } } else { if (tmpins->flags & IEF_OP_SIZE16) { m=1; goto ief_compare_done; } } if (opsize==64 || arg1==ARGT_M64 || arg2==ARGT_M64) { if (!Bt(&uasm.ins64_arg_mask,arg1) && !Bt(&uasm.ins64_arg_mask,arg2) && !(tmpins->flags&IEF_48_REX)&& !(arg2==ARGT_NONE && (ARGT_UIMM8<=arg1<=ARGT_UIMM64 || ARGT_IMM8<=arg1<=ARGT_IMM64))) m=1; else if (tmpins->arg2==ARGT_IMM64 || tmpins->arg2==ARGT_UIMM64) { if (arg2!=ARGT_IMM64&&arg2!=ARGT_UIMM64) m=1; } else if (arg2==ARGT_IMM64||arg2==ARGT_UIMM64) m=-1; } else { if (Bt(&uasm.ins64_arg_mask,arg1) || Bt(&uasm.ins64_arg_mask,arg2) || tmpins->flags&IEF_48_REX) m=-1; } goto ief_compare_done; } } ief_compare_done: if (m>0) { if (k==i) { k=j; break; } else i=k; } else if (m<0) { if (k-i<=1) { k=i; break; } else j=k; } else break; } return table[k]; } U0 UAsmHashLoad() { CHashOpcode *tmph; CInst *tmpins; I64 i,j1,j2,k; uasm.ins64_arg_mask=0x0880888880+1<mask;i++) { tmph=cmp.asm_hash->body[i]; while (tmph) { if (tmph->type==HTT_OPCODE && !(tmph->oc_flags&OCF_ALIAS)) { tmpins=&tmph->ins; for (k=0;kinst_entry_cnt;k++) { uasm.table_16_32_entries++; if (!(tmpins->flags&IEF_NOT_IN_64_BIT)) uasm.table_64_entries++; tmpins++; } } tmph=tmph->next; } } j1=j2=0; uasm.table_16_32=MAlloc(uasm.table_16_32_entries*sizeof(U8 *)); uasm.table_64 =MAlloc(uasm.table_64_entries *sizeof(U8 *)); for (i=0;i<=cmp.asm_hash->mask;i++) { tmph=cmp.asm_hash->body[i]; while (tmph) { if (tmph->type==HTT_OPCODE && !(tmph->oc_flags&OCF_ALIAS)) { tmpins=&tmph->ins; for (k=0;kinst_entry_cnt;k++) { uasm.table_16_32[j1++]=tmpins; if (!(tmpins->flags&IEF_NOT_IN_64_BIT)) uasm.table_64[j2++]=tmpins; tmpins++; } } tmph=tmph->next; } } QSortI64(uasm.table_16_32,uasm.table_16_32_entries,&InstEntriesCompare); QSortI64(uasm.table_64 ,uasm.table_64_entries ,&InstEntriesCompare); } U0 Ui(U8 *buf,U8 **_rip,I64 seg_size=64,I64 *_jmp_dst=NULL,Bool just_ins=FALSE) {//Unassembles one inst I64 i,disp,imm,opsize,opadd, arg1,arg2,reloced_arg1,reloced_arg2, arg1_size=0,arg2_size=0,reloced_arg1_size,reloced_arg2_size, ModrM=-1,SIB=-1,scale,r1,r2, Mod=-1,RM1=-1,RM2=-1,REX=-1,REX_r=0,REX_x=0,REX_b=0; Bool cont; CInst *tmpins,*tmpins2; CHashOpcode *tmpo; U8 *rip=*_rip,*ptr,*reloced_arg1_st,*reloced_arg2_st, *bin_data_area1,*bin_data_area2, line1[512],line2[512],buf2[512],arg1_st[512], arg2_st[512],seg_overrides[32]; if (_jmp_dst) *_jmp_dst=-1; if (seg_size==16) { opsize=16; opadd=16; } else if (seg_size==32) { opsize=32; opadd=32; } else { opsize=32; opadd=64; } *arg1_st=0; *arg2_st=0; if (!IsRaw && PutSrcLink(rip,1,line1)) CatPrint(line1,"\n"); else *line1=0; StrPrint(line1+StrLen(line1),"%24tp ",rip); bin_data_area1=line1+StrLen(line1); for (i=0;i<6;i++) CatPrint(line1,"%02X",rip[i]); CatPrint(line1," "); StrPrint(line2,"%24tp ",rip+6); bin_data_area2=line2+StrLen(line2); for (i=6;i<12;i++) CatPrint(line2,"%02X",rip[i]); *seg_overrides=0; cont=TRUE; while (TRUE) { switch (*rip) { case 0x2E: if (StrLen(seg_overrides)<24) CatPrint(seg_overrides,"CS:"); break; case 0x36: if (StrLen(seg_overrides)<24) CatPrint(seg_overrides,"SS:"); break; case 0x3E: if (StrLen(seg_overrides)<24) CatPrint(seg_overrides,"DS:"); break; case 0x26: if (StrLen(seg_overrides)<24) CatPrint(seg_overrides,"ES:"); break; case 0x64: if (StrLen(seg_overrides)<24) CatPrint(seg_overrides,"FS:"); break; case 0x65: if (StrLen(seg_overrides)<24) CatPrint(seg_overrides,"GS:"); break; case OC_OP_SIZE_PREFIX: if (opsize==16) opsize=32; else opsize=16; break; case OC_ADDR_SIZE_PREFIX: if (opadd==16) opadd=32; else opadd=16; break; case 0x40...0x4F: if (seg_size==64) { REX=*rip; if (REX>=0x48) opsize=64; REX_b=Bt(&REX,0)<<3; REX_x=Bt(&REX,1)<<3; REX_r=Bt(&REX,2)<<3; break; } //Fall thru if !64 default: cont=FALSE; } if (cont) rip++; else break; } tmpins=InstEntryFind(rip,opsize,seg_size); if (opsize==32 && seg_size==64) { tmpins2=InstEntryFind(rip,64,seg_size); if (tmpins2!=tmpins && tmpins2->flags&IEF_REX_ONLY_R8_R15 || tmpins2->flags&IEF_REX_XOR_LIKE&& rip[1]>>3&7==rip[1]&7) tmpins=tmpins2; } rip+=tmpins->opcode_cnt; tmpo=tmpins(U8 *)-tmpins->ins_entry_num*sizeof(CInst) -offset(CHashOpcode.ins); if (just_ins) *line1=0; CatPrint(line1,tmpo->str); arg1=tmpins->arg1; arg2=tmpins->arg2; if (arg1_size=tmpins->size1) { if (Bt(&uasm.signed_arg_mask,arg1)) CatPrint(arg1_st,"I%d ",arg1_size); else CatPrint(arg1_st,"U%d ",arg1_size); } if (arg2_size=tmpins->size2) { if (Bt(&uasm.signed_arg_mask,arg2)) CatPrint(arg2_st,"I%d ",arg2_size); else CatPrint(arg2_st,"U%d ",arg2_size); } if (tmpins->flags & IEF_PLUS_OPCODE) { rip--; RM1=*rip++ - tmpins->opcode[tmpins->opcode_cnt-1]+REX_b; ptr=NULL; if (ARGT_R8<=arg1<=ARGT_R64) { if (arg1_size==8) { if (REX!=-1) ptr="ST_U8_REX_REGS"; else ptr="ST_U8_REGS"; } else if (arg1_size==16) ptr="ST_U16_REGS"; else if (arg1_size==32) ptr="ST_U32_REGS"; else if (arg1_size==64) ptr="ST_U64_REGS"; if (ptr) CatPrint(arg1_st,"%Z",RM1,ptr); } else { if (arg2_size==8) { if (REX!=-1) ptr="ST_U8_REX_REGS"; else ptr="ST_U8_REGS"; } else if (arg2_size==16) ptr="ST_U16_REGS"; else if (arg2_size==32) ptr="ST_U32_REGS"; else if (arg2_size==64) ptr="ST_U64_REGS"; if (ptr) CatPrint(arg2_st,"%Z",RM1,ptr); } } if (ARGT_RM8<=arg1<=ARGT_RM64 || ARGT_M8<=arg1<=ARGT_M64 || ARGT_RM8<=arg2<=ARGT_RM64 || ARGT_M8<=arg2<=ARGT_M64) { if (ARGT_RM8<=arg2<=ARGT_RM64 || ARGT_M8<=arg2<=ARGT_M64) { reloced_arg1=arg2; reloced_arg2=arg1; reloced_arg1_size=arg2_size; reloced_arg2_size=arg1_size; reloced_arg1_st=arg2_st; reloced_arg2_st=arg1_st; } else { reloced_arg1=arg1; reloced_arg2=arg2; reloced_arg1_size=arg1_size; reloced_arg2_size=arg2_size; reloced_arg1_st=arg1_st; reloced_arg2_st=arg2_st; } CatPrint(reloced_arg1_st,seg_overrides); ModrM=*rip++; Mod=ModrM>>6 & 3; RM1=ModrM & 7+REX_b; RM2=ModrM>>3 & 7+REX_r; if (Mod<3 && RM1&7==4) SIB=*rip++; if (Mod==1) { disp=*rip(U8 *)++; CatPrint(reloced_arg1_st,"%02X",disp); } else if (Mod==2) { disp=*rip(U32 *)++; CatPrint(reloced_arg1_st,"%08X",disp); } if (tmpins->slash_val<8) RM2=-1; else { ptr=NULL; if (reloced_arg2==ARGT_SREG) { if (RM2<=5) ptr="ST_SEG_REGS"; } else if (!(ARGT_IMM8<=reloced_arg2<=ARGT_IMM64) && !(ARGT_UIMM8<=reloced_arg2<=ARGT_UIMM64)) { if (reloced_arg2_size==8) { if (REX!=-1) ptr="ST_U8_REX_REGS"; else ptr="ST_U8_REGS"; } else if (reloced_arg2_size==16) ptr="ST_U16_REGS"; else if (reloced_arg2_size==32) ptr="ST_U32_REGS"; else if (reloced_arg2_size==64) ptr="ST_U64_REGS"; } if (ptr) CatPrint(reloced_arg2_st,"%Z",RM2,ptr); } if (RM1&7==5 && !Mod) { disp=*rip(I32 *)++; if (seg_size==64) { disp+=rip; if (reloced_arg2==ARGT_IMM8 || reloced_arg2==ARGT_UIMM8) disp++; else if (reloced_arg2==ARGT_IMM16 || reloced_arg2==ARGT_UIMM16) disp+=2; else if (reloced_arg2==ARGT_IMM32 || reloced_arg2==ARGT_UIMM32) disp+=4; else if (reloced_arg2==ARGT_IMM64 || reloced_arg2==ARGT_UIMM64) disp+=8; } CatPrint(reloced_arg1_st,"[%X]",disp); RM1=-1; } else { if (Mod<3) { if (RM1&7==4) { RM1=-1; r1=SIB & 7+REX_b; r2=SIB>>3 & 7+REX_x; scale=SIB>>6 &3; if (scale==3) scale=8; else if (scale==2) scale=4; else if (scale==1) scale=2; else scale=1; if (seg_size==64) ptr="ST_U64_REGS"; else ptr="ST_U32_REGS"; if (r1==REG_RBP && !Mod) { disp=*rip(U32 *)++; CatPrint(reloced_arg1_st,"%08X[%Z*%d]",disp,r2,ptr,scale); } else if (r2==4) CatPrint(reloced_arg1_st,"[%Z]",r1,ptr); else CatPrint(reloced_arg1_st,"[%Z+%Z*%d]",r1,ptr,r2,ptr,scale); } else { if (opadd==16) ptr="ST_U16_REGS"; else if (opadd==32) ptr="ST_U32_REGS"; else ptr="ST_U64_REGS"; CatPrint(reloced_arg1_st,"[%Z]",RM1,ptr); } } else { ptr=NULL; if (reloced_arg1_size==8) { if (REX!=-1) ptr="ST_U8_REX_REGS"; else ptr="ST_U8_REGS"; } else if (reloced_arg1_size==16) ptr="ST_U16_REGS"; else if (reloced_arg1_size==32) ptr="ST_U32_REGS"; else if (reloced_arg1_size==64) ptr="ST_U64_REGS"; if (ptr) CatPrint(reloced_arg1_st,DefineSub(RM1,ptr)); } } } switch (arg1) { case ARGT_IMM8: case ARGT_UIMM8: imm=*rip(U8 *)++; CatPrint(arg1_st,"%02X",imm); if (tmpins->opcode[0]==0xCD && (ptr=DefineSub(imm,"ST_INT_NAMES"))) CatPrint(arg1_st,"%s",ptr); break; case ARGT_IMM16: case ARGT_UIMM16: CatPrint(arg1_st,"%04X",*rip(U16 *)++); break; case ARGT_IMM32: case ARGT_UIMM32: CatPrint(arg1_st,"%08X",*rip(U32 *)++); break; case ARGT_IMM64: case ARGT_UIMM64: CatPrint(arg1_st,"%016X",*rip(I64 *)++); break; start: case ARGT_REL8: disp=*rip(I8 *)++; break; case ARGT_REL16: disp=*rip(I16 *)++; break; case ARGT_REL32: disp=*rip(I32 *)++; break; end: disp+=rip; if (IsDbgMode) CatPrint(arg1_st,"%p ",disp); else if (PutSrcLink(disp,512,buf2)) CatPrint(arg1_st,"%s ",buf2); else CatPrint(arg1_st,"%P ",disp); if (_jmp_dst) *_jmp_dst=disp; break; case ARGT_MOFFS8...ARGT_MOFFS64: CatPrint(arg1_st,seg_overrides); if (arg1_size==8) disp=*rip(U8 *)++; else if (opadd==16) disp=*rip(U16 *)++; else disp=*rip(U32 *)++; CatPrint(arg1_st,"[%X]",disp); break; case ARGT_AL ... ARGT_DX: case ARGT_SS ... ARGT_ST0: CatPrint(arg1_st,"%z",arg1-ARGT_AL, "AL\0AX\0EAX\0RAX\0CL\0DX\0\0\0SS\0DS\0ES\0FS\0GS\0CS\0ST0\0"); break; case ARGT_STI: rip--; CatPrint(arg1_st,"%Z",*rip++ - tmpins->opcode[tmpins->opcode_cnt-1], "ST_FSTK_REGS"); break; } switch (arg2) { case ARGT_IMM8: case ARGT_UIMM8: CatPrint(arg2_st,"%02X",*rip(U8 *)++); break; case ARGT_IMM16: case ARGT_UIMM16: CatPrint(arg2_st,"%04X",*rip(U16 *)++); break; case ARGT_IMM32: case ARGT_UIMM32: CatPrint(arg2_st,"%08X",*rip(U32 *)++); break; case ARGT_IMM64: case ARGT_UIMM64: CatPrint(arg2_st,"%016X",*rip(I64 *)++); break; case ARGT_MOFFS8...ARGT_MOFFS64: CatPrint(arg2_st,seg_overrides); if (arg2_size==8) disp=*rip(U8 *)++; else if (opadd==16) disp=*rip(U16 *)++; else disp=*rip(U32 *)++; CatPrint(arg2_st,"[%X]",disp); break; case ARGT_AL ... ARGT_DX: case ARGT_SS ... ARGT_ST0: CatPrint(arg2_st,"%z",arg2-ARGT_AL, "AL\0AX\0EAX\0RAX\0CL\0DX\0\0\0SS\0DS\0ES\0FS\0GS\0CS\0ST0\0"); break; case ARGT_STI: rip--; CatPrint(arg2_st,"%Z",*rip++ -tmpins->opcode[tmpins->opcode_cnt-1], "ST_FSTK_REGS"); break; } if (tmpins->flags&IEF_ENDING_ZERO) rip++; if (*arg1_st) CatPrint(line1,"\t%s",arg1_st); if (*arg2_st) CatPrint(line1,",%s",arg2_st); CatPrint(line1,"\n"); CatPrint(line2,"\n"); if (!just_ins) { for (i=rip-(*_rip)(I64);i<6;i++) { bin_data_area1[i<<1]=CH_SPACE; bin_data_area1[i<<1+1]=CH_SPACE; } for (i=rip-(*_rip)(I64);i<12;i++) { bin_data_area2[(i-6)<<1]=CH_SPACE; bin_data_area2[(i-6)<<1+1]=CH_SPACE; } } StrCpy(buf,line1); if (!just_ins && rip-(*_rip)(I64)>6) CatPrint(buf,line2); *_rip=rip; } U8 *U(U8 *rip,I64 cnt=20,I64 seg_size=64) {//Unassembles a num of insts. I64 i; U8 buf[1024]; if (seg_size==16) PrintWarn("16-bit unassembly is not well supported.\n"); "$$HL,1$$"; for (i=0;i