/* jitx86.c Copyright (C) 2006-2007, Codemist Ltd */ /* and J O'Connell */ /* * Just in time x86 compiler. * * specifically Intel/AMD x86 processing. */ /* * This code may be used and modified, and redistributed in binary * or source form, subject to the "CCL Public License", which should * accompany it. This license is a variant on the BSD license, and thus * permits use of code derived from this in either open and commercial * projects: but it does require that updates to this code be made * available back to the originators of the package. * Before merging other code in with this or linking this code * with other packages or libraries please check that the license terms * of the other material are compatible with those of this. */ /* Signature: 4f6e2f64 18-Jan-2007 */ #include "headers.h" #include "bytes.h" #include "jit.h" #define PSIZE 4 /* size of pointer */ void inc_reg(int reg) { if(isreg(reg)) { putbyte(0x40+reg); } else aerror("Error: inc reg is not a register"); } void dec_reg(int reg) { if(isreg(reg)) { putbyte(0x48+reg); } else aerror("Error: dec reg is not a register"); } void sub_imm8_rm32(int size, int reg) { //check if register if(isreg(reg)) { putbyte(0x83); //sub sign-extended imm8 from r/m32 putbyte(0xe8+reg); putbyte(size); } else { putbyte(0x83); putbyte(0x28+reg-0x8);//FIXME is this right? putbyte(size); } } void sub_imm32_rm32(int size, int reg) { if(isreg(reg)) { putbyte(0x81); putbyte(0xe8+reg); put_little_endian(size); } else { putbyte(0x81); putbyte(0x28+reg-0x8); put_little_endian(size); } } void add_imm8_addr(int size, void *addr) { put2bytes(0x8305); put_addr(addr); putbyte(size); } void sub_imm8_addr(int size, void *addr) { put2bytes(0x832d); put_addr(addr); putbyte(size); } /* * below in add: * imm8 because of special case if reg==EAX then it makes it AL. * So instead just explicitly make me declare what size imm i want. * * Longer(slower?) but safer. Can optimise later */ void add_imm8_rm32(int size, int reg) { //check if register if(isreg(reg)) { //special case for accumulator register eax if(reg==EAX) { putbyte(0x04); putbyte(size); } else { putbyte(0x83); putbyte(0xc0+reg); putbyte(size); } } //memory location else { putbyte(0x83); putbyte(reg-0x8); putbyte(size); } } void add_imm32_rm32(int size, int reg) { //size is bigger than imm8 if(isreg(reg)) { //special case for accumulator register eax if(reg==EAX) { putbyte(0x05); put_little_endian(size); } else { putbyte(0x81); putbyte(0xc0+reg); put_little_endian(size); } } else { putbyte(0x81); putbyte(reg-0x8); put_little_endian(size); } } void and_imm_rm32(int size, int reg) { /* * imm is ok because it is sign extended * unlike add and sub when reg==eax */ //check if size is an imm8 if(0x0<=size && size <=0xff) { //check if register if(isreg(reg)) { //special case for accumulator register eax /* if(reg==EAX) { //add imm8 to r8 putbyte(0x24); putbyte(size); } else {*/ //add sign extended imm8 to r32 putbyte(0x83); putbyte(0xe0+reg); putbyte(size); // } } //memory location else { putbyte(0x83); putbyte(0x20+reg-0x8); putbyte(size); } } //size is bigger than imm8 else { if(isreg(reg)) { //special case for accumulator register eax if(reg==EAX) { putbyte(0x25); put4bytes(size); } else { putbyte(0x81); putbyte(0xe0+reg); put4bytes(size); } } else { putbyte(0x81); putbyte(0x20+reg-0x8); put4bytes(size); } } } void mov_rm32_rm32(int dest, int source) { //eg, "mov dest, source" if(isreg(dest)) { //destination is a register putbyte(0x89); if(isreg(source)) { //we have a "mov %eax,%ebx" putbyte((0xc0+(dest*0x8))+source); } else { if(dest==ESP) aerror("Error: ESP in mov_rm32_rm32"); if(source==ESPM) { putbyte(0x4+(dest*0x8)); putbyte(0x24); //SIB ESP } else { //we have a "mov %eax,(%ebx)" putbyte((dest*0x8)+source-0x8); } } } else { //destination is a memory offset located in register putbyte(0x8b); if(isreg(source)) { //we have a "mov (%eax),%ebx" putbyte((source*0x8)+dest-0x8); } else { //we have a "mov (%eax),(%ebx)" //this is an illegal instruction aerror("Error: in mov_rm32_rm32"); } } } void mov_rm32_rm32_disp(int dest, int source, int disp) { //eg, "mov 0xdisp(dest), source" //check if a disp8 if(-127<=(disp*PSIZE) && (disp*PSIZE)<=128) { if(isreg(dest)) { //destination is a register putbyte(0x89); if(isreg(source)) { //we have a "mov %eax,%ebx" aerror("Error: no mem loc in disp mov"); } else { if(dest==ESP) aerror("Error: ESP in mov_rm32_rm32_disp"); if(source==ESPM) { putbyte(0x44+(dest*0x8)); putbyte(0x24); //SIB ESP putbyte((PSIZE*disp)&0xff); } else { //we have a "mov %eax,0xdisp(%ebx)" putbyte(0x40+(dest*0x8)+source-0x8); putbyte((PSIZE*disp)&0xff); } } } else { //destination is a memory offset located in register putbyte(0x8b); if(isreg(source)) { //we have a "mov 0xdisp(%eax),%ebx" putbyte(0x40+(source*0x8)+dest-0x8); putbyte((PSIZE*disp)&0xff); } else { //we have a "mov (%eax),(%ebx)" //this is an illegal instruction aerror("Error: in mov_rm32_rm32_disp"); } } } //its a disp32 else { if(isreg(dest)) { //destination is a register putbyte(0x89); if(isreg(source)) { //we have a "mov %eax,%ebx" aerror("Error: no mem loc in disp mov"); } else { //we have a "mov %eax,0xdisp(%ebx)" putbyte(0x80+(dest*0x8)+source-0x8); put_little_endian(PSIZE*disp); } } else { //destination is a memory offset located in register putbyte(0x8b); if(isreg(source)) { //we have a "mov 0xdisp(%eax),%ebx" putbyte(0x80+(source*0x8)+dest-0x8); put_little_endian(PSIZE*disp); } else { //we have a "mov (%eax),(%ebx)" //this is an illegal instruction aerror("Error: in mov_rm32_rm32_disp"); } } } } void cmp_imm_r32(int size, int reg) { //sign extended imm if(0<=size && size<=255) { if(isreg(reg)) { putbyte(0x83); putbyte(0xf8+reg); putbyte(size); } else aerror("Error: not reg in cmp_imm_r32"); } else { //imm32 if(isreg(reg)) { putbyte(0x81); putbyte(0xf8+reg); put4bytes(size); } else aerror("Error: not reg in cmp_imm_r32"); } } void cmp_rm32_rm32(int dest, int source) { //eg, "cmp dest, source" if(isreg(dest)) { //destination is a register putbyte(0x39); if(isreg(source)) { //we have a "cmp %eax,%ebx" putbyte((0xc0+(dest*0x8))+source); } else { //we have a "cmp %eax,(%ebx)" putbyte((dest*0x8)+source-0x8); } } else { //destination is a memory offset located in register putbyte(0x3b); if(isreg(source)) { //we have a "cmp (%eax),%ebx" putbyte((source*0x8)+dest-0x8); } else { //we have a "cmp (%eax),(%ebx)" //this is an illegal instruction aerror("Error: in cmp_rm32_rm32"); } } } void cmp_rm32_rm32_disp(int dest, int source, int disp) { //eg, "cmp 0xdisp(dest), source" //check if a disp8 if(-127<=(disp*PSIZE) && (disp*PSIZE)<=128) { if(isreg(dest)) { //destination is a register putbyte(0x39); if(isreg(source)) { //we have a "cmp %eax,%ebx" aerror("Error: no mem loc in disp cmp"); } else { //we have a "cmp %eax,0xdisp(%ebx)" putbyte(0x40+(dest*0x8)+source-0x8); putbyte((PSIZE*disp)&0xff); } } else { //destination is a memory offset located in register putbyte(0x3b); if(isreg(source)) { //we have a "cmp 0xdisp(%eax),%ebx" putbyte(0x40+(source*0x8)+dest-0x8); putbyte((PSIZE*disp)&0xff); } else { //we have a "cmp (%eax),(%ebx)" //this is an illegal instruction aerror("Error: in cmp_rm32_rm32_disp"); } } } //its a disp32 else { if(isreg(dest)) { //destination is a register putbyte(0x39); if(isreg(source)) { //we have a "cmp %eax,%ebx" aerror("Error: no mem loc in disp cmp"); } else { //we have a "cmp %eax,0xdisp(%ebx)" putbyte(0x80+(dest*0x8)+source-0x8); put_little_endian(PSIZE*disp); } } else { //destination is a memory offset located in register putbyte(0x3b); if(isreg(source)) { //we have a "cmp 0xdisp(%eax),%ebx" putbyte(0x80+(source*0x8)+dest-0x8); put_little_endian(PSIZE*disp); } else { //we have a "cmp (%eax),(%ebx)" //this is an illegal instruction aerror("Error: in cmp_rm32_rm32_disp"); } } } } void mov_r32_addr(int dest, void *source) { //eg, "mov %eax, 0x0" where 0x0 = C_stack if(isreg(dest)) { //special case for eax if(dest==EAX) { putbyte(0xa3); put_addr(source); } else { putbyte(0x89); putbyte((dest*0x8)+0x5); put_addr(source); } } else aerror("Error in moving an address to a reg"); } void mov_addr_r32(void *dest, int source) { //eg, "mov 0x0, %eax" where 0x0 = C_stack if(isreg(source)) { //special case for eax if(source==EAX) { putbyte(0xa1); put_addr(dest); } else { putbyte(0x8b); putbyte((source*0x8)+0x5); put_addr(dest); } } else aerror("Error in moving a reg to an address"); } void lea_m32_r32_disp(int source, int dest, int disp) { if(!isreg(source)) { if(isreg(dest)) { putbyte(0x8d); if(-127<=(PSIZE*disp) && (disp*PSIZE)<=128) { putbyte(0x40+(dest*0x8)+source-0x8); putbyte((PSIZE*disp)&0xff); } else { putbyte(0x80+(dest*0x8)+source-0x8); put_little_endian(PSIZE*disp); } } else aerror("Error in lea. dest is not a register"); } else aerror("Error in lea. source is not a memory loc"); } void MS_CDECL Jpush(int nargs, ...) { va_list arg_ptr; int i; if (nargs != 0) { va_start(arg_ptr, nargs); for(i=0; i<nargs; i++) { putbyte(0x50+va_arg(arg_ptr, int)); } va_end(arg_ptr); } } void MS_CDECL Jpop(int nargs, ...) { va_list arg_ptr; int i; if (nargs != 0) { va_start(arg_ptr, nargs); for(i=0; i<nargs; i++) { putbyte(0x58+va_arg(arg_ptr, int)); } va_end(arg_ptr); } } /* end of jitx86.c */