#include #include #include #include "jit_x86.h" #include "opcode_helpers.h" #include "x86_macros.h" inline void WriteOp_Move_Pri(JitWriter *jit) { //mov eax, edx IA32_Mov_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); } inline void WriteOp_Move_Alt(JitWriter *jit) { //mov edx, eax IA32_Mov_Rm_Reg(jit, AMX_REG_ALT, AMX_REG_PRI, MOD_REG); } inline void WriteOp_Xchg(JitWriter *jit) { //xchg eax, edx IA32_Xchg_Eax_Reg(jit, AMX_REG_ALT); } inline void WriteOp_Push(JitWriter *jit) { //push stack, DAT offset based //sub ebp, 4 //mov ecx, [edi+] //mov [ebp], ecx cell_t val = jit->read_cell(); IA32_Sub_Rm_Imm8(jit, AMX_REG_STK, 4, MOD_REG); //optimize encoding a bit... if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_TMP, AMX_REG_DAT, (jit_int8_t)val); else IA32_Mov_Reg_Rm_Disp32(jit, AMX_REG_TMP, AMX_REG_DAT, val); IA32_Mov_Rm_Reg(jit, AMX_REG_STK, AMX_REG_TMP, MOD_MEM_REG); } inline void WriteOp_Push_C(JitWriter *jit) { //push stack //mov [ebp-4], //sub ebp, 4 cell_t val = jit->read_cell(); IA32_Mov_Rm_Imm32_Disp8(jit, AMX_REG_STK, val, -4); IA32_Sub_Rm_Imm8(jit, AMX_REG_STK, 4, MOD_REG); } inline void WriteOp_Zero(JitWriter *jit) { //mov [edi+], 0 cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Rm_Imm32_Disp8(jit, AMX_REG_DAT, 0, (jit_int8_t)val); else IA32_Mov_Rm_Imm32_Disp32(jit, AMX_REG_DAT, 0, val); } inline void WriteOp_Zero_S(JitWriter *jit) { //mov [ebx+], 0 cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Rm_Imm32_Disp8(jit, AMX_REG_FRM, 0, (jit_int8_t)val); else IA32_Mov_Rm_Imm32_Disp32(jit, AMX_REG_FRM, 0, val); } inline void WriteOp_Push_S(JitWriter *jit) { //push stack, FRM offset based //sub ebp, 4 //mov ecx, [ebx+] //mov [ebp], ecx cell_t val = jit->read_cell(); IA32_Sub_Rm_Imm8(jit, AMX_REG_STK, 4, MOD_REG); //optimize encoding a bit... if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_TMP, AMX_REG_FRM, (jit_int8_t)val); else IA32_Mov_Reg_Rm_Disp32(jit, AMX_REG_TMP, AMX_REG_FRM, val); IA32_Mov_Rm_Reg(jit, AMX_REG_STK, AMX_REG_TMP, MOD_MEM_REG); } inline void WriteOp_Push_Pri(JitWriter *jit) { //mov [ebp-4], eax //sub ebp, 4 IA32_Mov_Rm_Reg_Disp8(jit, AMX_REG_STK, AMX_REG_PRI, -4); IA32_Sub_Rm_Imm8(jit, AMX_REG_STK, 4, MOD_REG); } inline void WriteOp_Push_Alt(JitWriter *jit) { //mov [ebp-4], edx //sub ebp, 4 IA32_Mov_Rm_Reg_Disp8(jit, AMX_REG_STK, AMX_REG_ALT, -4); IA32_Sub_Rm_Imm8(jit, AMX_REG_STK, 4, MOD_REG); } inline void WriteOp_Push2_C(JitWriter *jit) { Macro_PushN_C(jit, 2); } inline void WriteOp_Push3_C(JitWriter *jit) { Macro_PushN_C(jit, 3); } inline void WriteOp_Push4_C(JitWriter *jit) { Macro_PushN_C(jit, 4); } inline void WriteOp_Push5_C(JitWriter *jit) { Macro_PushN_C(jit, 5); } inline void WriteOp_Push2_Adr(JitWriter *jit) { Macro_PushN_Addr(jit, 2); } inline void WriteOp_Push3_Adr(JitWriter *jit) { Macro_PushN_Addr(jit, 3); } inline void WriteOp_Push4_Adr(JitWriter *jit) { Macro_PushN_Addr(jit, 4); } inline void WriteOp_Push5_Adr(JitWriter *jit) { Macro_PushN_Addr(jit, 5); } inline void WriteOp_Push2_S(JitWriter *jit) { Macro_PushN_S(jit, 2); } inline void WriteOp_Push3_S(JitWriter *jit) { Macro_PushN_S(jit, 3); } inline void WriteOp_Push4_S(JitWriter *jit) { Macro_PushN_S(jit, 4); } inline void WriteOp_Push5_S(JitWriter *jit) { Macro_PushN_S(jit, 5); } inline void WriteOp_Push5(JitWriter *jit) { Macro_PushN(jit, 5); } inline void WriteOp_Push4(JitWriter *jit) { Macro_PushN(jit, 4); } inline void WriteOp_Push3(JitWriter *jit) { Macro_PushN(jit, 3); } inline void WriteOp_Push2(JitWriter *jit) { Macro_PushN(jit, 2); } inline void WriteOp_Zero_Pri(JitWriter *jit) { //xor eax, eax IA32_Xor_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_PRI, MOD_REG); } inline void WriteOp_Zero_Alt(JitWriter *jit) { //xor edx, edx IA32_Xor_Rm_Reg(jit, AMX_REG_ALT, AMX_REG_ALT, MOD_REG); } inline void WriteOp_Add(JitWriter *jit) { //add eax, edx IA32_Add_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); } inline void WriteOp_Sub(JitWriter *jit) { //sub eax, edx IA32_Sub_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); } inline void WriteOp_Sub_Alt(JitWriter *jit) { //neg eax //add eax, edx IA32_Neg_Rm(jit, AMX_REG_PRI, MOD_REG); IA32_Add_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); } inline void WriteOp_Proc(JitWriter *jit) { //push old frame on stack: //sub ebp, 4 //mov ecx, [frm] //mov [ebp], ecx IA32_Sub_Rm_Imm8(jit, AMX_REG_STK, 4, MOD_REG); IA32_Mov_Reg_Rm(jit, AMX_REG_TMP, AMX_INFO_FRM, MOD_MEM_REG); IA32_Mov_Rm_Reg(jit, AMX_REG_STK, AMX_REG_TMP, MOD_MEM_REG); //save frame: //mov [frm], ebp - get new frame //mov ebx, ebp - store frame back //sub [frm], edi - relocate local frame IA32_Mov_Rm_Reg(jit, AMX_INFO_FRM, AMX_REG_STK, MOD_MEM_REG); IA32_Mov_Rm_Reg(jit, AMX_REG_FRM, AMX_REG_STK, MOD_REG); IA32_Sub_Rm_Reg(jit, AMX_INFO_FRM, AMX_REG_DAT, MOD_MEM_REG); } inline void WriteOp_Shl(JitWriter *jit) { //mov ecx, edx //shl eax, cl IA32_Mov_Rm_Reg(jit, AMX_REG_TMP, AMX_REG_ALT, MOD_REG); IA32_Shl_Rm_CL(jit, AMX_REG_PRI, MOD_REG); } inline void WriteOp_Shr(JitWriter *jit) { //mov ecx, edx //shr eax, cl IA32_Mov_Rm_Reg(jit, AMX_REG_TMP, AMX_REG_ALT, MOD_REG); IA32_Shr_Rm_CL(jit, AMX_REG_PRI, MOD_REG); } inline void WriteOp_Sshr(JitWriter *jit) { //mov ecx, edx //sar eax, cl IA32_Mov_Rm_Reg(jit, AMX_REG_TMP, AMX_REG_ALT, MOD_REG); IA32_Sar_Rm_CL(jit, AMX_REG_PRI, MOD_REG); } inline void WriteOp_Shl_C_Pri(JitWriter *jit) { //shl eax, jit_uint8_t val = (jit_uint8_t)jit->read_cell(); IA32_Shl_Rm_Imm8(jit, AMX_REG_PRI, val, MOD_REG); } inline void WriteOp_Shl_C_Alt(JitWriter *jit) { //shl edx, jit_uint8_t val = (jit_uint8_t)jit->read_cell(); IA32_Shl_Rm_Imm8(jit, AMX_REG_ALT, val, MOD_REG); } inline void WriteOp_Shr_C_Pri(JitWriter *jit) { //shr eax, jit_uint8_t val = (jit_uint8_t)jit->read_cell(); IA32_Shr_Rm_Imm8(jit, AMX_REG_PRI, val, MOD_REG); } inline void WriteOp_Shr_C_Alt(JitWriter *jit) { //shr edx, jit_uint8_t val = (jit_uint8_t)jit->read_cell(); IA32_Shr_Rm_Imm8(jit, AMX_REG_ALT, val, MOD_REG); } inline void WriteOp_SMul(JitWriter *jit) { //mov ecx, edx //imul edx //mov edx, ecx IA32_Mov_Rm_Reg(jit, AMX_REG_TMP, AMX_REG_ALT, MOD_REG); IA32_IMul_Rm(jit, AMX_REG_ALT, MOD_REG); IA32_Mov_Rm_Reg(jit, AMX_REG_ALT, AMX_REG_TMP, MOD_REG); } inline void WriteOp_UMul(JitWriter *jit) { //mov ecx, edx //mul edx //mov edx, ecx IA32_Mov_Rm_Reg(jit, AMX_REG_TMP, AMX_REG_ALT, MOD_REG); IA32_Mul_Rm(jit, AMX_REG_ALT, MOD_REG); IA32_Mov_Rm_Reg(jit, AMX_REG_ALT, AMX_REG_TMP, MOD_REG); } inline void WriteOp_Not(JitWriter *jit) { //test eax, eax //mov eax, 0 //sete al IA32_Test_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_PRI, MOD_REG); IA32_Mov_Reg_Imm32(jit, AMX_REG_PRI, 0); IA32_SetCC_Rm8(jit, AMX_REG_PRI, CC_E); } inline void WriteOp_Neg(JitWriter *jit) { //neg eax IA32_Neg_Rm(jit, AMX_REG_PRI, MOD_REG); } inline void WriteOp_Xor(JitWriter *jit) { //xor eax, edx IA32_Xor_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); } inline void WriteOp_Or(JitWriter *jit) { //or eax, edx IA32_Or_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); } inline void WriteOp_And(JitWriter *jit) { //and eax, edx IA32_And_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); } inline void WriteOp_Invert(JitWriter *jit) { //not eax IA32_Not_Rm(jit, AMX_REG_PRI, MOD_REG); } inline void WriteOp_Add_C(JitWriter *jit) { //add eax, cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Add_Rm_Imm8(jit, AMX_REG_PRI, (jit_int8_t)val, MOD_REG); else IA32_Add_Eax_Imm32(jit, val); } inline void WriteOp_SMul_C(JitWriter *jit) { //imul eax, cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_IMul_Reg_Imm8(jit, AMX_REG_PRI, MOD_REG, (jit_int8_t)val); else IA32_IMul_Reg_Imm32(jit, AMX_REG_PRI, MOD_REG, val); } inline void WriteOp_Sign_Pri(JitWriter *jit) { //shl eax, 24 //sar eax, 24 IA32_Shl_Rm_Imm8(jit, AMX_REG_PRI, 24, MOD_REG); IA32_Sar_Rm_Imm8(jit, AMX_REG_PRI, 24, MOD_REG); } inline void WriteOp_Sign_Alt(JitWriter *jit) { //shl edx, 24 //sar edx, 24 IA32_Shl_Rm_Imm8(jit, AMX_REG_ALT, 24, MOD_REG); IA32_Sar_Rm_Imm8(jit, AMX_REG_ALT, 24, MOD_REG); } inline void WriteOp_Eq(JitWriter *jit) { //cmp eax, edx ; PRI == ALT ? //mov eax, 0 //sete al IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Mov_Reg_Imm32(jit, AMX_REG_PRI, 0); IA32_SetCC_Rm8(jit, AMX_REG_PRI, CC_E); } inline void WriteOp_Neq(JitWriter *jit) { //cmp eax, edx ; PRI != ALT ? //mov eax, 0 //setne al IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Mov_Reg_Imm32(jit, AMX_REG_PRI, 0); IA32_SetCC_Rm8(jit, AMX_REG_PRI, CC_NE); } inline void WriteOp_Less(JitWriter *jit) { //cmp eax, edx ; PRI < ALT ? (unsigned) //mov eax, 0 //setb al IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Mov_Reg_Imm32(jit, AMX_REG_PRI, 0); IA32_SetCC_Rm8(jit, AMX_REG_PRI, CC_B); } inline void WriteOp_Leq(JitWriter *jit) { //cmp eax, edx ; PRI <= ALT ? (unsigned) //mov eax, 0 //setbe al IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Mov_Reg_Imm32(jit, AMX_REG_PRI, 0); IA32_SetCC_Rm8(jit, AMX_REG_PRI, CC_BE); } inline void WriteOp_Grtr(JitWriter *jit) { //cmp eax, edx ; PRI > ALT ? (unsigned) //mov eax, 0 //seta al IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Mov_Reg_Imm32(jit, AMX_REG_PRI, 0); IA32_SetCC_Rm8(jit, AMX_REG_PRI, CC_A); } inline void WriteOp_Geq(JitWriter *jit) { //cmp eax, edx ; PRI >= ALT ? (unsigned) //mov eax, 0 //setae al IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Mov_Reg_Imm32(jit, AMX_REG_PRI, 0); IA32_SetCC_Rm8(jit, AMX_REG_PRI, CC_AE); } inline void WriteOp_Sless(JitWriter *jit) { //cmp eax, edx ; PRI < ALT ? (signed) //mov eax, 0 //setl al IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Mov_Reg_Imm32(jit, AMX_REG_PRI, 0); IA32_SetCC_Rm8(jit, AMX_REG_PRI, CC_L); } inline void WriteOp_Sleq(JitWriter *jit) { //cmp eax, edx ; PRI <= ALT ? (signed) //mov eax, 0 //setle al IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Mov_Reg_Imm32(jit, AMX_REG_PRI, 0); IA32_SetCC_Rm8(jit, AMX_REG_PRI, CC_LE); } inline void WriteOp_Sgrtr(JitWriter *jit) { //cmp eax, edx ; PRI > ALT ? (signed) //mov eax, 0 //setg al IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Mov_Reg_Imm32(jit, AMX_REG_PRI, 0); IA32_SetCC_Rm8(jit, AMX_REG_PRI, CC_G); } inline void WriteOp_Sgeq(JitWriter *jit) { //cmp eax, edx ; PRI >= ALT ? (signed) //mov eax, 0 //setge al IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Mov_Reg_Imm32(jit, AMX_REG_PRI, 0); IA32_SetCC_Rm8(jit, AMX_REG_PRI, CC_GE); } inline void WriteOp_Eq_C_Pri(JitWriter *jit) { //cmp eax, ; PRI == value ? //mov eax, 0 //sete al cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Cmp_Rm_Imm8(jit, MOD_REG, AMX_REG_PRI, (jit_int8_t)val); else IA32_Cmp_Eax_Imm32(jit, val); IA32_Mov_Reg_Imm32(jit, AMX_REG_PRI, 0); IA32_SetCC_Rm8(jit, AMX_REG_PRI, CC_E); } inline void WriteOp_Eq_C_Alt(JitWriter *jit) { //xor eax, eax //cmp edx, ; ALT == value ? //sete al cell_t val = jit->read_cell(); IA32_Xor_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_PRI, MOD_REG); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Cmp_Rm_Imm8(jit, MOD_REG, AMX_REG_ALT, (jit_int8_t)val); else IA32_Cmp_Rm_Imm32(jit, MOD_REG, AMX_REG_ALT, val); IA32_SetCC_Rm8(jit, AMX_REG_PRI, CC_E); } inline void WriteOp_Inc_Pri(JitWriter *jit) { //add eax, 1 IA32_Add_Rm_Imm8(jit, AMX_REG_PRI, 1, MOD_REG); } inline void WriteOp_Inc_Alt(JitWriter *jit) { //add edx, 1 IA32_Add_Rm_Imm8(jit, AMX_REG_ALT, 1, MOD_REG); } inline void WriteOp_Inc(JitWriter *jit) { //add [edi+], 1 cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Add_Rm_Imm8_Disp8(jit, AMX_REG_DAT, 1, (jit_int8_t)val); else IA32_Add_Rm_Imm8_Disp32(jit, AMX_REG_DAT, 1, val); } inline void WriteOp_Inc_S(JitWriter *jit) { //add [ebx+], 1 cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Add_Rm_Imm8_Disp8(jit, AMX_REG_FRM, 1, (jit_int8_t)val); else IA32_Add_Rm_Imm8_Disp32(jit, AMX_REG_FRM, 1, val); } inline void WriteOp_Inc_I(JitWriter *jit) { //add [edi+eax], 1 IA32_Add_Rm_Imm8_Disp_Reg(jit, AMX_REG_DAT, AMX_REG_PRI, NOSCALE, 1); } inline void WriteOp_Dec_Pri(JitWriter *jit) { //sub eax, 1 IA32_Sub_Rm_Imm8(jit, AMX_REG_PRI, 1, MOD_REG); } inline void WriteOp_Dec_Alt(JitWriter *jit) { //sub edx, 1 IA32_Sub_Rm_Imm8(jit, AMX_REG_ALT, 1, MOD_REG); } inline void WriteOp_Dec(JitWriter *jit) { //sub [edi+], 1 cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Sub_Rm_Imm8_Disp8(jit, AMX_REG_DAT, 1, (jit_int8_t)val); else IA32_Sub_Rm_Imm8_Disp32(jit, AMX_REG_DAT, 1, val); } inline void WriteOp_Dec_S(JitWriter *jit) { //sub [ebx+], 1 cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Sub_Rm_Imm8_Disp8(jit, AMX_REG_FRM, 1, (jit_int8_t)val); else IA32_Sub_Rm_Imm8_Disp32(jit, AMX_REG_FRM, 1, val); } inline void WriteOp_Dec_I(JitWriter *jit) { //sub [edi+eax], 1 IA32_Sub_Rm_Imm8_Disp_Reg(jit, AMX_REG_DAT, AMX_REG_PRI, NOSCALE, 1); } inline void WriteOp_Load_Pri(JitWriter *jit) { //mov eax, [edi+] cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_PRI, AMX_REG_DAT, (jit_int8_t)val); else IA32_Mov_Reg_Rm_Disp32(jit, AMX_REG_PRI, AMX_REG_DAT, val); } inline void WriteOp_Load_Alt(JitWriter *jit) { //mov edx, [edi+] cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_ALT, AMX_REG_DAT, (jit_int8_t)val); else IA32_Mov_Reg_Rm_Disp32(jit, AMX_REG_ALT, AMX_REG_DAT, val); } inline void WriteOp_Load_S_Pri(JitWriter *jit) { //mov eax, [ebx+] cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_PRI, AMX_REG_FRM, (jit_int8_t)val); else IA32_Mov_Reg_Rm_Disp32(jit, AMX_REG_PRI, AMX_REG_FRM, val); } inline void WriteOp_Load_S_Alt(JitWriter *jit) { //mov edx, [ebx+] cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_ALT, AMX_REG_FRM, (jit_int8_t)val); else IA32_Mov_Reg_Rm_Disp32(jit, AMX_REG_ALT, AMX_REG_FRM, val); } inline void WriteOp_Lref_Pri(JitWriter *jit) { //mov eax, [edi+] //mov eax, [edi+eax] cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_PRI, AMX_REG_DAT, (jit_int8_t)val); else IA32_Mov_Reg_Rm_Disp32(jit, AMX_REG_PRI, AMX_REG_DAT, val); IA32_Mov_Reg_Rm_Disp_Reg(jit, AMX_REG_PRI, AMX_REG_DAT, AMX_REG_PRI, NOSCALE); } inline void WriteOp_Lref_Alt(JitWriter *jit) { //mov edx, [edi+] //mov edx, [edi+edx] cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_ALT, AMX_REG_DAT, (jit_int8_t)val); else IA32_Mov_Reg_Rm_Disp32(jit, AMX_REG_ALT, AMX_REG_DAT, val); IA32_Mov_Reg_Rm_Disp_Reg(jit, AMX_REG_ALT, AMX_REG_DAT, AMX_REG_ALT, NOSCALE); } inline void WriteOp_Lref_S_Pri(JitWriter *jit) { //mov eax, [ebx+] //mov eax, [edi+eax] cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_PRI, AMX_REG_FRM, (jit_int8_t)val); else IA32_Mov_Reg_Rm_Disp32(jit, AMX_REG_PRI, AMX_REG_FRM, val); IA32_Mov_Reg_Rm_Disp_Reg(jit, AMX_REG_PRI, AMX_REG_DAT, AMX_REG_PRI, NOSCALE); } inline void WriteOp_Lref_S_Alt(JitWriter *jit) { //mov edx, [ebx+] //mov edx, [edi+edx] cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_ALT, AMX_REG_FRM, (jit_int8_t)val); else IA32_Mov_Reg_Rm_Disp32(jit, AMX_REG_ALT, AMX_REG_FRM, val); IA32_Mov_Reg_Rm_Disp_Reg(jit, AMX_REG_ALT, AMX_REG_DAT, AMX_REG_ALT, NOSCALE); } inline void WriteOp_Const_Pri(JitWriter *jit) { //mov eax, cell_t val = jit->read_cell(); IA32_Mov_Reg_Imm32(jit, AMX_REG_PRI, val); } inline void WriteOp_Const_Alt(JitWriter *jit) { //mov edx, cell_t val = jit->read_cell(); IA32_Mov_Reg_Imm32(jit, AMX_REG_ALT, val); } inline void WriteOp_Addr_Pri(JitWriter *jit) { //mov eax, frm //add eax, cell_t val = jit->read_cell(); IA32_Mov_Reg_Rm(jit, AMX_REG_PRI, AMX_INFO_FRM, MOD_MEM_REG); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Add_Rm_Imm8(jit, AMX_REG_PRI, (jit_int8_t)val, MOD_REG); else IA32_Add_Eax_Imm32(jit, val); } inline void WriteOp_Addr_Alt(JitWriter *jit) { //mov edx, frm //add edx, cell_t val = jit->read_cell(); IA32_Mov_Reg_Rm(jit, AMX_REG_ALT, AMX_INFO_FRM, MOD_MEM_REG); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Add_Rm_Imm8(jit, AMX_REG_ALT, (jit_int8_t)val, MOD_REG); else IA32_Add_Rm_Imm32(jit, AMX_REG_ALT, val, MOD_REG); } inline void WriteOp_Stor_Pri(JitWriter *jit) { //mov [edi+], eax cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Rm_Reg_Disp8(jit, AMX_REG_DAT, AMX_REG_PRI, (jit_int8_t)val); else IA32_Mov_Rm_Reg_Disp32(jit, AMX_REG_DAT, AMX_REG_PRI, val); } inline void WriteOp_Stor_Alt(JitWriter *jit) { //mov [edi+], edx cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Rm_Reg_Disp8(jit, AMX_REG_DAT, AMX_REG_ALT, (jit_int8_t)val); else IA32_Mov_Rm_Reg_Disp32(jit, AMX_REG_DAT, AMX_REG_ALT, val); } inline void WriteOp_Stor_S_Pri(JitWriter *jit) { //mov [ebx+], eax cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Rm_Reg_Disp8(jit, AMX_REG_FRM, AMX_REG_PRI, (jit_int8_t)val); else IA32_Mov_Rm_Reg_Disp32(jit, AMX_REG_FRM, AMX_REG_PRI, val); } inline void WriteOp_Stor_S_Alt(JitWriter *jit) { //mov [ebx+], edx cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Rm_Reg_Disp8(jit, AMX_REG_FRM, AMX_REG_ALT, (jit_int8_t)val); else IA32_Mov_Rm_Reg_Disp32(jit, AMX_REG_FRM, AMX_REG_ALT, val); } inline void WriteOp_Idxaddr(JitWriter *jit) { //lea eax, [edx+4*eax] IA32_Lea_Reg_DispRegMult(jit, AMX_REG_PRI, AMX_REG_ALT, AMX_REG_PRI, SCALE4); } inline void WriteOp_Idxaddr_B(JitWriter *jit) { //shl eax, //add eax, edx cell_t val = jit->read_cell(); IA32_Shl_Rm_Imm8(jit, AMX_REG_PRI, (jit_uint8_t)val, MOD_REG); IA32_Add_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); } inline void WriteOp_Sref_Pri(JitWriter *jit) { //mov ecx, [edi+] //mov [edi+ecx], eax cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_TMP, AMX_REG_DAT, (jit_int8_t)val); else IA32_Mov_Reg_Rm_Disp32(jit, AMX_REG_TMP, AMX_REG_DAT, val); IA32_Mov_Rm_Reg_Disp_Reg(jit, AMX_REG_DAT, AMX_REG_TMP, NOSCALE, AMX_REG_PRI); } inline void WriteOp_Sref_Alt(JitWriter *jit) { //mov ecx, [edi+] //mov [edi+ecx], edx cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_TMP, AMX_REG_DAT, (jit_int8_t)val); else IA32_Mov_Reg_Rm_Disp32(jit, AMX_REG_TMP, AMX_REG_DAT, val); IA32_Mov_Rm_Reg_Disp_Reg(jit, AMX_REG_DAT, AMX_REG_TMP, NOSCALE, AMX_REG_ALT); } inline void WriteOp_Sref_S_Pri(JitWriter *jit) { //mov ecx, [ebx+] //mov [edi+ecx], eax cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_TMP, AMX_REG_FRM, (jit_int8_t)val); else IA32_Mov_Reg_Rm_Disp32(jit, AMX_REG_TMP, AMX_REG_FRM, val); IA32_Mov_Rm_Reg_Disp_Reg(jit, AMX_REG_DAT, AMX_REG_TMP, NOSCALE, AMX_REG_PRI); } inline void WriteOp_Sref_S_Alt(JitWriter *jit) { //mov ecx, [ebx+] //mov [edi+ecx], edx cell_t val = jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_TMP, AMX_REG_FRM, (jit_int8_t)val); else IA32_Mov_Reg_Rm_Disp32(jit, AMX_REG_TMP, AMX_REG_FRM, val); IA32_Mov_Rm_Reg_Disp_Reg(jit, AMX_REG_DAT, AMX_REG_TMP, NOSCALE, AMX_REG_ALT); } inline void WriteOp_Align_Pri(JitWriter *jit) { //xor eax, cell_t val = sizeof(cell_t) - jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Xor_Rm_Imm8(jit, AMX_REG_PRI, MOD_REG, (jit_int8_t)val); else IA32_Xor_Eax_Imm32(jit, val); } inline void WriteOp_Align_Alt(JitWriter *jit) { //xor edx, cell_t val = sizeof(cell_t) - jit->read_cell(); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Xor_Rm_Imm8(jit, AMX_REG_ALT, MOD_REG, (jit_int8_t)val); else IA32_Xor_Rm_Imm32(jit, AMX_REG_ALT, MOD_REG, val); } inline void WriteOp_Pop_Pri(JitWriter *jit) { //mov eax, [ebp] //add ebp, 4 IA32_Mov_Reg_Rm(jit, AMX_REG_PRI, AMX_REG_STK, MOD_MEM_REG); IA32_Add_Rm_Imm8(jit, AMX_REG_STK, 4, MOD_REG); } inline void WriteOp_Pop_Alt(JitWriter *jit) { //mov edx, [ebp] //add ebp, 4 IA32_Mov_Reg_Rm(jit, AMX_REG_ALT, AMX_REG_STK, MOD_MEM_REG); IA32_Add_Rm_Imm8(jit, AMX_REG_STK, 4, MOD_REG); } inline void WriteOp_Swap_Pri(JitWriter *jit) { //add [ebp], eax //sub eax, [ebp] //add [ebp], eax //neg eax IA32_Add_Rm_Reg(jit, AMX_REG_STK, AMX_REG_PRI, MOD_MEM_REG); IA32_Sub_Reg_Rm(jit, AMX_REG_PRI, AMX_REG_STK, MOD_MEM_REG); IA32_Add_Rm_Reg(jit, AMX_REG_STK, AMX_REG_PRI, MOD_MEM_REG); IA32_Neg_Rm(jit, AMX_REG_PRI, MOD_REG); } inline void WriteOp_Swap_Alt(JitWriter *jit) { //add [ebp], edx //sub edx, [ebp] //add [ebp], edx //neg edx IA32_Add_Rm_Reg(jit, AMX_REG_STK, AMX_REG_ALT, MOD_MEM_REG); IA32_Sub_Reg_Rm(jit, AMX_REG_ALT, AMX_REG_STK, MOD_MEM_REG); IA32_Add_Rm_Reg(jit, AMX_REG_STK, AMX_REG_ALT, MOD_MEM_REG); IA32_Neg_Rm(jit, AMX_REG_ALT, MOD_REG); } inline void WriteOp_PushAddr(JitWriter *jit) { //mov ecx, frm ;get address (offset from frame) //add ecx, //mov [ebp-4], ecx //sub ebp, 4 cell_t val = jit->read_cell(); IA32_Mov_Reg_Rm(jit, AMX_REG_TMP, AMX_INFO_FRM, MOD_MEM_REG); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Add_Rm_Imm8(jit, AMX_REG_TMP, (jit_int8_t)val, MOD_REG); else IA32_Add_Rm_Imm32(jit, AMX_REG_TMP, val, MOD_REG); IA32_Mov_Rm_Reg_Disp8(jit, AMX_REG_STK, AMX_REG_TMP, -4); IA32_Sub_Rm_Imm8(jit, AMX_REG_STK, 4, MOD_REG); } inline void WriteOp_Movs(JitWriter *jit) { //cld //push esi //lea esi, [edi+eax] //add edi, edx //if dword: // mov ecx, dword // rep movsd //if byte: // mov ecx, byte // rep movsb //sub edi, edx //sub edi, //pop esi cell_t val = jit->read_cell(); unsigned int dwords = val >> 2; unsigned int bytes = val & 0x3; IA32_Cld(jit); IA32_Push_Reg(jit, REG_ESI); IA32_Lea_Reg_DispRegMult(jit, REG_ESI, REG_EDI, AMX_REG_PRI, NOSCALE); IA32_Add_Rm_Reg(jit, REG_EDI, AMX_REG_ALT, MOD_REG); if (dwords) { IA32_Mov_Reg_Imm32(jit, AMX_REG_TMP, dwords); IA32_Rep(jit); IA32_Movsd(jit); } if (bytes) { IA32_Mov_Reg_Imm32(jit, AMX_REG_TMP, bytes); IA32_Rep(jit); IA32_Movsb(jit); } IA32_Sub_Rm_Reg(jit, REG_EDI, AMX_REG_ALT, MOD_REG); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Sub_Rm_Imm8(jit, REG_EDI, (jit_uint8_t)val, MOD_REG); else IA32_Sub_Rm_Imm32(jit, REG_EDI, val, MOD_REG); IA32_Pop_Reg(jit, REG_ESI); } inline void WriteOp_Cmps(JitWriter *jit) { //push edi //push esi //lea esi, [edi+edx] //lea edi, [edi+eax] IA32_Push_Reg(jit, REG_EDI); IA32_Push_Reg(jit, REG_ESI); IA32_Lea_Reg_DispRegMult(jit, REG_ESI, AMX_REG_DAT, AMX_REG_ALT, NOSCALE); IA32_Lea_Reg_DispRegMult(jit, REG_EDI, AMX_REG_DAT, AMX_REG_PRI, NOSCALE); //xor eax, eax //repe cmpsb //je :cmps1 IA32_Xor_Rm_Reg(jit, REG_EAX, REG_EAX, MOD_REG); IA32_Cmpsb(jit); jitoffs_t jmp = IA32_Jump_Cond_Imm8(jit, CC_E, 0); //sbb eax, eax //sbb eax, -1 IA32_Sbb_Rm_Reg(jit, REG_EAX, REG_EAX, MOD_REG); IA32_Sbb_Eax_Imm32(jit, -1);//:TODO: use imm8 here //:cmps1 //pop esi //pop edi IA32_Send_Jump8_Here(jit, jmp); IA32_Pop_Reg(jit, REG_ESI); IA32_Pop_Reg(jit, REG_EDI); } inline void WriteOp_Fill(JitWriter *jit) { //add edi, edx //mov ecx, >> 2 //cld //rep stosd //sub edi, edx //sub edi, >> 2 unsigned int val = jit->read_cell() >> 2; IA32_Add_Rm_Reg(jit, REG_EDI, AMX_REG_ALT, MOD_REG); IA32_Mov_Reg_Imm32(jit, AMX_REG_TMP, val); IA32_Cld(jit); IA32_Rep(jit); IA32_Stosd(jit); IA32_Sub_Rm_Reg(jit, REG_EDI, AMX_REG_ALT, MOD_REG); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Sub_Rm_Imm8(jit, REG_EDI, (jit_uint8_t)val, MOD_REG); else IA32_Sub_Rm_Imm32(jit, REG_EDI, val, MOD_REG); } inline void WriteOp_Heap_Pri(JitWriter *jit) { //mov edx, [hea] //add [hea], eax IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_ALT, AMX_REG_INFO, AMX_INFO_HEAP); IA32_Add_Rm_Reg_Disp8(jit, AMX_REG_INFO, AMX_REG_PRI, AMX_INFO_HEAP); Write_CheckMargin_Heap(jit); } inline void WriteOp_Push_Heap_C(JitWriter *jit) { //mov ecx, [hea] //mov [edi+ecx], //add [hea], 4 cell_t val = jit->read_cell(); IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_TMP, AMX_REG_INFO, AMX_INFO_HEAP); IA32_Mov_Rm_Imm32_Disp_Reg(jit, AMX_REG_DAT, AMX_REG_TMP, NOSCALE, val); IA32_Add_Rm_Imm8_Disp8(jit, AMX_REG_INFO, 4, AMX_INFO_HEAP); Write_CheckMargin_Heap(jit); } inline void WriteOp_Pop_Heap_Pri(JitWriter *jit) { //sub [hea], 4 //mov ecx, [hea] //mov eax, [edi+ecx] IA32_Sub_Rm_Imm8_Disp8(jit, AMX_REG_INFO, 4, AMX_INFO_HEAP); IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_TMP, AMX_REG_INFO, AMX_INFO_HEAP); IA32_Mov_Reg_Rm_Disp_Reg(jit, AMX_REG_PRI, AMX_REG_DAT, AMX_REG_TMP, NOSCALE); Write_CheckMargin_Heap(jit); } inline void WriteOp_Load_Both(JitWriter *jit) { WriteOp_Const_Pri(jit); WriteOp_Const_Alt(jit); } inline void WriteOp_Load_S_Both(JitWriter *jit) { WriteOp_Load_S_Pri(jit); WriteOp_Load_S_Alt(jit); } inline void WriteOp_Const(JitWriter *jit) { //mov [edi+], cell_t addr = jit->read_cell(); cell_t val = jit->read_cell(); if (addr < SCHAR_MAX && addr > SCHAR_MIN) { IA32_Mov_Rm_Imm32_Disp8(jit, AMX_REG_DAT, val, (jit_int8_t)addr); } else { IA32_Mov_Rm_Imm32_Disp32(jit, AMX_REG_DAT, val, addr); } } inline void WriteOp_Const_S(JitWriter *jit) { //mov [ebx+], cell_t offs = jit->read_cell(); cell_t val = jit->read_cell(); if (offs < SCHAR_MAX && offs > SCHAR_MIN) { IA32_Mov_Rm_Imm32_Disp8(jit, AMX_REG_FRM, val, (jit_int8_t)offs); } else { IA32_Mov_Rm_Imm32_Disp32(jit, AMX_REG_FRM, val, offs); } } inline void WriteOp_Load_I(JitWriter *jit) { //mov eax, [edi+eax] Write_Check_VerifyAddr(jit, AMX_REG_PRI, false); IA32_Mov_Reg_Rm_Disp_Reg(jit, AMX_REG_PRI, AMX_REG_DAT, AMX_REG_PRI, NOSCALE); } inline void WriteOp_Lodb_I(JitWriter *jit) { Write_Check_VerifyAddr(jit, AMX_REG_PRI, false); //mov eax, [edi+eax] IA32_Mov_Reg_Rm_Disp_Reg(jit, AMX_REG_PRI, AMX_REG_DAT, AMX_REG_PRI, NOSCALE); //and eax, cell_t val = jit->read_cell(); switch(val) { case 1: { IA32_And_Rm_Imm32(jit, AMX_REG_PRI, 0x000000FF);//:TODO: replace with AND EAX, imm32 break; } case 2: { IA32_And_Rm_Imm32(jit, AMX_REG_PRI, 0x0000FFFF);//:TODO: replace with AND EAX, imm32 break; } } } inline void WriteOp_Stor_I(JitWriter *jit) { //mov [edi+edx], eax Write_Check_VerifyAddr(jit, AMX_REG_ALT, false); IA32_Mov_Rm_Reg_Disp_Reg(jit, AMX_REG_DAT, AMX_REG_ALT, NOSCALE, AMX_REG_PRI); } inline void WriteOp_Strb_I(JitWriter *jit) { Write_Check_VerifyAddr(jit, AMX_REG_ALT, false); //mov [edi+edx], eax cell_t val = jit->read_cell(); switch (val) { case 1: { IA32_Mov_Rm8_Reg_Disp_Reg(jit, AMX_REG_DAT, AMX_REG_ALT, NOSCALE, AMX_REG_PRI); break; } case 2: { IA32_Mov_Rm16_Reg_Disp_Reg(jit, AMX_REG_DAT, AMX_REG_ALT, NOSCALE, AMX_REG_PRI); break; } case 4: { IA32_Mov_Rm_Reg_Disp_Reg(jit, AMX_REG_DAT, AMX_REG_ALT, NOSCALE, AMX_REG_PRI); break; } } } inline void WriteOp_Lidx(JitWriter *jit) { //lea eax, [edx+4*eax] //mov eax, [edi+eax] IA32_Lea_Reg_DispRegMult(jit, AMX_REG_PRI, AMX_REG_ALT, AMX_REG_PRI, SCALE4); Write_Check_VerifyAddr(jit, AMX_REG_PRI, false); IA32_Mov_Reg_Rm_Disp_Reg(jit, AMX_REG_PRI, AMX_REG_DAT, AMX_REG_PRI, NOSCALE); } inline void WriteOp_Lidx_B(JitWriter *jit) { cell_t val = jit->read_cell(); //shl eax, //add eax, edx //mov eax, [edi+eax] IA32_Shl_Rm_Imm8(jit, AMX_REG_PRI, (jit_uint8_t)val, MOD_REG); IA32_Add_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); Write_Check_VerifyAddr(jit, AMX_REG_PRI, false); IA32_Mov_Reg_Rm_Disp_Reg(jit, AMX_REG_PRI, AMX_REG_DAT, AMX_REG_PRI, NOSCALE); } inline void WriteOp_Lctrl(JitWriter *jit) { cell_t val = jit->read_cell(); switch (val) { case 0: { //mov ecx, [esi+ctx] //mov eax, [ecx+] IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_TMP, AMX_REG_INFO, AMX_INFO_CONTEXT); IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_PRI, AMX_REG_TMP, offsetof(sp_context_t, base)); break; } case 1: { //mov eax, edi IA32_Mov_Reg_Rm(jit, AMX_REG_PRI, AMX_REG_DAT, MOD_REG); break; } case 2: { //mov eax, [esi+hea] IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_PRI, AMX_REG_INFO, AMX_INFO_HEAP); break; } case 3: { //mov ecx, [esi+ctx] //mov eax, [ecx+ctx.memory] IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_TMP, AMX_REG_INFO, AMX_INFO_CONTEXT); IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_PRI, AMX_REG_TMP, offsetof(sp_context_t, memory)); break; } case 4: { //mov eax, ebp //sub eax, edi - unrelocate IA32_Mov_Reg_Rm(jit, AMX_REG_PRI, AMX_REG_STK, MOD_REG); IA32_Sub_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_DAT, MOD_REG); break; } case 5: { //mov eax, [esi+frm] IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_PRI, AMX_REG_INFO, AMX_INFO_FRM); break; } case 6: { //mov eax, [cip] jitoffs_t imm32 = IA32_Mov_Reg_Imm32(jit, AMX_REG_PRI, 0); jitoffs_t save = jit->jit_curpos(); jit->setpos(imm32); jit->write_int32((uint32_t)(jit->outbase + save)); jit->setpos(save); break; } } } inline void WriteOp_Sctrl(JitWriter *jit) { cell_t val = jit->read_cell(); switch (val) { case 2: { //mov [esi+hea], eax IA32_Mov_Rm_Reg_Disp8(jit, AMX_REG_INFO, AMX_INFO_HEAP, AMX_REG_PRI); break; } case 4: { //lea ebp, [edi+eax] IA32_Lea_Reg_DispRegMult(jit, AMX_REG_STK, AMX_REG_DAT, AMX_REG_PRI, NOSCALE); break; } case 5: { //mov ebx, eax - overwrite frm //mov frm, eax - overwrite stacked frame //add ebx, edi - relocate local frm //:TODO: use LEA here!!! IA32_Mov_Reg_Rm(jit, AMX_REG_FRM, AMX_REG_PRI, MOD_REG); IA32_Mov_Rm_Reg(jit, AMX_INFO_FRM, AMX_REG_PRI, MOD_MEM_REG); IA32_Add_Rm_Reg(jit, AMX_REG_FRM, AMX_REG_DAT, MOD_REG); break; } case 6: { IA32_Jump_Reg(jit, AMX_REG_PRI); break; } } } inline void WriteOp_Stack(JitWriter *jit) { //mov edx, ebp //add ebp, //sub edx, edi cell_t val = jit->read_cell(); IA32_Mov_Rm_Reg(jit, AMX_REG_ALT, AMX_REG_STK, MOD_REG); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Add_Rm_Imm8(jit, AMX_REG_STK, (jit_int8_t)val, MOD_REG); else IA32_Add_Rm_Imm32(jit, AMX_REG_STK, val, MOD_REG); IA32_Sub_Rm_Reg(jit, AMX_REG_ALT, AMX_REG_DAT, MOD_REG); Write_CheckMargin_Stack(jit); } inline void WriteOp_Heap(JitWriter *jit) { //mov edx, hea //add hea, cell_t val = jit->read_cell(); IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_ALT, AMX_INFO_FRM, AMX_INFO_HEAP); if (val < SCHAR_MAX && val > SCHAR_MIN) IA32_Add_Rm_Imm8_Disp8(jit, AMX_INFO_FRM, (jit_int8_t)val, AMX_INFO_HEAP); else IA32_Add_Rm_Imm32_Disp8(jit, AMX_INFO_FRM, val, AMX_INFO_HEAP); Write_CheckMargin_Heap(jit); } inline void WriteOp_SDiv(JitWriter *jit) { //mov ecx, edx //mov edx, eax //sar edx, 31 //idiv ecx IA32_Mov_Rm_Reg(jit, AMX_REG_TMP, AMX_REG_ALT, MOD_REG); IA32_Mov_Rm_Reg(jit, AMX_REG_ALT, AMX_REG_PRI, MOD_REG); IA32_Sar_Rm_Imm8(jit, AMX_REG_ALT, 31, MOD_REG); Write_Check_DivZero(jit, AMX_REG_TMP); IA32_IDiv_Rm(jit, AMX_REG_TMP, MOD_REG); } inline void WriteOp_SDiv_Alt(JitWriter *jit) { //mov ecx, eax //mov eax, edx //sar edx, 31 //idiv ecx IA32_Mov_Rm_Reg(jit, AMX_REG_TMP, AMX_REG_PRI, MOD_REG); IA32_Mov_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Sar_Rm_Imm8(jit, AMX_REG_ALT, 31, MOD_REG); Write_Check_DivZero(jit, AMX_REG_TMP); IA32_IDiv_Rm(jit, AMX_REG_TMP, MOD_REG); } inline void WriteOp_UDiv(JitWriter *jit) { //mov ecx, edx //xor edx, edx //div ecx IA32_Mov_Rm_Reg(jit, AMX_REG_TMP, AMX_REG_ALT, MOD_REG); IA32_Xor_Rm_Reg(jit, AMX_REG_ALT, AMX_REG_ALT, MOD_REG); Write_Check_DivZero(jit, AMX_REG_TMP); IA32_Div_Rm(jit, AMX_REG_TMP, MOD_REG); } inline void WriteOp_UDiv_Alt(JitWriter *jit) { //mov ecx, eax //mov eax, edx //xor edx, edx //div ecx IA32_Mov_Rm_Reg(jit, AMX_REG_TMP, AMX_REG_PRI, MOD_REG); IA32_Mov_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Xor_Rm_Reg(jit, AMX_REG_ALT, AMX_REG_ALT, MOD_REG); Write_Check_DivZero(jit, AMX_REG_TMP); IA32_Div_Rm(jit, AMX_REG_TMP, MOD_REG); } inline void WriteOp_Ret(JitWriter *jit) { //mov ebx, [ebp] - get old FRM //add ebp, 4 - pop stack //mov [esi+frm], ebx - restore //add ebx, edi - relocate //ret IA32_Mov_Reg_Rm(jit, AMX_REG_FRM, AMX_REG_STK, MOD_MEM_REG); IA32_Add_Rm_Imm8(jit, AMX_REG_STK, 4, MOD_REG); IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_INFO, AMX_REG_FRM, AMX_INFO_FRM);//:TODO: this is wrong! IA32_Add_Rm_Reg(jit, AMX_REG_FRM, AMX_REG_DAT, MOD_REG); IA32_Return(jit); } inline void WriteOp_Retn(JitWriter *jit) { //mov ebx, [ebp] - get old frm //mov ecx, [ebp+4] - get return eip //add ebp, 8 - pop stack //mov [esi+frm], ebx - restore frame pointer //add ebx, edi - relocate IA32_Mov_Reg_Rm(jit, AMX_REG_FRM, AMX_REG_STK, MOD_MEM_REG); IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_TMP, AMX_REG_STK, 4); IA32_Add_Rm_Imm8(jit, AMX_REG_STK, 8, MOD_REG); IA32_Mov_Rm_Reg_Disp8(jit, AMX_REG_INFO, AMX_REG_FRM, AMX_INFO_FRM);//:TODO: this is wrong! IA32_Add_Rm_Reg(jit, AMX_REG_FRM, AMX_REG_DAT, MOD_REG); //add ebp, [ebp] - reduce by this # of params //add ebp, 4 - pop one extra for the # itself IA32_Add_Reg_Rm(jit, AMX_REG_STK, AMX_REG_STK, MOD_MEM_REG); IA32_Add_Rm_Imm8(jit, AMX_REG_STK, 4, MOD_REG); //jmp ecx - jump to return eip IA32_Jump_Reg(jit, AMX_REG_TMP); } inline void WriteOp_Bounds(JitWriter *jit) { Write_BoundsCheck(jit); } inline void WriteOp_Halt(JitWriter *jit) { //mov ecx, [esi+ret] //mov [ecx], eax IA32_Mov_Reg_Rm_Disp8(jit, AMX_REG_TMP, AMX_REG_INFO, AMX_INFO_RETVAL); IA32_Mov_Rm_Reg(jit, AMX_REG_TMP, AMX_REG_PRI, MOD_MEM_REG); /* :TODO: * We don't support sleeping or halting with weird values. * So we're omitting the mov eax that was here. */ jit->read_cell(); CompData *data = (CompData *)jit->data; jitoffs_t reloc; if (data->inline_level & JIT_INLINE_ERRORCHECKS) { reloc = IA32_Jump_Imm32(jit, 0); } else { reloc = IA32_Call_Imm32(jit, 0); } IA32_Write_Jump32(jit, reloc, data->jit_return); } inline void WriteOp_Break(JitWriter *jit) { CompData *data = (CompData *)jit->data; if (data->debug) { //mov ecx, jitoffs_t wr = IA32_Mov_Reg_Imm32(jit, AMX_REG_TMP, 0); jitoffs_t save = jit->jit_curpos(); jit->setpos(wr); jit->write_uint32((uint32_t)(jit->outbase + wr)); jit->setpos(save); wr = IA32_Call_Imm32(jit, 0); IA32_Write_Jump32(jit, wr, data->jit_break); } } inline void WriteOp_JRel(JitWriter *jit) { //jmp ;relative jump cell_t cip_offs = jit->read_cell(); /* Note that since code size calculation has to be done in the same * phase as building relocation information, we cannot know the jump size * beforehand. Thus, we always write full 32bit jumps for safety. */ jitoffs_t jmp = IA32_Jump_Imm32(jit, 0); IA32_Write_Jump32(jit, jmp, RelocLookup(jit, cip_offs)); } inline void WriteOp_Jump(JitWriter *jit) { //jmp cell_t amx_offs = jit->read_cell(); IA32_Jump_Imm32_Abs(jit, RelocLookup(jit, amx_offs, false)); } inline void WriteOp_Jzer(JitWriter *jit) { //test eax, eax //jz cell_t target = jit->read_cell(); IA32_Test_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_PRI, MOD_REG); IA32_Jump_Imm32_Abs(jit, RelocLookup(jit, target, false)); IA32_Jump_Cond_Imm32_Abs(jit, CC_Z, RelocLookup(jit, target, false)); } inline void WriteOp_Jnz(JitWriter *jit) { //test eax, eax //jnz cell_t target = jit->read_cell(); IA32_Test_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_PRI, MOD_REG); IA32_Jump_Cond_Imm32_Abs(jit, CC_NZ, RelocLookup(jit, target, false)); } inline void WriteOp_Jeq(JitWriter *jit) { //cmp eax, edx //je cell_t target = jit->read_cell(); IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Jump_Cond_Imm32_Abs(jit, CC_E, RelocLookup(jit, target, false)); } inline void WriteOp_Jneq(JitWriter *jit) { //cmp eax, edx //jne cell_t target = jit->read_cell(); IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Jump_Cond_Imm32(jit, CC_NE, RelocLookup(jit, target, false)); } inline void WriteOp_Jless(JitWriter *jit) { //cmp eax, edx //jb cell_t target = jit->read_cell(); IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Jump_Cond_Imm32(jit, CC_B, RelocLookup(jit, target, false)); } inline void WriteOp_Jleq(JitWriter *jit) { //cmp eax, edx //jbe cell_t target = jit->read_cell(); IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Jump_Cond_Imm32(jit, CC_BE, RelocLookup(jit, target, false)); } inline void WriteOp_Jgrtr(JitWriter *jit) { //cmp eax, edx //ja cell_t target = jit->read_cell(); IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Jump_Cond_Imm32(jit, CC_A, RelocLookup(jit, target, false)); } inline void WriteOp_Jgeq(JitWriter *jit) { //cmp eax, edx //jae cell_t target = jit->read_cell(); IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Jump_Cond_Imm32(jit, CC_AE, RelocLookup(jit, target, false)); } inline void WriteOp_Jsless(JitWriter *jit) { //cmp eax, edx //jl cell_t target = jit->read_cell(); IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Jump_Cond_Imm32(jit, CC_L, RelocLookup(jit, target, false)); } inline void WriteOp_Jsleq(JitWriter *jit) { //cmp eax, edx //jle cell_t target = jit->read_cell(); IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Jump_Cond_Imm32(jit, CC_LE, RelocLookup(jit, target, false)); } inline void WriteOp_JsGrtr(JitWriter *jit) { //cmp eax, edx //jg cell_t target = jit->read_cell(); IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Jump_Cond_Imm32(jit, CC_G, RelocLookup(jit, target, false)); } inline void WriteOp_JsGeq(JitWriter *jit) { //cmp eax, edx //jge cell_t target = jit->read_cell(); IA32_Cmp_Rm_Reg(jit, AMX_REG_PRI, AMX_REG_ALT, MOD_REG); IA32_Jump_Cond_Imm32(jit, CC_GE, RelocLookup(jit, target, false)); } /************************************************* ************************************************* * JIT PROPER ************************************ * The rest from now on is the JIT engine * ************************************************* *************************************************/ jitoffs_t RelocLookup(JitWriter *jit, cell_t pcode_offs, bool relative) { if (jit->outptr) { CompData *data = (CompData *)jit->data; if (relative) { /* The actual offset is EIP relative. We need to relocate it. * Note that this assumes that we're pointing to the next op. */ pcode_offs += jit->inputrel(); } /* Offset must always be 1)positive and 2)less than the codesize */ assert(pcode_offs >= 0 && (uint32_t)pcode_offs < data->codesize); /* Do the lookup in the native dictionary. */ return *(jitoffs_t *)(data->rebase + pcode_offs); } else { return 0; } } IPluginContext *JITX86::CompileToContext(ICompilation *co, int *err) { CompData *data = (CompData *)co; sp_plugin_t *plugin = data->plugin; /* The first phase is to browse */ uint8_t *code = plugin->pcode; uint8_t *cip; uint8_t *end_cip = plugin->pcode + plugin->pcode_size; OPCODE op; int op_c; /* FIRST PASS (light load) - Get initial opcode information */ for (cip = code; cip < end_cip;) { op = (OPCODE)*(ucell_t *)cip; if ((unsigned)op >= OP_NUM_OPCODES) { AbortCompilation(co); *err = SP_ERR_INVALID_INSTRUCTION; return NULL; } cip += sizeof(cell_t); op_c = OpAdvTable[op]; if (op_c >= 0) { cip += op_c; } else if (op_c == -3) { AbortCompilation(co); *err = SP_ERR_INVALID_INSTRUCTION; return NULL; } else if (op_c == -2) { /* :TODO: get rid of this block */ cip += sizeof(cell_t); } else if (op_c == -1) { switch (op) { case OP_CASETBL: { ucell_t num = *(ucell_t *)cip; cip += sizeof(cell_t); cip += ((2*num) + 1) * sizeof(cell_t); break; } default: { AbortCompilation(co); *err = SP_ERR_INVALID_INSTRUCTION; return NULL; } } } } /********************************************* * SECOND PASS (medium load): writer.outbase is NULL, getting size only * THIRD PASS (heavy load!!): writer.outbase is valid and output is written *********************************************/ JitWriter writer; JitWriter *jit = &writer; cell_t *endptr = (cell_t *)(end_cip); cell_t jitpos; /* Initial code is written "blank," * so we can check the exact memory usage. */ data->codesize = plugin->pcode_size; writer.inbase = (cell_t *)code; writer.outptr = NULL; writer.outbase = NULL; data->rebase = (jitcode_t *)engine->BaseAlloc(plugin->pcode_size); /* Jump back here for second pass */ jit_rewind: /* Initialize pass vars */ writer.inptr = writer.inbase; data->jit_chkmargin_heap = 0; data->jit_verify_addr_eax = 0; data->jit_verify_addr_edx = 0; data->jit_bounds = 0; /* Start writing the actual code */ data->jit_return = Write_Execute_Function(jit); /* Write error checking routines in case they are needed */ if (!(data->inline_level & JIT_INLINE_ERRORCHECKS)) { jitpos = jit->jit_curpos(); Write_Check_VerifyAddr(jit, REG_EAX, true); data->jit_verify_addr_eax = jitpos; jitpos = jit->jit_curpos(); Write_Check_VerifyAddr(jit, REG_EDX, true); data->jit_verify_addr_edx = jitpos; jitpos = jit->jit_curpos(); Write_CheckMargin_Heap(jit); data->jit_chkmargin_heap = jitpos; jitpos = jit->jit_curpos(); Write_BoundsCheck(jit); data->jit_bounds = jitpos; } if (writer.outbase == NULL) { /******* * SECOND PASS - get opcode sizes+info *******/ jitoffs_t pcode_offs; jitoffs_t native_offs; for (; writer.inptr <= endptr;) { /* Store the native offset into the rebase memory. * This large chunk of memory lets us do an instant lookup * based on an original pcode offset. */ pcode_offs = (jitoffs_t)((uint8_t *)writer.inptr - code); native_offs = jit->jit_curpos(); *((jitoffs_t *)(data->rebase + pcode_offs)) = native_offs; /* Now read the opcode and continue. */ op = (OPCODE)writer.read_cell(); switch (op) { #include "opcode_switch.inc" } } /* the total codesize is now known! */ uint32_t mem = writer.jit_curpos(); writer.outbase = new char[mem]; writer.outptr = writer.outbase; /* go back for third pass */ goto jit_rewind; } else { /******* * THIRD PASS - write opcode info *******/ for (; writer.inptr <= endptr;) { op = (OPCODE)writer.read_cell(); switch (op) { #include "opcode_switch.inc" } } } sp_context_t *ctx = new sp_context_t; memset(ctx, 0, sizeof(sp_context_t)); ctx->context = engine->CreateBaseContext(ctx); ctx->data = new uint8_t[plugin->memory]; memcpy(ctx->data, plugin->data, plugin->data_size); ctx->flags = (data->debug ? SPFLAG_PLUGIN_DEBUG : 0); ctx->heapbase = plugin->data_size; ctx->hp = ctx->heapbase; ctx->memory = plugin->memory; ctx->plugin = plugin; ctx->vmbase = this; /* :TODO: the rest of this */ *err = SP_ERR_NONE; return ctx->context; } const char *JITX86::GetVMName() { return "JIT (x86)"; } ICompilation *JITX86::StartCompilation(sp_plugin_t *plugin) { CompData *data = new CompData; data->plugin = plugin; return data; } void JITX86::AbortCompilation(ICompilation *co) { delete (CompData *)co; } bool JITX86::SetCompilationOption(ICompilation *co, const char *key, const char *val) { CompData *data = (CompData *)co; if (strcmp(key, "debug") == 0) { data->debug = (atoi(val) == 1); if (data->debug && !(data->plugin->flags & SP_FLAG_DEBUG)) { data->debug = false; return false; } return true; } return false; }