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gem5/src/arch/x86/isa/decoder/one_byte_opcodes.isa

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// Copyright (c) 2007-2008 The Hewlett-Packard Development Company
// All rights reserved.
//
// The license below extends only to copyright in the software and shall
// not be construed as granting a license to any other intellectual
// property including but not limited to intellectual property relating
// to a hardware implementation of the functionality of the software
// licensed hereunder. You may use the software subject to the license
// terms below provided that you ensure that this notice is replicated
// unmodified and in its entirety in all distributions of the software,
// modified or unmodified, in source code or in binary form.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met: redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer;
// redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution;
// neither the name of the copyright holders nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
// Authors: Gabe Black
////////////////////////////////////////////////////////////////////
//
// Decode the one byte opcodes
//
0x1: decode OPCODE_OP_TOP5 {
format Inst {
0x00: decode OPCODE_OP_BOTTOM3 {
0x6: decode MODE_SUBMODE {
0x0: UD2();
default: WarnUnimpl::push_ES();
}
0x7: decode MODE_SUBMODE {
0x0: UD2();
default: WarnUnimpl::pop_ES();
}
default: MultiInst::ADD(OPCODE_OP_BOTTOM3,
[Eb,Gb], [Ev,Gv],
[Gb,Eb], [Gv,Ev],
[rAb,Ib], [rAv,Iz]);
}
0x01: decode OPCODE_OP_BOTTOM3 {
0x6: decode MODE_SUBMODE {
0x0: UD2();
default: WarnUnimpl::push_CS();
}
//Any time this is seen, it should generate a two byte opcode
0x7: M5InternalError::error(
{{"Saw a one byte opcode whose value was 0x0F!"}});
default: MultiInst::OR(OPCODE_OP_BOTTOM3,
[Eb,Gb], [Ev,Gv],
[Gb,Eb], [Gv,Ev],
[rAb,Ib], [rAv,Iz]);
}
0x02: decode OPCODE_OP_BOTTOM3 {
0x6: decode MODE_SUBMODE {
0x0: UD2();
default: WarnUnimpl::push_SS();
}
0x7: decode MODE_SUBMODE {
0x0: UD2();
default: WarnUnimpl::pop_SS();
}
default: MultiInst::ADC(OPCODE_OP_BOTTOM3,
[Eb,Gb], [Ev,Gv],
[Gb,Eb], [Gv,Ev],
[rAb,Ib], [rAv,Iz]);
}
0x03: decode OPCODE_OP_BOTTOM3 {
0x6: decode MODE_SUBMODE {
0x0: UD2();
default: WarnUnimpl::push_DS();
}
0x7: decode MODE_SUBMODE {
0x0: UD2();
default: WarnUnimpl::pop_DS();
}
default: MultiInst::SBB(OPCODE_OP_BOTTOM3,
[Eb,Gb], [Ev,Gv],
[Gb,Eb], [Gv,Ev],
[rAb,Ib], [rAv,Iz]);
}
0x04: decode OPCODE_OP_BOTTOM3 {
0x6: M5InternalError::error(
{{"Tried to execute the ES segment override prefix!"}});
0x7: decode MODE_SUBMODE {
0x0: UD2();
default: WarnUnimpl::daa();
}
default: MultiInst::AND(OPCODE_OP_BOTTOM3,
[Eb,Gb], [Ev,Gv],
[Gb,Eb], [Gv,Ev],
[rAb,Ib], [rAv,Iz]);
}
0x05: decode OPCODE_OP_BOTTOM3 {
0x6: M5InternalError::error(
{{"Tried to execute the CS segment override prefix!"}});
0x7: decode MODE_SUBMODE {
0x0: UD2();
default: WarnUnimpl::das();
}
default: MultiInst::SUB(OPCODE_OP_BOTTOM3,
[Eb,Gb], [Ev,Gv],
[Gb,Eb], [Gv,Ev],
[rAb,Ib], [rAv,Iz]);
}
0x06: decode OPCODE_OP_BOTTOM3 {
0x6: M5InternalError::error(
{{"Tried to execute the SS segment override prefix!"}});
0x7: decode MODE_SUBMODE {
0x0: UD2();
default: WarnUnimpl::aaa();
}
default: MultiInst::XOR(OPCODE_OP_BOTTOM3,
[Eb,Gb], [Ev,Gv],
[Gb,Eb], [Gv,Ev],
[rAb,Ib], [rAv,Iz]);
}
0x07: decode OPCODE_OP_BOTTOM3 {
0x6: M5InternalError::error(
{{"Tried to execute the DS segment override prefix!"}});
0x7: decode MODE_SUBMODE {
0x0: UD2();
default: WarnUnimpl::aas();
}
default: MultiInst::CMP(OPCODE_OP_BOTTOM3,
[Eb,Gb], [Ev,Gv],
[Gb,Eb], [Gv,Ev],
[rAb,Ib], [rAv,Iz]);
}
0x08: decode MODE_SUBMODE {
0x0: M5InternalError::error (
{{"Tried to execute an REX prefix!"}});
default: INC(Bv);
}
0x09: decode MODE_SUBMODE {
0x0: M5InternalError::error (
{{"Tried to execute an REX prefix!"}});
default: DEC(Bv);
}
0x0A: PUSH(Bv);
0x0B: POP(Bv);
0x0C: decode OPCODE_OP_BOTTOM3 {
0x0: decode MODE_SUBMODE {
0x0: UD2();
default: PUSHA();
}
0x1: decode MODE_SUBMODE {
0x0: UD2();
default: POPA();
}
0x2: decode MODE_SUBMODE {
0x0: UD2();
default: BOUND(Gv,Mv);
}
0x3: decode MODE_SUBMODE {
//The second operand should really be of size "d", but it's
//set to "v" in order to have a consistent register size.
//This shouldn't affect behavior.
0x0: MOVSXD(Gv,Ev);
default: WarnUnimpl::arpl_Ew_Gw();
}
0x4: M5InternalError::error(
{{"Tried to execute the FS segment override prefix!"}});
0x5: M5InternalError::error(
{{"Tried to execute the GS segment override prefix!"}});
0x6: M5InternalError::error(
{{"Tried to execute the operand size override prefix!"}});
0x7: M5InternalError::error(
{{"Tried to execute the DS address size override prefix!"}});
}
0x0D: decode OPCODE_OP_BOTTOM3 {
0x0: PUSH(Iz);
0x1: IMUL(Gv,Ev,Iz);
0x2: PUSH(Ib);
0x3: IMUL(Gv,Ev,Ib);
0x4: StringInst::INS(Yb,rD);
0x5: StringInst::INS(Yz,rD);
0x6: StringInst::OUTS(rD,Xb);
0x7: StringInst::OUTS(rD,Xz);
}
0x0E: decode OPCODE_OP_BOTTOM3 {
0x0: JO(Jb);
0x1: JNO(Jb);
0x2: JB(Jb);
0x3: JNB(Jb);
0x4: JZ(Jb);
0x5: JNZ(Jb);
0x6: JBE(Jb);
0x7: JNBE(Jb);
}
0x0F: decode OPCODE_OP_BOTTOM3 {
0x0: JS(Jb);
0x1: JNS(Jb);
0x2: JP(Jb);
0x3: JNP(Jb);
0x4: JL(Jb);
0x5: JNL(Jb);
0x6: JLE(Jb);
0x7: JNLE(Jb);
}
0x10: decode OPCODE_OP_BOTTOM3 {
//0x0: group1_Eb_Ib();
0x0: decode MODRM_REG {
0x0: ADD(Eb,Ib);
0x1: OR(Eb,Ib);
0x2: ADC(Eb,Ib);
0x3: SBB(Eb,Ib);
0x4: AND(Eb,Ib);
0x5: SUB(Eb,Ib);
0x6: XOR(Eb,Ib);
0x7: CMP(Eb,Ib);
}
//0x1: group1_Ev_Iz();
0x1: decode MODRM_REG {
0x0: ADD(Ev,Iz);
0x1: OR(Ev,Iz);
0x2: ADC(Ev,Iz);
0x3: SBB(Ev,Iz);
0x4: AND(Ev,Iz);
0x5: SUB(Ev,Iz);
0x6: XOR(Ev,Iz);
0x7: CMP(Ev,Iz);
}
0x2: decode MODE_SUBMODE {
0x0: UD2();
//default: group1_Eb_Ib();
default: decode MODRM_REG {
0x0: ADD(Eb,Ib);
0x1: OR(Eb,Ib);
0x2: ADC(Eb,Ib);
0x3: SBB(Eb,Ib);
0x4: AND(Eb,Ib);
0x5: SUB(Eb,Ib);
0x6: XOR(Eb,Ib);
0x7: CMP(Eb,Ib);
}
}
//0x3: group1_Ev_Ib();
0x3: decode MODRM_REG {
0x0: ADD(Ev,Ib);
0x1: OR(Ev,Ib);
0x2: ADC(Ev,Ib);
0x3: SBB(Ev,Ib);
0x4: AND(Ev,Ib);
0x5: SUB(Ev,Ib);
0x6: XOR(Ev,Ib);
0x7: CMP(Ev,Ib);
}
0x4: TEST(Eb,Gb);
0x5: TEST(Ev,Gv);
0x6: XCHG(Eb,Gb);
0x7: XCHG(Ev,Gv);
}
0x11: decode OPCODE_OP_BOTTOM3 {
0x0: MOV(Eb,Gb);
0x1: MOV(Ev,Gv);
0x2: MOV(Gb,Eb);
0x3: MOV(Gv,Ev);
0x4: decode MODRM_REG {
0x0, 0x1, 0x2,
0x3, 0x4, 0x5: MOV(Ev,Sv);
}
0x5: LEA(Gv,M);
0x6: decode MODE_SUBMODE {
0x3, 0x4: MOV_REAL(Sv,Ev);
default: decode MODRM_REG {
0x1: UD2(); // Moving to the CS selector is illegal.
0x2: MOVSS(Sv,Ev);
0x0, 0x3,
0x4, 0x5: MOV(Sv,Ev);
default: UD2();
}
}
//0x7: group10_Ev();
0x7: decode MODRM_REG {
0x0: POP(Ev);
default: UD2();
}
}
0x12: decode OPCODE_OP_BOTTOM3 {
0x0: NOP(); //XXX repe makes this a "pause"
default: XCHG(Bv,rAv);
}
0x13: decode OPCODE_OP_BOTTOM3 {
0x0: CDQE(rAv);
0x1: CQO(rAv,rDv);
0x2: decode MODE_SUBMODE {
0x0: UD2();
default: WarnUnimpl::call_far_Ap();
}
0x3: WarnUnimpl::fwait(); //aka wait
0x4: PUSHF();
0x5: POPF();
//The 64 bit versions of both of these should be illegal only
//if CPUID says it isn't supported. For now, we'll just assume
//that it's supported.
0x6: SAHF();
0x7: LAHF();
}
0x14: decode OPCODE_OP_BOTTOM3 {
0x0: MOV(rAb, Ob);
0x1: MOV(rAv, Ov);
0x2: MOV(Ob, rAb);
0x3: MOV(Ov, rAv);
0x4: StringInst::MOVS(Yb,Xb);
0x5: StringInst::MOVS(Yv,Xv);
0x6: StringTestInst::CMPS(Yb,Xb);
0x7: StringTestInst::CMPS(Yv,Xv);
}
0x15: decode OPCODE_OP_BOTTOM3 {
0x0: TEST(rAb,Ib);
0x1: TEST(rAv,Iz);
0x2: StringInst::STOS(Yb);
0x3: StringInst::STOS(Yv);
0x4: StringInst::LODS(Xb);
0x5: StringInst::LODS(Xv);
0x6: StringTestInst::SCAS(Yb);
0x7: StringTestInst::SCAS(Yv);
}
0x16: MOV(Bb,Ib);
0x17: MOV(Bv,Iv);
0x18: decode OPCODE_OP_BOTTOM3 {
//0x0: group2_Eb_Ib();
0x0: decode MODRM_REG {
0x0: ROL(Eb,Ib);
0x1: ROR(Eb,Ib);
0x2: RCL(Eb,Ib);
0x3: RCR(Eb,Ib);
0x4: SAL(Eb,Ib);
0x5: SHR(Eb,Ib);
0x6: SAL(Eb,Ib);
0x7: SAR(Eb,Ib);
}
//0x1: group2_Ev_Ib();
0x1: decode MODRM_REG {
0x0: ROL(Ev,Ib);
0x1: ROR(Ev,Ib);
0x2: RCL(Ev,Ib);
0x3: RCR(Ev,Ib);
0x4: SAL(Ev,Ib);
0x5: SHR(Ev,Ib);
0x6: SAL(Ev,Ib);
0x7: SAR(Ev,Ib);
}
0x2: RET_NEAR(Iw);
0x3: RET_NEAR();
0x4: decode MODE_SUBMODE {
0x0: UD2();
default: WarnUnimpl::les_Gz_Mp();
}
0x5: decode MODE_SUBMODE {
0x0: UD2();
default: WarnUnimpl::lds_Gz_Mp();
}
//0x6: group12_Eb_Ib();
0x6: decode MODRM_REG {
0x0: MOV(Eb,Ib);
default: UD2();
}
//0x7: group12_Ev_Iz();
0x7: decode MODRM_REG {
0x0: MOV(Ev,Iz);
default: UD2();
}
}
format WarnUnimpl {
0x19: decode OPCODE_OP_BOTTOM3 {
// The second parameter here should be of size b, but
// immediate sizes are determined elsewhere and this would
// confuse the instruction type specialization code.
0x0: Inst::ENTER(Iw,Iw);
0x1: Inst::LEAVE();
0x2: ret_far_Iw();
0x3: decode MODE_SUBMODE {
0x3, 0x4: ret_far_real();
default: Inst::RET_FAR();
}
0x4: int3();
#if FULL_SYSTEM
0x5: int_Ib();
#else
// Really only the LSB matters, but the predecoder will sign
// extend it, and there's no easy way to specify only checking
// the first byte.
0x5: decode IMMEDIATE {
-0x80:
SyscallInst::int80('xc->syscall(Rax)',
IsSyscall, IsNonSpeculative);
default: int_Ib();
}
#endif
0x6: decode MODE_SUBMODE {
0x0: Inst::UD2();
default: into();
}
0x7: decode MODE_SUBMODE {
0x4: Inst::IRET_REAL();
0x3: Inst::IRET_VIRT();
default: Inst::IRET_PROT();
}
}
}
0x1A: decode OPCODE_OP_BOTTOM3 {
//0x0: group2_Eb_1();
0x0: decode MODRM_REG {
0x0: ROL_1(Eb);
0x1: ROR_1(Eb);
0x2: RCL_1(Eb);
0x3: RCR_1(Eb);
0x4: SAL_1(Eb);
0x5: SHR_1(Eb);
0x6: SAL_1(Eb);
0x7: SAR_1(Eb);
}
//0x1: group2_Ev_1();
0x1: decode MODRM_REG {
0x0: ROL_1(Ev);
0x1: ROR_1(Ev);
0x2: RCL_1(Ev);
0x3: RCR_1(Ev);
0x4: SAL_1(Ev);
0x5: SHR_1(Ev);
0x6: SAL_1(Ev);
0x7: SAR_1(Ev);
}
//0x2: group2_Eb_Cl();
0x2: decode MODRM_REG {
0x0: ROL(Eb,rCb);
0x1: ROR(Eb,rCb);
0x2: RCL(Eb,rCb);
0x3: RCR(Eb,rCb);
0x4: SAL(Eb,rCb);
0x5: SHR(Eb,rCb);
0x6: SAL(Eb,rCb);
0x7: SAR(Eb,rCb);
}
//The second operand should have size "b", but to have
//consistent register sizes it's "v". This shouldn't have
//any affect on functionality.
//0x3: group2_Ev_Cl();
0x3: decode MODRM_REG {
0x0: ROL(Ev,rCv);
0x1: ROR(Ev,rCv);
0x2: RCL(Ev,rCv);
0x3: RCR(Ev,rCv);
0x4: SAL(Ev,rCv);
0x5: SHR(Ev,rCv);
0x6: SAL(Ev,rCv);
0x7: SAR(Ev,rCv);
}
0x4: decode MODE_SUBMODE {
0x0: UD2();
default: WarnUnimpl::aam_Ib();
}
0x5: decode MODE_SUBMODE {
0x0: UD2();
default: WarnUnimpl::aad_Ib();
}
0x6: decode MODE_SUBMODE {
0x0: UD2();
default: SALC(rAb);
}
0x7: XLAT();
}
##include "x87.isa"
0x1C: decode OPCODE_OP_BOTTOM3 {
0x0: LOOPNE(Jb);
0x1: LOOPE(Jb);
0x2: LOOP(Jb);
0x3: JRCX(Jb);
0x4: IN(rAb,Ib);
0x5: IN(rAv,Iv);
0x6: OUT(Ib,rAb);
0x7: OUT(Iv,rAv);
}
0x1D: decode OPCODE_OP_BOTTOM3 {
0x0: CALL_NEAR(Jz);
0x1: JMP(Jz);
0x2: decode MODE_SUBMODE {
0x0: UD2();
0x1: JMP_FAR(Iz);
0x2: JMP_FAR(Iz);
0x3: JMP_FAR_REAL(Iz);
0x4: JMP_FAR_REAL(Iz);
}
0x3: JMP(Jb);
0x4: IN(rAb,rD);
0x5: IN(rAv,rD);
0x6: OUT(rD,rAb);
0x7: OUT(rD,rAv);
}
0x1E: decode OPCODE_OP_BOTTOM3 {
0x0: M5InternalError::error(
{{"Tried to execute the lock prefix!"}});
0x1: WarnUnimpl::int1();
0x2: M5InternalError::error(
{{"Tried to execute the repne prefix!"}});
0x3: M5InternalError::error(
{{"Tried to execute the rep/repe prefix!"}});
0x4: HLT();
0x5: CMC();
//0x6: group3_Eb();
0x6: decode MODRM_REG {
0x0: TEST(Eb,Iz);
0x1: TEST(Eb,Iz);
0x2: NOT(Eb);
0x3: NEG(Eb);
0x4: MUL_B(Eb);
0x5: IMUL_B(Eb);
//This should be Eb, but it access the entire word value ax.
0x6: DIV_B(Ew);
0x7: IDIV_B(Eb);
}
//0x7: group3_Ev();
0x7: decode MODRM_REG {
0x0: TEST(Ev,Iz);
0x1: TEST(Ev,Iz);
0x2: NOT(Ev);
0x3: NEG(Ev);
0x4: MUL(Ev);
0x5: IMUL(Ev);
0x6: DIV(Ev);
0x7: IDIV(Ev);
}
}
0x1F: decode OPCODE_OP_BOTTOM3 {
0x0: CLC();
0x1: STC();
0x2: CLI();
0x3: STI();
0x4: CLD();
0x5: STD();
//0x6: group4();
0x6: decode MODRM_REG {
0x0: INC(Eb);
0x1: DEC(Eb);
default: UD2();
}
//0x7: group5();
0x7: decode MODRM_REG {
0x0: INC(Ev);
0x1: DEC(Ev);
0x2: CALL_NEAR(Ev);
0x3: WarnUnimpl::call_far_Mp();
0x4: JMP(Ev);
0x5: decode MODE_SUBMODE {
0x0: JMP_FAR(Mz);
0x1: JMP_FAR(Mz);
0x2: JMP_FAR(Mz);
0x3: JMP_FAR_REAL(Mz);
0x4: JMP_FAR_REAL(Mz);
}
0x6: PUSH(Ev);
0x7: UD2();
}
}
}
default: FailUnimpl::oneByteOps();
}
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