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970 lines
33 KiB
C++
970 lines
33 KiB
C++
//
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// Instruction.hpp
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// Clock Signal
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//
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// Created by Thomas Harte on 15/01/21.
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// Copyright © 2021 Thomas Harte. All rights reserved.
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//
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#ifndef InstructionSets_x86_Instruction_h
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#define InstructionSets_x86_Instruction_h
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#include "Model.hpp"
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#include <cstddef>
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#include <cstdint>
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#include <string>
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#include <type_traits>
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namespace InstructionSet::x86 {
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/*
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Operations are documented below to establish expectations as to which
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instruction fields will be meaningful for each; this is a work-in-progress
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and may currently contain errors in the opcode descriptions — especially
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where implicit register dependencies are afoot.
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*/
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enum class Operation: uint8_t {
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Invalid,
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//
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// 8086 instructions.
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//
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/// ASCII adjust after addition; source will be AL and destination will be AX.
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AAA,
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/// ASCII adjust before division; destination will be AX and source will be a multiplier.
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AAD,
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/// ASCII adjust after multiplication; destination will be AX and source will be a divider.
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AAM,
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/// ASCII adjust after subtraction; source will be AL and destination will be AX.
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AAS,
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/// Decimal adjust after addition; source and destination will be AL.
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DAA,
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/// Decimal adjust after subtraction; source and destination will be AL.
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DAS,
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/// If data size is word, convert byte into word; source will be AL, destination will be AH.
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/// If data size is DWord, convert word to dword; AX will be expanded to fill EAX.
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/// In both cases, conversion will be by sign extension.
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CBW,
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/// If data size is Word, converts word to double word; source will be AX and destination will be DX.
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/// If data size is DWord, converts double word to quad word (i.e. CDW); source will be EAX and destination will be EDX:EAX.
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/// In both cases, conversion will be by sign extension.
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CWD,
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/// Escape, for a coprocessor; perform the bus cycles necessary to read the source and destination and perform a NOP.
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ESC,
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/// Stops the processor until the next interrupt is fired.
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HLT,
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/// Waits until the WAIT input is asserted; if an interrupt occurs then it is serviced but returns to the WAIT.
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WAIT,
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/// Add with carry; source, destination, operand and displacement will be populated appropriately.
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ADC,
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/// Add; source, destination, operand and displacement will be populated appropriately.
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ADD,
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/// Subtract with borrow; source, destination, operand and displacement will be populated appropriately.
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SBB,
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/// Subtract; source, destination, operand and displacement will be populated appropriately.
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SUB,
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/// Unsigned multiply; multiplies the source value by EAX, AX or AL, storing the result in EDX:EAX, DX:AX or AX.
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MUL,
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/// Single operand signed multiply; multiplies the source value by EAX, AX or AL, storing the result in EDX:EAX, DX:AX or AX.
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IMUL_1,
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/// Unsigned divide; divide the AX, DX:AX or EDX:AX by the source(), storing the quotient in AL, AX or EAX and the remainder in AH, DX or EDX.
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DIV,
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/// Signed divide; divide the source value by AX or AL, storing the quotient in AL and the remainder in AH.
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IDIV,
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/// Increment; source, destination, operand and displacement will be populated appropriately.
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INC,
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/// Decrement; source, destination, operand and displacement will be populated appropriately.
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DEC,
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/// Reads from the port specified by source to the destination.
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IN,
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/// Writes to the port specified by destination from the source.
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OUT,
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// Various jumps; see the displacement to calculate targets.
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JO, JNO, JB, JNB, JZ, JNZ, JBE, JNBE,
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JS, JNS, JP, JNP, JL, JNL, JLE, JNLE,
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/// Near call.
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CALLabs,
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/// Relative call; see displacement().
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CALLrel,
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/// Far call; if destination is Source::Immediate then see the segment() and offset() fields; otherwise take segment and offset by indirection.
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CALLfar,
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/// Return from interrupt.
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IRET,
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/// Near return; if source is not ::None then it will be an ::Immediate indicating how many additional bytes to remove from the stack.
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RETfar,
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/// Far return; if source is not ::None then it will be an ::Immediate indicating how many additional bytes to remove from the stack.
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RETnear,
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/// Near jump with an absolute destination.
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JMPabs,
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/// Near jump with a relative destination.
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JMPrel,
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/// Far jump; if destination is Source::Immediate then see the segment() and offset() fields; otherwise take segment and offset by indirection.
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JMPfar,
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/// Relative jump performed only if CX = 0; see the displacement.
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JCXZ,
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/// Generates a software interrupt of the level stated in the operand.
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INT,
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/// Generates a software interrupt of level 4 if overflow is set.
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INTO,
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/// Load status flags to AH.
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LAHF,
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/// Load status flags from AH.
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SAHF,
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/// Load a segment and offset from the source into DS and the destination.
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LDS,
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/// Load a segment and offset from the source into ES and the destination.
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LES,
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/// Computes the effective address of the source and loads it into the destination.
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LEA,
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/// Move string; moves a byte or word from DS:SI to ES:DI. If a segment override is provided, it overrides the the source.
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MOVS,
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MOVS_REP,
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/// Load string; reads from DS:SI into AL or AX, subject to segment override.
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LODS,
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LODS_REP,
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/// Store string; store AL or AX to ES:DI.
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STOS,
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STOS_REP,
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/// Compare [bytes or words, per operation size]; source and destination implied to be DS:[SI] and ES:[DI].
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CMPS,
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CMPS_REPE,
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CMPS_REPNE,
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/// Scan string; reads a byte or word from DS:SI and compares it to AL or AX.
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SCAS,
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SCAS_REPE,
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SCAS_REPNE,
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// Perform a possibly-conditional loop, decrementing CX. See the displacement.
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LOOP, LOOPE, LOOPNE,
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/// Loads the destination with the source.
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MOV,
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/// Negatives; source indicates what to negative.
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NEG,
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/// Logical NOT; source indicates what to negative.
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NOT,
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/// Logical AND; source, destination, operand and displacement will be populated appropriately.
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AND,
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/// Logical OR of source onto destination.
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OR,
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/// Logical XOR of source onto destination.
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XOR,
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/// NOP; no further fields.
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NOP,
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/// POP from the stack to destination.
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POP,
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/// POP from the stack to the flags register.
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POPF,
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/// PUSH the source to the stack.
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PUSH,
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/// PUSH the flags register to the stack.
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PUSHF,
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/// Rotate the destination left through carry the number of bits indicated by source; if the source is a register then implicitly its size is 1.
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/// If it is ::None then the rotation is by a single position only.
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RCL,
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/// Rotate the destination right through carry the number of bits indicated by source; if the source is a register then implicitly its size is 1.
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/// If it is ::None then the rotation is by a single position only.
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RCR,
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/// Rotate the destination left the number of bits indicated by source; if the source is a register then implicitly its size is 1.
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/// If it is ::None then the rotation is by a single position only.
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ROL,
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/// Rotate the destination right the number of bits indicated by source; if the source is a register then implicitly its size is 1.
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/// If it is ::None then the rotation is by a single position only.
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ROR,
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/// Arithmetic shift left the destination by the number of bits indicated by source; if the source is a register then implicitly its size is 1.
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/// If it is ::None then the shift is by a single position only.
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SAL,
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/// Arithmetic shift right the destination by the number of bits indicated by source; if the source is a register then implicitly its size is 1.
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/// If it is ::None then the shift is by a single position only.
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SAR,
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/// Logical shift right the destination by the number of bits indicated by source; if the source is a register then implicitly its size is 1.
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/// If it is ::None then the shift is by a single position only.
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SHR,
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/// Clear carry flag; no source or destination provided.
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CLC,
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/// Clear direction flag; no source or destination provided.
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CLD,
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/// Clear interrupt flag; no source or destination provided.
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CLI,
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/// Set carry flag.
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STC,
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/// Set direction flag.
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STD,
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/// Set interrupt flag.
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STI,
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/// Complement carry flag; no source or destination provided.
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CMC,
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/// Compare; source, destination, operand and displacement will be populated appropriately.
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CMP,
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/// Sets flags based on the result of a logical AND of source and destination.
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TEST,
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/// Exchanges the contents of the source and destination.
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XCHG,
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/// Load AL with DS:[AL+BX].
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XLAT,
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/// Set AL to FFh if carry is set; 00h otherwise.
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SALC,
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//
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// 8086 exclusives.
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//
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/// Set destination to ~0 if CL is non-zero.
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SETMOC,
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/// Set destination to ~0.
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SETMO,
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/// Perform an IDIV and negative the result.
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IDIV_REP,
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//
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// 80186 additions.
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//
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/// Checks whether the signed value in the destination register is within the bounds
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/// stored at the location indicated by the source register, which will point to two
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/// 16- or 32-bit words, the first being a signed lower bound and the second
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/// a signed upper.
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/// Raises a bounds exception if not.
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BOUND = SETMOC,
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/// Create stack frame. See the Instruction getters `nesting_level()`
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/// and `dynamic_storage_size()`.
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ENTER,
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/// Procedure exit; copies BP to SP, then pops a new BP from the stack.
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LEAVE,
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/// Inputs a byte, word or double word from the port specified by DX, writing it to
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/// ES:[e]DI and incrementing or decrementing [e]DI as per the
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/// current EFLAGS DF flag.
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INS,
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INS_REP,
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/// Outputs a byte, word or double word from ES:[e]DI to the port specified by DX,
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/// incrementing or decrementing [e]DI as per the current EFLAGS DF flag.
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OUTS,
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OUTS_REP,
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/// Pushes all general purpose registers to the stack, in the order:
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/// AX, CX, DX, BX, [original] SP, BP, SI, DI.
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PUSHA,
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/// Pops all general purpose registers from the stack, in the reverse of
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/// the PUSHA order, i.e. DI, SI, BP, [final] SP, BX, DX, CX, AX.
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POPA,
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//
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// 80286 additions.
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//
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/// Read a segment selector from the destination and one from the source.
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/// If the destination RPL is less than the source, set ZF and set the destination RPL to the source.
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/// Otherwise clear ZF and don't modify the destination selector.
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ARPL,
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/// Clears the task-switched flag in CR0.
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CLTS,
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/// Loads access rights.
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LAR,
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/// Loads the global descriptor table register from the source.
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/// 32-bit operand: read a 16-bit limit followed by a 32-bit base.
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/// 16-bit operand: read a 16-bit limit followed by a 24-bit base.
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LGDT,
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/// Stores the global descriptor table register at the destination;
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/// Always stores a 16-bit limit followed by a 32-bit base though
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/// the highest byte may be zero.
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SGDT,
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/// Loads the interrupt descriptor table register from the source.
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/// 32-bit operand: read a 16-bit limit followed by a 32-bit base.
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/// 16-bit operand: read a 16-bit limit followed by a 24-bit base.
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LIDT,
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/// Stores the interrupt descriptor table register at the destination.
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/// Always stores a 16-bit limit followed by a 32-bit base though
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/// the highest byte may be zero.
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SIDT,
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/// Loads the local descriptor table register.
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/// The source will contain a segment selector pointing into the local descriptor table.
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/// That selector is loaded into the local descriptor table register, along with the corresponding
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/// segment limit and base from the global descriptor table.
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LLDT,
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/// Stores the local descriptor table register.
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SLDT,
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/// Verifies the segment indicated by source for reading, setting ZF.
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///
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/// ZF is set if: (i) the selector is not null; (ii) the selector is within GDT or LDT bounds;
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/// (iii) the selector points to code or data; (iv) the segment is readable;
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/// (v) the segment is either a conforming code segment, or the segment's DPL
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/// is greater than or equal to both the CPL and the selector's RPL.
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///
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/// Otherwise ZF is clear.
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VERR,
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/// Verifies a segment for writing. Operates as per VERR but checks for writeability
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/// rather than readability.
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VERW,
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/// Loads a 16-bit value from source into the machine status word.
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/// The low order four bits of the source are copied into CR0, with the caveat
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/// that if PE is set, the processor will enter protected mode, but if PE is clear
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/// then there will be no change in protected mode.
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///
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/// Usurped in function by MOV CR0 as of the 80286.
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LMSW,
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/// Stores the machine status word, i.e. copies the low 16 bits of CR0 into the destination.
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SMSW,
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/// Load the segment limit from descriptor specified by source into destination,
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/// setting ZF if successful.
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LSL,
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/// Load the source operand into the segment selector field of the task register.
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LTR,
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/// Store the segment seleector of the task register into the destination.
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STR,
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/// Three-operand form of IMUL; multiply the immediate by the source and write to the destination.
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IMUL_3,
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/// Undocumented (but used); loads all registers, including internal ones.
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LOADALL,
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//
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// 80386 additions.
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//
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// TODO: expand detail on all operations below.
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/// Loads a pointer to FS.
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LFS,
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/// Loads a pointer to GS.
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LGS,
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/// Loads a pointer to SS.
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LSS,
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/// Shift left double.
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SHLDimm,
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SHLDCL,
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/// Shift right double.
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SHRDimm,
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SHRDCL,
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/// Bit scan forwards.
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BSF,
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/// Bit scan reverse.
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BSR,
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/// Bit test.
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BT,
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/// Bit test and complement.
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BTC,
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/// Bit test and reset.
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BTR,
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/// Bit test and set.
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BTS,
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/// Move from the source to the destination, extending the source with zeros.
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/// The instruction data size dictates the size of the source; the destination will
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/// be either 16- or 32-bit depending on the current processor operating mode.
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MOVZX,
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/// Move from the source to the destination, applying a sign extension.
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/// The instruction data size dictates the size of the source; the destination will
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/// be either 16- or 32-bit depending on the current processor operating mode.
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MOVSX,
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/// Two-operand form of IMUL; multiply the source by the destination and write to the destination.
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IMUL_2,
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// Various conditional sets; each sets the byte at the location given by the operand
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// to $ff if the condition is met; $00 otherwise.
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SETO, SETNO, SETB, SETNB, SETZ, SETNZ, SETBE, SETNBE,
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SETS, SETNS, SETP, SETNP, SETL, SETNL, SETLE, SETNLE,
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// Various special-case moves (i.e. those where it is impractical to extend the
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// Source enum, so the requirement for special handling is loaded into the operation).
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// In all cases the Cx, Dx and Tx Source aliases can be used to reinterpret the relevant
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// source or destination.
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MOVtoCr, MOVfromCr,
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MOVtoDr, MOVfromDr,
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MOVtoTr, MOVfromTr,
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};
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enum class DataSize: uint8_t {
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Byte = 0,
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Word = 1,
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DWord = 2,
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None = 3,
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};
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template <DataSize size> struct DataSizeType { using type = uint8_t; };
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template <> struct DataSizeType<DataSize::Word> { using type = uint16_t; };
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template <> struct DataSizeType<DataSize::DWord> { using type = uint32_t; };
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constexpr int byte_size(DataSize size) {
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return (1 << int(size)) & 7;
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}
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constexpr int bit_size(DataSize size) {
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return (8 << int(size)) & 0x3f;
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}
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enum class AddressSize: uint8_t {
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b16 = 0,
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b32 = 1,
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};
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template <AddressSize size> struct AddressSizeType { using type = uint16_t; };
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template <> struct AddressSizeType<AddressSize::b32> { using type = uint32_t; };
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constexpr DataSize data_size(AddressSize size) {
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return DataSize(int(size) + 1);
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}
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constexpr int byte_size(AddressSize size) {
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return 2 << int(size);
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}
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constexpr int bit_size(AddressSize size) {
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return 16 << int(size);
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}
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enum class Source: uint8_t {
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// These are in SIB order; this matters for packing later on.
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/// AL, AX or EAX depending on size.
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eAX,
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/// CL, CX or ECX depending on size.
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eCX,
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/// DL, DX or EDX depending on size.
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eDX,
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/// BL, BX or BDX depending on size.
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eBX,
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/// AH if size is 1; SP or ESP otherwise.
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eSPorAH,
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/// CH if size is 1; BP or EBP otherwise.
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eBPorCH,
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/// DH if size is 1; SI or ESI otherwise.
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eSIorDH,
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/// BH if size is 1; DI or EDI otherwise.
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eDIorBH,
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// Aliases for the dual-purpose enums.
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eSP = eSPorAH, AH = eSPorAH,
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eBP = eBPorCH, CH = eBPorCH,
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eSI = eSIorDH, DH = eSIorDH,
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eDI = eDIorBH, BH = eDIorBH,
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// Aliases for control, test and debug registers.
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C0 = 0, C1 = 1, C2 = 2, C3 = 3, C4 = 4, C5 = 5, C6 = 6, C7 = 7,
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T0 = 0, T1 = 1, T2 = 2, T3 = 3, T4 = 4, T5 = 5, T6 = 6, T7 = 7,
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D0 = 0, D1 = 1, D2 = 2, D3 = 3, D4 = 4, D5 = 5, D6 = 6, D7 = 7,
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// Segment registers.
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ES, CS, SS, DS, FS, GS,
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/// @c None can be treated as a source that produces 0 when encountered;
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/// it is semantically valid to receive it with that meaning in some contexts —
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/// e.g. to indicate no index in indirect addressing.
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/// It's listed here in order to allow an [optional] segment override to fit into three bits.
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None,
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/// The address included within this instruction should be used as the source.
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DirectAddress,
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/// The immediate value included within this instruction should be used as the source.
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Immediate,
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/// The ScaleIndexBase associated with this source should be used.
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Indirect = 0b11000,
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// Elsewhere, as an implementation detail, the low three bits of an indirect source
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// are reused; (Indirect-1) is also used as a sentinel value but is not a valid member
|
|
// of the enum and isn't exposed externally.
|
|
|
|
/// The ScaleIndexBase associated with this source should be used, but
|
|
/// its base should be ignored (and is guaranteed to be zero if the default
|
|
/// getter is used).
|
|
IndirectNoBase = Indirect - 1,
|
|
};
|
|
constexpr bool is_register(Source source) {
|
|
return source < Source::None;
|
|
}
|
|
constexpr bool is_segment_register(Source source) {
|
|
return is_register(source) && source >= Source::ES;
|
|
}
|
|
|
|
enum class Repetition: uint8_t {
|
|
None, RepE, RepNE, Rep,
|
|
};
|
|
|
|
/// @returns @c true if @c operation supports repetition mode @c repetition; @c false otherwise.
|
|
template <Model model>
|
|
constexpr Operation rep_operation(Operation operation, Repetition repetition) {
|
|
switch(operation) {
|
|
case Operation::IDIV:
|
|
if constexpr (model == Model::i8086) {
|
|
return repetition != Repetition::None ? Operation::IDIV_REP : Operation::IDIV;
|
|
}
|
|
[[fallthrough]];
|
|
|
|
default: return operation;
|
|
|
|
case Operation::INS:
|
|
return repetition != Repetition::None ? Operation::INS_REP : Operation::INS;
|
|
case Operation::OUTS:
|
|
return repetition != Repetition::None ? Operation::OUTS_REP : Operation::OUTS;
|
|
case Operation::LODS:
|
|
return repetition != Repetition::None ? Operation::LODS_REP : Operation::LODS;
|
|
case Operation::MOVS:
|
|
return repetition != Repetition::None ? Operation::MOVS_REP : Operation::MOVS;
|
|
case Operation::STOS:
|
|
return repetition != Repetition::None ? Operation::STOS_REP : Operation::STOS;
|
|
|
|
case Operation::CMPS:
|
|
switch(repetition) {
|
|
case Repetition::None: return Operation::CMPS;
|
|
default:
|
|
case Repetition::RepE: return Operation::CMPS_REPE;
|
|
case Repetition::RepNE: return Operation::CMPS_REPNE;
|
|
}
|
|
|
|
case Operation::SCAS:
|
|
switch(repetition) {
|
|
case Repetition::None: return Operation::SCAS;
|
|
default:
|
|
case Repetition::RepE: return Operation::SCAS_REPE;
|
|
case Repetition::RepNE: return Operation::SCAS_REPNE;
|
|
}
|
|
}
|
|
}
|
|
|
|
/// Provides a 32-bit-style scale, index and base; to produce the address this represents,
|
|
/// calcluate base() + (index() << scale()).
|
|
///
|
|
/// This form of indirect addressing is used to describe both 16- and 32-bit indirect addresses,
|
|
/// even though it is a superset of that supported prior to the 80386.
|
|
///
|
|
/// This class can represent only exactly what a SIB byte can — a scale of 0 to 3, a base
|
|
/// that is any one of the eight general purpose registers, and an index that is one of the seven
|
|
/// general purpose registers excluding eSP or is ::None.
|
|
///
|
|
/// It cannot natively describe a base of ::None.
|
|
class ScaleIndexBase {
|
|
public:
|
|
constexpr ScaleIndexBase() noexcept {}
|
|
constexpr ScaleIndexBase(uint8_t sib) noexcept : sib_(sib) {}
|
|
constexpr ScaleIndexBase(int scale, Source index, Source base) noexcept :
|
|
sib_(uint8_t(
|
|
scale << 6 |
|
|
(int(index != Source::None ? index : Source::eSP) << 3) |
|
|
int(base)
|
|
)) {}
|
|
constexpr ScaleIndexBase(Source index, Source base) noexcept : ScaleIndexBase(0, index, base) {}
|
|
constexpr explicit ScaleIndexBase(Source base) noexcept : ScaleIndexBase(0, Source::None, base) {}
|
|
|
|
/// @returns the power of two by which to multiply @c index() before adding it to @c base().
|
|
constexpr int scale() const {
|
|
return sib_ >> 6;
|
|
}
|
|
|
|
/// @returns the @c index for this address; this is guaranteed to be one of eAX, eBX, eCX, eDX, None, eBP, eSI or eDI.
|
|
constexpr Source index() const {
|
|
constexpr Source sources[] = {
|
|
Source::eAX, Source::eCX, Source::eDX, Source::eBX, Source::None, Source::eBP, Source::eSI, Source::eDI,
|
|
};
|
|
static_assert(sizeof(sources) == 8);
|
|
return sources[(sib_ >> 3) & 0x7];
|
|
}
|
|
|
|
/// @returns the @c base for this address; this is guaranteed to be one of eAX, eBX, eCX, eDX, eSP, eBP, eSI or eDI.
|
|
constexpr Source base() const {
|
|
return Source(sib_ & 0x7);
|
|
}
|
|
|
|
constexpr uint8_t without_base() const {
|
|
return sib_ & ~0x3;
|
|
}
|
|
|
|
bool operator ==(const ScaleIndexBase &rhs) const {
|
|
// Permit either exact equality or index and base being equal
|
|
// but transposed with a scale of 1.
|
|
return
|
|
(sib_ == rhs.sib_) ||
|
|
(
|
|
!scale() && !rhs.scale() &&
|
|
rhs.index() == base() &&
|
|
rhs.base() == index()
|
|
);
|
|
}
|
|
|
|
operator uint8_t() const {
|
|
return sib_;
|
|
}
|
|
|
|
private:
|
|
// Data is stored directly as an 80386 SIB byte.
|
|
uint8_t sib_ = 0;
|
|
};
|
|
static_assert(sizeof(ScaleIndexBase) == 1);
|
|
static_assert(alignof(ScaleIndexBase) == 1);
|
|
|
|
/// Provides the location of an operand's source or destination.
|
|
///
|
|
/// Callers should use .source() as a first point of entry. If it directly nominates a register
|
|
/// then use the register contents directly. If it indicates ::DirectAddress or ::Immediate
|
|
/// then ask the instruction for the address or immediate value that was provided in
|
|
/// the instruction.
|
|
///
|
|
/// If .source() indicates ::Indirect then use base(), index() and scale() to construct an address.
|
|
///
|
|
/// In all cases, the applicable segment is indicated by the instruction.
|
|
class DataPointer {
|
|
public:
|
|
/// Constricts a DataPointer referring to the given source; it shouldn't be ::Indirect.
|
|
constexpr DataPointer(Source source) noexcept : source_(source) {}
|
|
|
|
/// Constricts a DataPointer with a source of ::Indirect and the specified sib.
|
|
constexpr DataPointer(ScaleIndexBase sib) noexcept : sib_(sib) {}
|
|
|
|
/// Constructs a DataPointer with a source and SIB; use the source to indicate
|
|
/// whether the base field of the SIB is effective.
|
|
constexpr DataPointer(Source source, ScaleIndexBase sib) noexcept : source_(source), sib_(sib) {}
|
|
|
|
/// Constructs an indirect DataPointer referencing the given base, index and scale.
|
|
/// Automatically maps Source::Indirect to Source::IndirectNoBase if base is Source::None.
|
|
constexpr DataPointer(Source base, Source index, int scale) noexcept :
|
|
source_(base != Source::None ? Source::Indirect : Source::IndirectNoBase),
|
|
sib_(scale, index, base) {}
|
|
|
|
constexpr bool operator ==(const DataPointer &rhs) const {
|
|
// Require a SIB match only if source_ is ::Indirect or ::IndirectNoBase.
|
|
return
|
|
source_ == rhs.source_ && (
|
|
source_ < Source::IndirectNoBase ||
|
|
(source_ == Source::Indirect && sib_ == rhs.sib_) ||
|
|
(source_ == Source::IndirectNoBase && sib_.without_base() == rhs.sib_.without_base())
|
|
);
|
|
}
|
|
|
|
constexpr Source source() const {
|
|
return source_;
|
|
}
|
|
|
|
constexpr int scale() const {
|
|
return sib_.scale();
|
|
}
|
|
|
|
constexpr Source index() const {
|
|
return sib_.index();
|
|
}
|
|
|
|
/// @returns The default segment to use for this access.
|
|
constexpr Source default_segment() const {
|
|
switch(source_) {
|
|
default:
|
|
case Source::IndirectNoBase:
|
|
return Source::None;
|
|
|
|
case Source::Indirect:
|
|
switch(base()) {
|
|
default: return Source::DS;
|
|
case Source::eBP:
|
|
case Source::eSP: return Source::SS;
|
|
case Source::eDI: return Source::ES;
|
|
}
|
|
}
|
|
}
|
|
|
|
constexpr Source base() const {
|
|
return sib_.base();
|
|
}
|
|
|
|
private:
|
|
Source source_ = Source::Indirect;
|
|
ScaleIndexBase sib_;
|
|
};
|
|
|
|
template<bool is_32bit> class Instruction {
|
|
public:
|
|
using DisplacementT = typename std::conditional<is_32bit, int32_t, int16_t>::type;
|
|
using ImmediateT = typename std::conditional<is_32bit, uint32_t, uint16_t>::type;
|
|
using AddressT = ImmediateT;
|
|
|
|
constexpr Instruction() noexcept {}
|
|
constexpr Instruction(Operation operation) noexcept :
|
|
Instruction(operation, Source::None, Source::None, ScaleIndexBase(), false, AddressSize::b16, Source::None, DataSize::None, 0, 0) {}
|
|
constexpr Instruction(
|
|
Operation operation,
|
|
Source source,
|
|
Source destination,
|
|
ScaleIndexBase sib,
|
|
bool lock,
|
|
AddressSize address_size,
|
|
Source segment_override,
|
|
DataSize data_size,
|
|
DisplacementT displacement,
|
|
ImmediateT operand) noexcept :
|
|
operation_(operation),
|
|
mem_exts_source_(uint8_t(
|
|
(int(address_size) << 7) |
|
|
(displacement ? 0x40 : 0x00) |
|
|
(operand ? 0x20 : 0x00) |
|
|
int(source) |
|
|
(source == Source::Indirect ? (uint8_t(sib) & 7) : 0)
|
|
)),
|
|
source_data_dest_sib_(uint16_t(
|
|
(int(data_size) << 14) |
|
|
(lock ? (1 << 13) : 0) |
|
|
((uint8_t(sib) & 0xf8) << 2) |
|
|
int(destination) |
|
|
(destination == Source::Indirect ? (uint8_t(sib) & 7) : 0)
|
|
)) {
|
|
// Decisions on whether to include operand, displacement and/or size extension words
|
|
// have implicitly been made in the int packing above; honour them here.
|
|
int extension = 0;
|
|
if(has_operand()) {
|
|
extensions_[extension] = operand;
|
|
++extension;
|
|
}
|
|
if(has_displacement()) {
|
|
extensions_[extension] = ImmediateT(displacement);
|
|
++extension;
|
|
}
|
|
|
|
// Patch in a fully-resolved segment.
|
|
Source segment = segment_override;
|
|
if(segment == Source::None) segment = this->source().default_segment();
|
|
if(segment == Source::None) segment = this->destination().default_segment();
|
|
if(segment == Source::None) segment = Source::DS;
|
|
source_data_dest_sib_ |= (int(segment)&7) << 10;
|
|
}
|
|
|
|
/// @returns The number of bytes used for meaningful content within this class. A receiver must use at least @c sizeof(Instruction) bytes
|
|
/// to store an @c Instruction but is permitted to reuse the trailing sizeof(Instruction) - packing_size() for any purpose it likes. Teleologically,
|
|
/// this allows a denser packing of instructions into containers.
|
|
constexpr size_t packing_size() const {
|
|
return
|
|
offsetof(Instruction<is_32bit>, extensions_) +
|
|
(has_displacement() + has_operand()) * sizeof(ImmediateT);
|
|
}
|
|
|
|
/// @returns The @c Operation performed by this instruction.
|
|
constexpr Operation operation() const {
|
|
return operation_;
|
|
}
|
|
|
|
/// @returns A @c DataPointer describing the 'destination' of this instruction, conventionally the first operand in Intel-syntax assembly.
|
|
constexpr DataPointer destination() const {
|
|
return DataPointer(
|
|
Source(source_data_dest_sib_ & sib_masks[(source_data_dest_sib_ >> 3) & 3]),
|
|
((source_data_dest_sib_ >> 2) & 0xf8) | (source_data_dest_sib_ & 0x07)
|
|
);
|
|
}
|
|
|
|
/// @returns A @c DataPointer describing the 'source' of this instruction, conventionally the second operand in Intel-syntax assembly.
|
|
constexpr DataPointer source() const {
|
|
return DataPointer(
|
|
Source(mem_exts_source_ & sib_masks[(mem_exts_source_ >> 3) & 3]),
|
|
((source_data_dest_sib_ >> 2) & 0xf8) | (mem_exts_source_ & 0x07)
|
|
);
|
|
}
|
|
|
|
/// @returns @c true if the lock prefix was present on this instruction; @c false otherwise.
|
|
constexpr bool lock() const {
|
|
return source_data_dest_sib_ & (1 << 13);
|
|
}
|
|
|
|
/// @returns The address size for this instruction; will always be 16-bit for instructions decoded by a 16-bit decoder but can be 16- or 32-bit for
|
|
/// instructions decoded by a 32-bit decoder, depending on the program's use of the address size prefix byte.
|
|
constexpr AddressSize address_size() const {
|
|
return AddressSize(mem_exts_source_ >> 7);
|
|
}
|
|
|
|
/// @returns The segment that should be used for data fetches if this operation accepts segment overrides.
|
|
constexpr Source data_segment() const {
|
|
return Source(
|
|
int(Source::ES) +
|
|
((source_data_dest_sib_ >> 10) & 7)
|
|
);
|
|
}
|
|
|
|
/// @returns The data size of this operation — e.g. `MOV AX, BX` has a data size of `::Word` but `MOV EAX, EBX` has a data size of
|
|
/// `::DWord`. This value is guaranteed never to be `DataSize::None` even for operations such as `CLI` that don't have operands and operate
|
|
/// on data that is not a byte, word or double word.
|
|
constexpr DataSize operation_size() const {
|
|
return DataSize(source_data_dest_sib_ >> 14);
|
|
}
|
|
|
|
/// @returns The immediate value provided with this instruction, if any. E.g. `ADD AX, 23h` has the operand `23h`.
|
|
constexpr ImmediateT operand() const {
|
|
const ImmediateT ops[] = {0, operand_extension()};
|
|
return ops[has_operand()];
|
|
}
|
|
|
|
/// @returns The nesting level argument supplied to an ENTER.
|
|
constexpr ImmediateT nesting_level() const {
|
|
return operand();
|
|
}
|
|
|
|
/// @returns The immediate segment value provided with this instruction, if any. Relevant for far calls and jumps; e.g. `JMP 1234h:5678h` will
|
|
/// have a segment value of `1234h`.
|
|
constexpr uint16_t segment() const {
|
|
return uint16_t(operand());
|
|
}
|
|
|
|
/// @returns The offset provided with this instruction, if any. E.g. `MOV AX, [es:1998h]` has an offset of `1998h`.
|
|
constexpr ImmediateT offset() const {
|
|
const ImmediateT offsets[] = {0, displacement_extension()};
|
|
return offsets[has_displacement()];
|
|
}
|
|
|
|
/// @returns The displacement provided with this instruction `SUB AX, [SI+BP-23h]` has an offset of `-23h` and `JMP 19h`
|
|
/// has an offset of `19h`.
|
|
constexpr DisplacementT displacement() const {
|
|
return DisplacementT(offset());
|
|
}
|
|
|
|
/// @returns The dynamic storage size argument supplied to an ENTER.
|
|
constexpr ImmediateT dynamic_storage_size() const {
|
|
return displacement();
|
|
}
|
|
|
|
// Standard comparison operator.
|
|
constexpr bool operator ==(const Instruction<is_32bit> &rhs) const {
|
|
if( operation_ != rhs.operation_ ||
|
|
mem_exts_source_ != rhs.mem_exts_source_ ||
|
|
source_data_dest_sib_ != rhs.source_data_dest_sib_) {
|
|
return false;
|
|
}
|
|
|
|
// Have already established above that this and RHS have the
|
|
// same extensions, if any.
|
|
const int extension_count = has_displacement() + has_operand();
|
|
for(int c = 0; c < extension_count; c++) {
|
|
if(extensions_[c] != rhs.extensions_[c]) return false;
|
|
}
|
|
|
|
return true;
|
|
}
|
|
|
|
private:
|
|
Operation operation_ = Operation::Invalid;
|
|
|
|
// Packing and encoding of fields is admittedly somewhat convoluted; what this
|
|
// achieves is that instructions will be sized:
|
|
//
|
|
// four bytes + up to two extension words
|
|
// (extension words being two bytes for 16-bit instructions, four for 32)
|
|
//
|
|
// The extension words are used to retain an operand and displacement
|
|
// if the instruction has those.
|
|
|
|
// b7: address size;
|
|
// b6: has displacement;
|
|
// b5: has operand;
|
|
// [b4, b0]: source.
|
|
uint8_t mem_exts_source_ = 0;
|
|
|
|
bool has_displacement() const {
|
|
return mem_exts_source_ & (1 << 6);
|
|
}
|
|
bool has_operand() const {
|
|
return mem_exts_source_ & (1 << 5);
|
|
}
|
|
|
|
// [b15, b14]: data size;
|
|
// [b13]: lock;
|
|
// [b12, b10]: segment override;
|
|
// [b9, b5]: top five of SIB;
|
|
// [b4, b0]: dest.
|
|
uint16_t source_data_dest_sib_ = 0;
|
|
|
|
// {operand}, {displacement}.
|
|
ImmediateT extensions_[2]{};
|
|
|
|
ImmediateT operand_extension() const {
|
|
return extensions_[0];
|
|
}
|
|
ImmediateT displacement_extension() const {
|
|
return extensions_[(mem_exts_source_ >> 5) & 1];
|
|
}
|
|
|
|
// A lookup table to help with stripping parts of the SIB that have been
|
|
// hidden within the source/destination fields.
|
|
static constexpr uint8_t sib_masks[] = {
|
|
0x1f, 0x1f, 0x1f, 0x18
|
|
};
|
|
|
|
};
|
|
|
|
static_assert(sizeof(Instruction<true>) <= 16);
|
|
static_assert(sizeof(Instruction<false>) <= 10);
|
|
|
|
//
|
|
// Disassembly aids.
|
|
//
|
|
|
|
/// @returns @c true if @c operation uses a @c displacement().
|
|
bool has_displacement(Operation operation);
|
|
|
|
/// @returns The maximum number of operands to print in a disassembly of @c operation;
|
|
/// i.e. 2 for both source() and destination(), 1 for source() alone, 0 for neither. This is a maximum
|
|
/// only — if either source is Source::None then it should not be printed.
|
|
int max_displayed_operands(Operation operation);
|
|
|
|
/// Provides the idiomatic name of the @c Operation given an operation @c DataSize and processor @c Model.
|
|
std::string to_string(Operation, DataSize, Model);
|
|
|
|
/// @returns @c true if the idiomatic name of @c Operation implies the data size (e.g. stosb), @c false otherwise (e.g. ld).
|
|
bool mnemonic_implies_data_size(Operation);
|
|
|
|
/// Provides the name of the @c DataSize, i.e. 'byte', 'word' or 'dword'.
|
|
std::string to_string(DataSize);
|
|
|
|
/// Provides the name of the @c Source at @c DataSize, e.g. for Source::eAX it might return AL, AX or EAX.
|
|
std::string to_string(Source, DataSize);
|
|
|
|
/// Provides the printable version of @c pointer as an appendage for @c instruction.
|
|
///
|
|
/// See notes below re: @c offset_length and @c immediate_length.
|
|
/// If @c operation_size is the default value of @c ::None, it'll be taken from the @c instruction.
|
|
template <bool is_32bit>
|
|
std::string to_string(
|
|
DataPointer pointer,
|
|
Instruction<is_32bit> instruction,
|
|
int offset_length,
|
|
int immediate_length,
|
|
DataSize operation_size = InstructionSet::x86::DataSize::None
|
|
);
|
|
|
|
/// Provides the printable version of @c instruction.
|
|
///
|
|
/// Internally, instructions do not retain the original sizes of offsets/displacements or immediates so the following are available:
|
|
///
|
|
/// If @c offset_length is '2' or '4', truncates any printed offset to 2 or 4 digits if it is compatible with being that length.
|
|
/// If @c immediate_length is '2' or '4', truncates any printed immediate value to 2 or 4 digits if it is compatible with being that length.
|
|
template<bool is_32bit>
|
|
std::string to_string(
|
|
std::pair<int, Instruction<is_32bit>> instruction,
|
|
Model model,
|
|
int offset_length = 0,
|
|
int immediate_length = 0);
|
|
|
|
}
|
|
|
|
#endif /* InstructionSets_x86_Instruction_h */
|