mips/include/mips32.h

/* Copyright (c) 2024 Freya Murphy */

#ifndef __MIPS32_H__
#define __MIPS32_H__

#include <mlimits.h>
#include <stdint.h>

/* all mips registers $0-$31 */
enum mips32_register {
	MIPS32_REG_ZERO =  0,
	MIPS32_REG_AT   =  1,
	MIPS32_REG_V0   =  2,
	MIPS32_REG_V1   =  3,
	MIPS32_REG_A0   =  4,
	MIPS32_REG_A1   =  5,
	MIPS32_REG_A2   =  6,
	MIPS32_REG_A3   =  7,
	MIPS32_REG_T0   =  8,
	MIPS32_REG_T1   =  9,
	MIPS32_REG_T2   = 10,
	MIPS32_REG_T3   = 11,
	MIPS32_REG_T4   = 12,
	MIPS32_REG_T5   = 13,
	MIPS32_REG_T6   = 14,
	MIPS32_REG_T7   = 15,
	MIPS32_REG_S0   = 16,
	MIPS32_REG_S1   = 17,
	MIPS32_REG_S2   = 18,
	MIPS32_REG_S3   = 19,
	MIPS32_REG_S4   = 20,
	MIPS32_REG_S5   = 21,
	MIPS32_REG_S6   = 22,
	MIPS32_REG_S7   = 23,
	MIPS32_REG_T8   = 24,
	MIPS32_REG_T9   = 25,
	MIPS32_REG_K0   = 26,
	MIPS32_REG_K1   = 27,
	MIPS32_REG_GP   = 28,
	MIPS32_REG_SP   = 29,
	MIPS32_REG_FP   = 30,
	MIPS32_REG_RA   = 31,
};

/* mips instruction format */
enum mips32_instruction_format {
	MIPS32_FORMAT_R,
	MIPS32_FORMAT_I,
	MIPS32_FORMAT_J,
	MIPS32_FORMAT_B,
};

/* mips instructions */
enum mips32_instruction_type {
	MIPS32_INS_ADD,
	MIPS32_INS_ADDI,
	MIPS32_INS_ADDIU,
	MIPS32_INS_ADDU,
	MIPS32_INS_AND,
	MIPS32_INS_ANDI,
	MIPS32_INS_BAL,
	MIPS32_INS_BALC,
	MIPS32_INS_BC,
	MIPS32_INS_BEQ,
	MIPS32_INS_BEQL,
	MIPS32_INS_BGEZ,
	MIPS32_INS_BGEZAL,
	MIPS32_INS_BGEZALL,
	MIPS32_INS_BGEZL,
	MIPS32_INS_BGTZ,
	MIPS32_INS_BGTZL,
	MIPS32_INS_BLEZ,
	MIPS32_INS_BLEZL,
	MIPS32_INS_BLTZ,
	MIPS32_INS_BLTZAL,
	MIPS32_INS_BLTZALL,
	MIPS32_INS_BLTZL,
	MIPS32_INS_BNE,
	MIPS32_INS_BNEL,
	MIPS32_INS_DDIV,
	MIPS32_INS_DDIVU,
	MIPS32_INS_DIV,
	MIPS32_INS_DIVU,
	MIPS32_INS_J,
	MIPS32_INS_JAL,
	MIPS32_INS_JALR,
	MIPS32_INS_JALX,
	MIPS32_INS_JR,
	MIPS32_INS_LB,
	MIPS32_INS_LBU,
	MIPS32_INS_LH,
	MIPS32_INS_LHU,
	MIPS32_INS_LUI,
	MIPS32_INS_LW,
	MIPS32_INS_LWL,
	MIPS32_INS_LWR,
	MIPS32_INS_MFHI,
	MIPS32_INS_MFLO,
	MIPS32_INS_MTHI,
	MIPS32_INS_MTLO,
	MIPS32_INS_MULT,
	MIPS32_INS_MULTU,
	MIPS32_INS_SB,
	MIPS32_INS_SH,
	MIPS32_INS_SW,
	MIPS32_INS_SWL,
	MIPS32_INS_SWR,
	MIPS32_INS_SLL,
	MIPS32_INS_SLLV,
	MIPS32_INS_SLT,
	MIPS32_INS_SLTI,
	MIPS32_INS_SLTIU,
	MIPS32_INS_SLTU,
	MIPS32_INS_SRA,
	MIPS32_INS_SRAV,
	MIPS32_INS_SRL,
	MIPS32_INS_SRLV,
	MIPS32_INS_SUB,
	MIPS32_INS_SUBU,
	MIPS32_INS_SYSCALL,
	MIPS32_INS_OR,
	MIPS32_INS_ORI,
	MIPS32_INS_NOR,
	MIPS32_INS_XOR,
	MIPS32_INS_XORI,
	// gets the size of the enum
	__MIPS32_INS_LEN,
};

/* mips instruction R TYPE */
struct mips32_instruction_r_data {
	uint32_t funct : 6;
	uint32_t shamt : 5;
	uint32_t rd    : 5;
	uint32_t rt    : 5;
	uint32_t rs    : 5;
	uint32_t op    : 6;
} __attribute__((packed));

/* mips instruction I TYPE */
struct mips32_instruction_i_data {
	uint32_t immd : 16;
	uint32_t rt    : 5;
	uint32_t rs    : 5;
	uint32_t op    : 6;
} __attribute__((packed));

/* mips instruction J TYPE */
struct mips32_instruction_j_data {
	uint32_t target : 26;
	uint32_t op      : 6;
} __attribute__((packed));

/* mips instruction BRANCH TYPE */
struct mips32_instruction_branch_data {
	 int32_t offset : 16;
	uint32_t funct  : 5;
	uint32_t rs     : 5;
	uint32_t op     : 6;
} __attribute__((packed));

/* mips instruction information */
struct mips32_instruction {
	// metadata
	enum mips32_instruction_type type;
	enum mips32_instruction_format format;
	const char *name;

	// data
	union {
		uint32_t data;
		struct mips32_instruction_r_data R_data;
		struct mips32_instruction_i_data I_data;
		struct mips32_instruction_j_data J_data;
		struct mips32_instruction_branch_data B_data;
	} __attribute__((packed));
};


#define MIPS32_INS(ins, format, ...) \
	[MIPS32_INS_ ##ins] = { \
		MIPS32_INS_ ##ins, \
		MIPS32_FORMAT_ ##format, \
		#ins, \
		.format##_data = { __VA_ARGS__ } \
	}, \

static const struct mips32_instruction mips32_instructions[] = {
/* ADD - add */
#define MIPS32_OP_SPECIAL    0b000000
#define MIPS32_FUNCT_ADD     0b100000
MIPS32_INS(ADD, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_ADD)

/* ADDI - add immediate */
#define MIPS32_OP_ADDI       0b001000
MIPS32_INS(ADDI, I, .op = MIPS32_OP_ADDI)

/* ADDIU - add immediate unsigned */
#define MIPS32_OP_ADDIU      0b001001
MIPS32_INS(ADDIU, I, .op = MIPS32_OP_ADDIU)

/* ADDU - add unsigned */
#define MIPS32_FUNCT_ADDU    0b100001
MIPS32_INS(ADDU, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_ADDU)

/* AND - and */
#define MIPS32_FUNCT_AND     0b100100
MIPS32_INS(AND, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_AND)

/* ANDI - and immediate */
#define MIPS32_OP_ANDI       0b001100
MIPS32_INS(ANDI, I, .op = MIPS32_OP_ANDI)

/* BAL - branch and link */
#define MIPS32_OP_REGIMM     0b000001
#define MIPS32_FUNCT_BAL     0b10001
MIPS32_INS(BAL, B, .op = MIPS32_OP_REGIMM, .funct = MIPS32_FUNCT_BAL)

/* BALC - branch and link, compact */
#define MIPS32_OP_BALC       0b111010
MIPS32_INS(BALC, J, .op = MIPS32_OP_BALC)

/* BC - branch, compact */
#define MIPS32_OP_BC         0b110010
MIPS32_INS(BC, J, .op = MIPS32_OP_BC)

/* BEQ - branch on equal */
#define MIPS32_OP_BEQ        0b000100
MIPS32_INS(BEQ, I, .op = MIPS32_OP_BEQ)

/* BEQL - branch on equal likely */
#define MIPS32_OP_BEQL       0b010100
MIPS32_INS(BEQL, I, .op = MIPS32_OP_BEQL)

/* BGEZ - branch on greater than or equal to zero */
#define MIPS32_FUNCT_BGEZ    0b00001
MIPS32_INS(BGEZ, B, .op = MIPS32_OP_REGIMM, .funct = MIPS32_FUNCT_BGEZ)

/* BGEZAL - branch on greater than or equal to zero and link */
#define MIPS32_FUNCT_BGEZAL  0b10001
MIPS32_INS(BGEZAL, B, .op = MIPS32_OP_REGIMM, .funct = MIPS32_FUNCT_BGEZAL)

/* BGEZAL - branch on greater than or equal to zero and link likely */
#define MIPS32_FUNCT_BGEZALL 0b10011
MIPS32_INS(BGEZALL, B, .op = MIPS32_OP_REGIMM, .funct = MIPS32_FUNCT_BGEZALL)

/* BGEZL - branch on greater than or equal to zero likely */
#define MIPS32_FUNCT_BGEZL   0b00011
MIPS32_INS(BGEZL, B, .op = MIPS32_OP_REGIMM, .funct = MIPS32_FUNCT_BGEZL)

/* BGTZ - branch on greater than zero */
#define MIPS32_OP_BGTZ       0b000111
MIPS32_INS(BGTZ, I, .op = MIPS32_OP_BGTZ)

/* BGTZL - branch on greater than zero likely */
#define MIPS32_OP_BGTZL      0b010111
MIPS32_INS(BGTZL, I, .op = MIPS32_OP_BGTZL)

/* BLEZ - branch on less than or equal to zero */
#define MIPS32_OP_BLEZ       0b000110
MIPS32_INS(BLEZ, I, .op = MIPS32_OP_BLEZ)

/* BLEZL - branch on less than or equal to zero likely */
#define MIPS32_OP_BLEZL      0b010110
MIPS32_INS(BLEZL, I, .op = MIPS32_OP_BLEZL)

/* BLTZ - branch on less than zero */
#define MIPS32_FUNCT_BLTZ    0b00000
MIPS32_INS(BLTZ, B, .op = MIPS32_OP_REGIMM, .funct = MIPS32_FUNCT_BLTZ)

/* BLTZAL - branch on less than zero and link */
#define MIPS32_FUNCT_BLTZAL  0b10000
MIPS32_INS(BLTZAL, B, .op = MIPS32_OP_REGIMM, .funct = MIPS32_FUNCT_BLTZAL)

/* BLTZALL - branch on less than zero and link likely */
#define MIPS32_FUNCT_BLTZALL 0b10010
MIPS32_INS(BLTZALL, B, .op = MIPS32_OP_REGIMM, .funct = MIPS32_FUNCT_BLTZALL)

/* BLTZL - branch on less than zero likely */
#define MIPS32_FUNCT_BLTZL   0b00010
MIPS32_INS(BLTZL, B, .op = MIPS32_OP_REGIMM, .funct = MIPS32_FUNCT_BLTZL)

/* BNE - branch on not equal */
#define MIPS32_OP_BNE        0b000101
MIPS32_INS(BNE, I, .op = MIPS32_OP_BNE)

/* BNEL - branch on not equal likely */
#define MIPS32_OP_BNEL       0b010101
MIPS32_INS(BNEL, I, .op = MIPS32_OP_BNEL)

/* DDIV - doubleword divide */
#define MIPS32_FUNCT_DDIV    0b011110
MIPS32_INS(DDIV, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_DDIV)

/* DDIVU - doubleword divide unsigned */
#define MIPS32_FUNCT_DDIVU   0b011111
MIPS32_INS(DDIVU, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_DDIVU)

/* DIV - divide */
#define MIPS32_FUNCT_DIV     0b011010
MIPS32_INS(DIV, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_DIV)

/* DIVU - divide unsigned */
#define MIPS32_FUNCT_DIVU    0b011011
MIPS32_INS(DIVU, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_DIVU)

/* J - jump */
#define MIPS32_OP_J          0b000010
MIPS32_INS(J, J, .op = MIPS32_OP_J)

/* JAL - jump and link */
#define MIPS32_OP_JAL        0b000011
MIPS32_INS(JAL, J, .op = MIPS32_OP_JAL)

/* JALR - jump and link register */
#define MIPS32_FUNCT_JALR    0b001001
MIPS32_INS(JALR, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_JALR)

/* JALX - jump and link exchange */
#define MIPS32_OP_JALX       0b011101
MIPS32_INS(JALX, J, .op = MIPS32_OP_JALX)

/* JR - jump register */
#define MIPS32_FUNCT_JR      0b001000
MIPS32_INS(JR, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_JR)

/* LB - load byte */
#define MIPS32_OP_LB         0b100000
MIPS32_INS(LB, I, .op = MIPS32_OP_LB)

/* LBU - load byte unsigned */
#define MIPS32_OP_LBU        0b100100
MIPS32_INS(LBU, I, .op = MIPS32_OP_LBU)

/* LH - load half */
#define MIPS32_OP_LH         0b100001
MIPS32_INS(LH, I, .op = MIPS32_OP_LH)

/* LHU - load half unsigned */
#define MIPS32_OP_LHU        0b100101
MIPS32_INS(LHU, I, .op = MIPS32_OP_LHU)

/* LUI - load upper immediate */
#define MIPS32_OP_LUI        0b001111
MIPS32_INS(LUI, I, .op = MIPS32_OP_LUI)

/* LW - load word */
#define MIPS32_OP_LW         0b100011
MIPS32_INS(LW, I, .op = MIPS32_OP_LW)

/* LWL - load word left */
#define MIPS32_OP_LWL        0b100010
MIPS32_INS(LWL, I, .op = MIPS32_OP_LWL)

/* LWR - load word right */
#define MIPS32_OP_LWR        0b100110
MIPS32_INS(LWR, I, .op = MIPS32_OP_LWR)

/* MFHI - move from hi */
#define MIPS32_FUNCT_MFHI    0b010000
MIPS32_INS(MFHI, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_MFHI)

/* MFLO - move from hi */
#define MIPS32_FUNCT_MFLO    0b010010
MIPS32_INS(MFLO, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_MFLO)

/* MTHI - move from hi */
#define MIPS32_FUNCT_MTHI    0b010001
MIPS32_INS(MTHI, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_MTHI)

/* MTLO - move from hi */
#define MIPS32_FUNCT_MTLO    0b010011
MIPS32_INS(MTLO, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_MTLO)

/* MULT - multiply */
#define MIPS32_FUNCT_MULT    0b011000
MIPS32_INS(MULT, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_MULT)

/* MULTU - multiply unsigned */
#define MIPS32_FUNCT_MULTU   0b011001
MIPS32_INS(MULTU, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_MULTU)

/* SB - store byte */
#define MIPS32_OP_SB         0b101000
MIPS32_INS(SB, I, .op = MIPS32_OP_SB)

/* SH - store half */
#define MIPS32_OP_SH         0b101001
MIPS32_INS(SH, I, .op = MIPS32_OP_SH)

/* SW - store word */
#define MIPS32_OP_SW         0b101011
MIPS32_INS(SW, I, .op = MIPS32_OP_SW)

/* SWL - store word left */
#define MIPS32_OP_SWL        0b101010
MIPS32_INS(SWL, I, .op = MIPS32_OP_SWL)

/* SWR - store word right */
#define MIPS32_OP_SWR        0b101110
MIPS32_INS(SWR, I, .op = MIPS32_OP_SWR)

/* SLL - shift left logical */
#define MIPS32_FUNCT_SLL     0b000000
MIPS32_INS(SLL, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_SLL)

/* SLLV - shift left logical variable */
#define MIPS32_FUNCT_SLLV    0b000100
MIPS32_INS(SLLV, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_SLLV)

/* SLT - set less then */
#define MIPS32_FUNCT_SLT     0b101010
MIPS32_INS(SLT, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_SLT)

/* SLTI - set less then immediate */
#define MIPS32_OP_SLTI       0b001010
MIPS32_INS(SLTI, I, .op = MIPS32_OP_SLTI)

/* SLTIU - set less then imemdiate unsigned */
#define MIPS32_OP_SLTIU      0b001011
MIPS32_INS(SLTIU, I, .op = MIPS32_OP_SLTIU)

/* SLTU - set less than unsigned */
#define MIPS32_FUNCT_SLTU    0b101011
MIPS32_INS(SLTU, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_SLTU)

/* SRA - shift right arithmetic */
#define MIPS32_FUNCT_SRA     0b000011
MIPS32_INS(SRA, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_SRA)

/* SRAV - shift right arithmetic variable */
#define MIPS32_FUNCT_SRAV    0b000111
MIPS32_INS(SRAV, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_SRAV)

/* SRL - shift right logical */
#define MIPS32_FUNCT_SRL     0b000010
MIPS32_INS(SRL, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_SRL)

/* SRLV - shift right logical variable */
#define MIPS32_FUNCT_SRLV    0b000110
MIPS32_INS(SRLV, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_SRLV)

/* SUB - subtract */
#define MIPS32_FUNCT_SUB     0b100010
MIPS32_INS(SUB, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_SUB)

/* SUBU - subtract unsigned */
#define MIPS32_FUNCT_SUBU    0b100011
MIPS32_INS(SUBU, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_SUBU)

/* SYSCALL - syscall */
#define MIPS32_FUNCT_SYSCALL 0b001100
MIPS32_INS(SYSCALL, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_SYSCALL)

/* OR - or */
#define MIPS32_FUNCT_OR      0b100101
MIPS32_INS(OR, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_OR)

/* ORI - or imemdiate */
#define MIPS32_OP_ORI        0b001101
MIPS32_INS(ORI, I, .op = MIPS32_OP_ORI)

/* NOR - not or */
#define MIPS32_FUNCT_NOR     0b100111
MIPS32_INS(NOR, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_NOR)

/* XOR - exclusive or */
#define MIPS32_FUNCT_XOR     0b100110
MIPS32_INS(XOR, R, .op = MIPS32_OP_SPECIAL, .funct = MIPS32_FUNCT_XOR)

/* XORI - exclusive or immediate */
#define MIPS32_OP_XORI       0b001110
MIPS32_INS(XORI, I, .op = MIPS32_OP_XORI)
};

#undef MIPS32_INS

/* mips32 directive types */
enum mips32_directive_type {
	MIPS32_DIRECTIVE_ALIGN,
	MIPS32_DIRECTIVE_SPACE,
	MIPS32_DIRECTIVE_WORD,
	MIPS32_DIRECTIVE_HALF,
	MIPS32_DIRECTIVE_BYTE,
	MIPS32_DIRECTIVE_SECTION,
	MIPS32_DIRECTIVE_EXTERN,
	MIPS32_DIRECTIVE_GLOBL,
};

/* mip32 directive */
struct mips32_directive {
	enum mips32_directive_type type;
	uint32_t len; // used for words, halfs, bytes
	union {
		uint16_t align;
		uint16_t space;
		uint32_t words[MAX_ARG_LENGTH];
		uint16_t halfs[MAX_ARG_LENGTH];
		uint8_t bytes[MAX_ARG_LENGTH];
		char name[MAX_ARG_LENGTH];
	};
};

#endif /* __MIPS32_H__ */