/* ** Definitions for ARM64 CPUs. ** Copyright (C) 2005-2022 Mike Pall. See Copyright Notice in luajit.h */ #ifndef _LJ_TARGET_ARM64_H #define _LJ_TARGET_ARM64_H /* -- Registers IDs ------------------------------------------------------- */ #define GPRDEF(_) \ _(X0) _(X1) _(X2) _(X3) _(X4) _(X5) _(X6) _(X7) \ _(X8) _(X9) _(X10) _(X11) _(X12) _(X13) _(X14) _(X15) \ _(X16) _(X17) _(X18) _(X19) _(X20) _(X21) _(X22) _(X23) \ _(X24) _(X25) _(X26) _(X27) _(X28) _(FP) _(LR) _(SP) #define FPRDEF(_) \ _(D0) _(D1) _(D2) _(D3) _(D4) _(D5) _(D6) _(D7) \ _(D8) _(D9) _(D10) _(D11) _(D12) _(D13) _(D14) _(D15) \ _(D16) _(D17) _(D18) _(D19) _(D20) _(D21) _(D22) _(D23) \ _(D24) _(D25) _(D26) _(D27) _(D28) _(D29) _(D30) _(D31) #define VRIDDEF(_) #define RIDENUM(name) RID_##name, enum { GPRDEF(RIDENUM) /* General-purpose registers (GPRs). */ FPRDEF(RIDENUM) /* Floating-point registers (FPRs). */ RID_MAX, RID_TMP = RID_LR, RID_ZERO = RID_SP, /* Calling conventions. */ RID_RET = RID_X0, RID_RETLO = RID_X0, RID_RETHI = RID_X1, RID_FPRET = RID_D0, /* These definitions must match with the *.dasc file(s): */ RID_BASE = RID_X19, /* Interpreter BASE. */ RID_LPC = RID_X21, /* Interpreter PC. */ RID_GL = RID_X22, /* Interpreter GL. */ RID_LREG = RID_X23, /* Interpreter L. */ /* Register ranges [min, max) and number of registers. */ RID_MIN_GPR = RID_X0, RID_MAX_GPR = RID_SP+1, RID_MIN_FPR = RID_MAX_GPR, RID_MAX_FPR = RID_D31+1, RID_NUM_GPR = RID_MAX_GPR - RID_MIN_GPR, RID_NUM_FPR = RID_MAX_FPR - RID_MIN_FPR }; #define RID_NUM_KREF RID_NUM_GPR #define RID_MIN_KREF RID_X0 /* -- Register sets ------------------------------------------------------- */ /* Make use of all registers, except for x18, fp, lr and sp. */ #define RSET_FIXED \ (RID2RSET(RID_X18)|RID2RSET(RID_FP)|RID2RSET(RID_LR)|RID2RSET(RID_SP)|\ RID2RSET(RID_GL)) #define RSET_GPR (RSET_RANGE(RID_MIN_GPR, RID_MAX_GPR) - RSET_FIXED) #define RSET_FPR RSET_RANGE(RID_MIN_FPR, RID_MAX_FPR) #define RSET_ALL (RSET_GPR|RSET_FPR) #define RSET_INIT RSET_ALL /* lr is an implicit scratch register. */ #define RSET_SCRATCH_GPR (RSET_RANGE(RID_X0, RID_X17+1)) #define RSET_SCRATCH_FPR \ (RSET_RANGE(RID_D0, RID_D7+1)|RSET_RANGE(RID_D16, RID_D31+1)) #define RSET_SCRATCH (RSET_SCRATCH_GPR|RSET_SCRATCH_FPR) #define REGARG_FIRSTGPR RID_X0 #define REGARG_LASTGPR RID_X7 #define REGARG_NUMGPR 8 #define REGARG_FIRSTFPR RID_D0 #define REGARG_LASTFPR RID_D7 #define REGARG_NUMFPR 8 /* -- Spill slots --------------------------------------------------------- */ /* Spill slots are 32 bit wide. An even/odd pair is used for FPRs. ** ** SPS_FIXED: Available fixed spill slots in interpreter frame. ** This definition must match with the vm_arm64.dasc file. ** Pre-allocate some slots to avoid sp adjust in every root trace. ** ** SPS_FIRST: First spill slot for general use. Reserve min. two 32 bit slots. */ #define SPS_FIXED 4 #define SPS_FIRST 2 #define SPOFS_TMP 0 #define sps_scale(slot) (4 * (int32_t)(slot)) #define sps_align(slot) (((slot) - SPS_FIXED + 3) & ~3) /* -- Exit state ---------------------------------------------------------- */ /* This definition must match with the *.dasc file(s). */ typedef struct { lua_Number fpr[RID_NUM_FPR]; /* Floating-point registers. */ intptr_t gpr[RID_NUM_GPR]; /* General-purpose registers. */ int32_t spill[256]; /* Spill slots. */ } ExitState; /* Highest exit + 1 indicates stack check. */ #define EXITSTATE_CHECKEXIT 1 /* Return the address of a per-trace exit stub. */ static LJ_AINLINE uint32_t *exitstub_trace_addr_(uint32_t *p, uint32_t exitno) { while (*p == (LJ_LE ? 0xd503201f : 0x1f2003d5)) p++; /* Skip A64I_NOP. */ return p + 3 + exitno; } /* Avoid dependence on lj_jit.h if only including lj_target.h. */ #define exitstub_trace_addr(T, exitno) \ exitstub_trace_addr_((MCode *)((char *)(T)->mcode + (T)->szmcode), (exitno)) /* -- Instructions -------------------------------------------------------- */ /* ARM64 instructions are always little-endian. Swap for ARM64BE. */ #if LJ_BE #define A64I_LE(x) (lj_bswap(x)) #else #define A64I_LE(x) (x) #endif /* Instruction fields. */ #define A64F_D(r) (r) #define A64F_N(r) ((r) << 5) #define A64F_A(r) ((r) << 10) #define A64F_M(r) ((r) << 16) #define A64F_IMMS(x) ((x) << 10) #define A64F_IMMR(x) ((x) << 16) #define A64F_U16(x) ((x) << 5) #define A64F_U12(x) ((x) << 10) #define A64F_S26(x) (((uint32_t)(x) & 0x03ffffffu)) #define A64F_S19(x) (((uint32_t)(x) & 0x7ffffu) << 5) #define A64F_S14(x) (((uint32_t)(x) & 0x3fffu) << 5) #define A64F_S9(x) ((x) << 12) #define A64F_BIT(x) ((x) << 19) #define A64F_SH(sh, x) (((sh) << 22) | ((x) << 10)) #define A64F_EX(ex) (A64I_EX | ((ex) << 13)) #define A64F_EXSH(ex,x) (A64I_EX | ((ex) << 13) | ((x) << 10)) #define A64F_FP8(x) ((x) << 13) #define A64F_CC(cc) ((cc) << 12) #define A64F_LSL16(x) (((x) / 16) << 21) #define A64F_BSH(sh) ((sh) << 10) /* Check for valid field range. */ #define A64F_S_OK(x, b) ((((x) + (1 << (b-1))) >> (b)) == 0) typedef enum A64Ins { A64I_S = 0x20000000, A64I_X = 0x80000000, A64I_EX = 0x00200000, A64I_ON = 0x00200000, A64I_K12 = 0x1a000000, A64I_K13 = 0x18000000, A64I_LS_U = 0x01000000, A64I_LS_S = 0x00800000, A64I_LS_R = 0x01200800, A64I_LS_SH = 0x00001000, A64I_LS_UXTWx = 0x00004000, A64I_LS_SXTWx = 0x0000c000, A64I_LS_SXTXx = 0x0000e000, A64I_LS_LSLx = 0x00006000, A64I_ADDw = 0x0b000000, A64I_ADDx = 0x8b000000, A64I_ADDSw = 0x2b000000, A64I_ADDSx = 0xab000000, A64I_NEGw = 0x4b0003e0, A64I_NEGx = 0xcb0003e0, A64I_SUBw = 0x4b000000, A64I_SUBx = 0xcb000000, A64I_SUBSw = 0x6b000000, A64I_SUBSx = 0xeb000000, A64I_MULw = 0x1b007c00, A64I_MULx = 0x9b007c00, A64I_SMULL = 0x9b207c00, A64I_ANDw = 0x0a000000, A64I_ANDx = 0x8a000000, A64I_ANDSw = 0x6a000000, A64I_ANDSx = 0xea000000, A64I_EORw = 0x4a000000, A64I_EORx = 0xca000000, A64I_ORRw = 0x2a000000, A64I_ORRx = 0xaa000000, A64I_TSTw = 0x6a00001f, A64I_TSTx = 0xea00001f, A64I_CMPw = 0x6b00001f, A64I_CMPx = 0xeb00001f, A64I_CMNw = 0x2b00001f, A64I_CMNx = 0xab00001f, A64I_CCMPw = 0x7a400000, A64I_CCMPx = 0xfa400000, A64I_CSELw = 0x1a800000, A64I_CSELx = 0x9a800000, A64I_ASRw = 0x13007c00, A64I_ASRx = 0x9340fc00, A64I_LSLx = 0xd3400000, A64I_LSRx = 0xd340fc00, A64I_SHRw = 0x1ac02000, A64I_SHRx = 0x9ac02000, /* lsl/lsr/asr/ror x0, x0, x0 */ A64I_REVw = 0x5ac00800, A64I_REVx = 0xdac00c00, A64I_EXTRw = 0x13800000, A64I_EXTRx = 0x93c00000, A64I_BFMw = 0x33000000, A64I_BFMx = 0xb3400000, A64I_SBFMw = 0x13000000, A64I_SBFMx = 0x93400000, A64I_SXTBw = 0x13001c00, A64I_SXTHw = 0x13003c00, A64I_SXTW = 0x93407c00, A64I_UBFMw = 0x53000000, A64I_UBFMx = 0xd3400000, A64I_UXTBw = 0x53001c00, A64I_UXTHw = 0x53003c00, A64I_MOVw = 0x2a0003e0, A64I_MOVx = 0xaa0003e0, A64I_MVNw = 0x2a2003e0, A64I_MVNx = 0xaa2003e0, A64I_MOVKw = 0x72800000, A64I_MOVKx = 0xf2800000, A64I_MOVZw = 0x52800000, A64I_MOVZx = 0xd2800000, A64I_MOVNw = 0x12800000, A64I_MOVNx = 0x92800000, A64I_LDRB = 0x39400000, A64I_LDRH = 0x79400000, A64I_LDRw = 0xb9400000, A64I_LDRx = 0xf9400000, A64I_LDRLw = 0x18000000, A64I_LDRLx = 0x58000000, A64I_STRB = 0x39000000, A64I_STRH = 0x79000000, A64I_STRw = 0xb9000000, A64I_STRx = 0xf9000000, A64I_STPw = 0x29000000, A64I_STPx = 0xa9000000, A64I_LDPw = 0x29400000, A64I_LDPx = 0xa9400000, A64I_B = 0x14000000, A64I_BCC = 0x54000000, A64I_BL = 0x94000000, A64I_BR = 0xd61f0000, A64I_BLR = 0xd63f0000, A64I_TBZ = 0x36000000, A64I_TBNZ = 0x37000000, A64I_CBZ = 0x34000000, A64I_CBNZ = 0x35000000, A64I_NOP = 0xd503201f, /* FP */ A64I_FADDd = 0x1e602800, A64I_FSUBd = 0x1e603800, A64I_FMADDd = 0x1f400000, A64I_FMSUBd = 0x1f408000, A64I_FNMADDd = 0x1f600000, A64I_FNMSUBd = 0x1f608000, A64I_FMULd = 0x1e600800, A64I_FDIVd = 0x1e601800, A64I_FNEGd = 0x1e614000, A64I_FABS = 0x1e60c000, A64I_FSQRTd = 0x1e61c000, A64I_LDRs = 0xbd400000, A64I_LDRd = 0xfd400000, A64I_STRs = 0xbd000000, A64I_STRd = 0xfd000000, A64I_LDPs = 0x2d400000, A64I_LDPd = 0x6d400000, A64I_STPs = 0x2d000000, A64I_STPd = 0x6d000000, A64I_FCMPd = 0x1e602000, A64I_FCMPZd = 0x1e602008, A64I_FCSELd = 0x1e600c00, A64I_FRINTMd = 0x1e654000, A64I_FRINTPd = 0x1e64c000, A64I_FRINTZd = 0x1e65c000, A64I_FCVT_F32_F64 = 0x1e624000, A64I_FCVT_F64_F32 = 0x1e22c000, A64I_FCVT_F32_S32 = 0x1e220000, A64I_FCVT_F64_S32 = 0x1e620000, A64I_FCVT_F32_U32 = 0x1e230000, A64I_FCVT_F64_U32 = 0x1e630000, A64I_FCVT_F32_S64 = 0x9e220000, A64I_FCVT_F64_S64 = 0x9e620000, A64I_FCVT_F32_U64 = 0x9e230000, A64I_FCVT_F64_U64 = 0x9e630000, A64I_FCVT_S32_F64 = 0x1e780000, A64I_FCVT_S32_F32 = 0x1e380000, A64I_FCVT_U32_F64 = 0x1e790000, A64I_FCVT_U32_F32 = 0x1e390000, A64I_FCVT_S64_F64 = 0x9e780000, A64I_FCVT_S64_F32 = 0x9e380000, A64I_FCVT_U64_F64 = 0x9e790000, A64I_FCVT_U64_F32 = 0x9e390000, A64I_FMOV_S = 0x1e204000, A64I_FMOV_D = 0x1e604000, A64I_FMOV_R_S = 0x1e260000, A64I_FMOV_S_R = 0x1e270000, A64I_FMOV_R_D = 0x9e660000, A64I_FMOV_D_R = 0x9e670000, A64I_FMOV_DI = 0x1e601000, } A64Ins; typedef enum A64Shift { A64SH_LSL, A64SH_LSR, A64SH_ASR, A64SH_ROR } A64Shift; typedef enum A64Extend { A64EX_UXTB, A64EX_UXTH, A64EX_UXTW, A64EX_UXTX, A64EX_SXTB, A64EX_SXTH, A64EX_SXTW, A64EX_SXTX, } A64Extend; /* ARM condition codes. */ typedef enum A64CC { CC_EQ, CC_NE, CC_CS, CC_CC, CC_MI, CC_PL, CC_VS, CC_VC, CC_HI, CC_LS, CC_GE, CC_LT, CC_GT, CC_LE, CC_AL, CC_HS = CC_CS, CC_LO = CC_CC } A64CC; #endif