/* ** Instruction dispatch handling. ** Copyright (C) 2005-2022 Mike Pall. See Copyright Notice in luajit.h */ #ifndef _LJ_DISPATCH_H #define _LJ_DISPATCH_H #include "lj_obj.h" #include "lj_bc.h" #if LJ_HASJIT #include "lj_jit.h" #endif #if LJ_TARGET_MIPS /* Need our own global offset table for the dreaded MIPS calling conventions. */ #ifndef _LJ_VM_H LJ_ASMF int32_t LJ_FASTCALL lj_vm_modi(int32_t a, int32_t b); #endif #if LJ_SOFTFP #ifndef _LJ_IRCALL_H extern double __adddf3(double a, double b); extern double __subdf3(double a, double b); extern double __muldf3(double a, double b); extern double __divdf3(double a, double b); #endif #define SFGOTDEF(_) _(sqrt) _(__adddf3) _(__subdf3) _(__muldf3) _(__divdf3) #else #define SFGOTDEF(_) #endif #if LJ_HASJIT #define JITGOTDEF(_) _(lj_err_trace) _(lj_trace_exit) _(lj_trace_hot) #else #define JITGOTDEF(_) #endif #if LJ_HASFFI #define FFIGOTDEF(_) \ _(lj_meta_equal_cd) _(lj_ccallback_enter) _(lj_ccallback_leave) #else #define FFIGOTDEF(_) #endif #define GOTDEF(_) \ _(floor) _(ceil) _(trunc) _(log) _(log10) _(exp) _(sin) _(cos) _(tan) \ _(asin) _(acos) _(atan) _(sinh) _(cosh) _(tanh) _(frexp) _(modf) _(atan2) \ _(pow) _(fmod) _(ldexp) _(lj_vm_modi) \ _(lj_dispatch_call) _(lj_dispatch_ins) _(lj_dispatch_stitch) \ _(lj_dispatch_profile) _(lj_err_throw) \ _(lj_ffh_coroutine_wrap_err) _(lj_func_closeuv) _(lj_func_newL_gc) \ _(lj_gc_barrieruv) _(lj_gc_step) _(lj_gc_step_fixtop) _(lj_meta_arith) \ _(lj_meta_call) _(lj_meta_cat) _(lj_meta_comp) _(lj_meta_equal) \ _(lj_meta_for) _(lj_meta_istype) _(lj_meta_len) _(lj_meta_tget) \ _(lj_meta_tset) _(lj_state_growstack) _(lj_strfmt_number) \ _(lj_str_new) _(lj_tab_dup) _(lj_tab_get) _(lj_tab_getinth) _(lj_tab_len) \ _(lj_tab_new) _(lj_tab_newkey) _(lj_tab_next) _(lj_tab_reasize) \ _(lj_tab_setinth) _(lj_buf_putstr_reverse) _(lj_buf_putstr_lower) \ _(lj_buf_putstr_upper) _(lj_buf_tostr) \ JITGOTDEF(_) FFIGOTDEF(_) SFGOTDEF(_) enum { #define GOTENUM(name) LJ_GOT_##name, GOTDEF(GOTENUM) #undef GOTENUM LJ_GOT__MAX }; #endif /* Type of hot counter. Must match the code in the assembler VM. */ /* 16 bits are sufficient. Only 0.0015% overhead with maximum slot penalty. */ typedef uint16_t HotCount; /* Number of hot counter hash table entries (must be a power of two). */ #define HOTCOUNT_SIZE 64 #define HOTCOUNT_PCMASK ((HOTCOUNT_SIZE-1)*sizeof(HotCount)) /* Hotcount decrements. */ #define HOTCOUNT_LOOP 2 #define HOTCOUNT_CALL 1 /* This solves a circular dependency problem -- bump as needed. Sigh. */ #define GG_NUM_ASMFF 57 #define GG_LEN_DDISP (BC__MAX + GG_NUM_ASMFF) #define GG_LEN_SDISP BC_FUNCF #define GG_LEN_DISP (GG_LEN_DDISP + GG_LEN_SDISP) /* Global state, main thread and extra fields are allocated together. */ typedef struct GG_State { lua_State L; /* Main thread. */ global_State g; /* Global state. */ #if LJ_TARGET_ARM && !LJ_TARGET_NX /* Make g reachable via K12 encoded DISPATCH-relative addressing. */ uint8_t align1[(16-sizeof(global_State))&15]; #endif #if LJ_TARGET_MIPS ASMFunction got[LJ_GOT__MAX]; /* Global offset table. */ #endif #if LJ_HASJIT jit_State J; /* JIT state. */ HotCount hotcount[HOTCOUNT_SIZE]; /* Hot counters. */ #if LJ_TARGET_ARM && !LJ_TARGET_NX /* Ditto for J. */ uint8_t align2[(16-sizeof(jit_State)-sizeof(HotCount)*HOTCOUNT_SIZE)&15]; #endif #endif ASMFunction dispatch[GG_LEN_DISP]; /* Instruction dispatch tables. */ BCIns bcff[GG_NUM_ASMFF]; /* Bytecode for ASM fast functions. */ } GG_State; #define GG_OFS(field) ((int)offsetof(GG_State, field)) #define G2GG(gl) ((GG_State *)((char *)(gl) - GG_OFS(g))) #define J2GG(j) ((GG_State *)((char *)(j) - GG_OFS(J))) #define L2GG(L) (G2GG(G(L))) #define J2G(J) (&J2GG(J)->g) #define G2J(gl) (&G2GG(gl)->J) #define L2J(L) (&L2GG(L)->J) #define GG_G2J (GG_OFS(J) - GG_OFS(g)) #define GG_G2DISP (GG_OFS(dispatch) - GG_OFS(g)) #define GG_DISP2G (GG_OFS(g) - GG_OFS(dispatch)) #define GG_DISP2J (GG_OFS(J) - GG_OFS(dispatch)) #define GG_DISP2HOT (GG_OFS(hotcount) - GG_OFS(dispatch)) #define GG_DISP2STATIC (GG_LEN_DDISP*(int)sizeof(ASMFunction)) #define hotcount_get(gg, pc) \ (gg)->hotcount[(u32ptr(pc)>>2) & (HOTCOUNT_SIZE-1)] #define hotcount_set(gg, pc, val) \ (hotcount_get((gg), (pc)) = (HotCount)(val)) /* Dispatch table management. */ LJ_FUNC void lj_dispatch_init(GG_State *GG); #if LJ_HASJIT LJ_FUNC void lj_dispatch_init_hotcount(global_State *g); #endif LJ_FUNC void lj_dispatch_update(global_State *g); /* Instruction dispatch callback for hooks or when recording. */ LJ_FUNCA void LJ_FASTCALL lj_dispatch_ins(lua_State *L, const BCIns *pc); LJ_FUNCA ASMFunction LJ_FASTCALL lj_dispatch_call(lua_State *L, const BCIns*pc); #if LJ_HASJIT LJ_FUNCA void LJ_FASTCALL lj_dispatch_stitch(jit_State *J, const BCIns *pc); #endif #if LJ_HASPROFILE LJ_FUNCA void LJ_FASTCALL lj_dispatch_profile(lua_State *L, const BCIns *pc); #endif #if LJ_HASFFI && !defined(_BUILDVM_H) /* Save/restore errno and GetLastError() around hooks, exits and recording. */ #include #if LJ_TARGET_WINDOWS #define WIN32_LEAN_AND_MEAN #include #define ERRNO_SAVE int olderr = errno; DWORD oldwerr = GetLastError(); #define ERRNO_RESTORE errno = olderr; SetLastError(oldwerr); #else #define ERRNO_SAVE int olderr = errno; #define ERRNO_RESTORE errno = olderr; #endif #else #define ERRNO_SAVE #define ERRNO_RESTORE #endif #endif