/* ** FFI C call handling. ** Copyright (C) 2005-2015 Mike Pall. See Copyright Notice in luajit.h */ #ifndef _LJ_CCALL_H #define _LJ_CCALL_H #include "lj_obj.h" #include "lj_ctype.h" #if LJ_HASFFI /* -- C calling conventions ----------------------------------------------- */ #if LJ_TARGET_X86ORX64 #if LJ_TARGET_X86 #define CCALL_NARG_GPR 2 /* For fastcall arguments. */ #define CCALL_NARG_FPR 0 #define CCALL_NRET_GPR 2 #define CCALL_NRET_FPR 1 /* For FP results on x87 stack. */ #define CCALL_ALIGN_STACKARG 0 /* Don't align argument on stack. */ #elif LJ_ABI_WIN #define CCALL_NARG_GPR 4 #define CCALL_NARG_FPR 4 #define CCALL_NRET_GPR 1 #define CCALL_NRET_FPR 1 #define CCALL_SPS_EXTRA 4 #else #define CCALL_NARG_GPR 6 #define CCALL_NARG_FPR 8 #define CCALL_NRET_GPR 2 #define CCALL_NRET_FPR 2 #define CCALL_VECTOR_REG 1 /* Pass vectors in registers. */ #endif #define CCALL_SPS_FREE 1 #define CCALL_ALIGN_CALLSTATE 16 typedef LJ_ALIGN(16) union FPRArg { double d[2]; float f[4]; uint8_t b[16]; uint16_t s[8]; int i[4]; int64_t l[2]; } FPRArg; typedef intptr_t GPRArg; #elif LJ_TARGET_ARM #define CCALL_NARG_GPR 4 #define CCALL_NRET_GPR 2 /* For softfp double. */ #if LJ_ABI_SOFTFP #define CCALL_NARG_FPR 0 #define CCALL_NRET_FPR 0 #else #define CCALL_NARG_FPR 8 #define CCALL_NRET_FPR 4 #endif #define CCALL_SPS_FREE 0 typedef intptr_t GPRArg; typedef union FPRArg { double d; float f[2]; } FPRArg; #elif LJ_TARGET_ARM64 #define CCALL_NARG_GPR 8 #define CCALL_NRET_GPR 2 #define CCALL_NARG_FPR 8 #define CCALL_NRET_FPR 4 #define CCALL_SPS_FREE 0 typedef intptr_t GPRArg; typedef union FPRArg { double d; float f; uint32_t u32; } FPRArg; #elif LJ_TARGET_PPC #define CCALL_NARG_GPR 8 #define CCALL_NARG_FPR 8 #define CCALL_NRET_GPR 4 /* For complex double. */ #define CCALL_NRET_FPR 1 #define CCALL_SPS_EXTRA 4 #define CCALL_SPS_FREE 0 typedef intptr_t GPRArg; typedef double FPRArg; #elif LJ_TARGET_MIPS #define CCALL_NARG_GPR 4 #define CCALL_NARG_FPR 2 #define CCALL_NRET_GPR 2 #define CCALL_NRET_FPR 2 #define CCALL_SPS_EXTRA 7 #define CCALL_SPS_FREE 1 typedef intptr_t GPRArg; typedef union FPRArg { double d; struct { LJ_ENDIAN_LOHI(float f; , float g;) }; } FPRArg; #else #error "Missing calling convention definitions for this architecture" #endif #ifndef CCALL_SPS_EXTRA #define CCALL_SPS_EXTRA 0 #endif #ifndef CCALL_VECTOR_REG #define CCALL_VECTOR_REG 0 #endif #ifndef CCALL_ALIGN_STACKARG #define CCALL_ALIGN_STACKARG 1 #endif #ifndef CCALL_ALIGN_CALLSTATE #define CCALL_ALIGN_CALLSTATE 8 #endif #define CCALL_NUM_GPR \ (CCALL_NARG_GPR > CCALL_NRET_GPR ? CCALL_NARG_GPR : CCALL_NRET_GPR) #define CCALL_NUM_FPR \ (CCALL_NARG_FPR > CCALL_NRET_FPR ? CCALL_NARG_FPR : CCALL_NRET_FPR) /* Check against constants in lj_ctype.h. */ LJ_STATIC_ASSERT(CCALL_NUM_GPR <= CCALL_MAX_GPR); LJ_STATIC_ASSERT(CCALL_NUM_FPR <= CCALL_MAX_FPR); #define CCALL_MAXSTACK 32 /* -- C call state -------------------------------------------------------- */ typedef LJ_ALIGN(CCALL_ALIGN_CALLSTATE) struct CCallState { void (*func)(void); /* Pointer to called function. */ uint32_t spadj; /* Stack pointer adjustment. */ uint8_t nsp; /* Number of stack slots. */ uint8_t retref; /* Return value by reference. */ #if LJ_TARGET_X64 uint8_t ngpr; /* Number of arguments in GPRs. */ uint8_t nfpr; /* Number of arguments in FPRs. */ #elif LJ_TARGET_X86 uint8_t resx87; /* Result on x87 stack: 1:float, 2:double. */ #elif LJ_TARGET_ARM64 void *retp; /* Aggregate return pointer in x8. */ #elif LJ_TARGET_PPC uint8_t nfpr; /* Number of arguments in FPRs. */ #endif #if LJ_32 int32_t align1; #endif #if CCALL_NUM_FPR FPRArg fpr[CCALL_NUM_FPR]; /* Arguments/results in FPRs. */ #endif GPRArg gpr[CCALL_NUM_GPR]; /* Arguments/results in GPRs. */ GPRArg stack[CCALL_MAXSTACK]; /* Stack slots. */ } CCallState; /* -- C call handling ----------------------------------------------------- */ /* Really belongs to lj_vm.h. */ LJ_ASMF void LJ_FASTCALL lj_vm_ffi_call(CCallState *cc); LJ_FUNC CTypeID lj_ccall_ctid_vararg(CTState *cts, cTValue *o); LJ_FUNC int lj_ccall_func(lua_State *L, GCcdata *cd); #endif #endif