/* * Copyright (c) 2009, 2010 Wayne Meissner * All rights reserved. * * This file is part of ruby-ffi. * * This code is free software: you can redistribute it and/or modify it under * the terms of the GNU Lesser General Public License version 3 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License * version 3 for more details. * * You should have received a copy of the GNU Lesser General Public License * version 3 along with this work. If not, see . */ #ifndef _MSC_VER #include #endif #include #ifndef _WIN32 # include #endif #include #ifndef _MSC_VER #include #include #else typedef int bool; #define true 1 #define false 0 #endif #ifndef _WIN32 # include #endif #include #include #if defined(HAVE_NATIVETHREAD) && !defined(_WIN32) && !defined(__WIN32__) # include #endif #include #include "rbffi.h" #include "compat.h" #include "Function.h" #include "Types.h" #include "Type.h" #include "LastError.h" #include "Call.h" #include "ClosurePool.h" #include "MethodHandle.h" #define MAX_METHOD_FIXED_ARITY (6) #ifndef roundup # define roundup(x, y) ((((x)+((y)-1))/(y))*(y)) #endif #ifdef _WIN32 typedef char* caddr_t; #endif #ifdef USE_RAW # define METHOD_CLOSURE ffi_raw_closure # define METHOD_PARAMS ffi_raw* #else # define METHOD_CLOSURE ffi_closure # define METHOD_PARAMS void** #endif static bool prep_trampoline(void* ctx, void* code, Closure* closure, char* errmsg, size_t errmsgsize); static long trampoline_size(void); #if defined(__x86_64__) && defined(__GNUC__) # define CUSTOM_TRAMPOLINE 1 #endif struct MethodHandle { Closure* closure; }; static ClosurePool* defaultClosurePool; MethodHandle* rbffi_MethodHandle_Alloc(FunctionType* fnInfo, void* function) { MethodHandle* handle; Closure* closure = rbffi_Closure_Alloc(defaultClosurePool); if (closure == NULL) { rb_raise(rb_eNoMemError, "failed to allocate closure from pool"); return NULL; } handle = xcalloc(1, sizeof(*handle)); handle->closure = closure; closure->info = fnInfo; closure->function = function; return handle; } void rbffi_MethodHandle_Free(MethodHandle* handle) { if (handle != NULL) { rbffi_Closure_Free(handle->closure); } } void* rbffi_MethodHandle_CodeAddress(MethodHandle* handle) { return handle->closure->code; } #ifndef CUSTOM_TRAMPOLINE static void attached_method_invoke(ffi_cif* cif, void* retval, METHOD_PARAMS parameters, void* user_data); static ffi_type* methodHandleParamTypes[] = { &ffi_type_sint, &ffi_type_pointer, &ffi_type_ulong, }; static ffi_cif mh_cif; static bool prep_trampoline(void* ctx, void* code, Closure* closure, char* errmsg, size_t errmsgsize) { ffi_status ffiStatus; #if defined(USE_RAW) ffiStatus = ffi_prep_raw_closure(code, &mh_cif, attached_method_invoke, closure); #else ffiStatus = ffi_prep_closure(code, &mh_cif, attached_method_invoke, closure); #endif if (ffiStatus != FFI_OK) { snprintf(errmsg, errmsgsize, "ffi_prep_closure failed. status=%#x", ffiStatus); return false; } return true; } static long trampoline_size(void) { return sizeof(METHOD_CLOSURE); } /* * attached_method_invoke is used functions with more than 6 parameters, or * with struct param or return values */ static void attached_method_invoke(ffi_cif* cif, void* mretval, METHOD_PARAMS parameters, void* user_data) { Closure* handle = (Closure *) user_data; FunctionType* fnInfo = (FunctionType *) handle->info; #ifdef USE_RAW int argc = parameters[0].sint; VALUE* argv = *(VALUE **) ¶meters[1]; #else int argc = *(int *) parameters[0]; VALUE* argv = *(VALUE **) parameters[1]; #endif *(VALUE *) mretval = (*fnInfo->invoke)(argc, argv, handle->function, fnInfo); } #endif #if defined(CUSTOM_TRAMPOLINE) #if defined(__x86_64__) static VALUE custom_trampoline(int argc, VALUE* argv, VALUE self, Closure*); #define TRAMPOLINE_CTX_MAGIC (0xfee1deadcafebabe) #define TRAMPOLINE_FUN_MAGIC (0xfeedfacebeeff00d) /* * This is a hand-coded trampoline to speedup entry from ruby to the FFI translation * layer for x86_64 arches. * * Since a ruby function has exactly 3 arguments, and the first 6 arguments are * passed in registers for x86_64, we can tack on a context pointer by simply * putting a value in %rcx, then jumping to the C trampoline code. * * This results in approx a 30% speedup for x86_64 FFI dispatch */ __asm__( ".text\n\t" ".globl ffi_trampoline\n\t" ".globl _ffi_trampoline\n\t" "ffi_trampoline:\n\t" "_ffi_trampoline:\n\t" "movabsq $0xfee1deadcafebabe, %rcx\n\t" "movabsq $0xfeedfacebeeff00d, %r11\n\t" "jmpq *%r11\n\t" ".globl ffi_trampoline_end\n\t" "ffi_trampoline_end:\n\t" ".globl _ffi_trampoline_end\n\t" "_ffi_trampoline_end:\n\t" ); static VALUE custom_trampoline(int argc, VALUE* argv, VALUE self, Closure* handle) { FunctionType* fnInfo = (FunctionType *) handle->info; VALUE rbReturnValue; RB_GC_GUARD(rbReturnValue) = (*fnInfo->invoke)(argc, argv, handle->function, fnInfo); RB_GC_GUARD_PTR(argv); RB_GC_GUARD(self); return rbReturnValue; } #elif defined(__i386__) && 0 static VALUE custom_trampoline(caddr_t args, Closure*); #define TRAMPOLINE_CTX_MAGIC (0xfee1dead) #define TRAMPOLINE_FUN_MAGIC (0xbeefcafe) /* * This is a hand-coded trampoline to speedup entry from ruby to the FFI translation * layer for i386 arches. * * This does not make a discernable difference vs a raw closure, so for now, * it is not enabled. */ __asm__( ".text\n\t" ".globl ffi_trampoline\n\t" ".globl _ffi_trampoline\n\t" "ffi_trampoline:\n\t" "_ffi_trampoline:\n\t" "subl $12, %esp\n\t" "leal 16(%esp), %eax\n\t" "movl %eax, (%esp)\n\t" "movl $0xfee1dead, 4(%esp)\n\t" "movl $0xbeefcafe, %eax\n\t" "call *%eax\n\t" "addl $12, %esp\n\t" "ret\n\t" ".globl ffi_trampoline_end\n\t" "ffi_trampoline_end:\n\t" ".globl _ffi_trampoline_end\n\t" "_ffi_trampoline_end:\n\t" ); static VALUE custom_trampoline(caddr_t args, Closure* handle) { FunctionType* fnInfo = (FunctionType *) handle->info; return (*fnInfo->invoke)(*(int *) args, *(VALUE **) (args + 4), handle->function, fnInfo); } #endif /* __x86_64__ else __i386__ */ extern void ffi_trampoline(int argc, VALUE* argv, VALUE self); extern void ffi_trampoline_end(void); static int trampoline_offsets(long *, long *); static long trampoline_ctx_offset, trampoline_func_offset; static long trampoline_offset(int off, const long value) { caddr_t ptr; for (ptr = (caddr_t) &ffi_trampoline + off; ptr < (caddr_t) &ffi_trampoline_end; ++ptr) { if (*(long *) ptr == value) { return ptr - (caddr_t) &ffi_trampoline; } } return -1; } static int trampoline_offsets(long* ctxOffset, long* fnOffset) { *ctxOffset = trampoline_offset(0, TRAMPOLINE_CTX_MAGIC); if (*ctxOffset == -1) { return -1; } *fnOffset = trampoline_offset(0, TRAMPOLINE_FUN_MAGIC); if (*fnOffset == -1) { return -1; } return 0; } static bool prep_trampoline(void* ctx, void* code, Closure* closure, char* errmsg, size_t errmsgsize) { caddr_t ptr = (caddr_t) code; memcpy(ptr, &ffi_trampoline, trampoline_size()); /* Patch the context and function addresses into the stub code */ *(intptr_t *)(ptr + trampoline_ctx_offset) = (intptr_t) closure; *(intptr_t *)(ptr + trampoline_func_offset) = (intptr_t) custom_trampoline; return true; } static long trampoline_size(void) { return (caddr_t) &ffi_trampoline_end - (caddr_t) &ffi_trampoline; } #endif /* CUSTOM_TRAMPOLINE */ void rbffi_MethodHandle_Init(VALUE module) { defaultClosurePool = rbffi_ClosurePool_New((int) trampoline_size(), prep_trampoline, NULL); #if defined(CUSTOM_TRAMPOLINE) if (trampoline_offsets(&trampoline_ctx_offset, &trampoline_func_offset) != 0) { rb_raise(rb_eFatal, "Could not locate offsets in trampoline code"); } #else ffiStatus = ffi_prep_cif(&mh_cif, FFI_DEFAULT_ABI, 3, &ffi_type_ulong, methodHandleParamTypes); if (ffiStatus != FFI_OK) { rb_raise(rb_eFatal, "ffi_prep_cif failed. status=%#x", ffiStatus); } #endif }