/* * Copyright (C) 2009 Apple Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef MacroAssemblerCodeRef_h #define MacroAssemblerCodeRef_h #include "ExecutableAllocator.h" #include "PassRefPtr.h" #include "RefPtr.h" #include "UnusedParam.h" #if ENABLE(ASSEMBLER) // ASSERT_VALID_CODE_POINTER checks that ptr is a non-null pointer, and that it is a valid // instruction address on the platform (for example, check any alignment requirements). #if CPU(ARM_THUMB2) // ARM/thumb instructions must be 16-bit aligned, but all code pointers to be loaded // into the processor are decorated with the bottom bit set, indicating that this is // thumb code (as oposed to 32-bit traditional ARM). The first test checks for both // decorated and undectorated null, and the second test ensures that the pointer is // decorated. #define ASSERT_VALID_CODE_POINTER(ptr) \ ASSERT(reinterpret_cast(ptr) & ~1); \ ASSERT(reinterpret_cast(ptr) & 1) #define ASSERT_VALID_CODE_OFFSET(offset) \ ASSERT(!(offset & 1)) // Must be multiple of 2. #else #define ASSERT_VALID_CODE_POINTER(ptr) \ ASSERT(ptr) #define ASSERT_VALID_CODE_OFFSET(offset) // Anything goes! #endif namespace JSC { // FunctionPtr: // // FunctionPtr should be used to wrap pointers to C/C++ functions in JSC // (particularly, the stub functions). class FunctionPtr { public: FunctionPtr() : m_value(0) { } template FunctionPtr(returnType(*value)()) : m_value((void*)value) { ASSERT_VALID_CODE_POINTER(m_value); } template FunctionPtr(returnType(*value)(argType1)) : m_value((void*)value) { ASSERT_VALID_CODE_POINTER(m_value); } template FunctionPtr(returnType(*value)(argType1, argType2)) : m_value((void*)value) { ASSERT_VALID_CODE_POINTER(m_value); } template FunctionPtr(returnType(*value)(argType1, argType2, argType3)) : m_value((void*)value) { ASSERT_VALID_CODE_POINTER(m_value); } template FunctionPtr(returnType(*value)(argType1, argType2, argType3, argType4)) : m_value((void*)value) { ASSERT_VALID_CODE_POINTER(m_value); } template explicit FunctionPtr(FunctionType* value) // Using a C-ctyle cast here to avoid compiler error on RVTC: // Error: #694: reinterpret_cast cannot cast away const or other type qualifiers // (I guess on RVTC function pointers have a different constness to GCC/MSVC?) : m_value((void*)value) { ASSERT_VALID_CODE_POINTER(m_value); } void* value() const { return m_value; } void* executableAddress() const { return m_value; } private: void* m_value; }; // ReturnAddressPtr: // // ReturnAddressPtr should be used to wrap return addresses generated by processor // 'call' instructions exectued in JIT code. We use return addresses to look up // exception and optimization information, and to repatch the call instruction // that is the source of the return address. class ReturnAddressPtr { public: ReturnAddressPtr() : m_value(0) { } explicit ReturnAddressPtr(void* value) : m_value(value) { ASSERT_VALID_CODE_POINTER(m_value); } explicit ReturnAddressPtr(FunctionPtr function) : m_value(function.value()) { ASSERT_VALID_CODE_POINTER(m_value); } void* value() const { return m_value; } private: void* m_value; }; // MacroAssemblerCodePtr: // // MacroAssemblerCodePtr should be used to wrap pointers to JIT generated code. class MacroAssemblerCodePtr { public: MacroAssemblerCodePtr() : m_value(0) { } explicit MacroAssemblerCodePtr(void* value) #if CPU(ARM_THUMB2) // Decorate the pointer as a thumb code pointer. : m_value(reinterpret_cast(value) + 1) #else : m_value(value) #endif { ASSERT_VALID_CODE_POINTER(m_value); } explicit MacroAssemblerCodePtr(ReturnAddressPtr ra) : m_value(ra.value()) { ASSERT_VALID_CODE_POINTER(m_value); } void* executableAddress() const { return m_value; } #if CPU(ARM_THUMB2) // To use this pointer as a data address remove the decoration. void* dataLocation() const { ASSERT_VALID_CODE_POINTER(m_value); return reinterpret_cast(m_value) - 1; } #else void* dataLocation() const { ASSERT_VALID_CODE_POINTER(m_value); return m_value; } #endif bool operator!() { return !m_value; } private: void* m_value; }; // MacroAssemblerCodeRef: // // A reference to a section of JIT generated code. A CodeRef consists of a // pointer to the code, and a ref pointer to the pool from within which it // was allocated. class MacroAssemblerCodeRef { public: MacroAssemblerCodeRef() : m_size(0) { } MacroAssemblerCodeRef(void* code, PassRefPtr executablePool, size_t size) : m_code(code) , m_executablePool(executablePool) , m_size(size) { } MacroAssemblerCodePtr m_code; RefPtr m_executablePool; size_t m_size; }; } // namespace JSC #endif // ENABLE(ASSEMBLER) #endif // MacroAssemblerCodeRef_h