/* * Copyright (C) 2010 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. AND ITS CONTRIBUTORS ``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 ITS 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 JSInterfaceJIT_h #define JSInterfaceJIT_h #include "JITCode.h" #include "JITStubs.h" #include "JSValue.h" #include "MacroAssembler.h" #include "RegisterFile.h" #include <wtf/AlwaysInline.h> #include <wtf/Vector.h> namespace JSC { class JSInterfaceJIT : public MacroAssembler { public: // NOTES: // // regT0 has two special meanings. The return value from a stub // call will always be in regT0, and by default (unless // a register is specified) emitPutVirtualRegister() will store // the value from regT0. // // regT3 is required to be callee-preserved. // // tempRegister2 is has no such dependencies. It is important that // on x86/x86-64 it is ecx for performance reasons, since the // MacroAssembler will need to plant register swaps if it is not - // however the code will still function correctly. #if CPU(X86_64) static const RegisterID returnValueRegister = X86Registers::eax; static const RegisterID cachedResultRegister = X86Registers::eax; static const RegisterID firstArgumentRegister = X86Registers::edi; static const RegisterID timeoutCheckRegister = X86Registers::r12; static const RegisterID callFrameRegister = X86Registers::r13; static const RegisterID tagTypeNumberRegister = X86Registers::r14; static const RegisterID tagMaskRegister = X86Registers::r15; static const RegisterID regT0 = X86Registers::eax; static const RegisterID regT1 = X86Registers::edx; static const RegisterID regT2 = X86Registers::ecx; static const RegisterID regT3 = X86Registers::ebx; static const FPRegisterID fpRegT0 = X86Registers::xmm0; static const FPRegisterID fpRegT1 = X86Registers::xmm1; static const FPRegisterID fpRegT2 = X86Registers::xmm2; static const FPRegisterID fpRegT3 = X86Registers::xmm3; #elif CPU(X86) static const RegisterID returnValueRegister = X86Registers::eax; static const RegisterID cachedResultRegister = X86Registers::eax; // On x86 we always use fastcall conventions = but on // OS X if might make more sense to just use regparm. static const RegisterID firstArgumentRegister = X86Registers::ecx; static const RegisterID timeoutCheckRegister = X86Registers::esi; static const RegisterID callFrameRegister = X86Registers::edi; static const RegisterID regT0 = X86Registers::eax; static const RegisterID regT1 = X86Registers::edx; static const RegisterID regT2 = X86Registers::ecx; static const RegisterID regT3 = X86Registers::ebx; static const FPRegisterID fpRegT0 = X86Registers::xmm0; static const FPRegisterID fpRegT1 = X86Registers::xmm1; static const FPRegisterID fpRegT2 = X86Registers::xmm2; static const FPRegisterID fpRegT3 = X86Registers::xmm3; #elif CPU(ARM_THUMB2) static const RegisterID returnValueRegister = ARMRegisters::r0; static const RegisterID cachedResultRegister = ARMRegisters::r0; static const RegisterID firstArgumentRegister = ARMRegisters::r0; static const RegisterID regT0 = ARMRegisters::r0; static const RegisterID regT1 = ARMRegisters::r1; static const RegisterID regT2 = ARMRegisters::r2; static const RegisterID regT3 = ARMRegisters::r4; static const RegisterID callFrameRegister = ARMRegisters::r5; static const RegisterID timeoutCheckRegister = ARMRegisters::r6; static const FPRegisterID fpRegT0 = ARMRegisters::d0; static const FPRegisterID fpRegT1 = ARMRegisters::d1; static const FPRegisterID fpRegT2 = ARMRegisters::d2; static const FPRegisterID fpRegT3 = ARMRegisters::d3; #elif CPU(ARM_TRADITIONAL) static const RegisterID returnValueRegister = ARMRegisters::r0; static const RegisterID cachedResultRegister = ARMRegisters::r0; static const RegisterID firstArgumentRegister = ARMRegisters::r0; static const RegisterID timeoutCheckRegister = ARMRegisters::r5; static const RegisterID callFrameRegister = ARMRegisters::r4; static const RegisterID regT0 = ARMRegisters::r0; static const RegisterID regT1 = ARMRegisters::r1; static const RegisterID regT2 = ARMRegisters::r2; // Callee preserved static const RegisterID regT3 = ARMRegisters::r7; static const RegisterID regS0 = ARMRegisters::S0; // Callee preserved static const RegisterID regS1 = ARMRegisters::S1; static const RegisterID regStackPtr = ARMRegisters::sp; static const RegisterID regLink = ARMRegisters::lr; static const FPRegisterID fpRegT0 = ARMRegisters::d0; static const FPRegisterID fpRegT1 = ARMRegisters::d1; static const FPRegisterID fpRegT2 = ARMRegisters::d2; static const FPRegisterID fpRegT3 = ARMRegisters::d3; #elif CPU(MIPS) static const RegisterID returnValueRegister = MIPSRegisters::v0; static const RegisterID cachedResultRegister = MIPSRegisters::v0; static const RegisterID firstArgumentRegister = MIPSRegisters::a0; // regT0 must be v0 for returning a 32-bit value. static const RegisterID regT0 = MIPSRegisters::v0; // regT1 must be v1 for returning a pair of 32-bit value. static const RegisterID regT1 = MIPSRegisters::v1; static const RegisterID regT2 = MIPSRegisters::t4; // regT3 must be saved in the callee, so use an S register. static const RegisterID regT3 = MIPSRegisters::s2; static const RegisterID callFrameRegister = MIPSRegisters::s0; static const RegisterID timeoutCheckRegister = MIPSRegisters::s1; static const FPRegisterID fpRegT0 = MIPSRegisters::f4; static const FPRegisterID fpRegT1 = MIPSRegisters::f6; static const FPRegisterID fpRegT2 = MIPSRegisters::f8; static const FPRegisterID fpRegT3 = MIPSRegisters::f10; #elif CPU(SH4) static const RegisterID timeoutCheckRegister = SH4Registers::r8; static const RegisterID callFrameRegister = SH4Registers::fp; static const RegisterID regT0 = SH4Registers::r0; static const RegisterID regT1 = SH4Registers::r1; static const RegisterID regT2 = SH4Registers::r2; static const RegisterID regT3 = SH4Registers::r10; static const RegisterID regT4 = SH4Registers::r4; static const RegisterID regT5 = SH4Registers::r5; static const RegisterID regT6 = SH4Registers::r6; static const RegisterID regT7 = SH4Registers::r7; static const RegisterID firstArgumentRegister =regT4; static const RegisterID returnValueRegister = SH4Registers::r0; static const RegisterID cachedResultRegister = SH4Registers::r0; static const FPRegisterID fpRegT0 = SH4Registers::fr0; static const FPRegisterID fpRegT1 = SH4Registers::fr2; static const FPRegisterID fpRegT2 = SH4Registers::fr4; static const FPRegisterID fpRegT3 = SH4Registers::fr6; static const FPRegisterID fpRegT4 = SH4Registers::fr8; static const FPRegisterID fpRegT5 = SH4Registers::fr10; static const FPRegisterID fpRegT6 = SH4Registers::fr12; static const FPRegisterID fpRegT7 = SH4Registers::fr14; #else #error "JIT not supported on this platform." #endif #if USE(JSVALUE32_64) // Can't just propogate JSValue::Int32Tag as visual studio doesn't like it static const unsigned Int32Tag = 0xffffffff; COMPILE_ASSERT(Int32Tag == JSValue::Int32Tag, Int32Tag_out_of_sync); #else static const unsigned Int32Tag = TagTypeNumber >> 32; #endif inline Jump emitLoadJSCell(unsigned virtualRegisterIndex, RegisterID payload); inline Jump emitLoadInt32(unsigned virtualRegisterIndex, RegisterID dst); inline Jump emitLoadDouble(unsigned virtualRegisterIndex, FPRegisterID dst, RegisterID scratch); inline void storePtrWithWriteBarrier(TrustedImmPtr ptr, RegisterID /* owner */, Address dest) { storePtr(ptr, dest); } #if USE(JSVALUE32_64) inline Jump emitJumpIfNotJSCell(unsigned virtualRegisterIndex); inline Address tagFor(int index, RegisterID base = callFrameRegister); #endif #if USE(JSVALUE64) Jump emitJumpIfImmediateNumber(RegisterID reg); Jump emitJumpIfNotImmediateNumber(RegisterID reg); void emitFastArithImmToInt(RegisterID reg); #endif inline Address payloadFor(int index, RegisterID base = callFrameRegister); inline Address intPayloadFor(int index, RegisterID base = callFrameRegister); inline Address intTagFor(int index, RegisterID base = callFrameRegister); inline Address addressFor(int index, RegisterID base = callFrameRegister); }; struct ThunkHelpers { static unsigned stringImplDataOffset() { return StringImpl::dataOffset(); } static unsigned jsStringLengthOffset() { return OBJECT_OFFSETOF(JSString, m_length); } static unsigned jsStringValueOffset() { return OBJECT_OFFSETOF(JSString, m_value); } }; #if USE(JSVALUE32_64) inline JSInterfaceJIT::Jump JSInterfaceJIT::emitLoadJSCell(unsigned virtualRegisterIndex, RegisterID payload) { loadPtr(payloadFor(virtualRegisterIndex), payload); return emitJumpIfNotJSCell(virtualRegisterIndex); } inline JSInterfaceJIT::Jump JSInterfaceJIT::emitJumpIfNotJSCell(unsigned virtualRegisterIndex) { ASSERT(static_cast<int>(virtualRegisterIndex) < FirstConstantRegisterIndex); return branch32(NotEqual, tagFor(virtualRegisterIndex), TrustedImm32(JSValue::CellTag)); } inline JSInterfaceJIT::Jump JSInterfaceJIT::emitLoadInt32(unsigned virtualRegisterIndex, RegisterID dst) { ASSERT(static_cast<int>(virtualRegisterIndex) < FirstConstantRegisterIndex); loadPtr(payloadFor(virtualRegisterIndex), dst); return branch32(NotEqual, tagFor(static_cast<int>(virtualRegisterIndex)), TrustedImm32(JSValue::Int32Tag)); } inline JSInterfaceJIT::Address JSInterfaceJIT::tagFor(int virtualRegisterIndex, RegisterID base) { ASSERT(virtualRegisterIndex < FirstConstantRegisterIndex); return Address(base, (static_cast<unsigned>(virtualRegisterIndex) * sizeof(Register)) + OBJECT_OFFSETOF(JSValue, u.asBits.tag)); } inline JSInterfaceJIT::Address JSInterfaceJIT::payloadFor(int virtualRegisterIndex, RegisterID base) { ASSERT(virtualRegisterIndex < FirstConstantRegisterIndex); return Address(base, (static_cast<unsigned>(virtualRegisterIndex) * sizeof(Register)) + OBJECT_OFFSETOF(JSValue, u.asBits.payload)); } inline JSInterfaceJIT::Address JSInterfaceJIT::intPayloadFor(int virtualRegisterIndex, RegisterID base) { return payloadFor(virtualRegisterIndex, base); } inline JSInterfaceJIT::Address JSInterfaceJIT::intTagFor(int virtualRegisterIndex, RegisterID base) { return tagFor(virtualRegisterIndex, base); } inline JSInterfaceJIT::Jump JSInterfaceJIT::emitLoadDouble(unsigned virtualRegisterIndex, FPRegisterID dst, RegisterID scratch) { ASSERT(static_cast<int>(virtualRegisterIndex) < FirstConstantRegisterIndex); loadPtr(tagFor(virtualRegisterIndex), scratch); Jump isDouble = branch32(Below, scratch, TrustedImm32(JSValue::LowestTag)); Jump notInt = branch32(NotEqual, scratch, TrustedImm32(JSValue::Int32Tag)); loadPtr(payloadFor(virtualRegisterIndex), scratch); convertInt32ToDouble(scratch, dst); Jump done = jump(); isDouble.link(this); loadDouble(addressFor(virtualRegisterIndex), dst); done.link(this); return notInt; } #endif #if USE(JSVALUE64) ALWAYS_INLINE JSInterfaceJIT::Jump JSInterfaceJIT::emitJumpIfImmediateNumber(RegisterID reg) { return branchTestPtr(NonZero, reg, tagTypeNumberRegister); } ALWAYS_INLINE JSInterfaceJIT::Jump JSInterfaceJIT::emitJumpIfNotImmediateNumber(RegisterID reg) { return branchTestPtr(Zero, reg, tagTypeNumberRegister); } inline JSInterfaceJIT::Jump JSInterfaceJIT::emitLoadJSCell(unsigned virtualRegisterIndex, RegisterID dst) { loadPtr(addressFor(virtualRegisterIndex), dst); return branchTestPtr(NonZero, dst, tagMaskRegister); } inline JSInterfaceJIT::Jump JSInterfaceJIT::emitLoadInt32(unsigned virtualRegisterIndex, RegisterID dst) { loadPtr(addressFor(virtualRegisterIndex), dst); Jump result = branchPtr(Below, dst, tagTypeNumberRegister); zeroExtend32ToPtr(dst, dst); return result; } inline JSInterfaceJIT::Jump JSInterfaceJIT::emitLoadDouble(unsigned virtualRegisterIndex, FPRegisterID dst, RegisterID scratch) { loadPtr(addressFor(virtualRegisterIndex), scratch); Jump notNumber = emitJumpIfNotImmediateNumber(scratch); Jump notInt = branchPtr(Below, scratch, tagTypeNumberRegister); convertInt32ToDouble(scratch, dst); Jump done = jump(); notInt.link(this); addPtr(tagTypeNumberRegister, scratch); movePtrToDouble(scratch, dst); done.link(this); return notNumber; } ALWAYS_INLINE void JSInterfaceJIT::emitFastArithImmToInt(RegisterID) { } #endif #if USE(JSVALUE64) inline JSInterfaceJIT::Address JSInterfaceJIT::payloadFor(int virtualRegisterIndex, RegisterID base) { ASSERT(virtualRegisterIndex < FirstConstantRegisterIndex); return addressFor(virtualRegisterIndex, base); } inline JSInterfaceJIT::Address JSInterfaceJIT::intPayloadFor(int virtualRegisterIndex, RegisterID base) { ASSERT(virtualRegisterIndex < FirstConstantRegisterIndex); return Address(base, (static_cast<unsigned>(virtualRegisterIndex) * sizeof(Register)) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)); } inline JSInterfaceJIT::Address JSInterfaceJIT::intTagFor(int virtualRegisterIndex, RegisterID base) { ASSERT(virtualRegisterIndex < FirstConstantRegisterIndex); return Address(base, (static_cast<unsigned>(virtualRegisterIndex) * sizeof(Register)) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)); } #endif inline JSInterfaceJIT::Address JSInterfaceJIT::addressFor(int virtualRegisterIndex, RegisterID base) { ASSERT(virtualRegisterIndex < FirstConstantRegisterIndex); return Address(base, (static_cast<unsigned>(virtualRegisterIndex) * sizeof(Register))); } } #endif // JSInterfaceJIT_h