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Copy pathSystemLinkagezOS.cpp
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SystemLinkagezOS.cpp
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/*******************************************************************************
* Copyright (c) 2019, 2020 IBM Corp. and others
*
* This program and the accompanying materials are made available under
* the terms of the Eclipse Public License 2.0 which accompanies this
* distribution and is available at http://eclipse.org/legal/epl-2.0
* or the Apache License, Version 2.0 which accompanies this distribution
* and is available at https://www.apache.org/licenses/LICENSE-2.0.
*
* This Source Code may also be made available under the following Secondary
* Licenses when the conditions for such availability set forth in the
* Eclipse Public License, v. 2.0 are satisfied: GNU General Public License,
* version 2 with the GNU Classpath Exception [1] and GNU General Public
* License, version 2 with the OpenJDK Assembly Exception [2].
*
* [1] https://www.gnu.org/software/classpath/license.html
* [2] http://openjdk.java.net/legal/assembly-exception.html
*
* SPDX-License-Identifier: EPL-2.0 OR Apache-2.0 OR GPL-2.0 WITH Classpath-exception-2.0 OR LicenseRef-GPL-2.0 WITH Assembly-exception
*******************************************************************************/
// See also S390Linkage.cpp which contains more S390 Linkage
// implementations (primarily Private Linkage and base class).
#include <algorithm>
#include <stddef.h>
#include <stdint.h>
#include "codegen/CodeGenerator.hpp"
#include "codegen/ConstantDataSnippet.hpp"
#include "env/FrontEnd.hpp"
#include "codegen/InstOpCode.hpp"
#include "codegen/Instruction.hpp"
#include "codegen/Linkage.hpp"
#include "codegen/Linkage_inlines.hpp"
#include "codegen/Machine.hpp"
#include "codegen/MemoryReference.hpp"
#include "codegen/RealRegister.hpp"
#include "codegen/Register.hpp"
#include "codegen/RegisterDependency.hpp"
#include "codegen/RegisterPair.hpp"
#include "codegen/Snippet.hpp"
#include "codegen/SystemLinkage.hpp"
#include "codegen/TreeEvaluator.hpp"
#include "compile/Compilation.hpp"
#include "compile/ResolvedMethod.hpp"
#include "control/Options.hpp"
#include "control/Options_inlines.hpp"
#include "env/CompilerEnv.hpp"
#include "env/TRMemory.hpp"
#include "env/jittypes.h"
#include "il/AutomaticSymbol.hpp"
#include "il/DataTypes.hpp"
#include "il/ILOpCodes.hpp"
#include "il/ILOps.hpp"
#include "il/LabelSymbol.hpp"
#include "il/MethodSymbol.hpp"
#include "il/Node.hpp"
#include "il/Node_inlines.hpp"
#include "il/ParameterSymbol.hpp"
#include "il/ResolvedMethodSymbol.hpp"
#include "il/Symbol.hpp"
#include "il/SymbolReference.hpp"
#include "il/TreeTop.hpp"
#include "il/TreeTop_inlines.hpp"
#include "infra/Array.hpp"
#include "infra/Assert.hpp"
#include "infra/List.hpp"
#include "ras/Debug.hpp"
#include "ras/Delimiter.hpp"
#include "z/codegen/S390Evaluator.hpp"
#include "z/codegen/S390GenerateInstructions.hpp"
#include "z/codegen/S390Instruction.hpp"
#include "z/codegen/SystemLinkagezOS.hpp"
#include "OMR/Bytes.hpp"
#ifdef J9_PROJECT_SPECIFIC
#include "env/VMJ9.h"
#endif
#define GPREGINDEX(i) (i-TR::RealRegister::FirstGPR)
TR::S390zOSSystemLinkage::S390zOSSystemLinkage(TR::CodeGenerator* cg)
:
TR::SystemLinkage(cg, TR_SystemXPLink),
_entryPointMarkerLabel(NULL),
_stackPointerUpdateLabel(NULL),
_ppa1Snippet(NULL),
_ppa2Snippet(NULL)
{
setProperties(FirstParmAtFixedOffset);
setProperty(SmallIntParmsAlignedRight);
setProperty(SplitLongParm);
setProperty(SkipGPRsForFloatParms);
if (cg->comp()->target().is64Bit())
{
setProperty(NeedsWidening);
}
setRegisterFlag(TR::RealRegister::GPR4, Preserved);
setRegisterFlag(TR::RealRegister::GPR8, Preserved);
setRegisterFlag(TR::RealRegister::GPR9, Preserved);
setRegisterFlag(TR::RealRegister::GPR10, Preserved);
setRegisterFlag(TR::RealRegister::GPR11, Preserved);
setRegisterFlag(TR::RealRegister::GPR12, Preserved);
setRegisterFlag(TR::RealRegister::GPR13, Preserved);
setRegisterFlag(TR::RealRegister::GPR14, Preserved);
setRegisterFlag(TR::RealRegister::GPR15, Preserved);
setRegisterFlag(TR::RealRegister::FPR8, Preserved);
setRegisterFlag(TR::RealRegister::FPR9, Preserved);
setRegisterFlag(TR::RealRegister::FPR10, Preserved);
setRegisterFlag(TR::RealRegister::FPR11, Preserved);
setRegisterFlag(TR::RealRegister::FPR12, Preserved);
setRegisterFlag(TR::RealRegister::FPR13, Preserved);
setRegisterFlag(TR::RealRegister::FPR14, Preserved);
setRegisterFlag(TR::RealRegister::FPR15, Preserved);
if (cg->getSupportsVectorRegisters())
{
setRegisterFlag(TR::RealRegister::VRF16, Preserved);
setRegisterFlag(TR::RealRegister::VRF17, Preserved);
setRegisterFlag(TR::RealRegister::VRF18, Preserved);
setRegisterFlag(TR::RealRegister::VRF19, Preserved);
setRegisterFlag(TR::RealRegister::VRF20, Preserved);
setRegisterFlag(TR::RealRegister::VRF21, Preserved);
setRegisterFlag(TR::RealRegister::VRF22, Preserved);
setRegisterFlag(TR::RealRegister::VRF23, Preserved);
}
setIntegerReturnRegister(TR::RealRegister::GPR3);
setLongLowReturnRegister(TR::RealRegister::GPR3);
setLongHighReturnRegister(TR::RealRegister::GPR2);
setLongReturnRegister(TR::RealRegister::GPR3);
setFloatReturnRegister(TR::RealRegister::FPR0);
setDoubleReturnRegister(TR::RealRegister::FPR0);
setLongDoubleReturnRegister0(TR::RealRegister::FPR0);
setLongDoubleReturnRegister2(TR::RealRegister::FPR2);
setLongDoubleReturnRegister4(TR::RealRegister::FPR4);
setLongDoubleReturnRegister6(TR::RealRegister::FPR6);
setStackPointerRegister(TR::RealRegister::GPR4);
setNormalStackPointerRegister(TR::RealRegister::GPR4);
setAlternateStackPointerRegister(TR::RealRegister::GPR9);
setEntryPointRegister(TR::RealRegister::GPR6);
setLitPoolRegister(TR::RealRegister::GPR8);
setReturnAddressRegister (TR::RealRegister::GPR7);
setIntegerArgumentRegister(0, TR::RealRegister::GPR1);
setIntegerArgumentRegister(1, TR::RealRegister::GPR2);
setIntegerArgumentRegister(2, TR::RealRegister::GPR3);
setNumIntegerArgumentRegisters(3);
setFloatArgumentRegister(0, TR::RealRegister::FPR0);
setFloatArgumentRegister(1, TR::RealRegister::FPR2);
setFloatArgumentRegister(2, TR::RealRegister::FPR4);
setFloatArgumentRegister(3, TR::RealRegister::FPR6);
setNumFloatArgumentRegisters(4);
if (cg->getSupportsVectorRegisters())
{
int32_t index = 0;
setVectorArgumentRegister(index++, TR::RealRegister::VRF24);
setVectorArgumentRegister(index++, TR::RealRegister::VRF25);
setVectorArgumentRegister(index++, TR::RealRegister::VRF26);
setVectorArgumentRegister(index++, TR::RealRegister::VRF27);
setVectorArgumentRegister(index++, TR::RealRegister::VRF28);
setVectorArgumentRegister(index++, TR::RealRegister::VRF29);
setVectorArgumentRegister(index++, TR::RealRegister::VRF30);
setVectorArgumentRegister(index++, TR::RealRegister::VRF31);
setNumVectorArgumentRegisters(index);
setVectorReturnRegister(TR::RealRegister::VRF24);
}
if (cg->comp()->target().is64Bit())
{
setOffsetToFirstParm(XPLINK_STACK_FRAME_BIAS + 128);
}
else
{
setOffsetToFirstParm(XPLINK_STACK_FRAME_BIAS + 64);
}
setOffsetToRegSaveArea(2048);
setOffsetToLongDispSlot(0);
setOffsetToFirstLocal(0);
setOutgoingParmAreaBeginOffset(getOffsetToFirstParm() - XPLINK_STACK_FRAME_BIAS);
setOutgoingParmAreaEndOffset(0);
setStackFrameSize(0);
setNumberOfDependencyGPRegisters(32);
setLargestOutgoingArgumentAreaSize(0);
}
void
TR::S390zOSSystemLinkage::createEpilogue(TR::Instruction * cursor)
{
TR::Delimiter delimiter (comp(), comp()->getOption(TR_TraceCG), "Epilogue");
TR::Node* node = cursor->getNext()->getNode();
cursor = generateS390LabelInstruction(cg(), TR::InstOpCode::LABEL, node, generateLabelSymbol(cg()), cursor);
cursor = fillFPRsInEpilogue(node, cursor);
cursor = fillGPRsInEpilogue(node, cursor);
if (comp()->target().is64Bit())
{
cursor = generateRXInstruction(cg(), InstOpCode::BC, node, getRealRegister(TR::RealRegister::GPR15), generateS390MemoryReference(getReturnAddressRealRegister(), 2, cg()), cursor);
}
else
{
cursor = generateRXInstruction(cg(), InstOpCode::BC, node, getRealRegister(TR::RealRegister::GPR15), generateS390MemoryReference(getReturnAddressRealRegister(), 4, cg()), cursor);
}
}
void TR::S390zOSSystemLinkage::createPrologue(TR::Instruction* cursor)
{
TR::Delimiter delimiter (comp(), comp()->getOption(TR_TraceCG), "Prologue");
int32_t argSize = getOutgoingParameterBlockSize();
setOutgoingParmAreaEndOffset(getOutgoingParmAreaBeginOffset() + argSize);
TR::ResolvedMethodSymbol* bodySymbol = comp()->getJittedMethodSymbol();
// Calculate size of locals determined in prior call to `mapStack`. We make the size a multiple of the strictest
// alignment symbol so that backwards mapping of auto symbols will follow the alignment.
//
// TODO: We should be using OMR::align here once mapStack is fixed so we don't pass negative offsets
size_t localSize = ((-1 * static_cast<int32_t>(bodySymbol->getLocalMappingCursor())) + (8 - 1)) & ~(8 - 1);
setStackFrameSize((((self()->getOffsetToFirstParm() + argSize + localSize) + (32 - 1)) & ~(32 - 1)) - XPLINK_STACK_FRAME_BIAS);
int32_t stackFrameSize = getStackFrameSize();
TR_ASSERT_FATAL((stackFrameSize & 31) == 0, "Misaligned stack frame size (%d) detected", stackFrameSize);
if (comp()->getOption(TR_TraceCG))
{
traceMsg(comp(), "Initial stackFrameSize = %d\n Offset to first parameter = %d\n Argument size = %d\n Local size = %d\n", stackFrameSize, self()->getOffsetToFirstParm(), argSize, localSize);
}
// Now that we know the stack frame size, map the stack backwards
mapStack(bodySymbol, stackFrameSize + XPLINK_STACK_FRAME_BIAS);
TR::CodeGenerator* cg = self()->cg();
_xplinkFunctionDescriptorSnippet = new (trHeapMemory()) XPLINKFunctionDescriptorSnippet(cg);
_ppa1Snippet = new (trHeapMemory()) TR::PPA1Snippet(cg, this);
_ppa2Snippet = new (trHeapMemory()) TR::PPA2Snippet(cg, this);
cg->addSnippet(_xplinkFunctionDescriptorSnippet);
cg->addSnippet(_ppa1Snippet);
cg->addSnippet(_ppa2Snippet);
TR::Node* node = cursor->getNode();
cursor = cursor->getPrev();
// Emit the Entry Point Marker
_entryPointMarkerLabel = generateLabelSymbol(cg);
cursor = generateS390LabelInstruction(cg, InstOpCode::LABEL, node, _entryPointMarkerLabel, cursor);
// "C.E.E.1."
cursor = generateDataConstantInstruction(cg, TR::InstOpCode::DC, node, 0x00C300C5, cursor);
cursor = generateDataConstantInstruction(cg, TR::InstOpCode::DC, node, 0x00C500F1, cursor);
cursor = generateDataConstantInstruction(cg, TR::InstOpCode::DC, node, 0x00000000, cursor);
cg->addRelocation(new (cg->trHeapMemory()) InstructionLabelRelative32BitRelocation(cursor, -8, _ppa1Snippet->getSnippetLabel(), 1));
// DSA size is the frame size aligned to 32-bytes which means it's least significant 5 bits are zero and are used to
// represent the flags which are always 0 for OMR as we do not support leaf frames or direct calls to alloca()
cursor = generateDataConstantInstruction(cg, TR::InstOpCode::DC, node, stackFrameSize, cursor);
cursor = cursor->getNext();
setFirstPrologueInstruction(cursor);
cursor = spillGPRsInPrologue(node, cursor);
cursor = spillFPRsInPrologue(node, cursor);
cursor = reinterpret_cast<TR::Instruction*>(saveArguments(cursor, false));
setLastPrologueInstruction(cursor);
}
void
TR::S390zOSSystemLinkage::setParameterLinkageRegisterIndex(TR::ResolvedMethodSymbol * method)
{
setParameterLinkageRegisterIndex(method, method->getParameterList());
}
void
TR::S390zOSSystemLinkage::setParameterLinkageRegisterIndex(TR::ResolvedMethodSymbol * method, List<TR::ParameterSymbol> &parmList)
{
int32_t numGPRArgs = 0;
int32_t numFPRArgs = 0;
int32_t numVRFArgs = 0;
int32_t maxGPRArgs = getNumIntegerArgumentRegisters();
int32_t maxFPRArgs = getNumFloatArgumentRegisters();
int32_t maxVRFArgs = getNumVectorArgumentRegisters();
ListIterator<TR::ParameterSymbol> paramIterator(&parmList);
for (TR::ParameterSymbol* paramCursor = paramIterator.getFirst(); paramCursor != NULL; paramCursor = paramIterator.getNext())
{
int32_t lri = -1;
switch (paramCursor->getDataType())
{
case TR::Int8:
case TR::Int16:
case TR::Int32:
case TR::Int64:
case TR::Address:
{
if (numGPRArgs < maxGPRArgs)
{
lri = numGPRArgs;
}
numGPRArgs++;
break;
}
case TR::Float:
case TR::Double:
{
if (numFPRArgs < getNumFloatArgumentRegisters())
{
lri = numFPRArgs;
}
// On 64-bit XPLINK floating point arguments leave "holes" in the GPR linkage registers, but not vice versa
numGPRArgs++;
numFPRArgs++;
break;
}
case TR::Aggregate:
{
TR_ASSERT_FATAL(false, "Support for aggregates is currently not implemented");
break;
}
case TR::VectorInt8:
case TR::VectorInt16:
case TR::VectorInt32:
case TR::VectorInt64:
case TR::VectorDouble:
{
if (numVRFArgs < getNumVectorArgumentRegisters())
{
lri = numVRFArgs;
}
// On 64-bit XPLINK floating point arguments leave "holes" in the GPR linkage registers, but not vice versa
numGPRArgs++;
numVRFArgs++;
break;
}
default:
{
TR_ASSERT_FATAL(false, "Unknown data type %s", paramCursor->getDataType().toString());
break;
}
}
paramCursor->setLinkageRegisterIndex(lri);
}
}
int32_t
TR::S390zOSSystemLinkage::getOutgoingParameterBlockSize()
{
//
// Calculate size of outgoing argument area
//
int32_t argAreaSize = getLargestOutgoingArgumentAreaSize();
if (argAreaSize)
{
// xplink spec has minimal size
// we assume yes to be safe
int32_t minimalArgAreaSize = ((comp()->target().is64Bit()) ? 32 : 16);
argAreaSize = (argAreaSize < minimalArgAreaSize) ? minimalArgAreaSize : argAreaSize;
}
return argAreaSize;
}
/**
* TR::S390zOSSystemLinkage::callNativeFunction - call System routine
* return value will be return value from system routine copied to private linkage return reg
*/
TR::Register *
TR::S390zOSSystemLinkage::callNativeFunction(TR::Node * callNode, TR::RegisterDependencyConditions * deps, intptr_t targetAddress,
TR::Register * methodAddressReg, TR::Register * javaLitOffsetReg, TR::LabelSymbol * returnFromJNICallLabel,
TR::Snippet * callDataSnippet, bool isJNIGCPoint)
{
/*****************************/
/***Front-end customization***/
/*****************************/
generateInstructionsForCall(callNode, deps, targetAddress, methodAddressReg,
javaLitOffsetReg, returnFromJNICallLabel, callDataSnippet, isJNIGCPoint);
TR::CodeGenerator * codeGen = cg();
TR::Register * retReg = NULL;
TR::Register * returnRegister = NULL;
// set dependency on return register
TR::Register * lowReg = NULL, * highReg = NULL;
TR::Register * Real_highReg = NULL, * Real_lowReg = NULL, * Img_highReg = NULL, * Img_lowReg = NULL, * Real = NULL, * Imaginary = NULL;
switch (callNode->getOpCodeValue())
{
case TR::acall:
case TR::acalli:
retReg = deps->searchPostConditionRegister(getIntegerReturnRegister());
returnRegister = deps->searchPostConditionRegister(getIntegerReturnRegister());
if(comp()->target().is64Bit() && returnRegister && !returnRegister->is64BitReg())
{
returnRegister->setIs64BitReg(true); //in 64bit target, force return 64bit address register,
} //until it's known that dispatch functions can return non-64bit addresses.
break;
case TR::icall:
case TR::icalli:
retReg = deps->searchPostConditionRegister(getIntegerReturnRegister());
returnRegister = deps->searchPostConditionRegister(getIntegerReturnRegister());
break;
case TR::lcalli:
case TR::lcall:
{
if (comp()->target().is64Bit())
{
retReg = deps->searchPostConditionRegister(getIntegerReturnRegister());
returnRegister = deps->searchPostConditionRegister(getIntegerReturnRegister());
}
else
{
TR::Instruction *cursor = NULL;
lowReg = deps->searchPostConditionRegister(getLongLowReturnRegister());
highReg = deps->searchPostConditionRegister(getLongHighReturnRegister());
generateRSInstruction(codeGen, TR::InstOpCode::SLLG, callNode, highReg, highReg, 32);
cursor =
generateRRInstruction(codeGen, TR::InstOpCode::LR, callNode, highReg, lowReg);
codeGen->stopUsingRegister(lowReg);
retReg = highReg;
returnRegister = retReg;
}
}
break;
case TR::fcalli:
case TR::dcalli:
case TR::fcall:
case TR::dcall:
retReg = deps->searchPostConditionRegister(getFloatReturnRegister());
returnRegister = retReg;
break;
case TR::calli:
case TR::call:
retReg = NULL;
returnRegister = retReg;
break;
default:
retReg = NULL;
returnRegister = retReg;
TR_ASSERT(0, "Unknown direct call Opcode %d.", callNode->getOpCodeValue());
}
if (returnRegister != retReg)
{
generateRRInstruction(codeGen, TR::InstOpCode::getLoadRegOpCode(), callNode, returnRegister, retReg);
}
return returnRegister;
}
TR::RealRegister::RegNum
TR::S390zOSSystemLinkage::getENVPointerRegister()
{
return TR::RealRegister::GPR5;
}
TR::RealRegister::RegNum
TR::S390zOSSystemLinkage::getCAAPointerRegister()
{
return comp()->target().is64Bit() ?
TR::RealRegister::NoReg :
TR::RealRegister::GPR12;
}
int32_t
TR::S390zOSSystemLinkage::getRegisterSaveOffset(TR::RealRegister::RegNum srcReg)
{
int32_t offset;
if ((srcReg >= TR::RealRegister::GPR4) && (srcReg <= TR::RealRegister::GPR15))
{
int32_t offset = 2048 + (srcReg - TR::RealRegister::GPR4) * cg()->machine()->getGPRSize();
return offset;
}
else
{
TR_ASSERT(false, "ERROR: TR::S390zOSSystemLinkage::getRegisterSaveOffset called for volatile reg: %d\n",srcReg);
return -1;
}
}
void
TR::S390zOSSystemLinkage::generateInstructionsForCall(TR::Node * callNode, TR::RegisterDependencyConditions * deps, intptr_t targetAddress,
TR::Register * methodAddressReg, TR::Register * javaLitOffsetReg, TR::LabelSymbol * returnFromJNICallLabel,
TR::Snippet * callDataSnippet, bool isJNIGCPoint)
{
// WCode specific
//
// There are 4 cases for outgoing branch sequences
// case 1) pure OS linkage call using entry point
// BASR R14,R15
// case 2) (indirect) Call vi function pointer
// LM R5,R6,disp(regfp)
// BASR R7,R6
// where:
// a) regfp is a register containing pointer to function descriptor
// (most likely placed in R6)
// b) disp is offset into function descriptor - 16/0 (31/64 bit respectively)
// case 3) (direct) Call to (static or global) function defined in the compilation unit:
// BRASL R7,func
//
// case 4) (direct) Call to external function referenced function
// LM R5,R6,disp(regenv)
// BASR R7,R6
// where:
// a) disp is an offset in the environment (aka ADA) containing the
// function descriptor body (i.e. not pointer to function descriptor)
TR_XPLinkCallTypes callType;
TR::Register* aeReg = deps->searchPostConditionRegister(getENVPointerRegister());
TR::Register* epReg = deps->searchPostConditionRegister(getEntryPointRegister());
TR::Register* raReg = deps->searchPostConditionRegister(getReturnAddressRegister());
TR::RegisterDependencyConditions* preDeps = new (trHeapMemory()) TR::RegisterDependencyConditions(deps->getPreConditions(), NULL, deps->getAddCursorForPre(), 0, cg());
TR::RegisterDependencyConditions* postDeps = new (trHeapMemory()) TR::RegisterDependencyConditions(NULL, deps->getPostConditions(), 0, deps->getAddCursorForPost(), cg());
if (callNode->getOpCode().isIndirect())
{
TR::Register* targetAddress = cg()->evaluate(callNode->getFirstChild());
generateRSInstruction(cg(), TR::InstOpCode::getLoadMultipleOpCode(), callNode, aeReg, epReg, generateS390MemoryReference(targetAddress, 0, cg()));
generateRRInstruction(cg(), InstOpCode::BASR, callNode, raReg, epReg, preDeps);
callType = TR_XPLinkCallType_BASR;
}
else
{
TR::SymbolReference* callSymRef = callNode->getSymbolReference();
TR::Symbol* callSymbol = callSymRef->getSymbol();
if (comp()->isRecursiveMethodTarget(callSymbol))
{
// No need to load the environment or the entry point for recursive calls because these values are not used
// within OMR compiled methods
TR::Instruction* callInstr = new (cg()->trHeapMemory()) TR::S390RILInstruction(TR::InstOpCode::BRASL, callNode, raReg, callSymbol, callSymRef, cg());
callInstr->setDependencyConditions(preDeps);
}
else
{
struct FunctionDescriptor
{
void* environment;
void* func;
};
FunctionDescriptor* fd = reinterpret_cast<FunctionDescriptor*>(callSymbol->castToMethodSymbol()->getMethodAddress());
genLoadAddressConstant(cg(), callNode, reinterpret_cast<uintptr_t>(fd), epReg);
generateRSInstruction(cg(), TR::InstOpCode::getLoadMultipleOpCode(), callNode, aeReg, epReg, generateS390MemoryReference(epReg, 0, cg()));
TR::Instruction* callInstr = new (cg()->trHeapMemory()) TR::S390RILInstruction(TR::InstOpCode::BRASL, callNode, raReg, fd->func, callSymRef, cg());
callInstr->setDependencyConditions(preDeps);
}
callType = TR_XPLinkCallType_BRASL7;
}
auto cursor = generateS390LabelInstruction(cg(), InstOpCode::LABEL, callNode, returnFromJNICallLabel);
genCallNOPAndDescriptor(cursor, callNode, callNode, callType);
// Append post-dependencies after NOP
TR::LabelSymbol* depsLabel = generateLabelSymbol(cg());
generateS390LabelInstruction(cg(), InstOpCode::LABEL, callNode, depsLabel, postDeps);
}
TR::LabelSymbol*
TR::S390zOSSystemLinkage::getEntryPointMarkerLabel() const
{
return _entryPointMarkerLabel;
}
TR::LabelSymbol*
TR::S390zOSSystemLinkage::getStackPointerUpdateLabel() const
{
return _stackPointerUpdateLabel;
}
TR::PPA1Snippet*
TR::S390zOSSystemLinkage::getPPA1Snippet() const
{
return _ppa1Snippet;
}
TR::PPA2Snippet*
TR::S390zOSSystemLinkage::getPPA2Snippet() const
{
return _ppa2Snippet;
}
TR::Instruction *
TR::S390zOSSystemLinkage::genCallNOPAndDescriptor(TR::Instruction* cursor, TR::Node* node, TR::Node* callNode, TR_XPLinkCallTypes callType)
{
if (comp()->target().is32Bit())
{
// The XPLINK Call Descriptor is created only on 31-bit targets when:
//
// 1. The call site is so far removed from the Entry Point Marker of the function that its offset cannot be contained
// in the space available in the call NOP descriptor following the call site.
//
// 2. The call contains a return value or parameters that are passed in registers or in ways incompatible with non-
// XPLINK code.
//
// The XPLINK Call Descriptor has the following format:
//
// 0x01 0x02 0x03
// 0x00 +----------------------------------+----------------------------------+----------------------------------+----------------------------------+
// | Signed offset, in bytes, to Entry Point Marker (if it exists) |
// 0x04 +----------------------------------+----------------------------------+----------------------------------+----------------------------------+
// | Linkage and Return Value Adjust | Parameter Adjust |
// +----------------------------------+----------------------------------+----------------------------------+----------------------------------+
//
// We generate the XPLINK call descriptor inline right after the call instead of the literal pool because some
// z/OS 31-bit programs tend to be rather large, and the distance between the call location and the literal pool
// may exceed the number of bits we have to encode the offset in the NOP descriptor.
TR::LabelSymbol* xplinkCallDescriptorBeginLabel = generateLabelSymbol(cg());
TR::LabelSymbol* xplinkCallDescriptorEndLabel = generateLabelSymbol(cg());
uint32_t nopDescriptor = 0x47000000 | (static_cast<uint32_t>(callType) << 16);
cursor = generateDataConstantInstruction(cg(), TR::InstOpCode::DC, node, nopDescriptor, cursor);
cg()->addRelocation(new (cg()->trHeapMemory()) XPLINKCallDescriptorRelocation(cursor, xplinkCallDescriptorBeginLabel));
cursor = generateS390BranchInstruction(cg(), InstOpCode::BRC, InstOpCode::COND_BRC, node, xplinkCallDescriptorEndLabel, cursor);
cursor = generateAlignmentNopInstruction(cg(), node, 8, cursor);
cursor = generateS390LabelInstruction(cg(), InstOpCode::LABEL, node, xplinkCallDescriptorBeginLabel, cursor);
cursor = generateDataConstantInstruction(cg(), TR::InstOpCode::DC, node, 0x00000000, cursor);
uint32_t callDescriptorValue = generateCallDescriptorValue(callNode);
cursor = generateDataConstantInstruction(cg(), TR::InstOpCode::DC, node, callDescriptorValue, cursor);
cursor = generateS390LabelInstruction(cg(), InstOpCode::LABEL, node, xplinkCallDescriptorEndLabel, cursor);
}
else
{
// TODO: Once we support generic TR::InstOpCode::DC of any size we need to modify this line to use it, similarly
// to what we do above for the 31-bit case.
uint16_t nopDescriptor = 0x1800 | static_cast<uint16_t>(callType);
cursor = new (cg()->trHeapMemory()) TR::S390Imm2Instruction(TR::InstOpCode::DC2, node, nopDescriptor, cursor, cg());
}
return cursor;
}
uint32_t
TR::S390zOSSystemLinkage::generateCallDescriptorValue(TR::Node* callNode)
{
uint32_t result = 0;
if (cg()->comp()->target().is32Bit())
{
uint32_t returnValueAdjust = 0;
// 5 bit values for Return Value Adjust field of XPLLINK descriptor
enum ReturnValueAdjust
{
XPLINK_RVA_RETURN_VOID_OR_UNUSED = 0x00,
XPLINK_RVA_RETURN_INT32_OR_LESS = 0x01,
XPLINK_RVA_RETURN_INT64 = 0x02,
XPLINK_RVA_RETURN_FAR_POINTER = 0x04,
XPLINK_RVA_RETURN_FLOAT4 = 0x08,
XPLINK_RVA_RETURN_FLOAT8 = 0x09,
XPLINK_RVA_RETURN_FLOAT16 = 0x0A,
XPLINK_RVA_RETURN_COMPLEX4 = 0x0C,
XPLINK_RVA_RETURN_COMPLEX8 = 0x0D,
XPLINK_RVA_RETURN_COMPLEX16 = 0x0E,
XPLINK_RVA_RETURN_AGGREGATE = 0x10,
};
TR::DataType dataType = callNode->getDataType();
switch (dataType)
{
case TR::NoType:
returnValueAdjust = XPLINK_RVA_RETURN_VOID_OR_UNUSED;
break;
case TR::Int8:
case TR::Int16:
case TR::Int32:
case TR::Address:
returnValueAdjust = XPLINK_RVA_RETURN_INT32_OR_LESS;
break;
case TR::Int64:
returnValueAdjust = XPLINK_RVA_RETURN_INT64;
break;
case TR::Float:
returnValueAdjust = XPLINK_RVA_RETURN_FLOAT4;
break;
case TR::Double:
returnValueAdjust = XPLINK_RVA_RETURN_FLOAT8;
break;
default:
TR_ASSERT_FATAL(false, "Unknown datatype (%s) for call node (%p)", dataType.toString(), callNode);
break;
}
result |= returnValueAdjust << 24;
//
// Float parameter description fields
// Bits 8-31 inclusive
//
uint32_t parmAreaOffset = 0;
#ifdef J9_PROJECT_SPECIFIC
TR::MethodSymbol* callSymbol = callNode->getSymbol()->castToMethodSymbol();
if (callSymbol->isJNI() && callNode->isPreparedForDirectJNI())
{
TR::ResolvedMethodSymbol * cs = callSymbol->castToResolvedMethodSymbol();
TR_ResolvedMethod * resolvedMethod = cs->getResolvedMethod();
// JNI Calls include a JNIEnv* pointer that is not included in list of children nodes.
// For FastJNI, certain calls do not require us to pass the JNIEnv.
if (!cg()->fej9()->jniDoNotPassThread(resolvedMethod))
parmAreaOffset += sizeof(uintptr_t);
// For FastJNI, certain calls do not have to pass in receiver object.
if (cg()->fej9()->jniDoNotPassReceiver(resolvedMethod))
parmAreaOffset -= sizeof(uintptr_t);
}
#endif
uint32_t parmDescriptorFields = 0;
TR::Symbol *funcSymbol = callNode->getSymbolReference()->getSymbol();
uint32_t firstArgumentChild = callNode->getFirstArgumentIndex();
int32_t to = callNode->getNumChildren() - 1;
int32_t parmCount = 1;
int32_t floatParmNum = 0;
uint32_t gprSize = cg()->machine()->getGPRSize();
uint32_t lastFloatParmAreaOffset = 0;
bool done = false;
for (int32_t i = firstArgumentChild; (i <= to) && !done; i++, parmCount++)
{
TR::Node *child = callNode->getChild(i);
TR::DataType dataType = child->getDataType();
TR::SymbolReference *parmSymRef = child->getOpCode().hasSymbolReference() ? child->getSymbolReference() : NULL;
int32_t argSize = 0;
if (parmSymRef == NULL)
argSize = child->getSize();
else
argSize = parmSymRef->getSymbol()->getSize();
// Note: complex type is attempted to be handled although other code needs
// to change in 390 codegen to support complex
//
// PERFORMANCE TODO: it is desirable to use the defined "parameter count" of
// the function symbol to help determine if we have an unprototyped argument
// of a call (site) to a vararg function. Currently we overcompensate for
// outgoing float parms to vararg functions and always shadow in FPR and
// and stack/gprs as with an unprotoyped call - see pushArg(). Precise
// information can help remove such compensation. Changes to fix this would
// involve: this function, pushArg() and buildArgs().
int32_t numFPRsNeeded = 0;
switch (dataType)
{
case TR::Float:
case TR::Double:
#ifdef J9_PROJECT_SPECIFIC
case TR::DecimalFloat:
case TR::DecimalDouble:
#endif
numFPRsNeeded = 1;
break;
#ifdef J9_PROJECT_SPECIFIC
case TR::DecimalLongDouble:
break;
#endif
}
if (numFPRsNeeded != 0)
{
uint32_t unitSize = argSize / numFPRsNeeded;
uint32_t wordsToPreviousParm = (parmAreaOffset - lastFloatParmAreaOffset) / gprSize;
if (wordsToPreviousParm > 0xF)
{ // to big for descriptor. Will pass in stack
done = true; // done
}
uint32_t val = wordsToPreviousParm + ((unitSize == 4) ? 0x10 : 0x20);
parmDescriptorFields |= val << (6 * (3 - floatParmNum));
floatParmNum++;
if (floatParmNum >= getNumFloatArgumentRegisters())
{
done = true;
}
}
parmAreaOffset += argSize < gprSize ? gprSize : argSize;
if (numFPRsNeeded != 0)
{
lastFloatParmAreaOffset = parmAreaOffset;
}
}
result |= parmDescriptorFields;
}
return result;
}
TR::Instruction *
TR::S390zOSSystemLinkage::addImmediateToRealRegister(TR::RealRegister *targetReg, int32_t value, TR::RealRegister *tempReg, TR::Node *node, TR::Instruction *cursor, bool *checkTempNeeded)
{
bool smallPositiveValue = (value<MAXDISP && value>=0);
bool largeValue = (value<MIN_IMMEDIATE_VAL || value>MAX_IMMEDIATE_VAL);
if (checkTempNeeded)
*checkTempNeeded = false; // assume no reg needed - change this below
if (smallPositiveValue)
{
if (!checkTempNeeded)
cursor = generateRXInstruction(cg(), TR::InstOpCode::LA, node, targetReg, generateS390MemoryReference(targetReg,value,cg()),cursor);
}
else if (largeValue)
{
// TODO: could reduce number of cases dependent on temporary register
// For example, could generate sequence of AHI's for suitably small large value
if (checkTempNeeded)
*checkTempNeeded = true;
else if (!tempReg)
TR_ASSERT( 0,"temporary register needed for add to register");
else
{
cursor = generateS390ImmToRegister(cg(), node, tempReg, (intptr_t)(value), cursor);
cursor = generateRRInstruction(cg(), TR::InstOpCode::getAddRegOpCode(), node, targetReg, tempReg, cursor);
}
}
else
{
if (!checkTempNeeded)
cursor = generateRXInstruction(cg(), TR::InstOpCode::LAY, node, targetReg, generateS390MemoryReference(targetReg,value,cg()), cursor);
}
return cursor;
}
TR::Instruction*
TR::S390zOSSystemLinkage::fillGPRsInEpilogue(TR::Node* node, TR::Instruction* cursor)
{
int16_t GPRSaveMask;
int8_t gprSize = cg()->machine()->getGPRSize();
TR::Node * currentNode = cursor->getNode();
int32_t offset;
int32_t stackFrameSize, offsetToFirstSavedReg;
int32_t firstSaved, lastSaved, firstPossibleSaved;
TR::MemoryReference *rsa;
int32_t blockNumber = -1;
TR::RealRegister *spReg = getNormalStackPointerRealRegister(); // normal sp reg used in prol/epil
stackFrameSize = getStackFrameSize();
GPRSaveMask = getGPRSaveMask(); // restore mask is subset of save mask
GPRSaveMask &= ~(1 << GPREGINDEX(getEntryPointRegister())); // entry point register not restored
firstSaved = TR::Linkage::getFirstMaskedBit(GPRSaveMask);
firstPossibleSaved = 4; // GPR4 is first reg in save area
lastSaved = TR::Linkage::getLastMaskedBit(GPRSaveMask);
if (firstSaved >= 0)
{
offsetToFirstSavedReg = (firstSaved-firstPossibleSaved)*gprSize; // relative to start of save area
offset = XPLINK_STACK_FRAME_BIAS + offsetToFirstSavedReg;
rsa = generateS390MemoryReference(spReg, offset, cg());
if (firstSaved == lastSaved)
{
cursor = generateRXInstruction(cg(), TR::InstOpCode::getLoadOpCode(), currentNode,
getRealRegister(REGNUM(firstSaved + TR::RealRegister::FirstGPR)), rsa, cursor);
}
else if (firstSaved < lastSaved)
{
int8_t numNeededToRestore = -1;
cursor = restorePreservedRegs(REGNUM(firstSaved + TR::RealRegister::FirstGPR),
REGNUM(lastSaved + TR::RealRegister::FirstGPR),
blockNumber, cursor, currentNode, spReg, rsa, getNormalStackPointerRegister());
}
}
if (!(GPRSaveMask &(1 << GPREGINDEX(getNormalStackPointerRegister()))))
{ // GPR4 not restored by previous and needs restoring
cursor = addImmediateToRealRegister(spReg, stackFrameSize, NULL, currentNode, cursor);
TR_ASSERT( cursor != NULL, "xplink retore code - should not need temp register");
}
return cursor;
}
TR::Instruction*
TR::S390zOSSystemLinkage::fillFPRsInEpilogue(TR::Node* node, TR::Instruction* cursor)
{
TR::RealRegister* spReg = getNormalStackPointerRealRegister();
int32_t offset = getFPRSaveAreaEndOffset();
int16_t FPRSaveMask = getFPRSaveMask();
for (int32_t i = TR::Linkage::getFirstMaskedBit(FPRSaveMask); i <= TR::Linkage::getLastMaskedBit(FPRSaveMask); ++i)
{
if (FPRSaveMask & (1 << (i)))
{
TR::MemoryReference* fillMemRef = generateS390MemoryReference(spReg, offset, cg());
cursor = generateRXInstruction(cg(), TR::InstOpCode::LD, node, getRealRegister(REGNUM(i + TR::RealRegister::FirstFPR)), fillMemRef, cursor);
offset += cg()->machine()->getFPRSize();
}
}
return cursor;
}
TR::Instruction*
TR::S390zOSSystemLinkage::spillGPRsInPrologue(TR::Node* node, TR::Instruction* cursor)
{
enum TR_XPLinkFrameType frameType;
int16_t GPRSaveMask;
TR::LabelSymbol *stmLabel;
int8_t gprSize = cg()->machine()->getGPRSize();
int32_t stackFrameSize, offsetToRegSaveArea, offsetToFirstSavedReg, gpr3ParmOffset;
int32_t firstSaved, lastSaved, firstPossibleSaved;
// As defined by XPLINK specification
int32_t intermediateThreshold = comp()->target().is64Bit() ? 1024 * 1024 : 4096;
TR::RealRegister *spReg = getNormalStackPointerRealRegister(); // normal sp reg used in prol/epil
stackFrameSize = getStackFrameSize();
offsetToRegSaveArea = getOffsetToRegSaveArea();
// This delta is slightly pessimistic and could be a "tad" more. But, taking
// into account the "tad" complicates this code more than its worth.
// I.E. small set of cases could be forced to being intermediate vs. small
// frame types because of this "tad".
int32_t delta = XPLINK_STACK_FRAME_BIAS - stackFrameSize;
if (stackFrameSize > intermediateThreshold)
// guard page option mandates explicit checking
frameType = TR_XPLinkStackCheckFrame;
else if (delta >=0)
// delta > 0 implies stack offset for STM will be positive and <2K
frameType = TR_XPLinkSmallFrame;
else if (stackFrameSize < intermediateThreshold)
frameType = TR_XPLinkIntermediateFrame;
else
frameType = TR_XPLinkStackCheckFrame;
TR::MemoryReference *rsa, *bosRef, *extenderRef, *gpr3ParmRef;
int32_t rsaOffset, bosOffset, extenderOffset;
//
// Determine minimal Preserved GPRs. Notes:
// 1) an option can force the save of the stack pointer register
// 2) XPLink noleaf: routines mandates the save of the entry point register (r6) & return register (r7)
// leaf: routines cannot modify r6, r7
//
GPRSaveMask = 0;