blob: e94783353042c980205451d9a0fa488afaf6632b [file] [log] [blame]
/*
* Copyright (C) 2012-2016 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.
*/
#include "config.h"
#include "DFGValidate.h"
#if ENABLE(DFG_JIT)
#include "CodeBlockWithJITType.h"
#include "DFGClobberize.h"
#include "DFGClobbersExitState.h"
#include "DFGMayExit.h"
#include "JSCInlines.h"
#include <wtf/Assertions.h>
namespace JSC { namespace DFG {
namespace {
class Validate {
public:
Validate(Graph& graph, GraphDumpMode graphDumpMode, CString graphDumpBeforePhase)
: m_graph(graph)
, m_graphDumpMode(graphDumpMode)
, m_graphDumpBeforePhase(graphDumpBeforePhase)
{
}
#define VALIDATE(context, assertion) do { \
if (!(assertion)) { \
startCrashing(); \
dataLogF("\n\n\nAt "); \
reportValidationContext context; \
dataLogF(": validation failed: %s (%s:%d).\n", #assertion, __FILE__, __LINE__); \
dumpGraphIfAppropriate(); \
WTFReportAssertionFailure(__FILE__, __LINE__, WTF_PRETTY_FUNCTION, #assertion); \
CRASH(); \
} \
} while (0)
#define V_EQUAL(context, left, right) do { \
if (left != right) { \
startCrashing(); \
dataLogF("\n\n\nAt "); \
reportValidationContext context; \
dataLogF(": validation failed: (%s = ", #left); \
dataLog(left); \
dataLogF(") == (%s = ", #right); \
dataLog(right); \
dataLogF(") (%s:%d).\n", __FILE__, __LINE__); \
dumpGraphIfAppropriate(); \
WTFReportAssertionFailure(__FILE__, __LINE__, WTF_PRETTY_FUNCTION, #left " == " #right); \
CRASH(); \
} \
} while (0)
#define notSet (static_cast<size_t>(-1))
void validate()
{
// NB. This code is not written for performance, since it is not intended to run
// in release builds.
VALIDATE((m_graph.block(0)), m_graph.isRoot(m_graph.block(0)));
VALIDATE((m_graph.block(0)), m_graph.block(0) == m_graph.m_roots[0]);
for (BasicBlock* block : m_graph.m_roots)
VALIDATE((block), block->predecessors.isEmpty());
// Validate that all local variables at the head of all entrypoints are dead.
for (BasicBlock* entrypoint : m_graph.m_roots) {
for (unsigned i = 0; i < entrypoint->variablesAtHead.numberOfLocals(); ++i)
V_EQUAL((virtualRegisterForLocal(i), entrypoint), static_cast<Node*>(nullptr), entrypoint->variablesAtHead.local(i));
}
// Validate ref counts and uses.
for (BlockIndex blockIndex = 0; blockIndex < m_graph.numBlocks(); ++blockIndex) {
BasicBlock* block = m_graph.block(blockIndex);
if (!block)
continue;
VALIDATE((block), block->isReachable);
for (size_t i = 0; i < block->numNodes(); ++i)
m_myRefCounts.add(block->node(i), 0);
}
for (BlockIndex blockIndex = 0; blockIndex < m_graph.numBlocks(); ++blockIndex) {
BasicBlock* block = m_graph.block(blockIndex);
if (!block)
continue;
for (size_t i = 0; i < block->numNodes(); ++i) {
Node* node = block->node(i);
m_acceptableNodes.add(node);
if (!node->shouldGenerate())
continue;
if (node->op() == Upsilon) {
VALIDATE((node), m_graph.m_form == SSA);
if (node->phi()->shouldGenerate())
m_myRefCounts.find(node)->value++;
}
for (unsigned j = 0; j < m_graph.numChildren(node); ++j) {
// Phi children in LoadStore form are invalid.
if (m_graph.m_form == LoadStore && block->isPhiIndex(i))
continue;
Edge edge = m_graph.child(node, j);
if (!edge)
continue;
m_myRefCounts.find(edge.node())->value++;
validateEdgeWithDoubleResultIfNecessary(node, edge);
VALIDATE((node, edge), edge->hasInt52Result() == (edge.useKind() == Int52RepUse));
if (m_graph.m_form == SSA) {
// In SSA, all edges must hasResult().
VALIDATE((node, edge), edge->hasResult());
continue;
}
// Unless I'm a Flush, Phantom, GetLocal, or Phi, my children should hasResult().
switch (node->op()) {
case Flush:
case GetLocal:
VALIDATE((node, edge), edge->hasVariableAccessData(m_graph));
VALIDATE((node, edge), edge->variableAccessData() == node->variableAccessData());
break;
case PhantomLocal:
VALIDATE((node, edge), edge->hasVariableAccessData(m_graph));
VALIDATE((node, edge), edge->variableAccessData() == node->variableAccessData());
VALIDATE((node, edge), edge->op() != SetLocal);
break;
case Phi:
VALIDATE((node, edge), edge->hasVariableAccessData(m_graph));
if (m_graph.m_unificationState == LocallyUnified)
break;
VALIDATE((node, edge), edge->variableAccessData() == node->variableAccessData());
break;
default:
VALIDATE((node, edge), edge->hasResult());
break;
}
}
}
}
for (BlockIndex blockIndex = 0; blockIndex < m_graph.numBlocks(); ++blockIndex) {
BasicBlock* block = m_graph.block(blockIndex);
if (!block)
continue;
for (size_t i = 0; i < block->numNodes(); ++i) {
Node* node = block->node(i);
if (m_graph.m_refCountState == ExactRefCount)
V_EQUAL((node), m_myRefCounts.get(node), node->adjustedRefCount());
}
bool foundTerminal = false;
for (size_t i = 0 ; i < block->size(); ++i) {
Node* node = block->at(i);
if (node->isTerminal()) {
foundTerminal = true;
for (size_t j = i + 1; j < block->size(); ++j) {
node = block->at(j);
VALIDATE((node), node->op() == Phantom || node->op() == PhantomLocal || node->op() == Flush || node->op() == Check);
m_graph.doToChildren(
node,
[&] (Edge edge) {
VALIDATE((node, edge), shouldNotHaveTypeCheck(edge.useKind()));
});
}
break;
}
}
VALIDATE((block), foundTerminal);
for (size_t i = 0; i < block->size(); ++i) {
Node* node = block->at(i);
VALIDATE((node), node->origin.isSet());
VALIDATE((node), node->origin.semantic.isSet() == node->origin.forExit.isSet());
VALIDATE((node), !(!node->origin.forExit.isSet() && node->origin.exitOK));
VALIDATE((node), !(mayExit(m_graph, node) == Exits && !node->origin.exitOK));
if (i) {
Node* previousNode = block->at(i - 1);
VALIDATE(
(node),
!clobbersExitState(m_graph, previousNode)
|| !node->origin.exitOK
|| node->op() == ExitOK
|| node->origin.forExit != previousNode->origin.forExit);
VALIDATE(
(node),
!(!previousNode->origin.exitOK && node->origin.exitOK)
|| node->op() == ExitOK
|| node->origin.forExit != previousNode->origin.forExit);
}
VALIDATE((node), !node->hasStructure() || !!node->structure().get());
VALIDATE((node), !node->hasCellOperand() || node->cellOperand()->value().isCell());
VALIDATE((node), !node->hasCellOperand() || !!node->cellOperand()->value());
if (!(node->flags() & NodeHasVarArgs)) {
if (!node->child2())
VALIDATE((node), !node->child3());
if (!node->child1())
VALIDATE((node), !node->child2());
}
switch (node->op()) {
case Identity:
case IdentityWithProfile:
VALIDATE((node), canonicalResultRepresentation(node->result()) == canonicalResultRepresentation(node->child1()->result()));
break;
case SetLocal:
case PutStack:
case Upsilon:
VALIDATE((node), !!node->child1());
switch (node->child1().useKind()) {
case UntypedUse:
case CellUse:
case KnownCellUse:
case Int32Use:
case KnownInt32Use:
case Int52RepUse:
case DoubleRepUse:
case BooleanUse:
case KnownBooleanUse:
break;
default:
VALIDATE((node), !"Bad use kind");
break;
}
break;
case MakeRope:
case ValueAdd:
case ArithAdd:
case ArithSub:
case ArithMul:
case ArithIMul:
case ArithDiv:
case ArithMod:
case ArithMin:
case ArithMax:
case ArithPow:
case CompareLess:
case CompareLessEq:
case CompareGreater:
case CompareGreaterEq:
case CompareBelow:
case CompareBelowEq:
case CompareEq:
case CompareStrictEq:
case StrCat:
VALIDATE((node), !!node->child1());
VALIDATE((node), !!node->child2());
break;
case CompareEqPtr:
VALIDATE((node), !!node->child1());
VALIDATE((node), !!node->cellOperand()->value() && node->cellOperand()->value().isCell());
break;
case CheckStructureOrEmpty:
VALIDATE((node), is64Bit());
VALIDATE((node), !!node->child1());
VALIDATE((node), node->child1().useKind() == CellUse);
break;
case CheckStructure:
case StringFromCharCode:
VALIDATE((node), !!node->child1());
break;
case PutStructure:
VALIDATE((node), !node->transition()->previous->dfgShouldWatch());
break;
case MultiPutByOffset:
for (unsigned i = node->multiPutByOffsetData().variants.size(); i--;) {
const PutByIdVariant& variant = node->multiPutByOffsetData().variants[i];
if (variant.kind() != PutByIdVariant::Transition)
continue;
VALIDATE((node), !variant.oldStructureForTransition()->dfgShouldWatch());
}
break;
case MaterializeNewObject:
for (RegisteredStructure structure : node->structureSet()) {
// This only supports structures that are JSFinalObject or JSArray.
VALIDATE(
(node),
structure->classInfo() == JSFinalObject::info()
|| structure->classInfo() == JSArray::info());
// We only support certain indexing shapes.
VALIDATE((node), !hasAnyArrayStorage(structure->indexingType()));
}
break;
case DoubleConstant:
case Int52Constant:
VALIDATE((node), node->isNumberConstant());
break;
case GetByOffset:
case PutByOffset:
// FIXME: We should be able to validate that GetByOffset and PutByOffset are
// using the same object for storage and base. I think this means finally
// splitting these nodes into two node types, one for inline and one for
// out-of-line. The out-of-line one will require that the first node is storage,
// while the inline one will not take a storage child at all.
// https://bugs.webkit.org/show_bug.cgi?id=159602
break;
case HasOwnProperty: {
VALIDATE((node), !!m_graph.m_vm.hasOwnPropertyCache());
break;
}
case GetVectorLength: {
Array::Type type = node->arrayMode().type();
VALIDATE((node), type == Array::ArrayStorage || type == Array::SlowPutArrayStorage);
break;
}
case CPUIntrinsic: {
switch (node->intrinsic()) {
case CPUMfenceIntrinsic:
case CPURdtscIntrinsic:
case CPUCpuidIntrinsic:
case CPUPauseIntrinsic:
break;
default:
VALIDATE((node), false);
break;
}
break;
}
case GetArgumentCountIncludingThis: {
if (InlineCallFrame* inlineCallFrame = node->argumentsInlineCallFrame())
VALIDATE((node), inlineCallFrame->isVarargs());
break;
}
case NewArray:
VALIDATE((node), node->vectorLengthHint() >= node->numChildren());
break;
case NewArrayBuffer:
VALIDATE((node), node->vectorLengthHint() >= node->castOperand<JSFixedArray*>()->length());
break;
default:
break;
}
}
}
switch (m_graph.m_form) {
case LoadStore:
case ThreadedCPS:
validateCPS();
break;
case SSA:
validateSSA();
break;
}
// Validate clobbered states.
struct DefLambdaAdaptor {
std::function<void(PureValue)> pureValue;
std::function<void(HeapLocation, LazyNode)> locationAndNode;
void operator()(PureValue value) const
{
pureValue(value);
}
void operator()(HeapLocation location, LazyNode node) const
{
locationAndNode(location, node);
}
};
for (BasicBlock* block : m_graph.blocksInNaturalOrder()) {
for (Node* node : *block) {
clobberize(m_graph, node,
[&] (AbstractHeap) { },
[&] (AbstractHeap heap)
{
// CSE assumes that HEAP TOP is never written.
// If this assumption is weakened, you need to update clobbering
// in CSE accordingly.
if (heap.kind() == Stack)
VALIDATE((node), !heap.payload().isTop());
},
DefLambdaAdaptor {
[&] (PureValue) { },
[&] (HeapLocation location, LazyNode)
{
VALIDATE((node), location.heap().kind() != SideState);
// More specific kinds should be used instead.
VALIDATE((node), location.heap().kind() != World);
VALIDATE((node), location.heap().kind() != Heap);
}
});
}
}
}
private:
Graph& m_graph;
GraphDumpMode m_graphDumpMode;
CString m_graphDumpBeforePhase;
HashMap<Node*, unsigned> m_myRefCounts;
HashSet<Node*> m_acceptableNodes;
void validateCPS()
{
VALIDATE((), !m_graph.m_rootToArguments.isEmpty()); // We should have at least one root.
VALIDATE((), m_graph.m_rootToArguments.size() == m_graph.m_roots.size());
for (BasicBlock* root : m_graph.m_rootToArguments.keys())
VALIDATE((), m_graph.m_roots.contains(root));
for (BlockIndex blockIndex = 0; blockIndex < m_graph.numBlocks(); ++blockIndex) {
BasicBlock* block = m_graph.block(blockIndex);
if (!block)
continue;
HashSet<Node*> phisInThisBlock;
HashSet<Node*> nodesInThisBlock;
for (size_t i = 0; i < block->numNodes(); ++i) {
Node* node = block->node(i);
nodesInThisBlock.add(node);
if (block->isPhiIndex(i))
phisInThisBlock.add(node);
for (unsigned j = 0; j < m_graph.numChildren(node); ++j) {
Edge edge = m_graph.child(node, j);
if (!edge)
continue;
VALIDATE((node, edge), m_acceptableNodes.contains(edge.node()));
}
}
{
HashSet<Node*> seenNodes;
for (size_t i = 0; i < block->size(); ++i) {
Node* node = block->at(i);
m_graph.doToChildren(node, [&] (const Edge& edge) {
Node* child = edge.node();
VALIDATE((node), block->isInPhis(child) || seenNodes.contains(child));
});
seenNodes.add(node);
}
}
for (size_t i = 0; i < block->phis.size(); ++i) {
Node* node = block->phis[i];
ASSERT(phisInThisBlock.contains(node));
VALIDATE((node), node->op() == Phi);
VirtualRegister local = node->local();
for (unsigned j = 0; j < m_graph.numChildren(node); ++j) {
// Phi children in LoadStore form are invalid.
if (m_graph.m_form == LoadStore && block->isPhiIndex(i))
continue;
Edge edge = m_graph.child(node, j);
if (!edge)
continue;
VALIDATE(
(node, edge),
edge->op() == SetLocal
|| edge->op() == SetArgument
|| edge->op() == Flush
|| edge->op() == Phi);
if (phisInThisBlock.contains(edge.node()))
continue;
if (nodesInThisBlock.contains(edge.node())) {
VALIDATE(
(node, edge),
edge->op() == SetLocal
|| edge->op() == SetArgument
|| edge->op() == Flush);
continue;
}
// There must exist a predecessor block that has this node index in
// its tail variables.
bool found = false;
for (unsigned k = 0; k < block->predecessors.size(); ++k) {
BasicBlock* prevBlock = block->predecessors[k];
VALIDATE((block->predecessors[k]), prevBlock);
Node* prevNode = prevBlock->variablesAtTail.operand(local);
// If we have a Phi that is not referring to *this* block then all predecessors
// must have that local available.
VALIDATE((local, block, block->predecessors[k]), prevNode);
switch (prevNode->op()) {
case GetLocal:
case Flush:
case PhantomLocal:
prevNode = prevNode->child1().node();
break;
default:
break;
}
if (node->shouldGenerate()) {
VALIDATE((local, block->predecessors[k], prevNode),
prevNode->shouldGenerate());
}
VALIDATE(
(local, block->predecessors[k], prevNode),
prevNode->op() == SetLocal
|| prevNode->op() == SetArgument
|| prevNode->op() == Phi);
if (prevNode == edge.node()) {
found = true;
break;
}
// At this point it cannot refer into this block.
VALIDATE((local, block->predecessors[k], prevNode), !prevBlock->isInBlock(edge.node()));
}
VALIDATE((node, edge), found);
}
}
Operands<size_t> getLocalPositions(
block->variablesAtHead.numberOfArguments(),
block->variablesAtHead.numberOfLocals());
Operands<size_t> setLocalPositions(
block->variablesAtHead.numberOfArguments(),
block->variablesAtHead.numberOfLocals());
for (size_t i = 0; i < block->variablesAtHead.numberOfArguments(); ++i) {
VALIDATE((virtualRegisterForArgument(i), block), !block->variablesAtHead.argument(i) || block->variablesAtHead.argument(i)->accessesStack(m_graph));
if (m_graph.m_form == ThreadedCPS)
VALIDATE((virtualRegisterForArgument(i), block), !block->variablesAtTail.argument(i) || block->variablesAtTail.argument(i)->accessesStack(m_graph));
getLocalPositions.argument(i) = notSet;
setLocalPositions.argument(i) = notSet;
}
for (size_t i = 0; i < block->variablesAtHead.numberOfLocals(); ++i) {
VALIDATE((virtualRegisterForLocal(i), block), !block->variablesAtHead.local(i) || block->variablesAtHead.local(i)->accessesStack(m_graph));
if (m_graph.m_form == ThreadedCPS)
VALIDATE((virtualRegisterForLocal(i), block), !block->variablesAtTail.local(i) || block->variablesAtTail.local(i)->accessesStack(m_graph));
getLocalPositions.local(i) = notSet;
setLocalPositions.local(i) = notSet;
}
for (size_t i = 0; i < block->size(); ++i) {
Node* node = block->at(i);
ASSERT(nodesInThisBlock.contains(node));
VALIDATE((node), node->op() != Phi);
VALIDATE((node), node->origin.forExit.isSet());
for (unsigned j = 0; j < m_graph.numChildren(node); ++j) {
Edge edge = m_graph.child(node, j);
if (!edge)
continue;
VALIDATE((node, edge), nodesInThisBlock.contains(edge.node()));
switch (node->op()) {
case PhantomLocal:
case GetLocal:
case Flush:
break;
default:
VALIDATE((node, edge), !phisInThisBlock.contains(edge.node()));
break;
}
}
switch (node->op()) {
case Phi:
case Upsilon:
case CheckInBounds:
case PhantomNewObject:
case PhantomNewFunction:
case PhantomNewGeneratorFunction:
case PhantomNewAsyncFunction:
case PhantomNewAsyncGeneratorFunction:
case PhantomCreateActivation:
case PhantomNewRegexp:
case GetMyArgumentByVal:
case GetMyArgumentByValOutOfBounds:
case PutHint:
case CheckStructureImmediate:
case MaterializeCreateActivation:
case PutStack:
case KillStack:
case GetStack:
case EntrySwitch:
case InitializeEntrypointArguments:
VALIDATE((node), !"unexpected node type in CPS");
break;
case MaterializeNewObject: {
// CPS only allows array lengths to be constant. This constraint only exists
// because we don't have DFG support for anything more and we don't need any
// other kind of support for now.
ObjectMaterializationData& data = node->objectMaterializationData();
for (unsigned i = data.m_properties.size(); i--;) {
PromotedLocationDescriptor descriptor = data.m_properties[i];
Edge edge = m_graph.varArgChild(node, 1 + i);
switch (descriptor.kind()) {
case PublicLengthPLoc:
case VectorLengthPLoc:
VALIDATE((node, edge), edge->isInt32Constant());
break;
default:
break;
}
}
// CPS only allows one structure.
VALIDATE((node), node->structureSet().size() == 1);
// CPS disallows int32 and double arrays. Those require weird type checks and
// conversions. They are not needed in the DFG right now. We should add support
// for these if the DFG ever needs it.
for (RegisteredStructure structure : node->structureSet()) {
VALIDATE((node), !hasInt32(structure->indexingType()));
VALIDATE((node), !hasDouble(structure->indexingType()));
}
break;
}
case Phantom:
VALIDATE((node), m_graph.m_fixpointState != FixpointNotConverged);
break;
default:
break;
}
if (!node->shouldGenerate())
continue;
switch (node->op()) {
case GetLocal:
// Ignore GetLocal's that we know to be dead, but that the graph
// doesn't yet know to be dead.
if (!m_myRefCounts.get(node))
break;
if (m_graph.m_form == ThreadedCPS) {
VALIDATE((node, block), getLocalPositions.operand(node->local()) == notSet);
VALIDATE((node, block), !!node->child1());
}
getLocalPositions.operand(node->local()) = i;
break;
case SetLocal:
// Only record the first SetLocal. There may be multiple SetLocals
// because of flushing.
if (setLocalPositions.operand(node->local()) != notSet)
break;
setLocalPositions.operand(node->local()) = i;
break;
case SetArgument:
// This acts like a reset. It's ok to have a second GetLocal for a local in the same
// block if we had a SetArgument for that local.
getLocalPositions.operand(node->local()) = notSet;
setLocalPositions.operand(node->local()) = notSet;
break;
default:
break;
}
}
if (m_graph.m_form == LoadStore)
continue;
for (size_t i = 0; i < block->variablesAtHead.numberOfArguments(); ++i) {
checkOperand(
block, getLocalPositions, setLocalPositions, virtualRegisterForArgument(i));
}
for (size_t i = 0; i < block->variablesAtHead.numberOfLocals(); ++i) {
checkOperand(
block, getLocalPositions, setLocalPositions, virtualRegisterForLocal(i));
}
}
}
void validateSSA()
{
// FIXME: Add more things here.
// https://bugs.webkit.org/show_bug.cgi?id=123471
VALIDATE((), m_graph.m_roots.size() == 1);
VALIDATE((), m_graph.m_roots[0] == m_graph.block(0));
VALIDATE((), !m_graph.m_argumentFormats.isEmpty()); // We always have at least one entrypoint.
VALIDATE((), m_graph.m_rootToArguments.isEmpty()); // This is only used in CPS.
for (unsigned entrypointIndex : m_graph.m_entrypointIndexToCatchBytecodeOffset.keys())
VALIDATE((), entrypointIndex > 0); // By convention, 0 is the entrypoint index for the op_enter entrypoint, which can not be in a catch.
for (BlockIndex blockIndex = 0; blockIndex < m_graph.numBlocks(); ++blockIndex) {
BasicBlock* block = m_graph.block(blockIndex);
if (!block)
continue;
VALIDATE((block), block->phis.isEmpty());
bool didSeeExitOK = false;
bool isOSRExited = false;
for (auto* node : *block) {
didSeeExitOK |= node->origin.exitOK;
switch (node->op()) {
case Phi:
// Phi cannot exit, and it would be wrong to hoist anything to the Phi that could
// exit.
VALIDATE((node), !node->origin.exitOK);
// It never makes sense to have exitOK anywhere in the block before a Phi. It's only
// OK to exit after all Phis are done.
VALIDATE((node), !didSeeExitOK);
break;
case GetLocal:
case SetLocal:
case SetArgument:
case Phantom:
VALIDATE((node), !"bad node type for SSA");
break;
default:
// FIXME: Add more things here.
// https://bugs.webkit.org/show_bug.cgi?id=123471
break;
}
if (isOSRExited)
continue;
switch (node->op()) {
case PhantomNewObject:
case PhantomNewFunction:
case PhantomNewGeneratorFunction:
case PhantomNewAsyncFunction:
case PhantomNewAsyncGeneratorFunction:
case PhantomCreateActivation:
case PhantomDirectArguments:
case PhantomCreateRest:
case PhantomClonedArguments:
case PhantomNewRegexp:
case MovHint:
case Upsilon:
case ForwardVarargs:
case CallForwardVarargs:
case TailCallForwardVarargs:
case TailCallForwardVarargsInlinedCaller:
case ConstructForwardVarargs:
case GetMyArgumentByVal:
case GetMyArgumentByValOutOfBounds:
break;
case Check:
case CheckVarargs:
// FIXME: This is probably not correct.
break;
case PutHint:
VALIDATE((node), node->child1()->isPhantomAllocation());
break;
case PhantomSpread:
VALIDATE((node), m_graph.m_form == SSA);
// We currently support PhantomSpread over PhantomCreateRest and PhantomNewArrayBuffer.
VALIDATE((node), node->child1()->op() == PhantomCreateRest || node->child1()->op() == PhantomNewArrayBuffer);
break;
case PhantomNewArrayWithSpread: {
VALIDATE((node), m_graph.m_form == SSA);
BitVector* bitVector = node->bitVector();
for (unsigned i = 0; i < node->numChildren(); i++) {
Node* child = m_graph.varArgChild(node, i).node();
if (bitVector->get(i)) {
// We currently support PhantomSpread over PhantomCreateRest and PhantomNewArrayBuffer.
VALIDATE((node), child->op() == PhantomSpread);
} else
VALIDATE((node), !child->isPhantomAllocation());
}
break;
}
case PhantomNewArrayBuffer:
VALIDATE((node), m_graph.m_form == SSA);
VALIDATE((node), node->vectorLengthHint() >= node->castOperand<JSFixedArray*>()->length());
break;
case NewArrayWithSpread: {
BitVector* bitVector = node->bitVector();
for (unsigned i = 0; i < node->numChildren(); i++) {
Node* child = m_graph.varArgChild(node, i).node();
if (child->isPhantomAllocation()) {
VALIDATE((node), bitVector->get(i));
VALIDATE((node), m_graph.m_form == SSA);
VALIDATE((node), child->op() == PhantomSpread);
}
}
break;
}
case Spread:
VALIDATE((node), !node->child1()->isPhantomAllocation() || node->child1()->op() == PhantomCreateRest || node->child1()->op() == PhantomNewArrayBuffer);
break;
case EntrySwitch:
VALIDATE((node), node->entrySwitchData()->cases.size() == m_graph.m_numberOfEntrypoints);
break;
case InitializeEntrypointArguments:
VALIDATE((node), node->entrypointIndex() < m_graph.m_numberOfEntrypoints);
break;
default:
m_graph.doToChildren(
node,
[&] (const Edge& edge) {
VALIDATE((node), !edge->isPhantomAllocation());
});
break;
}
isOSRExited |= node->isPseudoTerminal();
}
}
}
void validateEdgeWithDoubleResultIfNecessary(Node* node, Edge edge)
{
if (!edge->hasDoubleResult())
return;
if (m_graph.m_planStage < PlanStage::AfterFixup)
return;
VALIDATE((node, edge), edge.useKind() == DoubleRepUse || edge.useKind() == DoubleRepRealUse || edge.useKind() == DoubleRepAnyIntUse);
}
void checkOperand(
BasicBlock* block, Operands<size_t>& getLocalPositions,
Operands<size_t>& setLocalPositions, VirtualRegister operand)
{
if (getLocalPositions.operand(operand) == notSet)
return;
if (setLocalPositions.operand(operand) == notSet)
return;
VALIDATE(
(block->at(getLocalPositions.operand(operand)),
block->at(setLocalPositions.operand(operand)),
block),
getLocalPositions.operand(operand) < setLocalPositions.operand(operand));
}
void reportValidationContext() { }
void reportValidationContext(Node* node)
{
dataLogF("@%u", node->index());
}
void reportValidationContext(BasicBlock* block)
{
dataLog("Block ", *block);
}
void reportValidationContext(Node* node, Edge edge)
{
dataLog(node, " -> ", edge);
}
void reportValidationContext(VirtualRegister local, BasicBlock* block)
{
if (!block) {
dataLog(local, " in null Block ");
return;
}
dataLog(local, " in Block ", *block);
}
void reportValidationContext(
VirtualRegister local, BasicBlock* sourceBlock, BasicBlock* destinationBlock)
{
dataLog(local, " in Block ", *sourceBlock, " -> ", *destinationBlock);
}
void reportValidationContext(
VirtualRegister local, BasicBlock* sourceBlock, Node* prevNode)
{
dataLog(prevNode, " for ", local, " in Block ", *sourceBlock);
}
void reportValidationContext(Node* node, BasicBlock* block)
{
dataLog(node, " in Block ", *block);
}
void reportValidationContext(Node* node, Node* node2, BasicBlock* block)
{
dataLog(node, " and ", node2, " in Block ", *block);
}
void reportValidationContext(
Node* node, BasicBlock* block, Node* expectedNode, Edge incomingEdge)
{
dataLog(node, " in Block ", *block, ", searching for ", expectedNode, " from ", incomingEdge);
}
void dumpGraphIfAppropriate()
{
if (m_graphDumpMode == DontDumpGraph)
return;
dataLog("\n");
if (!m_graphDumpBeforePhase.isNull()) {
dataLog("Before phase:\n");
dataLog(m_graphDumpBeforePhase);
}
dataLog("At time of failure:\n");
m_graph.dump();
}
};
} // End anonymous namespace.
void validate(Graph& graph, GraphDumpMode graphDumpMode, CString graphDumpBeforePhase)
{
Validate validationObject(graph, graphDumpMode, graphDumpBeforePhase);
validationObject.validate();
}
} } // namespace JSC::DFG
#endif // ENABLE(DFG_JIT)