DFG should be able to set watchpoints on global variables
https://bugs.webkit.org/show_bug.cgi?id=88692
Source/JavaScriptCore:
Reviewed by Geoffrey Garen.
This implements global variable constant folding by allowing the optimizing
compiler to set a "watchpoint" on globals that it wishes to constant fold.
If the watchpoint fires, then an OSR exit is forced by overwriting the
machine code that the optimizing compiler generated with a jump.
As such, this patch is adding quite a bit of stuff:
- Jump replacement on those hardware targets supported by the optimizing
JIT. It is now possible to patch in a jump instruction over any recorded
watchpoint label. The jump must be "local" in the sense that it must be
within the range of the largest jump distance supported by a one
instruction jump.
- WatchpointSets and Watchpoints. A Watchpoint is a doubly-linked list node
that records the location where a jump must be inserted and the
destination to which it should jump. Watchpoints can be added to a
WatchpointSet. The WatchpointSet can be fired all at once, which plants
all jumps. WatchpointSet also remembers if it had ever been invalidated,
which allows for monotonicity: we typically don't want to optimize using
watchpoints on something for which watchpoints had previously fired. The
act of notifying a WatchpointSet has a trivial fast path in case no
Watchpoints are registered (one-byte load+branch).
- SpeculativeJIT::speculationWatchpoint(). It's like speculationCheck(),
except that you don't have to emit branches. But, you need to know what
WatchpointSet to add the resulting Watchpoint to. Not everything that
you could write a speculationCheck() for will have a WatchpointSet that
would get notified if the condition you were speculating against became
invalid.
- SymbolTableEntry now has the ability to refer to a WatchpointSet. It can
do so without incurring any space overhead for those entries that don't
have WatchpointSets.
- The bytecode generator infers all global function variables to be
watchable, and makes all stores perform the WatchpointSet's write check,
and marks all loads as being potentially watchable (i.e. you can compile
them to a watchpoint and a constant).
Put together, this allows for fully sleazy inlining of calls to globally
declared functions. The inline prologue will no longer contain the load of
the function, or any checks of the function you're calling. I.e. it's
pretty much like the kind of inlining you would see in Java or C++.
Furthermore, the watchpointing functionality is built to be fairly general,
and should allow setting watchpoints on all sorts of interesting things
in the future.
The sleazy inlining means that we will now sometimes inline in code paths
that have never executed. Previously, to inline we would have either had
to have executed the call (to read the call's inline cache) or have
executed the method check (to read the method check's inline cache). Now,
we might inline when the callee is a watched global variable. This
revealed some humorous bugs. First, constant folding disagreed with CFA
over what kinds of operations can clobber (example: code path A is dead
but stores a String into variable X, all other code paths store 0 into
X, and then you do CompareEq(X, 0) - CFA will say that this is a non-
clobbering constant, but constant folding thought it was clobbering
because it saw the String prediction). Second, inlining would crash if
the inline callee had not been compiled. This patch fixes both bugs,
since otherwise run-javascriptcore-tests would report regressions.
* CMakeLists.txt:
* GNUmakefile.list.am:
* JavaScriptCore.vcproj/JavaScriptCore/JavaScriptCore.vcproj:
* JavaScriptCore.xcodeproj/project.pbxproj:
* Target.pri:
* assembler/ARMv7Assembler.h:
(ARMv7Assembler):
(JSC::ARMv7Assembler::ARMv7Assembler):
(JSC::ARMv7Assembler::labelForWatchpoint):
(JSC::ARMv7Assembler::label):
(JSC::ARMv7Assembler::replaceWithJump):
(JSC::ARMv7Assembler::maxJumpReplacementSize):
* assembler/AbstractMacroAssembler.h:
(JSC):
(AbstractMacroAssembler):
(Label):
(JSC::AbstractMacroAssembler::watchpointLabel):
* assembler/AssemblerBuffer.h:
* assembler/MacroAssemblerARM.h:
(JSC::MacroAssemblerARM::replaceWithJump):
(MacroAssemblerARM):
(JSC::MacroAssemblerARM::maxJumpReplacementSize):
* assembler/MacroAssemblerARMv7.h:
(MacroAssemblerARMv7):
(JSC::MacroAssemblerARMv7::replaceWithJump):
(JSC::MacroAssemblerARMv7::maxJumpReplacementSize):
(JSC::MacroAssemblerARMv7::branchTest8):
(JSC::MacroAssemblerARMv7::jump):
(JSC::MacroAssemblerARMv7::makeBranch):
* assembler/MacroAssemblerMIPS.h:
(JSC::MacroAssemblerMIPS::replaceWithJump):
(MacroAssemblerMIPS):
(JSC::MacroAssemblerMIPS::maxJumpReplacementSize):
* assembler/MacroAssemblerSH4.h:
(JSC::MacroAssemblerSH4::replaceWithJump):
(MacroAssemblerSH4):
(JSC::MacroAssemblerSH4::maxJumpReplacementSize):
* assembler/MacroAssemblerX86.h:
(MacroAssemblerX86):
(JSC::MacroAssemblerX86::branchTest8):
* assembler/MacroAssemblerX86Common.h:
(JSC::MacroAssemblerX86Common::replaceWithJump):
(MacroAssemblerX86Common):
(JSC::MacroAssemblerX86Common::maxJumpReplacementSize):
* assembler/MacroAssemblerX86_64.h:
(MacroAssemblerX86_64):
(JSC::MacroAssemblerX86_64::branchTest8):
* assembler/X86Assembler.h:
(JSC::X86Assembler::X86Assembler):
(X86Assembler):
(JSC::X86Assembler::cmpb_im):
(JSC::X86Assembler::testb_im):
(JSC::X86Assembler::labelForWatchpoint):
(JSC::X86Assembler::label):
(JSC::X86Assembler::replaceWithJump):
(JSC::X86Assembler::maxJumpReplacementSize):
(JSC::X86Assembler::X86InstructionFormatter::memoryModRM):
* bytecode/CodeBlock.cpp:
(JSC::CodeBlock::dump):
* bytecode/CodeBlock.h:
(JSC::CodeBlock::appendOSRExit):
(JSC::CodeBlock::appendSpeculationRecovery):
(CodeBlock):
(JSC::CodeBlock::appendWatchpoint):
(JSC::CodeBlock::numberOfWatchpoints):
(JSC::CodeBlock::watchpoint):
(DFGData):
* bytecode/DFGExitProfile.h:
(JSC::DFG::exitKindToString):
(JSC::DFG::exitKindIsCountable):
* bytecode/Instruction.h:
(Instruction):
(JSC::Instruction::Instruction):
* bytecode/Opcode.h:
(JSC):
(JSC::padOpcodeName):
* bytecode/Watchpoint.cpp: Added.
(JSC):
(JSC::Watchpoint::~Watchpoint):
(JSC::Watchpoint::correctLabels):
(JSC::Watchpoint::fire):
(JSC::WatchpointSet::WatchpointSet):
(JSC::WatchpointSet::~WatchpointSet):
(JSC::WatchpointSet::add):
(JSC::WatchpointSet::notifyWriteSlow):
(JSC::WatchpointSet::fireAllWatchpoints):
* bytecode/Watchpoint.h: Added.
(JSC):
(Watchpoint):
(JSC::Watchpoint::Watchpoint):
(JSC::Watchpoint::setDestination):
(WatchpointSet):
(JSC::WatchpointSet::isStillValid):
(JSC::WatchpointSet::hasBeenInvalidated):
(JSC::WatchpointSet::startWatching):
(JSC::WatchpointSet::notifyWrite):
(JSC::WatchpointSet::addressOfIsWatched):
* bytecompiler/BytecodeGenerator.cpp:
(JSC::ResolveResult::checkValidity):
(JSC::BytecodeGenerator::addGlobalVar):
(JSC::BytecodeGenerator::BytecodeGenerator):
(JSC::BytecodeGenerator::resolve):
(JSC::BytecodeGenerator::emitResolve):
(JSC::BytecodeGenerator::emitResolveWithBase):
(JSC::BytecodeGenerator::emitResolveWithThis):
(JSC::BytecodeGenerator::emitGetStaticVar):
(JSC::BytecodeGenerator::emitPutStaticVar):
* bytecompiler/BytecodeGenerator.h:
(BytecodeGenerator):
* bytecompiler/NodesCodegen.cpp:
(JSC::FunctionCallResolveNode::emitBytecode):
(JSC::PostfixResolveNode::emitBytecode):
(JSC::PrefixResolveNode::emitBytecode):
(JSC::ReadModifyResolveNode::emitBytecode):
(JSC::AssignResolveNode::emitBytecode):
(JSC::ConstDeclNode::emitCodeSingle):
* dfg/DFGAbstractState.cpp:
(JSC::DFG::AbstractState::execute):
(JSC::DFG::AbstractState::clobberStructures):
* dfg/DFGAbstractState.h:
(AbstractState):
(JSC::DFG::AbstractState::didClobber):
* dfg/DFGByteCodeParser.cpp:
(JSC::DFG::ByteCodeParser::handleInlining):
(JSC::DFG::ByteCodeParser::parseBlock):
* dfg/DFGCCallHelpers.h:
(CCallHelpers):
(JSC::DFG::CCallHelpers::setupArguments):
* dfg/DFGCSEPhase.cpp:
(JSC::DFG::CSEPhase::globalVarWatchpointElimination):
(CSEPhase):
(JSC::DFG::CSEPhase::globalVarStoreElimination):
(JSC::DFG::CSEPhase::performNodeCSE):
* dfg/DFGCapabilities.h:
(JSC::DFG::canCompileOpcode):
* dfg/DFGConstantFoldingPhase.cpp:
(JSC::DFG::ConstantFoldingPhase::run):
* dfg/DFGCorrectableJumpPoint.h:
(JSC::DFG::CorrectableJumpPoint::isSet):
(CorrectableJumpPoint):
* dfg/DFGJITCompiler.cpp:
(JSC::DFG::JITCompiler::linkOSRExits):
(JSC::DFG::JITCompiler::link):
* dfg/DFGNode.h:
(JSC::DFG::Node::hasIdentifierNumberForCheck):
(Node):
(JSC::DFG::Node::identifierNumberForCheck):
(JSC::DFG::Node::hasRegisterPointer):
* dfg/DFGNodeType.h:
(DFG):
* dfg/DFGOSRExit.cpp:
(JSC::DFG::OSRExit::OSRExit):
* dfg/DFGOSRExit.h:
(OSRExit):
* dfg/DFGOperations.cpp:
* dfg/DFGOperations.h:
* dfg/DFGPredictionPropagationPhase.cpp:
(JSC::DFG::PredictionPropagationPhase::propagate):
* dfg/DFGSpeculativeJIT.h:
(JSC::DFG::SpeculativeJIT::callOperation):
(JSC::DFG::SpeculativeJIT::appendCall):
(SpeculativeJIT):
(JSC::DFG::SpeculativeJIT::speculationWatchpoint):
* dfg/DFGSpeculativeJIT32_64.cpp:
(JSC::DFG::SpeculativeJIT::compile):
* dfg/DFGSpeculativeJIT64.cpp:
(JSC::DFG::SpeculativeJIT::compile):
* jit/JIT.cpp:
(JSC::JIT::privateCompileMainPass):
(JSC::JIT::privateCompileSlowCases):
* jit/JIT.h:
* jit/JITPropertyAccess.cpp:
(JSC::JIT::emit_op_put_global_var_check):
(JSC):
(JSC::JIT::emitSlow_op_put_global_var_check):
* jit/JITPropertyAccess32_64.cpp:
(JSC::JIT::emit_op_put_global_var_check):
(JSC):
(JSC::JIT::emitSlow_op_put_global_var_check):
* jit/JITStubs.cpp:
(JSC::JITThunks::JITThunks):
(JSC::DEFINE_STUB_FUNCTION):
(JSC):
* jit/JITStubs.h:
* llint/LLIntSlowPaths.cpp:
(JSC::LLInt::LLINT_SLOW_PATH_DECL):
(LLInt):
* llint/LLIntSlowPaths.h:
(LLInt):
* llint/LowLevelInterpreter32_64.asm:
* llint/LowLevelInterpreter64.asm:
* runtime/JSObject.cpp:
(JSC::JSObject::removeDirect):
* runtime/JSObject.h:
(JSObject):
* runtime/JSSymbolTableObject.h:
(JSC::symbolTableGet):
(JSC::symbolTablePut):
(JSC::symbolTablePutWithAttributes):
* runtime/SymbolTable.cpp: Added.
(JSC):
(JSC::SymbolTableEntry::copySlow):
(JSC::SymbolTableEntry::freeFatEntrySlow):
(JSC::SymbolTableEntry::couldBeWatched):
(JSC::SymbolTableEntry::attemptToWatch):
(JSC::SymbolTableEntry::addressOfIsWatched):
(JSC::SymbolTableEntry::addWatchpoint):
(JSC::SymbolTableEntry::notifyWriteSlow):
(JSC::SymbolTableEntry::inflateSlow):
* runtime/SymbolTable.h:
(JSC):
(SymbolTableEntry):
(Fast):
(JSC::SymbolTableEntry::Fast::Fast):
(JSC::SymbolTableEntry::Fast::isNull):
(JSC::SymbolTableEntry::Fast::getIndex):
(JSC::SymbolTableEntry::Fast::isReadOnly):
(JSC::SymbolTableEntry::Fast::getAttributes):
(JSC::SymbolTableEntry::Fast::isFat):
(JSC::SymbolTableEntry::SymbolTableEntry):
(JSC::SymbolTableEntry::~SymbolTableEntry):
(JSC::SymbolTableEntry::operator=):
(JSC::SymbolTableEntry::isNull):
(JSC::SymbolTableEntry::getIndex):
(JSC::SymbolTableEntry::getFast):
(JSC::SymbolTableEntry::getAttributes):
(JSC::SymbolTableEntry::isReadOnly):
(JSC::SymbolTableEntry::watchpointSet):
(JSC::SymbolTableEntry::notifyWrite):
(FatEntry):
(JSC::SymbolTableEntry::FatEntry::FatEntry):
(JSC::SymbolTableEntry::isFat):
(JSC::SymbolTableEntry::fatEntry):
(JSC::SymbolTableEntry::inflate):
(JSC::SymbolTableEntry::bits):
(JSC::SymbolTableEntry::freeFatEntry):
(JSC::SymbolTableEntry::pack):
(JSC::SymbolTableEntry::isValidIndex):
Source/WTF:
Reviewed by Geoffrey Garen.
Added ability to set the inline capacity of segmented vectors.
* wtf/SegmentedVector.h:
(WTF):
(SegmentedVectorIterator):
(WTF::SegmentedVectorIterator::operator=):
(WTF::SegmentedVectorIterator::SegmentedVectorIterator):
(SegmentedVector):
LayoutTests:
Rubber stamped by Geoffrey Garen.
Added a test for watchpoints. Also updated the jsc-test-list to include the latest
tests.
* fast/js/dfg-call-function-hit-watchpoint-expected.txt: Added.
* fast/js/dfg-call-function-hit-watchpoint.html: Added.
* fast/js/jsc-test-list:
* fast/js/script-tests/dfg-call-function-hit-watchpoint.js: Added.
(foo):
(bar):
(.foo):
git-svn-id: http://svn.webkit.org/repository/webkit/trunk@120172 268f45cc-cd09-0410-ab3c-d52691b4dbfc
69 files changed
