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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* vim: set ts=8 sts=2 et sw=2 tw=80:
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "jit/Safepoints.h"
#include "mozilla/MathAlgorithms.h"
#include "jit/BitSet.h"
#include "jit/IonScript.h"
#include "jit/JitSpewer.h"
#include "jit/LIR.h"
#include "jit/SafepointIndex.h"
using namespace js;
using namespace jit;
using mozilla::FloorLog2;
SafepointWriter::SafepointWriter(uint32_t localSlotsSize,
uint32_t argumentsSize)
: localSlots_((localSlotsSize / sizeof(intptr_t)) +
1), // Stack slot counts are inclusive.
argumentSlots_(argumentsSize / sizeof(intptr_t)) {}
bool SafepointWriter::init(TempAllocator& alloc) {
return localSlots_.init(alloc) && argumentSlots_.init(alloc);
}
uint32_t SafepointWriter::startEntry() {
JitSpew(JitSpew_Safepoints,
"Encoding safepoint (position %zu):", stream_.length());
return uint32_t(stream_.length());
}
void SafepointWriter::writeOsiCallPointOffset(uint32_t osiCallPointOffset) {
stream_.writeUnsigned(osiCallPointOffset);
}
static void WriteRegisterMask(CompactBufferWriter& stream,
PackedRegisterMask bits) {
if (sizeof(PackedRegisterMask) == 1) {
stream.writeByte(bits);
} else {
MOZ_ASSERT(sizeof(PackedRegisterMask) <= 4);
stream.writeUnsigned(bits);
}
}
static PackedRegisterMask ReadRegisterMask(CompactBufferReader& stream) {
if (sizeof(PackedRegisterMask) == 1) {
return stream.readByte();
}
MOZ_ASSERT(sizeof(PackedRegisterMask) <= 4);
return stream.readUnsigned();
}
static void WriteFloatRegisterMask(CompactBufferWriter& stream,
FloatRegisters::SetType bits) {
switch (sizeof(FloatRegisters::SetType)) {
#ifdef JS_CODEGEN_ARM64
case 16:
stream.writeUnsigned64(bits.low());
stream.writeUnsigned64(bits.high());
break;
#else
case 1:
stream.writeByte(bits);
break;
case 4:
stream.writeUnsigned(bits);
break;
case 8:
stream.writeUnsigned64(bits);
break;
#endif
default:
MOZ_CRASH("WriteFloatRegisterMask: unexpected size");
}
}
static FloatRegisters::SetType ReadFloatRegisterMask(
CompactBufferReader& stream) {
switch (sizeof(FloatRegisters::SetType)) {
#ifdef JS_CODEGEN_ARM64
case 16: {
uint64_t low = stream.readUnsigned64();
uint64_t high = stream.readUnsigned64();
return Bitset128(high, low);
}
#else
case 1:
return stream.readByte();
case 2:
case 3:
case 4:
return stream.readUnsigned();
case 8:
return stream.readUnsigned64();
#endif
default:
MOZ_CRASH("ReadFloatRegisterMask: unexpected size");
}
}
void SafepointWriter::writeGcRegs(LSafepoint* safepoint) {
LiveGeneralRegisterSet gc(safepoint->gcRegs());
LiveGeneralRegisterSet spilledGpr(safepoint->liveRegs().gprs());
LiveFloatRegisterSet spilledFloat(safepoint->liveRegs().fpus());
LiveGeneralRegisterSet slots(safepoint->slotsOrElementsRegs());
LiveGeneralRegisterSet valueRegs;
WriteRegisterMask(stream_, spilledGpr.bits());
if (!spilledGpr.empty()) {
WriteRegisterMask(stream_, gc.bits());
WriteRegisterMask(stream_, slots.bits());
#ifdef JS_PUNBOX64
valueRegs = safepoint->valueRegs();
WriteRegisterMask(stream_, valueRegs.bits());
#endif
}
// GC registers are a subset of the spilled registers.
MOZ_ASSERT((valueRegs.bits() & ~spilledGpr.bits()) == 0);
MOZ_ASSERT((gc.bits() & ~spilledGpr.bits()) == 0);
WriteFloatRegisterMask(stream_, spilledFloat.bits());
#ifdef JS_JITSPEW
if (JitSpewEnabled(JitSpew_Safepoints)) {
for (GeneralRegisterForwardIterator iter(spilledGpr); iter.more(); ++iter) {
const char* type = gc.has(*iter) ? "gc"
: slots.has(*iter) ? "slots"
: valueRegs.has(*iter) ? "value"
: "any";
JitSpew(JitSpew_Safepoints, " %s reg: %s", type, (*iter).name());
}
for (FloatRegisterForwardIterator iter(spilledFloat); iter.more(); ++iter) {
JitSpew(JitSpew_Safepoints, " float reg: %s", (*iter).name());
}
}
#endif
}
static void WriteBitset(const BitSet& set, CompactBufferWriter& stream) {
size_t count = set.rawLength();
const uint32_t* words = set.raw();
for (size_t i = 0; i < count; i++) {
stream.writeUnsigned(words[i]);
}
}
static void MapSlotsToBitset(BitSet& stackSet, BitSet& argumentSet,
CompactBufferWriter& stream,
const LSafepoint::SlotList& slots) {
stackSet.clear();
argumentSet.clear();
for (uint32_t i = 0; i < slots.length(); i++) {
// Slots are represented at a distance from |fp|. We divide by the
// pointer size, since we only care about pointer-sized/aligned slots
// here.
MOZ_ASSERT(slots[i].slot % sizeof(intptr_t) == 0);
size_t index = slots[i].slot / sizeof(intptr_t);
(slots[i].stack ? stackSet : argumentSet).insert(index);
}
WriteBitset(stackSet, stream);
WriteBitset(argumentSet, stream);
}
void SafepointWriter::writeGcSlots(LSafepoint* safepoint) {
LSafepoint::SlotList& slots = safepoint->gcSlots();
#ifdef JS_JITSPEW
for (uint32_t i = 0; i < slots.length(); i++) {
JitSpew(JitSpew_Safepoints, " gc slot: %u", slots[i].slot);
}
#endif
MapSlotsToBitset(localSlots_, argumentSlots_, stream_, slots);
}
void SafepointWriter::writeSlotsOrElementsSlots(LSafepoint* safepoint) {
LSafepoint::SlotList& slots = safepoint->slotsOrElementsSlots();
stream_.writeUnsigned(slots.length());
for (uint32_t i = 0; i < slots.length(); i++) {
if (!slots[i].stack) {
MOZ_CRASH();
}
#ifdef JS_JITSPEW
JitSpew(JitSpew_Safepoints, " slots/elements slot: %u", slots[i].slot);
#endif
stream_.writeUnsigned(slots[i].slot);
}
}
#ifdef JS_PUNBOX64
void SafepointWriter::writeValueSlots(LSafepoint* safepoint) {
LSafepoint::SlotList& slots = safepoint->valueSlots();
# ifdef JS_JITSPEW
for (uint32_t i = 0; i < slots.length(); i++) {
JitSpew(JitSpew_Safepoints, " gc value: %u", slots[i].slot);
}
# endif
MapSlotsToBitset(localSlots_, argumentSlots_, stream_, slots);
}
#endif
#if defined(JS_JITSPEW) && defined(JS_NUNBOX32)
static void DumpNunboxPart(const LAllocation& a) {
Fprinter& out = JitSpewPrinter();
if (a.isStackSlot()) {
out.printf("stack %d", a.toStackSlot()->slot());
} else if (a.isArgument()) {
out.printf("arg %d", a.toArgument()->index());
} else {
out.printf("reg %s", a.toGeneralReg()->reg().name());
}
}
#endif // DEBUG
// Nunbox part encoding:
//
// Reg = 000
// Stack = 001
// Arg = 010
//
// [vwu] nentries:
// uint16_t: tttp ppXX XXXY YYYY
//
// If ttt = Reg, type is reg XXXXX
// If ppp = Reg, payload is reg YYYYY
//
// If ttt != Reg, type is:
// XXXXX if not 11111, otherwise followed by [vwu]
// If ppp != Reg, payload is:
// YYYYY if not 11111, otherwise followed by [vwu]
//
enum NunboxPartKind { Part_Reg, Part_Stack, Part_Arg };
static const uint32_t PART_KIND_BITS = 3;
static const uint32_t PART_KIND_MASK = (1 << PART_KIND_BITS) - 1;
static const uint32_t PART_INFO_BITS = 5;
static const uint32_t PART_INFO_MASK = (1 << PART_INFO_BITS) - 1;
static const uint32_t MAX_INFO_VALUE = (1 << PART_INFO_BITS) - 1;
static const uint32_t TYPE_KIND_SHIFT = 16 - PART_KIND_BITS;
static const uint32_t PAYLOAD_KIND_SHIFT = TYPE_KIND_SHIFT - PART_KIND_BITS;
static const uint32_t TYPE_INFO_SHIFT = PAYLOAD_KIND_SHIFT - PART_INFO_BITS;
static const uint32_t PAYLOAD_INFO_SHIFT = TYPE_INFO_SHIFT - PART_INFO_BITS;
static_assert(PAYLOAD_INFO_SHIFT == 0);
#ifdef JS_NUNBOX32
static inline NunboxPartKind AllocationToPartKind(const LAllocation& a) {
if (a.isRegister()) {
return Part_Reg;
}
if (a.isStackSlot()) {
return Part_Stack;
}
MOZ_ASSERT(a.isArgument());
return Part_Arg;
}
// gcc 4.5 doesn't actually inline CanEncodeInfoInHeader when only
// using the "inline" keyword, and miscompiles the function as well
// when doing block reordering with branch prediction information.
// See bug 799295 comment 71.
static MOZ_ALWAYS_INLINE bool CanEncodeInfoInHeader(const LAllocation& a,
uint32_t* out) {
if (a.isGeneralReg()) {
*out = a.toGeneralReg()->reg().code();
return true;
}
if (a.isStackSlot()) {
*out = a.toStackSlot()->slot();
} else {
*out = a.toArgument()->index();
}
return *out < MAX_INFO_VALUE;
}
void SafepointWriter::writeNunboxParts(LSafepoint* safepoint) {
LSafepoint::NunboxList& entries = safepoint->nunboxParts();
# ifdef JS_JITSPEW
if (JitSpewEnabled(JitSpew_Safepoints)) {
for (uint32_t i = 0; i < entries.length(); i++) {
SafepointNunboxEntry& entry = entries[i];
if (entry.type.isUse() || entry.payload.isUse()) {
continue;
}
JitSpewHeader(JitSpew_Safepoints);
Fprinter& out = JitSpewPrinter();
out.printf(" nunbox (type in ");
DumpNunboxPart(entry.type);
out.printf(", payload in ");
DumpNunboxPart(entry.payload);
out.printf(")\n");
}
}
# endif
// Safepoints are permitted to have partially filled in entries for nunboxes,
// provided that only the type is live and not the payload. Omit these from
// the written safepoint.
size_t pos = stream_.length();
stream_.writeUnsigned(entries.length());
size_t count = 0;
for (size_t i = 0; i < entries.length(); i++) {
SafepointNunboxEntry& entry = entries[i];
if (entry.payload.isUse()) {
// No allocation associated with the payload.
continue;
}
if (entry.type.isUse()) {
// No allocation associated with the type. Look for another
// safepoint entry with an allocation for the type.
entry.type = safepoint->findTypeAllocation(entry.typeVreg);
if (entry.type.isUse()) {
continue;
}
}
count++;
uint16_t header = 0;
header |= (AllocationToPartKind(entry.type) << TYPE_KIND_SHIFT);
header |= (AllocationToPartKind(entry.payload) << PAYLOAD_KIND_SHIFT);
uint32_t typeVal;
bool typeExtra = !CanEncodeInfoInHeader(entry.type, &typeVal);
if (!typeExtra) {
header |= (typeVal << TYPE_INFO_SHIFT);
} else {
header |= (MAX_INFO_VALUE << TYPE_INFO_SHIFT);
}
uint32_t payloadVal;
bool payloadExtra = !CanEncodeInfoInHeader(entry.payload, &payloadVal);
if (!payloadExtra) {
header |= (payloadVal << PAYLOAD_INFO_SHIFT);
} else {
header |= (MAX_INFO_VALUE << PAYLOAD_INFO_SHIFT);
}
stream_.writeFixedUint16_t(header);
if (typeExtra) {
stream_.writeUnsigned(typeVal);
}
if (payloadExtra) {
stream_.writeUnsigned(payloadVal);
}
}
// Update the stream with the actual number of safepoint entries written.
stream_.writeUnsignedAt(pos, count, entries.length());
}
#endif
void SafepointWriter::encode(LSafepoint* safepoint) {
uint32_t safepointOffset = startEntry();
MOZ_ASSERT(safepoint->osiCallPointOffset());
writeOsiCallPointOffset(safepoint->osiCallPointOffset());
writeGcRegs(safepoint);
writeGcSlots(safepoint);
#ifdef JS_PUNBOX64
writeValueSlots(safepoint);
#else
writeNunboxParts(safepoint);
#endif
writeSlotsOrElementsSlots(safepoint);
endEntry();
safepoint->setOffset(safepointOffset);
}
void SafepointWriter::endEntry() {
JitSpew(JitSpew_Safepoints, " -- entry ended at %u",
uint32_t(stream_.length()));
}
SafepointReader::SafepointReader(IonScript* script, const SafepointIndex* si)
: stream_(script->safepoints() + si->safepointOffset(),
script->safepoints() + script->safepointsSize()),
localSlots_((script->localSlotsSize() / sizeof(intptr_t)) +
1), // Stack slot counts are inclusive.
argumentSlots_(script->argumentSlotsSize() / sizeof(intptr_t)),
nunboxSlotsRemaining_(0),
slotsOrElementsSlotsRemaining_(0) {
osiCallPointOffset_ = stream_.readUnsigned();
// gcSpills is a subset of allGprSpills.
allGprSpills_ = GeneralRegisterSet(ReadRegisterMask(stream_));
if (allGprSpills_.empty()) {
gcSpills_ = allGprSpills_;
valueSpills_ = allGprSpills_;
slotsOrElementsSpills_ = allGprSpills_;
} else {
gcSpills_ = GeneralRegisterSet(ReadRegisterMask(stream_));
slotsOrElementsSpills_ = GeneralRegisterSet(ReadRegisterMask(stream_));
#ifdef JS_PUNBOX64
valueSpills_ = GeneralRegisterSet(ReadRegisterMask(stream_));
#endif
}
allFloatSpills_ = FloatRegisterSet(ReadFloatRegisterMask(stream_));
advanceFromGcRegs();
}
uint32_t SafepointReader::osiReturnPointOffset() const {
return osiCallPointOffset_ + Assembler::PatchWrite_NearCallSize();
}
CodeLocationLabel SafepointReader::InvalidationPatchPoint(
IonScript* script, const SafepointIndex* si) {
SafepointReader reader(script, si);
return CodeLocationLabel(script->method(),
CodeOffset(reader.osiCallPointOffset()));
}
void SafepointReader::advanceFromGcRegs() {
currentSlotChunk_ = 0;
nextSlotChunkNumber_ = 0;
currentSlotsAreStack_ = true;
}
bool SafepointReader::getSlotFromBitmap(SafepointSlotEntry* entry) {
while (currentSlotChunk_ == 0) {
// Are there any more chunks to read?
if (currentSlotsAreStack_) {
if (nextSlotChunkNumber_ == BitSet::RawLengthForBits(localSlots_)) {
nextSlotChunkNumber_ = 0;
currentSlotsAreStack_ = false;
continue;
}
} else if (nextSlotChunkNumber_ ==
BitSet::RawLengthForBits(argumentSlots_)) {
return false;
}
// Yes, read the next chunk.
currentSlotChunk_ = stream_.readUnsigned();
nextSlotChunkNumber_++;
}
// The current chunk still has bits in it, so get the next bit, then mask
// it out of the slot chunk.
uint32_t bit = FloorLog2(currentSlotChunk_);
currentSlotChunk_ &= ~(1 << bit);
// Return the slot, and re-scale it by the pointer size, reversing the
// transformation in MapSlotsToBitset.
entry->stack = currentSlotsAreStack_;
entry->slot = (((nextSlotChunkNumber_ - 1) * BitSet::BitsPerWord) + bit) *
sizeof(intptr_t);
return true;
}
bool SafepointReader::getGcSlot(SafepointSlotEntry* entry) {
if (getSlotFromBitmap(entry)) {
return true;
}
advanceFromGcSlots();
return false;
}
void SafepointReader::advanceFromGcSlots() {
// No, reset the counter.
currentSlotChunk_ = 0;
nextSlotChunkNumber_ = 0;
currentSlotsAreStack_ = true;
#ifdef JS_NUNBOX32
// Nunbox slots are next.
nunboxSlotsRemaining_ = stream_.readUnsigned();
#else
// Value slots are next.
#endif
}
bool SafepointReader::getValueSlot(SafepointSlotEntry* entry) {
if (getSlotFromBitmap(entry)) {
return true;
}
advanceFromNunboxOrValueSlots();
return false;
}
static inline LAllocation PartFromStream(CompactBufferReader& stream,
NunboxPartKind kind, uint32_t info) {
if (kind == Part_Reg) {
return LGeneralReg(Register::FromCode(info));
}
if (info == MAX_INFO_VALUE) {
info = stream.readUnsigned();
}
if (kind == Part_Stack) {
return LStackSlot(info);
}
MOZ_ASSERT(kind == Part_Arg);
return LArgument(info);
}
bool SafepointReader::getNunboxSlot(LAllocation* type, LAllocation* payload) {
if (!nunboxSlotsRemaining_--) {
advanceFromNunboxOrValueSlots();
return false;
}
uint16_t header = stream_.readFixedUint16_t();
NunboxPartKind typeKind =
(NunboxPartKind)((header >> TYPE_KIND_SHIFT) & PART_KIND_MASK);
NunboxPartKind payloadKind =
(NunboxPartKind)((header >> PAYLOAD_KIND_SHIFT) & PART_KIND_MASK);
uint32_t typeInfo = (header >> TYPE_INFO_SHIFT) & PART_INFO_MASK;
uint32_t payloadInfo = (header >> PAYLOAD_INFO_SHIFT) & PART_INFO_MASK;
*type = PartFromStream(stream_, typeKind, typeInfo);
*payload = PartFromStream(stream_, payloadKind, payloadInfo);
return true;
}
void SafepointReader::advanceFromNunboxOrValueSlots() {
slotsOrElementsSlotsRemaining_ = stream_.readUnsigned();
}
bool SafepointReader::getSlotsOrElementsSlot(SafepointSlotEntry* entry) {
if (!slotsOrElementsSlotsRemaining_--) {
return false;
}
entry->stack = true;
entry->slot = stream_.readUnsigned();
return true;
}
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