#if ENABLE(ASSEMBLER)
-#include <MacroAssembler.h>
+#define DUMP_LINK_STATISTICS 0
+#define DUMP_CODE 0
+
+#define GLOBAL_THUNK_ID reinterpret_cast<void*>(static_cast<intptr_t>(-1))
+#define REGEXP_CODE_ID reinterpret_cast<void*>(static_cast<intptr_t>(-2))
+
+#include "JITCompilationEffort.h"
+#include "MacroAssembler.h"
+#include <wtf/DataLog.h>
#include <wtf/Noncopyable.h>
namespace JSC {
+class JSGlobalData;
+
// LinkBuffer:
//
// This class assists in linking code generated by the macro assembler, once code generation
// * The address of a Label pointing into the code may be resolved.
// * The value referenced by a DataLabel may be set.
//
-class LinkBuffer : public Noncopyable {
+class LinkBuffer {
+ WTF_MAKE_NONCOPYABLE(LinkBuffer);
typedef MacroAssemblerCodeRef CodeRef;
typedef MacroAssemblerCodePtr CodePtr;
typedef MacroAssembler::Label Label;
typedef MacroAssembler::Jump Jump;
+ typedef MacroAssembler::PatchableJump PatchableJump;
typedef MacroAssembler::JumpList JumpList;
typedef MacroAssembler::Call Call;
+ typedef MacroAssembler::DataLabelCompact DataLabelCompact;
typedef MacroAssembler::DataLabel32 DataLabel32;
typedef MacroAssembler::DataLabelPtr DataLabelPtr;
- typedef MacroAssembler::JmpDst JmpDst;
#if ENABLE(BRANCH_COMPACTION)
typedef MacroAssembler::LinkRecord LinkRecord;
typedef MacroAssembler::JumpLinkType JumpLinkType;
#endif
public:
- // Note: Initialization sequence is significant, since executablePool is a PassRefPtr.
- // First, executablePool is copied into m_executablePool, then the initialization of
- // m_code uses m_executablePool, *not* executablePool, since this is no longer valid.
- // The linkOffset parameter should only be non-null when recompiling for exception info
- LinkBuffer(MacroAssembler* masm, PassRefPtr<ExecutablePool> executablePool, void* linkOffset)
- : m_executablePool(executablePool)
- , m_size(0)
+ LinkBuffer(JSGlobalData& globalData, MacroAssembler* masm, void* ownerUID, JITCompilationEffort effort = JITCompilationMustSucceed)
+ : m_size(0)
+#if ENABLE(BRANCH_COMPACTION)
+ , m_initialSize(0)
+#endif
, m_code(0)
, m_assembler(masm)
+ , m_globalData(&globalData)
#ifndef NDEBUG
, m_completed(false)
+ , m_effort(effort)
#endif
{
- linkCode(linkOffset);
+ linkCode(ownerUID, effort);
}
~LinkBuffer()
{
- ASSERT(m_completed);
+ ASSERT(m_completed || (!m_executableMemory && m_effort == JITCompilationCanFail));
+ }
+
+ bool didFailToAllocate() const
+ {
+ return !m_executableMemory;
}
+ bool isValid() const
+ {
+ return !didFailToAllocate();
+ }
+
// These methods are used to link or set values at code generation time.
void link(Call call, FunctionPtr function)
{
ASSERT(call.isFlagSet(Call::Linkable));
- call.m_jmp = applyOffset(call.m_jmp);
+ call.m_label = applyOffset(call.m_label);
MacroAssembler::linkCall(code(), call, function);
}
void link(Jump jump, CodeLocationLabel label)
{
- jump.m_jmp = applyOffset(jump.m_jmp);
+ jump.m_label = applyOffset(jump.m_label);
MacroAssembler::linkJump(code(), jump, label);
}
void patch(DataLabelPtr label, void* value)
{
- JmpDst target = applyOffset(label.m_label);
+ AssemblerLabel target = applyOffset(label.m_label);
MacroAssembler::linkPointer(code(), target, value);
}
void patch(DataLabelPtr label, CodeLocationLabel value)
{
- JmpDst target = applyOffset(label.m_label);
+ AssemblerLabel target = applyOffset(label.m_label);
MacroAssembler::linkPointer(code(), target, value.executableAddress());
}
{
ASSERT(call.isFlagSet(Call::Linkable));
ASSERT(!call.isFlagSet(Call::Near));
- return CodeLocationCall(MacroAssembler::getLinkerAddress(code(), applyOffset(call.m_jmp)));
+ return CodeLocationCall(MacroAssembler::getLinkerAddress(code(), applyOffset(call.m_label)));
}
CodeLocationNearCall locationOfNearCall(Call call)
{
ASSERT(call.isFlagSet(Call::Linkable));
ASSERT(call.isFlagSet(Call::Near));
- return CodeLocationNearCall(MacroAssembler::getLinkerAddress(code(), applyOffset(call.m_jmp)));
+ return CodeLocationNearCall(MacroAssembler::getLinkerAddress(code(), applyOffset(call.m_label)));
+ }
+
+ CodeLocationLabel locationOf(PatchableJump jump)
+ {
+ return CodeLocationLabel(MacroAssembler::getLinkerAddress(code(), applyOffset(jump.m_jump.m_label)));
}
CodeLocationLabel locationOf(Label label)
{
return CodeLocationDataLabel32(MacroAssembler::getLinkerAddress(code(), applyOffset(label.m_label)));
}
+
+ CodeLocationDataLabelCompact locationOf(DataLabelCompact label)
+ {
+ return CodeLocationDataLabelCompact(MacroAssembler::getLinkerAddress(code(), applyOffset(label.m_label)));
+ }
// This method obtains the return address of the call, given as an offset from
// the start of the code.
unsigned returnAddressOffset(Call call)
{
- call.m_jmp = applyOffset(call.m_jmp);
+ call.m_label = applyOffset(call.m_label);
return MacroAssembler::getLinkerCallReturnOffset(call);
}
- // Upon completion of all patching either 'finalizeCode()' or 'finalizeCodeAddendum()' should be called
- // once to complete generation of the code. 'finalizeCode()' is suited to situations
- // where the executable pool must also be retained, the lighter-weight 'finalizeCodeAddendum()' is
- // suited to adding to an existing allocation.
- CodeRef finalizeCode()
+ uint32_t offsetOf(Label label)
{
- performFinalization();
-
- return CodeRef(m_code, m_executablePool, m_size);
+ return applyOffset(label.m_label).m_offset;
}
- CodeLocationLabel finalizeCodeAddendum()
+ // Upon completion of all patching 'finalizeCode()' should be called once to complete generation of the code.
+ CodeRef finalizeCode()
{
performFinalization();
- return CodeLocationLabel(code());
+ return CodeRef(m_executableMemory);
}
CodePtr trampolineAt(Label label)
return CodePtr(MacroAssembler::AssemblerType_T::getRelocatedAddress(code(), applyOffset(label.m_label)));
}
+ void* debugAddress()
+ {
+ return m_code;
+ }
+
+ size_t debugSize()
+ {
+ return m_size;
+ }
+
private:
template <typename T> T applyOffset(T src)
{
return src;
}
- // Keep this private! - the underlying code should only be obtained externally via
- // finalizeCode() or finalizeCodeAddendum().
+ // Keep this private! - the underlying code should only be obtained externally via finalizeCode().
void* code()
{
return m_code;
}
- void linkCode(void* linkOffset)
+ void linkCode(void* ownerUID, JITCompilationEffort effort)
{
- UNUSED_PARAM(linkOffset);
ASSERT(!m_code);
#if !ENABLE(BRANCH_COMPACTION)
- m_code = m_assembler->m_assembler.executableCopy(m_executablePool.get());
- m_size = m_assembler->size();
+ m_executableMemory = m_assembler->m_assembler.executableCopy(*m_globalData, ownerUID, effort);
+ if (!m_executableMemory)
+ return;
+ m_code = m_executableMemory->start();
+ m_size = m_assembler->m_assembler.codeSize();
+ ASSERT(m_code);
#else
- size_t initialSize = m_assembler->size();
- m_code = (uint8_t*)m_executablePool->alloc(initialSize);
- if (!m_code)
+ m_initialSize = m_assembler->m_assembler.codeSize();
+ m_executableMemory = m_globalData->executableAllocator.allocate(*m_globalData, m_initialSize, ownerUID, effort);
+ if (!m_executableMemory)
return;
- ExecutableAllocator::makeWritable(m_code, m_assembler->size());
+ m_code = (uint8_t*)m_executableMemory->start();
+ ASSERT(m_code);
+ ExecutableAllocator::makeWritable(m_code, m_initialSize);
uint8_t* inData = (uint8_t*)m_assembler->unlinkedCode();
uint8_t* outData = reinterpret_cast<uint8_t*>(m_code);
- const uint8_t* linkBase = linkOffset ? reinterpret_cast<uint8_t*>(linkOffset) : outData;
int readPtr = 0;
int writePtr = 0;
Vector<LinkRecord>& jumpsToLink = m_assembler->jumpsToLink();
// Copy the instructions from the last jump to the current one.
size_t regionSize = jumpsToLink[i].from() - readPtr;
- memcpy(outData + writePtr, inData + readPtr, regionSize);
+ uint16_t* copySource = reinterpret_cast_ptr<uint16_t*>(inData + readPtr);
+ uint16_t* copyEnd = reinterpret_cast_ptr<uint16_t*>(inData + readPtr + regionSize);
+ uint16_t* copyDst = reinterpret_cast_ptr<uint16_t*>(outData + writePtr);
+ ASSERT(!(regionSize % 2));
+ ASSERT(!(readPtr % 2));
+ ASSERT(!(writePtr % 2));
+ while (copySource != copyEnd)
+ *copyDst++ = *copySource++;
m_assembler->recordLinkOffsets(readPtr, jumpsToLink[i].from(), offset);
readPtr += regionSize;
writePtr += regionSize;
// branches we need to be precise, forward branches we are pessimistic
const uint8_t* target;
if (jumpsToLink[i].to() >= jumpsToLink[i].from())
- target = linkBase + jumpsToLink[i].to() - offset; // Compensate for what we have collapsed so far
+ target = outData + jumpsToLink[i].to() - offset; // Compensate for what we have collapsed so far
else
- target = linkBase + jumpsToLink[i].to() - m_assembler->executableOffsetFor(jumpsToLink[i].to());
+ target = outData + jumpsToLink[i].to() - m_assembler->executableOffsetFor(jumpsToLink[i].to());
- JumpLinkType jumpLinkType = m_assembler->computeJumpType(jumpsToLink[i], linkBase + writePtr, target);
+ JumpLinkType jumpLinkType = m_assembler->computeJumpType(jumpsToLink[i], outData + writePtr, target);
// Compact branch if we can...
if (m_assembler->canCompact(jumpsToLink[i].type())) {
// Step back in the write stream
jumpsToLink[i].setFrom(writePtr);
}
// Copy everything after the last jump
- memcpy(outData + writePtr, inData + readPtr, m_assembler->size() - readPtr);
- m_assembler->recordLinkOffsets(readPtr, m_assembler->size(), readPtr - writePtr);
+ memcpy(outData + writePtr, inData + readPtr, m_initialSize - readPtr);
+ m_assembler->recordLinkOffsets(readPtr, m_initialSize, readPtr - writePtr);
- // Actually link everything (don't link if we've be given a linkoffset as it's a
- // waste of time: linkOffset is used for recompiling to get exception info)
- if (!linkOffset) {
- for (unsigned i = 0; i < jumpCount; ++i) {
- uint8_t* location = outData + jumpsToLink[i].from();
- uint8_t* target = outData + jumpsToLink[i].to() - m_assembler->executableOffsetFor(jumpsToLink[i].to());
- m_assembler->link(jumpsToLink[i], location, target);
- }
+ for (unsigned i = 0; i < jumpCount; ++i) {
+ uint8_t* location = outData + jumpsToLink[i].from();
+ uint8_t* target = outData + jumpsToLink[i].to() - m_assembler->executableOffsetFor(jumpsToLink[i].to());
+ m_assembler->link(jumpsToLink[i], location, target);
}
jumpsToLink.clear();
- m_size = writePtr + m_assembler->size() - readPtr;
- m_executablePool->tryShrink(m_code, initialSize, m_size);
+ m_size = writePtr + m_initialSize - readPtr;
+ m_executableMemory->shrink(m_size);
+
+#if DUMP_LINK_STATISTICS
+ dumpLinkStatistics(m_code, m_initialSize, m_size);
+#endif
+#if DUMP_CODE
+ dumpCode(m_code, m_size);
+#endif
#endif
}
{
#ifndef NDEBUG
ASSERT(!m_completed);
+ ASSERT(isValid());
m_completed = true;
#endif
+#if ENABLE(BRANCH_COMPACTION)
+ ExecutableAllocator::makeExecutable(code(), m_initialSize);
+#else
ExecutableAllocator::makeExecutable(code(), m_size);
- ExecutableAllocator::cacheFlush(code(), m_size);
+#endif
+ MacroAssembler::cacheFlush(code(), m_size);
}
- RefPtr<ExecutablePool> m_executablePool;
+#if DUMP_LINK_STATISTICS
+ static void dumpLinkStatistics(void* code, size_t initialSize, size_t finalSize)
+ {
+ static unsigned linkCount = 0;
+ static unsigned totalInitialSize = 0;
+ static unsigned totalFinalSize = 0;
+ linkCount++;
+ totalInitialSize += initialSize;
+ totalFinalSize += finalSize;
+ dataLog("link %p: orig %u, compact %u (delta %u, %.2f%%)\n",
+ code, static_cast<unsigned>(initialSize), static_cast<unsigned>(finalSize),
+ static_cast<unsigned>(initialSize - finalSize),
+ 100.0 * (initialSize - finalSize) / initialSize);
+ dataLog("\ttotal %u: orig %u, compact %u (delta %u, %.2f%%)\n",
+ linkCount, totalInitialSize, totalFinalSize, totalInitialSize - totalFinalSize,
+ 100.0 * (totalInitialSize - totalFinalSize) / totalInitialSize);
+ }
+#endif
+
+#if DUMP_CODE
+ static void dumpCode(void* code, size_t size)
+ {
+#if CPU(ARM_THUMB2)
+ // Dump the generated code in an asm file format that can be assembled and then disassembled
+ // for debugging purposes. For example, save this output as jit.s:
+ // gcc -arch armv7 -c jit.s
+ // otool -tv jit.o
+ static unsigned codeCount = 0;
+ unsigned short* tcode = static_cast<unsigned short*>(code);
+ size_t tsize = size / sizeof(short);
+ char nameBuf[128];
+ snprintf(nameBuf, sizeof(nameBuf), "_jsc_jit%u", codeCount++);
+ dataLog("\t.syntax unified\n"
+ "\t.section\t__TEXT,__text,regular,pure_instructions\n"
+ "\t.globl\t%s\n"
+ "\t.align 2\n"
+ "\t.code 16\n"
+ "\t.thumb_func\t%s\n"
+ "# %p\n"
+ "%s:\n", nameBuf, nameBuf, code, nameBuf);
+
+ for (unsigned i = 0; i < tsize; i++)
+ dataLog("\t.short\t0x%x\n", tcode[i]);
+#elif CPU(ARM_TRADITIONAL)
+ // gcc -c jit.s
+ // objdump -D jit.o
+ static unsigned codeCount = 0;
+ unsigned int* tcode = static_cast<unsigned int*>(code);
+ size_t tsize = size / sizeof(unsigned int);
+ char nameBuf[128];
+ snprintf(nameBuf, sizeof(nameBuf), "_jsc_jit%u", codeCount++);
+ dataLog("\t.globl\t%s\n"
+ "\t.align 4\n"
+ "\t.code 32\n"
+ "\t.text\n"
+ "# %p\n"
+ "%s:\n", nameBuf, code, nameBuf);
+
+ for (unsigned i = 0; i < tsize; i++)
+ dataLog("\t.long\t0x%x\n", tcode[i]);
+#endif
+ }
+#endif
+
+ RefPtr<ExecutableMemoryHandle> m_executableMemory;
size_t m_size;
+#if ENABLE(BRANCH_COMPACTION)
+ size_t m_initialSize;
+#endif
void* m_code;
MacroAssembler* m_assembler;
+ JSGlobalData* m_globalData;
#ifndef NDEBUG
bool m_completed;
+ JITCompilationEffort m_effort;
#endif
};
projects / apple / javascriptcore.git / blobdiff