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// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
#include "vm/globals.h" // Needed here to get TARGET_ARCH_IA32.
#if defined(TARGET_ARCH_IA32)
#include "platform/unaligned.h"
#include "vm/code_patcher.h"
#include "vm/cpu.h"
#include "vm/dart_entry.h"
#include "vm/instructions.h"
#include "vm/object.h"
#include "vm/raw_object.h"
namespace dart {
// The expected pattern of a Dart unoptimized call (static and instance):
// mov ECX, ic-data
// mov EDI, target-code-object
// call target_address (stub)
// <- return address
class UnoptimizedCall : public ValueObject {
public:
explicit UnoptimizedCall(uword return_address)
: start_(return_address - kPatternSize) {
ASSERT(IsValid());
}
ObjectPtr ic_data() const {
return *reinterpret_cast<ObjectPtr*>(start_ + 1);
}
static const int kMovInstructionSize = 5;
static const int kCallInstructionSize = 3;
static const int kPatternSize =
2 * kMovInstructionSize + kCallInstructionSize;
private:
bool IsValid() {
uint8_t* code_bytes = reinterpret_cast<uint8_t*>(start_);
return (code_bytes[0] == 0xB9) &&
(code_bytes[2 * kMovInstructionSize] == 0xFF);
}
uword return_address() const { return start_ + kPatternSize; }
uword call_address() const { return start_ + 2 * kMovInstructionSize; }
protected:
uword start_;
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(UnoptimizedCall);
};
class NativeCall : public UnoptimizedCall {
public:
explicit NativeCall(uword return_address) : UnoptimizedCall(return_address) {}
NativeFunction native_function() const {
return *reinterpret_cast<NativeFunction*>(start_ + 1);
}
void set_native_function(NativeFunction func) const {
Thread::Current()->isolate_group()->RunWithStoppedMutators([&]() {
WritableInstructionsScope writable(start_ + 1, sizeof(func));
*reinterpret_cast<NativeFunction*>(start_ + 1) = func;
});
}
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(NativeCall);
};
// b9xxxxxxxx mov ecx,<data>
// bfyyyyyyyy mov edi,<target>
// ff5707 call [edi+<monomorphic-entry-offset>]
class InstanceCall : public UnoptimizedCall {
public:
explicit InstanceCall(uword return_address)
: UnoptimizedCall(return_address) {
#if defined(DEBUG)
Object& test_data = Object::Handle(data());
ASSERT(test_data.IsArray() || test_data.IsICData() ||
test_data.IsMegamorphicCache());
if (test_data.IsICData()) {
ASSERT(ICData::Cast(test_data).NumArgsTested() > 0);
}
#endif // DEBUG
}
ObjectPtr data() const {
return LoadUnaligned(reinterpret_cast<ObjectPtr*>(start_ + 1));
}
void set_data(const Object& data) const {
StoreUnaligned(reinterpret_cast<ObjectPtr*>(start_ + 1), data.ptr());
}
CodePtr target() const {
return LoadUnaligned(reinterpret_cast<CodePtr*>(start_ + 6));
}
void set_target(const Code& target) const {
StoreUnaligned(reinterpret_cast<CodePtr*>(start_ + 6), target.ptr());
}
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(InstanceCall);
};
class UnoptimizedStaticCall : public UnoptimizedCall {
public:
explicit UnoptimizedStaticCall(uword return_address)
: UnoptimizedCall(return_address) {
#if defined(DEBUG)
ICData& test_ic_data = ICData::Handle();
test_ic_data ^= ic_data();
ASSERT(test_ic_data.NumArgsTested() >= 0);
#endif // DEBUG
}
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(UnoptimizedStaticCall);
};
// The expected pattern of a dart static call:
// mov EDX, arguments_descriptor_array (optional in polymorphic calls)
// mov EDI, Immediate(code_object)
// call [EDI + entry_point_offset]
// <- return address
class StaticCall : public ValueObject {
public:
explicit StaticCall(uword return_address)
: start_(return_address - (kMovInstructionSize + kCallInstructionSize)) {
ASSERT(IsValid());
}
bool IsValid() {
uint8_t* code_bytes = reinterpret_cast<uint8_t*>(start_);
return (code_bytes[0] == 0xBF) && (code_bytes[5] == 0xFF);
}
CodePtr target() const {
const uword imm = *reinterpret_cast<uword*>(start_ + 1);
return static_cast<CodePtr>(imm);
}
void set_target(const Code& target) const {
uword* target_addr = reinterpret_cast<uword*>(start_ + 1);
uword imm = static_cast<uword>(target.ptr());
*target_addr = imm;
CPU::FlushICache(start_ + 1, sizeof(imm));
}
static const int kMovInstructionSize = 5;
static const int kCallInstructionSize = 3;
private:
uword return_address() const {
return start_ + kMovInstructionSize + kCallInstructionSize;
}
uword call_address() const { return start_ + kMovInstructionSize; }
uword start_;
DISALLOW_IMPLICIT_CONSTRUCTORS(StaticCall);
};
CodePtr CodePatcher::GetStaticCallTargetAt(uword return_address,
const Code& code) {
ASSERT(code.ContainsInstructionAt(return_address));
StaticCall call(return_address);
return call.target();
}
void CodePatcher::PatchStaticCallAt(uword return_address,
const Code& code,
const Code& new_target) {
auto thread = Thread::Current();
auto zone = thread->zone();
const Instructions& instrs = Instructions::Handle(zone, code.instructions());
thread->isolate_group()->RunWithStoppedMutators([&]() {
WritableInstructionsScope writable(instrs.PayloadStart(), instrs.Size());
ASSERT(code.ContainsInstructionAt(return_address));
StaticCall call(return_address);
call.set_target(new_target);
});
}
void CodePatcher::InsertDeoptimizationCallAt(uword start) {
UNREACHABLE();
}
CodePtr CodePatcher::GetInstanceCallAt(uword return_address,
const Code& caller_code,
Object* data) {
ASSERT(caller_code.ContainsInstructionAt(return_address));
InstanceCall call(return_address);
if (data != NULL) {
*data = call.data();
}
return call.target();
}
void CodePatcher::PatchInstanceCallAt(uword return_address,
const Code& caller_code,
const Object& data,
const Code& target) {
auto thread = Thread::Current();
thread->isolate_group()->RunWithStoppedMutators([&]() {
PatchInstanceCallAtWithMutatorsStopped(thread, return_address, caller_code,
data, target);
});
}
void CodePatcher::PatchInstanceCallAtWithMutatorsStopped(
Thread* thread,
uword return_address,
const Code& caller_code,
const Object& data,
const Code& target) {
auto zone = thread->zone();
ASSERT(caller_code.ContainsInstructionAt(return_address));
const Instructions& instrs =
Instructions::Handle(zone, caller_code.instructions());
WritableInstructionsScope writable(instrs.PayloadStart(), instrs.Size());
InstanceCall call(return_address);
call.set_data(data);
call.set_target(target);
}
FunctionPtr CodePatcher::GetUnoptimizedStaticCallAt(uword return_address,
const Code& caller_code,
ICData* ic_data_result) {
ASSERT(caller_code.ContainsInstructionAt(return_address));
UnoptimizedStaticCall static_call(return_address);
ICData& ic_data = ICData::Handle();
ic_data ^= static_call.ic_data();
if (ic_data_result != NULL) {
*ic_data_result = ic_data.ptr();
}
return ic_data.GetTargetAt(0);
}
void CodePatcher::PatchSwitchableCallAt(uword return_address,
const Code& caller_code,
const Object& data,
const Code& target) {
// Switchable instance calls only generated for precompilation.
UNREACHABLE();
}
void CodePatcher::PatchSwitchableCallAtWithMutatorsStopped(
Thread* thread,
uword return_address,
const Code& caller_code,
const Object& data,
const Code& target) {
// Switchable instance calls only generated for precompilation.
UNREACHABLE();
}
uword CodePatcher::GetSwitchableCallTargetEntryAt(uword return_address,
const Code& caller_code) {
// Switchable instance calls only generated for precompilation.
UNREACHABLE();
return 0;
}
ObjectPtr CodePatcher::GetSwitchableCallDataAt(uword return_address,
const Code& caller_code) {
// Switchable instance calls only generated for precompilation.
UNREACHABLE();
return Object::null();
}
void CodePatcher::PatchNativeCallAt(uword return_address,
const Code& caller_code,
NativeFunction target,
const Code& trampoline) {
UNREACHABLE();
}
CodePtr CodePatcher::GetNativeCallAt(uword return_address,
const Code& caller_code,
NativeFunction* target) {
UNREACHABLE();
return NULL;
}
} // namespace dart
#endif // defined TARGET_ARCH_IA32