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/*
* Copyright (C) 2011 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <stdio.h>
#include "UniquePtr.h"
#include "class_linker.h"
#include "object.h"
#include "object_utils.h"
#include "thread.h"
#include "jni.h"
#include "verifier/gc_map.h"
#include "verifier/method_verifier.h"
namespace art {
#define IS_IN_REF_BITMAP(mh, ref_bitmap, reg) \
( ((reg) < mh.GetCodeItem()->registers_size_) && \
(( *((ref_bitmap) + (reg)/8) >> ((reg) % 8) ) & 0x01) )
#define CHECK_REGS_CONTAIN_REFS(...) \
do { \
int t[] = {__VA_ARGS__}; \
int t_size = sizeof(t) / sizeof(*t); \
for (int i = 0; i < t_size; ++i) \
CHECK(IS_IN_REF_BITMAP(mh, ref_bitmap, t[i])) \
<< "Error: Reg @ " << i << "-th argument is not in GC map"; \
} while (false)
struct ReferenceMap2Visitor : public Thread::StackVisitor {
ReferenceMap2Visitor() {
}
bool VisitFrame(const Frame& frame, uintptr_t pc) {
Method* m = frame.GetMethod();
if (!m || m->IsNative()) {
return true;
}
LOG(INFO) << "At " << PrettyMethod(m, false);
verifier::PcToReferenceMap map(m->GetGcMap(), m->GetGcMapLength());
if (!pc) {
// pc == NULL: m is either a native method or a phony method
return true;
}
if (m->IsCalleeSaveMethod()) {
LOG(WARNING) << "no PC for " << PrettyMethod(m);
return true;
}
// Enable this to dump reference map to LOG(INFO)
if (false) {
ScopedThreadStateChange tsc(Thread::Current(), kRunnable);
art::verifier::MethodVerifier::VerifyMethodAndDump(m);
}
const uint8_t* ref_bitmap = NULL;
MethodHelper mh(m);
std::string m_name(mh.GetName());
// Given the method name and the number of times the method has been called,
// we know the Dex registers with live reference values. Assert that what we
// find is what is expected.
if (m_name.compare("f") == 0) {
ref_bitmap = map.FindBitMap(0x03U);
CHECK(ref_bitmap);
CHECK_REGS_CONTAIN_REFS(8); // v8: this
ref_bitmap = map.FindBitMap(0x06U);
CHECK(ref_bitmap);
CHECK_REGS_CONTAIN_REFS(8, 1); // v8: this, v1: x
ref_bitmap = map.FindBitMap(0x08U);
CHECK(ref_bitmap);
CHECK_REGS_CONTAIN_REFS(8, 3, 1); // v8: this, v3: y, v1: x
ref_bitmap = map.FindBitMap(0x0cU);
CHECK(ref_bitmap);
CHECK_REGS_CONTAIN_REFS(8, 3, 1); // v8: this, v3: y, v1: x
ref_bitmap = map.FindBitMap(0x0eU);
CHECK(ref_bitmap);
CHECK_REGS_CONTAIN_REFS(8, 3, 1); // v8: this, v3: y, v1: x
ref_bitmap = map.FindBitMap(0x10U);
CHECK(ref_bitmap);
CHECK_REGS_CONTAIN_REFS(8, 3, 1); // v8: this, v3: y, v1: x
ref_bitmap = map.FindBitMap(0x13U);
CHECK(ref_bitmap);
// v2 is added because of the instruction at DexPC 0024. Object merges with 0 is Object. See:
// 0024: move-object v3, v2
// 0025: goto 0013
// Detaled dex instructions for ReferenceMap.java are at the end of this function.
CHECK_REGS_CONTAIN_REFS(8, 3, 2, 1); // v8: this, v3: y, v2: y, v1: x
ref_bitmap = map.FindBitMap(0x15U);
CHECK(ref_bitmap);
CHECK_REGS_CONTAIN_REFS(8, 2, 1, 0); // v8: this, v2: y, v1: x, v0: ex
ref_bitmap = map.FindBitMap(0x18U);
CHECK(ref_bitmap);
CHECK_REGS_CONTAIN_REFS(8, 2, 1, 0); // v8: this, v2: y, v1: x, v0: ex
ref_bitmap = map.FindBitMap(0x1aU);
CHECK(ref_bitmap);
CHECK_REGS_CONTAIN_REFS(8, 5, 2, 1, 0); // v8: this, v5: x[1], v2: y, v1: x, v0: ex
ref_bitmap = map.FindBitMap(0x1dU);
CHECK(ref_bitmap);
CHECK_REGS_CONTAIN_REFS(8, 5, 2, 1, 0); // v8: this, v5: x[1], v2: y, v1: x, v0: ex
ref_bitmap = map.FindBitMap(0x1fU);
CHECK(ref_bitmap);
// v5 is removed from the root set because there is a "merge" operation.
// See 0015: if-nez v2, 001f.
CHECK_REGS_CONTAIN_REFS(8, 2, 1, 0); // v8: this, v2: y, v1: x, v0: ex
ref_bitmap = map.FindBitMap(0x21U);
CHECK(ref_bitmap);
CHECK_REGS_CONTAIN_REFS(8, 2, 1, 0); // v8: this, v2: y, v1: x, v0: ex
ref_bitmap = map.FindBitMap(0x25U);
CHECK(ref_bitmap);
CHECK_REGS_CONTAIN_REFS(8, 3, 2, 1, 0); // v8: this, v3: y, v2: y, v1: x, v0: ex
ref_bitmap = map.FindBitMap(0x27U);
CHECK(ref_bitmap);
CHECK_REGS_CONTAIN_REFS(8, 4, 2, 1); // v8: this, v4: ex, v2: y, v1: x
ref_bitmap = map.FindBitMap(0x29U);
CHECK(ref_bitmap);
CHECK_REGS_CONTAIN_REFS(8, 4, 2, 1); // v8: this, v4: ex, v2: y, v1: x
ref_bitmap = map.FindBitMap(0x2cU);
CHECK(ref_bitmap);
CHECK_REGS_CONTAIN_REFS(8, 4, 2, 1); // v8: this, v4: ex, v2: y, v1: x
ref_bitmap = map.FindBitMap(0x2fU);
CHECK(ref_bitmap);
CHECK_REGS_CONTAIN_REFS(8, 4, 3, 2, 1); // v8: this, v4: ex, v3: y, v2: y, v1: x
ref_bitmap = map.FindBitMap(0x32U);
CHECK(ref_bitmap);
CHECK_REGS_CONTAIN_REFS(8, 3, 2, 1, 0); // v8: this, v3: y, v2: y, v1: x, v0: ex
}
return true;
}
};
// Dex instructions for the function 'f' in ReferenceMap.java
// Virtual methods -
// #0 : (in LReferenceMap;)
// name : 'f'
// type : '()Ljava/lang/Object;'
// access : 0x0000 ()
// code -
// registers : 9
// ins : 1
// outs : 2
// insns size : 51 16-bit code units
// |[0001e8] ReferenceMap.f:()Ljava/lang/Object;
// |0000: const/4 v4, #int 2 // #2
// |0001: const/4 v7, #int 0 // #0
// |0002: const/4 v6, #int 1 // #1
//
//0:[Unknown],1:[Unknown],2:[Unknown],3:[Unknown],4:[32-bit Constant: 2],5:[Unknown],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |0003: new-array v1, v4, [Ljava/lang/Object; // type@0007
// |0005: const/4 v2, #int 0 // #0
//0:[Unknown],1:[Reference: java.lang.Object[]],2:[Zero],3:[Unknown],4:[32-bit Constant: 2],5:[Unknown],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |0006: new-instance v3, Ljava/lang/Object; // type@0003
//[Unknown],1:[Reference: java.lang.Object[]],2:[Zero],3:[Uninitialized Reference: java.lang.Object],4:[32-bit Constant: 2],5:[Unknown],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |0008: +invoke-object-init/range {}, Ljava/lang/Object;.<init>:()V // method@0005
// |000b: const/4 v4, #int 2 // #2
//0:[Unknown],1:[Reference: java.lang.Object[]],2:[Zero],3:[Reference: java.lang.Object],4:[32-bit Constant: 2],5:[Unknown],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |000c: aput-object v3, v1, v4
//0:[Unknown],1:[Reference: java.lang.Object[]],2:[Zero],3:[Reference: java.lang.Object],4:[32-bit Constant: 2],5:[Unknown],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |000e: aput-object v3, v1, v6
//0:[Unknown],1:[Reference: java.lang.Object[]],2:[Zero],3:[Reference: java.lang.Object],4:[32-bit Constant: 2],5:[Unknown],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |0010: +invoke-virtual-quick {v8, v7}, [000c] // vtable #000c
//0:[Conflict],1:[Reference: java.lang.Object[]],2:[Reference: java.lang.Object],3:[Reference: java.lang.Object],4:[32-bit Constant: 2],5:[Conflict],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |0013: return-object v3
// |0014: move-exception v0
//0:[Reference: java.lang.Exception],1:[Reference: java.lang.Object[]],2:[Reference: java.lang.Object],3:[Conflict],4:[32-bit Constant: 2],5:[Unknown],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |0015: if-nez v2, 001f // +000a
// |0017: const/4 v4, #int 1 // #1
//0:[Reference: java.lang.Exception],1:[Reference: java.lang.Object[]],2:[Reference: java.lang.Object],3:[Conflict],4:[32-bit Constant: 1],5:[Unknown],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |0018: new-instance v5, Ljava/lang/Object; // type@0003
//0:[Reference: java.lang.Exception],1:[Reference: java.lang.Object[]],2:[Reference: java.lang.Object],3:[Conflict],4:[32-bit Constant: 1],5:[Uninitialized Reference: java.lang.Object],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |001a: +invoke-object-init/range {}, Ljava/lang/Object;.<init>:()V // method@0005
//0:[Reference: java.lang.Exception],1:[Reference: java.lang.Object[]],2:[Reference: java.lang.Object],3:[Conflict],4:[32-bit Constant: 1],5:[Reference: java.lang.Object],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |001d: aput-object v5, v1, v4
//0:[Reference: java.lang.Exception],1:[Reference: java.lang.Object[]],2:[Reference: java.lang.Object],3:[Conflict],4:[32-bit Constant: 2],5:[Conflict],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |001f: aput-object v2, v1, v6
//0:[Reference: java.lang.Exception],1:[Reference: java.lang.Object[]],2:[Reference: java.lang.Object],3:[Conflict],4:[32-bit Constant: 2],5:[Conflict],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |0021: +invoke-virtual-quick {v8, v7}, [000c] // vtable #000c
// |0024: move-object v3, v2
//0:[Reference: java.lang.Exception],1:[Reference: java.lang.Object[]],2:[Reference: java.lang.Object],3:[Reference: java.lang.Object],4:[32-bit Constant: 2],5:[Conflict],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |0025: goto 0013 // -0012
// |0026: move-exception v4
//0:[Conflict],1:[Reference: java.lang.Object[]],2:[Reference: java.lang.Object],3:[Conflict],4:[Reference: java.lang.Throwable],5:[Conflict],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |0027: aput-object v2, v1, v6
//0:[Conflict],1:[Reference: java.lang.Object[]],2:[Reference: java.lang.Object],3:[Conflict],4:[Reference: java.lang.Throwable],5:[Conflict],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |0029: +invoke-virtual-quick {v8, v7}, [000c] // vtable #000c
//0:[Conflict],1:[Reference: java.lang.Object[]],2:[Reference: java.lang.Object],3:[Conflict],4:[Reference: java.lang.Throwable],5:[Conflict],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |002c: throw v4
// |002d: move-exception v4
// |002e: move-object v2, v3
//0:[Unknown],1:[Reference: java.lang.Object[]],2:[Reference: java.lang.Object],3:[Reference: java.lang.Object],4:[Reference: java.lang.Throwable],5:[Unknown],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |002f: goto 0027 // -0008
// |0030: move-exception v0
// |0031: move-object v2, v3
//0:[Reference: java.lang.Exception],1:[Reference: java.lang.Object[]],2:[Reference: java.lang.Object],3:[Reference: java.lang.Object],4:[32-bit Constant: 2],5:[Unknown],6:[32-bit Constant: 1],7:[Zero],8:[Reference: ReferenceMap],
// |0032: goto 0015 // -001d
// catches : 3
// 0x0006 - 0x000b
// Ljava/lang/Exception; -> 0x0014
// <any> -> 0x0026
// 0x000c - 0x000e
// Ljava/lang/Exception; -> 0x0030
// <any> -> 0x002d
// 0x0018 - 0x001f
// <any> -> 0x0026
// positions :
// 0x0003 line=8
// 0x0005 line=9
// 0x0006 line=11
// 0x000b line=12
// 0x000e line=18
// 0x0010 line=19
// 0x0013 line=21
// 0x0014 line=13
// 0x0015 line=14
// 0x0017 line=15
// 0x001f line=18
// 0x0021 line=19
// 0x0025 line=20
// 0x0026 line=18
// 0x0029 line=19
// 0x002d line=18
// 0x0030 line=13
// locals :
// 0x0006 - 0x000b reg=2 y Ljava/lang/Object;
// 0x000b - 0x0013 reg=3 y Ljava/lang/Object;
// 0x0014 - 0x0015 reg=2 y Ljava/lang/Object;
// 0x0015 - 0x0026 reg=0 ex Ljava/lang/Exception;
// 0x002d - 0x0032 reg=3 y Ljava/lang/Object;
// 0x0005 - 0x0033 reg=1 x [Ljava/lang/Object;
// 0x0032 - 0x0033 reg=2 y Ljava/lang/Object;
// 0x0000 - 0x0033 reg=8 this LReferenceMap;
extern "C" JNIEXPORT jint JNICALL Java_ReferenceMap_refmap(JNIEnv*, jobject, jint count) {
// Visitor
ReferenceMap2Visitor mapper;
Thread::Current()->WalkStack(&mapper);
return count + 1;
}
}