test/004-ReferenceMap/stack_walk_refmap_jni.cc - platform/art - Git at Google

 /*
  * 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 "check_reference_map_visitor.h"
 #include "jni.h"

 namespace art {

 #define CHECK_REGS_CONTAIN_REFS(dex_pc, abort_if_not_found, ...) do {                 \
   int t[] = {__VA_ARGS__};                                                            \
   int t_size = sizeof(t) / sizeof(*t);                                                \
   const OatQuickMethodHeader* method_header = GetCurrentOatQuickMethodHeader();       \
   uintptr_t native_quick_pc = method_header->ToNativeQuickPc(GetMethod(),             \
                                                  dex_pc,                              \
                                                  /* is_catch_handler */ false,        \
                                                  abort_if_not_found);                 \
   if (native_quick_pc != UINTPTR_MAX) {                                               \
     CheckReferences(t, t_size, method_header->NativeQuickPcOffset(native_quick_pc));  \
   }                                                                                   \
 } while (false);

 struct ReferenceMap2Visitor : public CheckReferenceMapVisitor {
   explicit ReferenceMap2Visitor(Thread* thread) SHARED_REQUIRES(Locks::mutator_lock_)
       : CheckReferenceMapVisitor(thread) {}

   bool VisitFrame() SHARED_REQUIRES(Locks::mutator_lock_) {
     if (CheckReferenceMapVisitor::VisitFrame()) {
       return true;
     }
     ArtMethod* m = GetMethod();
     std::string m_name(m->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) {
       CHECK_REGS_CONTAIN_REFS(0x03U, true, 8);  // v8: this
       CHECK_REGS_CONTAIN_REFS(0x06U, true, 8, 1);  // v8: this, v1: x
       CHECK_REGS_CONTAIN_REFS(0x0cU, true, 8, 3, 1);  // v8: this, v3: y, v1: x
       CHECK_REGS_CONTAIN_REFS(0x10U, true, 8, 3, 1);  // v8: this, v3: y, v1: x
       // 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
       // Detailed 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
       // We eliminate the non-live registers at a return, so only v3 is live.
       // Note that it is OK for a compiler to not have a dex map at this dex PC because
       // a return is not necessarily a safepoint.
       CHECK_REGS_CONTAIN_REFS(0x14U, false, 2);  // v2: y
       // Note that v0: ex can be eliminated because it's a dead merge of two different exceptions.
       CHECK_REGS_CONTAIN_REFS(0x18U, true, 8, 2, 1);  // v8: this, v2: y, v1: x (dead v0: ex)
       CHECK_REGS_CONTAIN_REFS(0x22U, true, 8, 2, 1);  // v8: this, v2: y, v1: x (dead v0: ex)

       if (!GetCurrentOatQuickMethodHeader()->IsOptimized()) {
         CHECK_REGS_CONTAIN_REFS(0x27U, true, 8, 4, 2, 1);  // v8: this, v4: ex, v2: y, v1: x
       }
       CHECK_REGS_CONTAIN_REFS(0x29U, true, 8, 4, 2, 1);  // v8: this, v4: ex, v2: y, v1: x
       CHECK_REGS_CONTAIN_REFS(0x2cU, true, 8, 4, 2, 1);  // v8: this, v4: ex, v2: y, v1: x
       // Note that it is OK for a compiler to not have a dex map at these two dex PCs because
       // a goto is not necessarily a safepoint.
       CHECK_REGS_CONTAIN_REFS(0x2fU, false, 8, 4, 3, 2, 1);  // v8: this, v4: ex, v3: y, v2: y, v1: x
       CHECK_REGS_CONTAIN_REFS(0x32U, false, 8, 3, 2, 1, 0);  // v8: this, v3: y, v2: y, v1: x, v0: ex
     }

     return true;
   }
 };

 // DEX code
 //
 // 0000: const/4 v4, #int 2 // #2
 // 0001: const/4 v7, #int 0 // #0
 // 0002: const/4 v6, #int 1 // #1
 // 0003: new-array v1, v4, [Ljava/lang/Object; // type@0007
 // 0005: const/4 v2, #int 0 // #0
 // 0006: new-instance v3, Ljava/lang/Object; // type@0003
 // 0008: invoke-direct {v3}, Ljava/lang/Object;.<init>:()V // method@0004
 // 000b: const/4 v4, #int 2 // #2
 // 000c: aput-object v3, v1, v4
 // 000e: aput-object v3, v1, v6
 // 0010: invoke-virtual {v8, v7}, LMain;.refmap:(I)I // method@0003
 // 0013: move-object v2, v3
 // 0014: return-object v2
 // 0015: move-exception v0
 // 0016: if-nez v2, 0020 // +000a
 // 0018: new-instance v4, Ljava/lang/Object; // type@0003
 // 001a: invoke-direct {v4}, Ljava/lang/Object;.<init>:()V // method@0004
 // 001d: const/4 v5, #int 1 // #1
 // 001e: aput-object v4, v1, v5
 // 0020: aput-object v2, v1, v6
 // 0022: invoke-virtual {v8, v7}, LMain;.refmap:(I)I // method@0003
 // 0025: goto 0014 // -0011
 // 0026: move-exception v4
 // 0027: aput-object v2, v1, v6
 // 0029: invoke-virtual {v8, v7}, LMain;.refmap:(I)I // method@0003
 // 002c: throw v4
 // 002d: move-exception v4
 // 002e: move-object v2, v3
 // 002f: goto 0027 // -0008
 // 0030: move-exception v0
 // 0031: move-object v2, v3
 // 0032: goto 0016 // -001c
 //    catches       : 3
 //      0x0006 - 0x000b
 //        Ljava/lang/Exception; -> 0x0015
 //        <any> -> 0x0026
 //      0x000c - 0x000e
 //        Ljava/lang/Exception; -> 0x0030
 //        <any> -> 0x002d
 //      0x0018 - 0x0020
 //        <any> -> 0x0026
 //    positions     :
 //      0x0003 line=22
 //      0x0005 line=23
 //      0x0006 line=25
 //      0x000b line=26
 //      0x000e line=32
 //      0x0010 line=33
 //      0x0014 line=35
 //      0x0015 line=27
 //      0x0016 line=28
 //      0x0018 line=29
 //      0x0020 line=32
 //      0x0022 line=33
 //      0x0026 line=31
 //      0x0027 line=32
 //      0x0029 line=33
 //      0x002c line=31
 //      0x0030 line=27
 //    locals        :
 //      0x0006 - 0x000b reg=2 y Ljava/lang/Object;
 //      0x000b - 0x0014 reg=3 y Ljava/lang/Object;
 //      0x0015 - 0x0016 reg=2 y Ljava/lang/Object;
 //      0x0016 - 0x0026 reg=0 ex Ljava/lang/Exception;
 //      0x002d - 0x002f reg=3 y Ljava/lang/Object;
 //      0x002f - 0x0030 reg=2 y Ljava/lang/Object;
 //      0x0030 - 0x0032 reg=3 y Ljava/lang/Object;
 //      0x0031 - 0x0033 reg=0 ex Ljava/lang/Exception;
 //      0x0005 - 0x0033 reg=1 x [Ljava/lang/Object;
 //      0x0032 - 0x0033 reg=2 y Ljava/lang/Object;
 //      0x0000 - 0x0033 reg=8 this LMain;

 extern "C" JNIEXPORT jint JNICALL Java_Main_refmap(JNIEnv*, jobject, jint count) {
   // Visitor
   ScopedObjectAccess soa(Thread::Current());
   ReferenceMap2Visitor mapper(soa.Self());
   mapper.WalkStack();

   return count + 1;
 }

 }  // namespace art
	/*
	* 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 "check_reference_map_visitor.h"
	#include "jni.h"

	namespace art {

	#define CHECK_REGS_CONTAIN_REFS(dex_pc, abort_if_not_found, ...) do { \
	int t[] = {__VA_ARGS__}; \
	int t_size = sizeof(t) / sizeof(*t); \
	const OatQuickMethodHeader* method_header = GetCurrentOatQuickMethodHeader(); \
	uintptr_t native_quick_pc = method_header->ToNativeQuickPc(GetMethod(), \
	dex_pc, \
	/* is_catch_handler */ false, \
	abort_if_not_found); \
	if (native_quick_pc != UINTPTR_MAX) { \
	CheckReferences(t, t_size, method_header->NativeQuickPcOffset(native_quick_pc)); \
	} \
	} while (false);

	struct ReferenceMap2Visitor : public CheckReferenceMapVisitor {
	explicit ReferenceMap2Visitor(Thread* thread) SHARED_REQUIRES(Locks::mutator_lock_)
	: CheckReferenceMapVisitor(thread) {}

	bool VisitFrame() SHARED_REQUIRES(Locks::mutator_lock_) {
	if (CheckReferenceMapVisitor::VisitFrame()) {
	return true;
	}
	ArtMethod* m = GetMethod();
	std::string m_name(m->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) {
	CHECK_REGS_CONTAIN_REFS(0x03U, true, 8); // v8: this
	CHECK_REGS_CONTAIN_REFS(0x06U, true, 8, 1); // v8: this, v1: x
	CHECK_REGS_CONTAIN_REFS(0x0cU, true, 8, 3, 1); // v8: this, v3: y, v1: x
	CHECK_REGS_CONTAIN_REFS(0x10U, true, 8, 3, 1); // v8: this, v3: y, v1: x
	// 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
	// Detailed 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
	// We eliminate the non-live registers at a return, so only v3 is live.
	// Note that it is OK for a compiler to not have a dex map at this dex PC because
	// a return is not necessarily a safepoint.
	CHECK_REGS_CONTAIN_REFS(0x14U, false, 2); // v2: y
	// Note that v0: ex can be eliminated because it's a dead merge of two different exceptions.
	CHECK_REGS_CONTAIN_REFS(0x18U, true, 8, 2, 1); // v8: this, v2: y, v1: x (dead v0: ex)
	CHECK_REGS_CONTAIN_REFS(0x22U, true, 8, 2, 1); // v8: this, v2: y, v1: x (dead v0: ex)

	if (!GetCurrentOatQuickMethodHeader()->IsOptimized()) {
	CHECK_REGS_CONTAIN_REFS(0x27U, true, 8, 4, 2, 1); // v8: this, v4: ex, v2: y, v1: x
	}
	CHECK_REGS_CONTAIN_REFS(0x29U, true, 8, 4, 2, 1); // v8: this, v4: ex, v2: y, v1: x
	CHECK_REGS_CONTAIN_REFS(0x2cU, true, 8, 4, 2, 1); // v8: this, v4: ex, v2: y, v1: x
	// Note that it is OK for a compiler to not have a dex map at these two dex PCs because
	// a goto is not necessarily a safepoint.
	CHECK_REGS_CONTAIN_REFS(0x2fU, false, 8, 4, 3, 2, 1); // v8: this, v4: ex, v3: y, v2: y, v1: x
	CHECK_REGS_CONTAIN_REFS(0x32U, false, 8, 3, 2, 1, 0); // v8: this, v3: y, v2: y, v1: x, v0: ex
	}

	return true;
	}
	};

	// DEX code
	//
	// 0000: const/4 v4, #int 2 // #2
	// 0001: const/4 v7, #int 0 // #0
	// 0002: const/4 v6, #int 1 // #1
	// 0003: new-array v1, v4, [Ljava/lang/Object; // type@0007
	// 0005: const/4 v2, #int 0 // #0
	// 0006: new-instance v3, Ljava/lang/Object; // type@0003
	// 0008: invoke-direct {v3}, Ljava/lang/Object;.<init>:()V // method@0004
	// 000b: const/4 v4, #int 2 // #2
	// 000c: aput-object v3, v1, v4
	// 000e: aput-object v3, v1, v6
	// 0010: invoke-virtual {v8, v7}, LMain;.refmap:(I)I // method@0003
	// 0013: move-object v2, v3
	// 0014: return-object v2
	// 0015: move-exception v0
	// 0016: if-nez v2, 0020 // +000a
	// 0018: new-instance v4, Ljava/lang/Object; // type@0003
	// 001a: invoke-direct {v4}, Ljava/lang/Object;.<init>:()V // method@0004
	// 001d: const/4 v5, #int 1 // #1
	// 001e: aput-object v4, v1, v5
	// 0020: aput-object v2, v1, v6
	// 0022: invoke-virtual {v8, v7}, LMain;.refmap:(I)I // method@0003
	// 0025: goto 0014 // -0011
	// 0026: move-exception v4
	// 0027: aput-object v2, v1, v6
	// 0029: invoke-virtual {v8, v7}, LMain;.refmap:(I)I // method@0003
	// 002c: throw v4
	// 002d: move-exception v4
	// 002e: move-object v2, v3
	// 002f: goto 0027 // -0008
	// 0030: move-exception v0
	// 0031: move-object v2, v3
	// 0032: goto 0016 // -001c
	// catches : 3
	// 0x0006 - 0x000b
	// Ljava/lang/Exception; -> 0x0015
	// <any> -> 0x0026
	// 0x000c - 0x000e
	// Ljava/lang/Exception; -> 0x0030
	// <any> -> 0x002d
	// 0x0018 - 0x0020
	// <any> -> 0x0026
	// positions :
	// 0x0003 line=22
	// 0x0005 line=23
	// 0x0006 line=25
	// 0x000b line=26
	// 0x000e line=32
	// 0x0010 line=33
	// 0x0014 line=35
	// 0x0015 line=27
	// 0x0016 line=28
	// 0x0018 line=29
	// 0x0020 line=32
	// 0x0022 line=33
	// 0x0026 line=31
	// 0x0027 line=32
	// 0x0029 line=33
	// 0x002c line=31
	// 0x0030 line=27
	// locals :
	// 0x0006 - 0x000b reg=2 y Ljava/lang/Object;
	// 0x000b - 0x0014 reg=3 y Ljava/lang/Object;
	// 0x0015 - 0x0016 reg=2 y Ljava/lang/Object;
	// 0x0016 - 0x0026 reg=0 ex Ljava/lang/Exception;
	// 0x002d - 0x002f reg=3 y Ljava/lang/Object;
	// 0x002f - 0x0030 reg=2 y Ljava/lang/Object;
	// 0x0030 - 0x0032 reg=3 y Ljava/lang/Object;
	// 0x0031 - 0x0033 reg=0 ex Ljava/lang/Exception;
	// 0x0005 - 0x0033 reg=1 x [Ljava/lang/Object;
	// 0x0032 - 0x0033 reg=2 y Ljava/lang/Object;
	// 0x0000 - 0x0033 reg=8 this LMain;

	extern "C" JNIEXPORT jint JNICALL Java_Main_refmap(JNIEnv*, jobject, jint count) {
	// Visitor
	ScopedObjectAccess soa(Thread::Current());
	ReferenceMap2Visitor mapper(soa.Self());
	mapper.WalkStack();

	return count + 1;
	}

	} // namespace art