/* * Copyright (C) 2009 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 "common_test.h" #include "indirect_reference_table.h" namespace art { class IndirectReferenceTableTest : public CommonTest { }; static void CheckDump(IndirectReferenceTable* irt, size_t num_objects, size_t num_unique) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) { std::ostringstream oss; irt->Dump(oss); if (num_objects == 0) { EXPECT_EQ(oss.str().find("java.lang.Object"), std::string::npos) << oss.str(); } else if (num_objects == 1) { EXPECT_NE(oss.str().find("1 of java.lang.Object"), std::string::npos) << oss.str(); } else { EXPECT_NE(oss.str().find(StringPrintf("%zd of java.lang.Object (%zd unique instances)", num_objects, num_unique)), std::string::npos) << "\n Expected number of objects: " << num_objects << "\n Expected unique objects: " << num_unique << "\n" << oss.str(); } } TEST_F(IndirectReferenceTableTest, BasicTest) { ScopedObjectAccess soa(Thread::Current()); static const size_t kTableInitial = 10; static const size_t kTableMax = 20; IndirectReferenceTable irt(kTableInitial, kTableMax, kGlobal); mirror::Class* c = class_linker_->FindSystemClass("Ljava/lang/Object;"); ASSERT_TRUE(c != NULL); mirror::Object* obj0 = c->AllocObject(soa.Self()); ASSERT_TRUE(obj0 != NULL); mirror::Object* obj1 = c->AllocObject(soa.Self()); ASSERT_TRUE(obj1 != NULL); mirror::Object* obj2 = c->AllocObject(soa.Self()); ASSERT_TRUE(obj2 != NULL); mirror::Object* obj3 = c->AllocObject(soa.Self()); ASSERT_TRUE(obj3 != NULL); const uint32_t cookie = IRT_FIRST_SEGMENT; CheckDump(&irt, 0, 0); IndirectRef iref0 = (IndirectRef) 0x11110; EXPECT_FALSE(irt.Remove(cookie, iref0)) << "unexpectedly successful removal"; // Add three, check, remove in the order in which they were added. iref0 = irt.Add(cookie, obj0); EXPECT_TRUE(iref0 != NULL); CheckDump(&irt, 1, 1); IndirectRef iref1 = irt.Add(cookie, obj1); EXPECT_TRUE(iref1 != NULL); CheckDump(&irt, 2, 2); IndirectRef iref2 = irt.Add(cookie, obj2); EXPECT_TRUE(iref2 != NULL); CheckDump(&irt, 3, 3); EXPECT_EQ(obj0, irt.Get(iref0)); EXPECT_EQ(obj1, irt.Get(iref1)); EXPECT_EQ(obj2, irt.Get(iref2)); EXPECT_TRUE(irt.Remove(cookie, iref0)); CheckDump(&irt, 2, 2); EXPECT_TRUE(irt.Remove(cookie, iref1)); CheckDump(&irt, 1, 1); EXPECT_TRUE(irt.Remove(cookie, iref2)); CheckDump(&irt, 0, 0); // Table should be empty now. EXPECT_EQ(0U, irt.Capacity()); // Get invalid entry (off the end of the list). EXPECT_EQ(kInvalidIndirectRefObject, irt.Get(iref0)); // Add three, remove in the opposite order. iref0 = irt.Add(cookie, obj0); EXPECT_TRUE(iref0 != NULL); iref1 = irt.Add(cookie, obj1); EXPECT_TRUE(iref1 != NULL); iref2 = irt.Add(cookie, obj2); EXPECT_TRUE(iref2 != NULL); CheckDump(&irt, 3, 3); ASSERT_TRUE(irt.Remove(cookie, iref2)); CheckDump(&irt, 2, 2); ASSERT_TRUE(irt.Remove(cookie, iref1)); CheckDump(&irt, 1, 1); ASSERT_TRUE(irt.Remove(cookie, iref0)); CheckDump(&irt, 0, 0); // Table should be empty now. ASSERT_EQ(0U, irt.Capacity()); // Add three, remove middle / middle / bottom / top. (Second attempt // to remove middle should fail.) iref0 = irt.Add(cookie, obj0); EXPECT_TRUE(iref0 != NULL); iref1 = irt.Add(cookie, obj1); EXPECT_TRUE(iref1 != NULL); iref2 = irt.Add(cookie, obj2); EXPECT_TRUE(iref2 != NULL); CheckDump(&irt, 3, 3); ASSERT_EQ(3U, irt.Capacity()); ASSERT_TRUE(irt.Remove(cookie, iref1)); CheckDump(&irt, 2, 2); ASSERT_FALSE(irt.Remove(cookie, iref1)); CheckDump(&irt, 2, 2); // Get invalid entry (from hole). EXPECT_EQ(kInvalidIndirectRefObject, irt.Get(iref1)); ASSERT_TRUE(irt.Remove(cookie, iref2)); CheckDump(&irt, 1, 1); ASSERT_TRUE(irt.Remove(cookie, iref0)); CheckDump(&irt, 0, 0); // Table should be empty now. ASSERT_EQ(0U, irt.Capacity()); // Add four entries. Remove #1, add new entry, verify that table size // is still 4 (i.e. holes are getting filled). Remove #1 and #3, verify // that we delete one and don't hole-compact the other. iref0 = irt.Add(cookie, obj0); EXPECT_TRUE(iref0 != NULL); iref1 = irt.Add(cookie, obj1); EXPECT_TRUE(iref1 != NULL); iref2 = irt.Add(cookie, obj2); EXPECT_TRUE(iref2 != NULL); IndirectRef iref3 = irt.Add(cookie, obj3); EXPECT_TRUE(iref3 != NULL); CheckDump(&irt, 4, 4); ASSERT_TRUE(irt.Remove(cookie, iref1)); CheckDump(&irt, 3, 3); iref1 = irt.Add(cookie, obj1); EXPECT_TRUE(iref1 != NULL); ASSERT_EQ(4U, irt.Capacity()) << "hole not filled"; CheckDump(&irt, 4, 4); ASSERT_TRUE(irt.Remove(cookie, iref1)); CheckDump(&irt, 3, 3); ASSERT_TRUE(irt.Remove(cookie, iref3)); CheckDump(&irt, 2, 2); ASSERT_EQ(3U, irt.Capacity()) << "should be 3 after two deletions"; ASSERT_TRUE(irt.Remove(cookie, iref2)); CheckDump(&irt, 1, 1); ASSERT_TRUE(irt.Remove(cookie, iref0)); CheckDump(&irt, 0, 0); ASSERT_EQ(0U, irt.Capacity()) << "not empty after split remove"; // Add an entry, remove it, add a new entry, and try to use the original // iref. They have the same slot number but are for different objects. // With the extended checks in place, this should fail. iref0 = irt.Add(cookie, obj0); EXPECT_TRUE(iref0 != NULL); CheckDump(&irt, 1, 1); ASSERT_TRUE(irt.Remove(cookie, iref0)); CheckDump(&irt, 0, 0); iref1 = irt.Add(cookie, obj1); EXPECT_TRUE(iref1 != NULL); CheckDump(&irt, 1, 1); ASSERT_FALSE(irt.Remove(cookie, iref0)) << "mismatched del succeeded"; CheckDump(&irt, 1, 1); ASSERT_TRUE(irt.Remove(cookie, iref1)) << "switched del failed"; ASSERT_EQ(0U, irt.Capacity()) << "switching del not empty"; CheckDump(&irt, 0, 0); // Same as above, but with the same object. A more rigorous checker // (e.g. with slot serialization) will catch this. iref0 = irt.Add(cookie, obj0); EXPECT_TRUE(iref0 != NULL); CheckDump(&irt, 1, 1); ASSERT_TRUE(irt.Remove(cookie, iref0)); CheckDump(&irt, 0, 0); iref1 = irt.Add(cookie, obj0); EXPECT_TRUE(iref1 != NULL); CheckDump(&irt, 1, 1); if (iref0 != iref1) { // Try 0, should not work. ASSERT_FALSE(irt.Remove(cookie, iref0)) << "temporal del succeeded"; } ASSERT_TRUE(irt.Remove(cookie, iref1)) << "temporal cleanup failed"; ASSERT_EQ(0U, irt.Capacity()) << "temporal del not empty"; CheckDump(&irt, 0, 0); // NULL isn't a valid iref. ASSERT_EQ(kInvalidIndirectRefObject, irt.Get(NULL)); // Stale lookup. iref0 = irt.Add(cookie, obj0); EXPECT_TRUE(iref0 != NULL); CheckDump(&irt, 1, 1); ASSERT_TRUE(irt.Remove(cookie, iref0)); EXPECT_EQ(kInvalidIndirectRefObject, irt.Get(iref0)) << "stale lookup succeeded"; CheckDump(&irt, 0, 0); // Test table resizing. // These ones fit... IndirectRef manyRefs[kTableInitial]; for (size_t i = 0; i < kTableInitial; i++) { manyRefs[i] = irt.Add(cookie, obj0); ASSERT_TRUE(manyRefs[i] != NULL) << "Failed adding " << i; CheckDump(&irt, i + 1, 1); } // ...this one causes overflow. iref0 = irt.Add(cookie, obj0); ASSERT_TRUE(iref0 != NULL); ASSERT_EQ(kTableInitial + 1, irt.Capacity()); CheckDump(&irt, kTableInitial + 1, 1); for (size_t i = 0; i < kTableInitial; i++) { ASSERT_TRUE(irt.Remove(cookie, manyRefs[i])) << "failed removing " << i; CheckDump(&irt, kTableInitial - i, 1); } // Because of removal order, should have 11 entries, 10 of them holes. ASSERT_EQ(kTableInitial + 1, irt.Capacity()); ASSERT_TRUE(irt.Remove(cookie, iref0)) << "multi-remove final failed"; ASSERT_EQ(0U, irt.Capacity()) << "multi-del not empty"; CheckDump(&irt, 0, 0); } } // namespace art