// -*- mode: c++ -*- // Copyright (c) 2010 Google Inc. All Rights Reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // Original author: Jim Blandy // dwarf2diehander_unittest.cc: Unit tests for google_breakpad::DIEDispatcher. #include #include #include #include "breakpad_googletest_includes.h" #include "common/dwarf/dwarf2diehandler.h" #include "common/using_std_string.h" using std::make_pair; using ::testing::_; using ::testing::ContainerEq; using ::testing::ElementsAreArray; using ::testing::Eq; using ::testing::InSequence; using ::testing::Return; using ::testing::Sequence; using ::testing::StrEq; using dwarf2reader::DIEDispatcher; using dwarf2reader::DIEHandler; using dwarf2reader::DwarfAttribute; using dwarf2reader::DwarfForm; using dwarf2reader::DwarfTag; using dwarf2reader::RootDIEHandler; class MockDIEHandler: public DIEHandler { public: MOCK_METHOD3(ProcessAttributeUnsigned, void(DwarfAttribute, DwarfForm, uint64_t)); MOCK_METHOD3(ProcessAttributeSigned, void(DwarfAttribute, DwarfForm, int64_t)); MOCK_METHOD3(ProcessAttributeReference, void(DwarfAttribute, DwarfForm, uint64_t)); MOCK_METHOD4(ProcessAttributeBuffer, void(DwarfAttribute, DwarfForm, const uint8_t*, uint64_t)); MOCK_METHOD3(ProcessAttributeString, void(DwarfAttribute, DwarfForm, const string&)); MOCK_METHOD3(ProcessAttributeSignature, void(DwarfAttribute, DwarfForm, uint64_t)); MOCK_METHOD0(EndAttributes, bool()); MOCK_METHOD2(FindChildHandler, DIEHandler *(uint64_t, DwarfTag)); MOCK_METHOD0(Finish, void()); }; class MockRootDIEHandler: public RootDIEHandler { public: MOCK_METHOD3(ProcessAttributeUnsigned, void(DwarfAttribute, DwarfForm, uint64_t)); MOCK_METHOD3(ProcessAttributeSigned, void(DwarfAttribute, DwarfForm, int64_t)); MOCK_METHOD3(ProcessAttributeReference, void(DwarfAttribute, DwarfForm, uint64_t)); MOCK_METHOD4(ProcessAttributeBuffer, void(DwarfAttribute, DwarfForm, const uint8_t*, uint64_t)); MOCK_METHOD3(ProcessAttributeString, void(DwarfAttribute, DwarfForm, const string&)); MOCK_METHOD3(ProcessAttributeSignature, void(DwarfAttribute, DwarfForm, uint64_t)); MOCK_METHOD0(EndAttributes, bool()); MOCK_METHOD2(FindChildHandler, DIEHandler *(uint64_t, DwarfTag)); MOCK_METHOD0(Finish, void()); MOCK_METHOD5(StartCompilationUnit, bool(uint64_t, uint8_t, uint8_t, uint64_t, uint8_t)); MOCK_METHOD2(StartRootDIE, bool(uint64_t, DwarfTag)); }; // If the handler elects to skip the compilation unit, the dispatcher // should tell the reader so. TEST(Dwarf2DIEHandler, SkipCompilationUnit) { Sequence s; MockRootDIEHandler mock_root_handler; DIEDispatcher die_dispatcher(&mock_root_handler); EXPECT_CALL(mock_root_handler, StartCompilationUnit(0x8d42aed77cfccf3eLL, 0x89, 0xdc, 0x2ecb4dc778a80f21LL, 0x66)) .InSequence(s) .WillOnce(Return(false)); EXPECT_FALSE(die_dispatcher.StartCompilationUnit(0x8d42aed77cfccf3eLL, 0x89, 0xdc, 0x2ecb4dc778a80f21LL, 0x66)); } // If the handler elects to skip the root DIE, the dispatcher should // tell the reader so. TEST(Dwarf2DIEHandler, SkipRootDIE) { Sequence s; MockRootDIEHandler mock_root_handler; DIEDispatcher die_dispatcher(&mock_root_handler); EXPECT_CALL(mock_root_handler, StartCompilationUnit(0xde8994029fc8b999LL, 0xf4, 0x02, 0xb00febffa76e2b2bLL, 0x5c)) .InSequence(s) .WillOnce(Return(true)); EXPECT_CALL(mock_root_handler, StartRootDIE(0x7d08242b4b510cf2LL, (DwarfTag) 0xb4f98da6)) .InSequence(s) .WillOnce(Return(false)); EXPECT_TRUE(die_dispatcher.StartCompilationUnit(0xde8994029fc8b999LL, 0xf4, 0x02, 0xb00febffa76e2b2bLL, 0x5c)); EXPECT_FALSE(die_dispatcher.StartDIE(0x7d08242b4b510cf2LL, (DwarfTag) 0xb4f98da6)); die_dispatcher.EndDIE(0x7d08242b4b510cf2LL); } // If the handler elects to skip the root DIE's children, the // dispatcher should tell the reader so --- and avoid deleting the // root handler. TEST(Dwarf2DIEHandler, SkipRootDIEChildren) { MockRootDIEHandler mock_root_handler; DIEDispatcher die_dispatcher(&mock_root_handler); { InSequence s; EXPECT_CALL(mock_root_handler, StartCompilationUnit(0x15d6897480cc65a7LL, 0x26, 0xa0, 0x09f8bf0767f91675LL, 0xdb)) .WillOnce(Return(true)); EXPECT_CALL(mock_root_handler, StartRootDIE(0x7d08242b4b510cf2LL, (DwarfTag) 0xb4f98da6)) .WillOnce(Return(true)); // Please don't tell me about my children. EXPECT_CALL(mock_root_handler, EndAttributes()) .WillOnce(Return(false)); EXPECT_CALL(mock_root_handler, Finish()) .WillOnce(Return()); } EXPECT_TRUE(die_dispatcher.StartCompilationUnit(0x15d6897480cc65a7LL, 0x26, 0xa0, 0x09f8bf0767f91675LL, 0xdb)); EXPECT_TRUE(die_dispatcher.StartDIE(0x7d08242b4b510cf2LL, (DwarfTag) 0xb4f98da6)); EXPECT_FALSE(die_dispatcher.StartDIE(0x435150ceedccda18LL, (DwarfTag) 0xc3a17bba)); die_dispatcher.EndDIE(0x435150ceedccda18LL); die_dispatcher.EndDIE(0x7d08242b4b510cf2LL); } // The dispatcher should pass attribute values through to the die // handler accurately. TEST(Dwarf2DIEHandler, PassAttributeValues) { MockRootDIEHandler mock_root_handler; DIEDispatcher die_dispatcher(&mock_root_handler); const uint8_t buffer[10] = { 0x24, 0x24, 0x35, 0x9a, 0xca, 0xcf, 0xa8, 0x84, 0xa7, 0x18 }; string str = "\xc8\x26\x2e\x0d\xa4\x9c\x37\xd6\xfb\x1d"; // Set expectations. { InSequence s; // We'll like the compilation unit header. EXPECT_CALL(mock_root_handler, StartCompilationUnit(0x8d42aed77cfccf3eLL, 0x89, 0xdc, 0x2ecb4dc778a80f21LL, 0x66)) .WillOnce(Return(true)); // We'll like the root DIE. EXPECT_CALL(mock_root_handler, StartRootDIE(0xe2222da01e29f2a9LL, (DwarfTag) 0x9829445c)) .WillOnce(Return(true)); // Expect some attribute values. EXPECT_CALL(mock_root_handler, ProcessAttributeUnsigned((DwarfAttribute) 0x1cc0bfed, (DwarfForm) 0x424f1468, 0xa592571997facda1ULL)) .WillOnce(Return()); EXPECT_CALL(mock_root_handler, ProcessAttributeSigned((DwarfAttribute) 0x43694dc9, (DwarfForm) 0xf6f78901L, 0x92602a4e3bf1f446LL)) .WillOnce(Return()); EXPECT_CALL(mock_root_handler, ProcessAttributeReference((DwarfAttribute) 0x4033e8cL, (DwarfForm) 0xf66fbe0bL, 0x50fddef44734fdecULL)) .WillOnce(Return()); EXPECT_CALL(mock_root_handler, ProcessAttributeBuffer((DwarfAttribute) 0x25d7e0af, (DwarfForm) 0xe99a539a, buffer, sizeof(buffer))) .WillOnce(Return()); EXPECT_CALL(mock_root_handler, ProcessAttributeString((DwarfAttribute) 0x310ed065, (DwarfForm) 0x15762fec, StrEq(str))) .WillOnce(Return()); EXPECT_CALL(mock_root_handler, ProcessAttributeSignature((DwarfAttribute) 0x58790d72, (DwarfForm) 0x4159f138, 0x94682463613e6a5fULL)) .WillOnce(Return()); EXPECT_CALL(mock_root_handler, EndAttributes()) .WillOnce(Return(true)); EXPECT_CALL(mock_root_handler, FindChildHandler(_, _)) .Times(0); EXPECT_CALL(mock_root_handler, Finish()) .WillOnce(Return()); } // Drive the dispatcher. // Report the CU header. EXPECT_TRUE(die_dispatcher.StartCompilationUnit(0x8d42aed77cfccf3eLL, 0x89, 0xdc, 0x2ecb4dc778a80f21LL, 0x66)); // Report the root DIE. EXPECT_TRUE(die_dispatcher.StartDIE(0xe2222da01e29f2a9LL, (DwarfTag) 0x9829445c)); // Report some attribute values. die_dispatcher.ProcessAttributeUnsigned(0xe2222da01e29f2a9LL, (DwarfAttribute) 0x1cc0bfed, (DwarfForm) 0x424f1468, 0xa592571997facda1ULL); die_dispatcher.ProcessAttributeSigned(0xe2222da01e29f2a9LL, (DwarfAttribute) 0x43694dc9, (DwarfForm) 0xf6f78901, 0x92602a4e3bf1f446LL); die_dispatcher.ProcessAttributeReference(0xe2222da01e29f2a9LL, (DwarfAttribute) 0x4033e8c, (DwarfForm) 0xf66fbe0b, 0x50fddef44734fdecULL); die_dispatcher.ProcessAttributeBuffer(0xe2222da01e29f2a9LL, (DwarfAttribute) 0x25d7e0af, (DwarfForm) 0xe99a539a, buffer, sizeof(buffer)); die_dispatcher.ProcessAttributeString(0xe2222da01e29f2a9LL, (DwarfAttribute) 0x310ed065, (DwarfForm) 0x15762fec, str); die_dispatcher.ProcessAttributeSignature(0xe2222da01e29f2a9LL, (DwarfAttribute) 0x58790d72, (DwarfForm) 0x4159f138, 0x94682463613e6a5fULL); // Finish the root DIE (and thus the CU). die_dispatcher.EndDIE(0xe2222da01e29f2a9LL); } TEST(Dwarf2DIEHandler, FindAndSkipChildren) { MockRootDIEHandler mock_root_handler; MockDIEHandler *mock_child1_handler = new(MockDIEHandler); MockDIEHandler *mock_child3_handler = new(MockDIEHandler); DIEDispatcher die_dispatcher(&mock_root_handler); { InSequence s; // We'll like the compilation unit header. EXPECT_CALL(mock_root_handler, StartCompilationUnit(0x9ec1e6d05e434a0eLL, 0xeb, 0x21, 0x47dd3c764275a216LL, 0xa5)) .WillOnce(Return(true)); // Root DIE. { EXPECT_CALL(mock_root_handler, StartRootDIE(0x15f0e06bdfe3c372LL, (DwarfTag) 0xf5d60c59)) .WillOnce(Return(true)); EXPECT_CALL(mock_root_handler, ProcessAttributeSigned((DwarfAttribute) 0xf779a642, (DwarfForm) 0x2cb63027, 0x18e744661769d08fLL)) .WillOnce(Return()); EXPECT_CALL(mock_root_handler, EndAttributes()) .WillOnce(Return(true)); // First child DIE. EXPECT_CALL(mock_root_handler, FindChildHandler(0x149f644f8116fe8cLL, (DwarfTag) 0xac2cbd8c)) .WillOnce(Return(mock_child1_handler)); { EXPECT_CALL(*mock_child1_handler, ProcessAttributeSigned((DwarfAttribute) 0xa6fd6f65, (DwarfForm) 0xe4f64c41, 0x1b04e5444a55fe67LL)) .WillOnce(Return()); EXPECT_CALL(*mock_child1_handler, EndAttributes()) .WillOnce(Return(false)); // Skip first grandchild DIE and first great-grandchild DIE. EXPECT_CALL(*mock_child1_handler, Finish()) .WillOnce(Return()); } // Second child DIE. Root handler will decline to return a handler // for this child. EXPECT_CALL(mock_root_handler, FindChildHandler(0x97412be24875de9dLL, (DwarfTag) 0x505a068b)) .WillOnce(Return((DIEHandler*) NULL)); // Third child DIE. EXPECT_CALL(mock_root_handler, FindChildHandler(0x753c964c8ab538aeLL, (DwarfTag) 0x8c22970e)) .WillOnce(Return(mock_child3_handler)); { EXPECT_CALL(*mock_child3_handler, ProcessAttributeSigned((DwarfAttribute) 0x4e2b7cfb, (DwarfForm) 0x610b7ae1, 0x3ea5c609d7d7560fLL)) .WillOnce(Return()); EXPECT_CALL(*mock_child3_handler, EndAttributes()) .WillOnce(Return(true)); EXPECT_CALL(*mock_child3_handler, Finish()) .WillOnce(Return()); } EXPECT_CALL(mock_root_handler, Finish()) .WillOnce(Return()); } } // Drive the dispatcher. // Report the CU header. EXPECT_TRUE(die_dispatcher .StartCompilationUnit(0x9ec1e6d05e434a0eLL, 0xeb, 0x21, 0x47dd3c764275a216LL, 0xa5)); // Report the root DIE. { EXPECT_TRUE(die_dispatcher.StartDIE(0x15f0e06bdfe3c372LL, (DwarfTag) 0xf5d60c59)); die_dispatcher.ProcessAttributeSigned(0x15f0e06bdfe3c372LL, (DwarfAttribute) 0xf779a642, (DwarfForm) 0x2cb63027, 0x18e744661769d08fLL); // First child DIE. { EXPECT_TRUE(die_dispatcher.StartDIE(0x149f644f8116fe8cLL, (DwarfTag) 0xac2cbd8c)); die_dispatcher.ProcessAttributeSigned(0x149f644f8116fe8cLL, (DwarfAttribute) 0xa6fd6f65, (DwarfForm) 0xe4f64c41, 0x1b04e5444a55fe67LL); // First grandchild DIE. Will be skipped. { EXPECT_FALSE(die_dispatcher.StartDIE(0xd68de1ee0bd29419LL, (DwarfTag) 0x22f05a15)); // First great-grandchild DIE. Will be skipped without being // mentioned to any handler. { EXPECT_FALSE(die_dispatcher .StartDIE(0xb3076285d25cac25LL, (DwarfTag) 0xcff4061b)); die_dispatcher.EndDIE(0xb3076285d25cac25LL); } die_dispatcher.EndDIE(0xd68de1ee0bd29419LL); } die_dispatcher.EndDIE(0x149f644f8116fe8cLL); } // Second child DIE. Root handler will decline to find a handler for it. { EXPECT_FALSE(die_dispatcher.StartDIE(0x97412be24875de9dLL, (DwarfTag) 0x505a068b)); die_dispatcher.EndDIE(0x97412be24875de9dLL); } // Third child DIE. { EXPECT_TRUE(die_dispatcher.StartDIE(0x753c964c8ab538aeLL, (DwarfTag) 0x8c22970e)); die_dispatcher.ProcessAttributeSigned(0x753c964c8ab538aeLL, (DwarfAttribute) 0x4e2b7cfb, (DwarfForm) 0x610b7ae1, 0x3ea5c609d7d7560fLL); die_dispatcher.EndDIE(0x753c964c8ab538aeLL); } // Finish the root DIE (and thus the CU). die_dispatcher.EndDIE(0x15f0e06bdfe3c372LL); } } // The DIEDispatcher destructor is supposed to delete all handlers on // the stack, except for the root. TEST(Dwarf2DIEHandler, FreeHandlersOnStack) { MockRootDIEHandler mock_root_handler; MockDIEHandler *mock_child_handler = new(MockDIEHandler); MockDIEHandler *mock_grandchild_handler = new(MockDIEHandler); { InSequence s; // We'll like the compilation unit header. EXPECT_CALL(mock_root_handler, StartCompilationUnit(0x87b41ba8381cd71cLL, 0xff, 0x89, 0x76d392ff393ddda2LL, 0xbf)) .WillOnce(Return(true)); // Root DIE. { EXPECT_CALL(mock_root_handler, StartRootDIE(0xbf13b761691ddc91LL, (DwarfTag) 0x98980361)) .WillOnce(Return(true)); EXPECT_CALL(mock_root_handler, EndAttributes()) .WillOnce(Return(true)); // Child DIE. EXPECT_CALL(mock_root_handler, FindChildHandler(0x058f09240c5fc8c9LL, (DwarfTag) 0x898bf0d0)) .WillOnce(Return(mock_child_handler)); { EXPECT_CALL(*mock_child_handler, EndAttributes()) .WillOnce(Return(true)); // Grandchild DIE. EXPECT_CALL(*mock_child_handler, FindChildHandler(0x32dc00c9945dc0c8LL, (DwarfTag) 0x2802d007)) .WillOnce(Return(mock_grandchild_handler)); { EXPECT_CALL(*mock_grandchild_handler, ProcessAttributeSigned((DwarfAttribute) 0x4e2b7cfb, (DwarfForm) 0x610b7ae1, 0x3ea5c609d7d7560fLL)) .WillOnce(Return()); // At this point, we abandon the traversal, so none of the // usual stuff should get called. EXPECT_CALL(*mock_grandchild_handler, EndAttributes()) .Times(0); EXPECT_CALL(*mock_grandchild_handler, Finish()) .Times(0); } EXPECT_CALL(*mock_child_handler, Finish()) .Times(0); } EXPECT_CALL(mock_root_handler, Finish()) .Times(0); } } // The dispatcher. DIEDispatcher die_dispatcher(&mock_root_handler); // Report the CU header. EXPECT_TRUE(die_dispatcher .StartCompilationUnit(0x87b41ba8381cd71cLL, 0xff, 0x89, 0x76d392ff393ddda2LL, 0xbf)); // Report the root DIE. { EXPECT_TRUE(die_dispatcher.StartDIE(0xbf13b761691ddc91LL, (DwarfTag) 0x98980361)); // Child DIE. { EXPECT_TRUE(die_dispatcher.StartDIE(0x058f09240c5fc8c9LL, (DwarfTag) 0x898bf0d0)); // Grandchild DIE. { EXPECT_TRUE(die_dispatcher.StartDIE(0x32dc00c9945dc0c8LL, (DwarfTag) 0x2802d007)); die_dispatcher.ProcessAttributeSigned(0x32dc00c9945dc0c8LL, (DwarfAttribute) 0x4e2b7cfb, (DwarfForm) 0x610b7ae1, 0x3ea5c609d7d7560fLL); // Stop the traversal abruptly, so that there will still be // handlers on the stack when the dispatcher is destructed. // No EndDIE call... } // No EndDIE call... } // No EndDIE call... } }