// 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. // // fast_source_line_resolver_unittest.cc: Unit tests for FastSourceLineResolver. // Two different approaches for testing fast source line resolver: // First, use the same unit test data for basic source line resolver. // Second, read data from symbol files, load them as basic modules, and then // serialize them and load the serialized data as fast modules. Then compare // modules to assure the fast module contains exactly the same data as // basic module. // // Author: Siyang Xie (lambxsy@google.com) #include <assert.h> #include <stdio.h> #include <sstream> #include <string> #include "breakpad_googletest_includes.h" #include "common/using_std_string.h" #include "google_breakpad/processor/code_module.h" #include "google_breakpad/processor/stack_frame.h" #include "google_breakpad/processor/memory_region.h" #include "processor/logging.h" #include "processor/module_serializer.h" #include "processor/module_comparer.h" namespace { using google_breakpad::SourceLineResolverBase; using google_breakpad::BasicSourceLineResolver; using google_breakpad::FastSourceLineResolver; using google_breakpad::ModuleSerializer; using google_breakpad::ModuleComparer; using google_breakpad::CFIFrameInfo; using google_breakpad::CodeModule; using google_breakpad::MemoryRegion; using google_breakpad::StackFrame; using google_breakpad::WindowsFrameInfo; using google_breakpad::linked_ptr; using google_breakpad::scoped_ptr; class TestCodeModule : public CodeModule { public: explicit TestCodeModule(string code_file) : code_file_(code_file) {} virtual ~TestCodeModule() {} virtual uint64_t base_address() const { return 0; } virtual uint64_t size() const { return 0xb000; } virtual string code_file() const { return code_file_; } virtual string code_identifier() const { return ""; } virtual string debug_file() const { return ""; } virtual string debug_identifier() const { return ""; } virtual string version() const { return ""; } virtual const CodeModule* Copy() const { return new TestCodeModule(code_file_); } private: string code_file_; }; // A mock memory region object, for use by the STACK CFI tests. class MockMemoryRegion: public MemoryRegion { uint64_t GetBase() const { return 0x10000; } uint32_t GetSize() const { return 0x01000; } bool GetMemoryAtAddress(uint64_t address, uint8_t *value) const { *value = address & 0xff; return true; } bool GetMemoryAtAddress(uint64_t address, uint16_t *value) const { *value = address & 0xffff; return true; } bool GetMemoryAtAddress(uint64_t address, uint32_t *value) const { switch (address) { case 0x10008: *value = 0x98ecadc3; break; // saved %ebx case 0x1000c: *value = 0x878f7524; break; // saved %esi case 0x10010: *value = 0x6312f9a5; break; // saved %edi case 0x10014: *value = 0x10038; break; // caller's %ebp case 0x10018: *value = 0xf6438648; break; // return address default: *value = 0xdeadbeef; break; // junk } return true; } bool GetMemoryAtAddress(uint64_t address, uint64_t *value) const { *value = address; return true; } void Print() const { assert(false); } }; // Verify that, for every association in ACTUAL, EXPECTED has the same // association. (That is, ACTUAL's associations should be a subset of // EXPECTED's.) Also verify that ACTUAL has associations for ".ra" and // ".cfa". static bool VerifyRegisters( const char *file, int line, const CFIFrameInfo::RegisterValueMap<uint32_t> &expected, const CFIFrameInfo::RegisterValueMap<uint32_t> &actual) { CFIFrameInfo::RegisterValueMap<uint32_t>::const_iterator a; a = actual.find(".cfa"); if (a == actual.end()) return false; a = actual.find(".ra"); if (a == actual.end()) return false; for (a = actual.begin(); a != actual.end(); a++) { CFIFrameInfo::RegisterValueMap<uint32_t>::const_iterator e = expected.find(a->first); if (e == expected.end()) { fprintf(stderr, "%s:%d: unexpected register '%s' recovered, value 0x%x\n", file, line, a->first.c_str(), a->second); return false; } if (e->second != a->second) { fprintf(stderr, "%s:%d: register '%s' recovered value was 0x%x, expected 0x%x\n", file, line, a->first.c_str(), a->second, e->second); return false; } // Don't complain if this doesn't recover all registers. Although // the DWARF spec says that unmentioned registers are undefined, // GCC uses omission to mean that they are unchanged. } return true; } static bool VerifyEmpty(const StackFrame &frame) { if (frame.function_name.empty() && frame.source_file_name.empty() && frame.source_line == 0) return true; return false; } static void ClearSourceLineInfo(StackFrame *frame) { frame->function_name.clear(); frame->module = NULL; frame->source_file_name.clear(); frame->source_line = 0; } class TestFastSourceLineResolver : public ::testing::Test { public: void SetUp() { testdata_dir = string(getenv("srcdir") ? getenv("srcdir") : ".") + "/src/processor/testdata"; } string symbol_file(int file_index) { std::stringstream ss; ss << testdata_dir << "/module" << file_index << ".out"; return ss.str(); } ModuleSerializer serializer; BasicSourceLineResolver basic_resolver; FastSourceLineResolver fast_resolver; ModuleComparer module_comparer; string testdata_dir; }; // Test adapted from basic_source_line_resolver_unittest. TEST_F(TestFastSourceLineResolver, TestLoadAndResolve) { TestCodeModule module1("module1"); ASSERT_TRUE(basic_resolver.LoadModule(&module1, symbol_file(1))); ASSERT_TRUE(basic_resolver.HasModule(&module1)); // Convert module1 to fast_module: ASSERT_TRUE(serializer.ConvertOneModule( module1.code_file(), &basic_resolver, &fast_resolver)); ASSERT_TRUE(fast_resolver.HasModule(&module1)); TestCodeModule module2("module2"); ASSERT_TRUE(basic_resolver.LoadModule(&module2, symbol_file(2))); ASSERT_TRUE(basic_resolver.HasModule(&module2)); // Convert module2 to fast_module: ASSERT_TRUE(serializer.ConvertOneModule( module2.code_file(), &basic_resolver, &fast_resolver)); ASSERT_TRUE(fast_resolver.HasModule(&module2)); StackFrame frame; scoped_ptr<WindowsFrameInfo> windows_frame_info; scoped_ptr<CFIFrameInfo> cfi_frame_info; frame.instruction = 0x1000; frame.module = NULL; fast_resolver.FillSourceLineInfo(&frame); ASSERT_FALSE(frame.module); ASSERT_TRUE(frame.function_name.empty()); ASSERT_EQ(frame.function_base, 0U); ASSERT_TRUE(frame.source_file_name.empty()); ASSERT_EQ(frame.source_line, 0); ASSERT_EQ(frame.source_line_base, 0U); frame.module = &module1; fast_resolver.FillSourceLineInfo(&frame); ASSERT_EQ(frame.function_name, "Function1_1"); ASSERT_TRUE(frame.module); ASSERT_EQ(frame.module->code_file(), "module1"); ASSERT_EQ(frame.function_base, 0x1000U); ASSERT_EQ(frame.source_file_name, "file1_1.cc"); ASSERT_EQ(frame.source_line, 44); ASSERT_EQ(frame.source_line_base, 0x1000U); windows_frame_info.reset(fast_resolver.FindWindowsFrameInfo(&frame)); ASSERT_TRUE(windows_frame_info.get()); ASSERT_FALSE(windows_frame_info->allocates_base_pointer); ASSERT_EQ(windows_frame_info->program_string, "$eip 4 + ^ = $esp $ebp 8 + = $ebp $ebp ^ ="); ClearSourceLineInfo(&frame); frame.instruction = 0x800; frame.module = &module1; fast_resolver.FillSourceLineInfo(&frame); ASSERT_TRUE(VerifyEmpty(frame)); windows_frame_info.reset(fast_resolver.FindWindowsFrameInfo(&frame)); ASSERT_FALSE(windows_frame_info.get()); frame.instruction = 0x1280; fast_resolver.FillSourceLineInfo(&frame); ASSERT_EQ(frame.function_name, "Function1_3"); ASSERT_TRUE(frame.source_file_name.empty()); ASSERT_EQ(frame.source_line, 0); windows_frame_info.reset(fast_resolver.FindWindowsFrameInfo(&frame)); ASSERT_TRUE(windows_frame_info.get()); ASSERT_EQ(windows_frame_info->type_, WindowsFrameInfo::STACK_INFO_UNKNOWN); ASSERT_FALSE(windows_frame_info->allocates_base_pointer); ASSERT_TRUE(windows_frame_info->program_string.empty()); frame.instruction = 0x1380; fast_resolver.FillSourceLineInfo(&frame); ASSERT_EQ(frame.function_name, "Function1_4"); ASSERT_TRUE(frame.source_file_name.empty()); ASSERT_EQ(frame.source_line, 0); windows_frame_info.reset(fast_resolver.FindWindowsFrameInfo(&frame)); ASSERT_TRUE(windows_frame_info.get()); ASSERT_EQ(windows_frame_info->type_, WindowsFrameInfo::STACK_INFO_FRAME_DATA); ASSERT_FALSE(windows_frame_info->allocates_base_pointer); ASSERT_FALSE(windows_frame_info->program_string.empty()); frame.instruction = 0x2000; windows_frame_info.reset(fast_resolver.FindWindowsFrameInfo(&frame)); ASSERT_FALSE(windows_frame_info.get()); // module1 has STACK CFI records covering 3d40..3def; // module2 has STACK CFI records covering 3df0..3e9f; // check that FindCFIFrameInfo doesn't claim to find any outside those ranges. frame.instruction = 0x3d3f; frame.module = &module1; cfi_frame_info.reset(fast_resolver.FindCFIFrameInfo(&frame)); ASSERT_FALSE(cfi_frame_info.get()); frame.instruction = 0x3e9f; frame.module = &module1; cfi_frame_info.reset(fast_resolver.FindCFIFrameInfo(&frame)); ASSERT_FALSE(cfi_frame_info.get()); CFIFrameInfo::RegisterValueMap<uint32_t> current_registers; CFIFrameInfo::RegisterValueMap<uint32_t> caller_registers; CFIFrameInfo::RegisterValueMap<uint32_t> expected_caller_registers; MockMemoryRegion memory; // Regardless of which instruction evaluation takes place at, it // should produce the same values for the caller's registers. expected_caller_registers[".cfa"] = 0x1001c; expected_caller_registers[".ra"] = 0xf6438648; expected_caller_registers["$ebp"] = 0x10038; expected_caller_registers["$ebx"] = 0x98ecadc3; expected_caller_registers["$esi"] = 0x878f7524; expected_caller_registers["$edi"] = 0x6312f9a5; frame.instruction = 0x3d40; frame.module = &module1; current_registers.clear(); current_registers["$esp"] = 0x10018; current_registers["$ebp"] = 0x10038; current_registers["$ebx"] = 0x98ecadc3; current_registers["$esi"] = 0x878f7524; current_registers["$edi"] = 0x6312f9a5; cfi_frame_info.reset(fast_resolver.FindCFIFrameInfo(&frame)); ASSERT_TRUE(cfi_frame_info.get()); ASSERT_TRUE(cfi_frame_info.get() ->FindCallerRegs<uint32_t>(current_registers, memory, &caller_registers)); ASSERT_TRUE(VerifyRegisters(__FILE__, __LINE__, expected_caller_registers, caller_registers)); frame.instruction = 0x3d41; current_registers["$esp"] = 0x10014; cfi_frame_info.reset(fast_resolver.FindCFIFrameInfo(&frame)); ASSERT_TRUE(cfi_frame_info.get()); ASSERT_TRUE(cfi_frame_info.get() ->FindCallerRegs<uint32_t>(current_registers, memory, &caller_registers)); ASSERT_TRUE(VerifyRegisters(__FILE__, __LINE__, expected_caller_registers, caller_registers)); frame.instruction = 0x3d43; current_registers["$ebp"] = 0x10014; cfi_frame_info.reset(fast_resolver.FindCFIFrameInfo(&frame)); ASSERT_TRUE(cfi_frame_info.get()); ASSERT_TRUE(cfi_frame_info.get() ->FindCallerRegs<uint32_t>(current_registers, memory, &caller_registers)); VerifyRegisters(__FILE__, __LINE__, expected_caller_registers, caller_registers); frame.instruction = 0x3d54; current_registers["$ebx"] = 0x6864f054U; cfi_frame_info.reset(fast_resolver.FindCFIFrameInfo(&frame)); ASSERT_TRUE(cfi_frame_info.get()); ASSERT_TRUE(cfi_frame_info.get() ->FindCallerRegs<uint32_t>(current_registers, memory, &caller_registers)); VerifyRegisters(__FILE__, __LINE__, expected_caller_registers, caller_registers); frame.instruction = 0x3d5a; current_registers["$esi"] = 0x6285f79aU; cfi_frame_info.reset(fast_resolver.FindCFIFrameInfo(&frame)); ASSERT_TRUE(cfi_frame_info.get()); ASSERT_TRUE(cfi_frame_info.get() ->FindCallerRegs<uint32_t>(current_registers, memory, &caller_registers)); VerifyRegisters(__FILE__, __LINE__, expected_caller_registers, caller_registers); frame.instruction = 0x3d84; current_registers["$edi"] = 0x64061449U; cfi_frame_info.reset(fast_resolver.FindCFIFrameInfo(&frame)); ASSERT_TRUE(cfi_frame_info.get()); ASSERT_TRUE(cfi_frame_info.get() ->FindCallerRegs<uint32_t>(current_registers, memory, &caller_registers)); VerifyRegisters(__FILE__, __LINE__, expected_caller_registers, caller_registers); frame.instruction = 0x2900; frame.module = &module1; fast_resolver.FillSourceLineInfo(&frame); ASSERT_EQ(frame.function_name, string("PublicSymbol")); frame.instruction = 0x4000; frame.module = &module1; fast_resolver.FillSourceLineInfo(&frame); ASSERT_EQ(frame.function_name, string("LargeFunction")); frame.instruction = 0x2181; frame.module = &module2; fast_resolver.FillSourceLineInfo(&frame); ASSERT_EQ(frame.function_name, "Function2_2"); ASSERT_EQ(frame.function_base, 0x2170U); ASSERT_TRUE(frame.module); ASSERT_EQ(frame.module->code_file(), "module2"); ASSERT_EQ(frame.source_file_name, "file2_2.cc"); ASSERT_EQ(frame.source_line, 21); ASSERT_EQ(frame.source_line_base, 0x2180U); windows_frame_info.reset(fast_resolver.FindWindowsFrameInfo(&frame)); ASSERT_TRUE(windows_frame_info.get()); ASSERT_EQ(windows_frame_info->type_, WindowsFrameInfo::STACK_INFO_FRAME_DATA); ASSERT_EQ(windows_frame_info->prolog_size, 1U); frame.instruction = 0x216f; fast_resolver.FillSourceLineInfo(&frame); ASSERT_EQ(frame.function_name, "Public2_1"); ClearSourceLineInfo(&frame); frame.instruction = 0x219f; frame.module = &module2; fast_resolver.FillSourceLineInfo(&frame); ASSERT_TRUE(frame.function_name.empty()); frame.instruction = 0x21a0; frame.module = &module2; fast_resolver.FillSourceLineInfo(&frame); ASSERT_EQ(frame.function_name, "Public2_2"); } TEST_F(TestFastSourceLineResolver, TestInvalidLoads) { TestCodeModule module3("module3"); ASSERT_TRUE(basic_resolver.LoadModule(&module3, testdata_dir + "/module3_bad.out")); ASSERT_TRUE(basic_resolver.HasModule(&module3)); ASSERT_TRUE(basic_resolver.IsModuleCorrupt(&module3)); // Convert module3 to fast_module: ASSERT_TRUE(serializer.ConvertOneModule(module3.code_file(), &basic_resolver, &fast_resolver)); ASSERT_TRUE(fast_resolver.HasModule(&module3)); ASSERT_TRUE(fast_resolver.IsModuleCorrupt(&module3)); TestCodeModule module4("module4"); ASSERT_TRUE(basic_resolver.LoadModule(&module4, testdata_dir + "/module4_bad.out")); ASSERT_TRUE(basic_resolver.HasModule(&module4)); ASSERT_TRUE(basic_resolver.IsModuleCorrupt(&module4)); // Convert module4 to fast_module: ASSERT_TRUE(serializer.ConvertOneModule(module4.code_file(), &basic_resolver, &fast_resolver)); ASSERT_TRUE(fast_resolver.HasModule(&module4)); ASSERT_TRUE(fast_resolver.IsModuleCorrupt(&module4)); TestCodeModule module5("module5"); ASSERT_FALSE(fast_resolver.LoadModule(&module5, testdata_dir + "/invalid-filename")); ASSERT_FALSE(fast_resolver.HasModule(&module5)); TestCodeModule invalidmodule("invalid-module"); ASSERT_FALSE(fast_resolver.HasModule(&invalidmodule)); } TEST_F(TestFastSourceLineResolver, TestUnload) { TestCodeModule module1("module1"); ASSERT_FALSE(basic_resolver.HasModule(&module1)); ASSERT_TRUE(basic_resolver.LoadModule(&module1, symbol_file(1))); ASSERT_TRUE(basic_resolver.HasModule(&module1)); // Convert module1 to fast_module. ASSERT_TRUE(serializer.ConvertOneModule(module1.code_file(), &basic_resolver, &fast_resolver)); ASSERT_TRUE(fast_resolver.HasModule(&module1)); basic_resolver.UnloadModule(&module1); fast_resolver.UnloadModule(&module1); ASSERT_FALSE(fast_resolver.HasModule(&module1)); ASSERT_TRUE(basic_resolver.LoadModule(&module1, symbol_file(1))); ASSERT_TRUE(basic_resolver.HasModule(&module1)); // Convert module1 to fast_module. ASSERT_TRUE(serializer.ConvertOneModule(module1.code_file(), &basic_resolver, &fast_resolver)); ASSERT_TRUE(fast_resolver.HasModule(&module1)); } TEST_F(TestFastSourceLineResolver, CompareModule) { char *symbol_data; size_t symbol_data_size; string symbol_data_string; string filename; for (int module_index = 0; module_index < 3; ++module_index) { std::stringstream ss; ss << testdata_dir << "/module" << module_index << ".out"; filename = ss.str(); ASSERT_TRUE(SourceLineResolverBase::ReadSymbolFile( symbol_file(module_index), &symbol_data, &symbol_data_size)); symbol_data_string.assign(symbol_data, symbol_data_size); delete [] symbol_data; ASSERT_TRUE(module_comparer.Compare(symbol_data_string)); } } } // namespace int main(int argc, char *argv[]) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); }