/* * Copyright (C) 2020 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 #include #include "get_test_data.h" #include "kallsyms.h" #include "test_util.h" using namespace simpleperf; static bool ModulesMatch(const char* p, const char* q) { if (p == nullptr && q == nullptr) { return true; } if (p != nullptr && q != nullptr) { return strcmp(p, q) == 0; } return false; } static bool KernelSymbolsMatch(const KernelSymbol& sym1, const KernelSymbol& sym2) { return sym1.addr == sym2.addr && sym1.type == sym2.type && strcmp(sym1.name, sym2.name) == 0 && ModulesMatch(sym1.module, sym2.module); } // @CddTest = 6.1/C-0-2 TEST(kallsyms, ProcessKernelSymbols) { std::string data = "ffffffffa005c4e4 d __warned.41698 [libsas]\n" "aaaaaaaaaaaaaaaa T _text\n" "cccccccccccccccc c ccccc\n"; KernelSymbol expected_symbol; expected_symbol.addr = 0xffffffffa005c4e4ULL; expected_symbol.type = 'd'; expected_symbol.name = "__warned.41698"; expected_symbol.module = "libsas"; ASSERT_TRUE(ProcessKernelSymbols( data, std::bind(&KernelSymbolsMatch, std::placeholders::_1, expected_symbol))); expected_symbol.addr = 0xaaaaaaaaaaaaaaaaULL; expected_symbol.type = 'T'; expected_symbol.name = "_text"; expected_symbol.module = nullptr; ASSERT_TRUE(ProcessKernelSymbols( data, std::bind(&KernelSymbolsMatch, std::placeholders::_1, expected_symbol))); expected_symbol.name = "non_existent_symbol"; ASSERT_FALSE(ProcessKernelSymbols( data, std::bind(&KernelSymbolsMatch, std::placeholders::_1, expected_symbol))); } // @CddTest = 6.1/C-0-2 TEST(kallsyms, ProcessKernelSymbols_ignore_arm_mapping_symbols) { std::string data = "aaaaaaaaaaaaaaaa t $x.9 [coresight_etm4x]\n" "bbbbbbbbbbbbbbbb t etm4_pm_clear [coresight_etm4x]\n"; bool has_normal_symbol = false; bool has_arm_mapping_symbol = false; auto callback = [&](const KernelSymbol& sym) { if (strcmp(sym.name, "etm4_pm_clear") == 0) { has_normal_symbol = true; } else { has_arm_mapping_symbol = true; } return false; }; ProcessKernelSymbols(data, callback); ASSERT_TRUE(has_normal_symbol); ASSERT_FALSE(has_arm_mapping_symbol); } #if defined(__ANDROID__) // @CddTest = 6.1/C-0-2 TEST(kallsyms, GetKernelStartAddress) { TEST_REQUIRE_ROOT(); ASSERT_NE(GetKernelStartAddress(), 0u); } // @CddTest = 6.1/C-0-2 TEST(kallsyms, LoadKernelSymbols) { TEST_REQUIRE_ROOT(); std::string kallsyms; ASSERT_TRUE(LoadKernelSymbols(&kallsyms)); } // @CddTest = 6.1/C-0-2 TEST(kallsyms, print_warning) { TEST_REQUIRE_NON_ROOT(); const std::string warning_msg = "Access to kernel symbol addresses is restricted."; CapturedStderr capture; // Call each function requiring kernel addresses once. Check if the warning is printed. ResetKernelAddressWarning(); ASSERT_EQ(0, GetKernelStartAddress()); capture.Stop(); ASSERT_NE(capture.str().find(warning_msg), std::string::npos); capture.Reset(); capture.Start(); ResetKernelAddressWarning(); std::string kallsyms; ASSERT_FALSE(LoadKernelSymbols(&kallsyms)); capture.Stop(); ASSERT_NE(capture.str().find(warning_msg), std::string::npos); capture.Reset(); capture.Start(); ResetKernelAddressWarning(); ASSERT_TRUE(GetLoadedModules().empty()); capture.Stop(); ASSERT_NE(capture.str().find(warning_msg), std::string::npos); // Call functions requiring kernel addresses more than once. // Check if the kernel address warning is only printed once. capture.Reset(); capture.Start(); ResetKernelAddressWarning(); for (int i = 0; i < 2; i++) { ASSERT_EQ(0, GetKernelStartAddress()); ASSERT_FALSE(LoadKernelSymbols(&kallsyms)); ASSERT_TRUE(GetLoadedModules().empty()); } capture.Stop(); std::string output = capture.str(); auto pos = output.find(warning_msg); ASSERT_NE(pos, std::string::npos); ASSERT_EQ(output.find(warning_msg, pos + warning_msg.size()), std::string::npos); } #endif // defined(__ANDROID__)