//===-- GDBRemoteCommunicationClientTest.cpp --------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include #include "GDBRemoteTestUtils.h" #include "Plugins/Process/gdb-remote/GDBRemoteCommunicationClient.h" #include "lldb/Core/ModuleSpec.h" #include "lldb/Target/MemoryRegionInfo.h" #include "lldb/Utility/DataBuffer.h" #include "lldb/Utility/StructuredData.h" #include "lldb/Utility/TraceOptions.h" #include "lldb/lldb-enumerations.h" #include "llvm/ADT/ArrayRef.h" #include "llvm/Testing/Support/Error.h" using namespace lldb_private::process_gdb_remote; using namespace lldb_private; using namespace lldb; using namespace llvm; namespace { typedef GDBRemoteCommunication::PacketResult PacketResult; struct TestClient : public GDBRemoteCommunicationClient { TestClient() { m_send_acks = false; } }; void Handle_QThreadSuffixSupported(MockServer &server, bool supported) { StringExtractorGDBRemote request; ASSERT_EQ(PacketResult::Success, server.GetPacket(request)); ASSERT_EQ("QThreadSuffixSupported", request.GetStringRef()); if (supported) ASSERT_EQ(PacketResult::Success, server.SendOKResponse()); else ASSERT_EQ(PacketResult::Success, server.SendUnimplementedResponse(nullptr)); } void HandlePacket(MockServer &server, StringRef expected, StringRef response) { StringExtractorGDBRemote request; ASSERT_EQ(PacketResult::Success, server.GetPacket(request)); ASSERT_EQ(expected, request.GetStringRef()); ASSERT_EQ(PacketResult::Success, server.SendPacket(response)); } uint8_t all_registers[] = {'@', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O'}; std::string all_registers_hex = "404142434445464748494a4b4c4d4e4f"; uint8_t one_register[] = {'A', 'B', 'C', 'D'}; std::string one_register_hex = "41424344"; } // end anonymous namespace class GDBRemoteCommunicationClientTest : public GDBRemoteTest { public: void SetUp() override { ASSERT_THAT_ERROR(Connect(client, server), llvm::Succeeded()); } protected: TestClient client; MockServer server; }; TEST_F(GDBRemoteCommunicationClientTest, WriteRegister) { const lldb::tid_t tid = 0x47; const uint32_t reg_num = 4; std::future write_result = std::async(std::launch::async, [&] { return client.WriteRegister(tid, reg_num, one_register); }); Handle_QThreadSuffixSupported(server, true); HandlePacket(server, "P4=" + one_register_hex + ";thread:0047;", "OK"); ASSERT_TRUE(write_result.get()); write_result = std::async(std::launch::async, [&] { return client.WriteAllRegisters(tid, all_registers); }); HandlePacket(server, "G" + all_registers_hex + ";thread:0047;", "OK"); ASSERT_TRUE(write_result.get()); } TEST_F(GDBRemoteCommunicationClientTest, WriteRegisterNoSuffix) { const lldb::tid_t tid = 0x47; const uint32_t reg_num = 4; std::future write_result = std::async(std::launch::async, [&] { return client.WriteRegister(tid, reg_num, one_register); }); Handle_QThreadSuffixSupported(server, false); HandlePacket(server, "Hg47", "OK"); HandlePacket(server, "P4=" + one_register_hex, "OK"); ASSERT_TRUE(write_result.get()); write_result = std::async(std::launch::async, [&] { return client.WriteAllRegisters(tid, all_registers); }); HandlePacket(server, "G" + all_registers_hex, "OK"); ASSERT_TRUE(write_result.get()); } TEST_F(GDBRemoteCommunicationClientTest, ReadRegister) { const lldb::tid_t tid = 0x47; const uint32_t reg_num = 4; std::future async_result = std::async( std::launch::async, [&] { return client.GetpPacketSupported(tid); }); Handle_QThreadSuffixSupported(server, true); HandlePacket(server, "p0;thread:0047;", one_register_hex); ASSERT_TRUE(async_result.get()); std::future read_result = std::async( std::launch::async, [&] { return client.ReadRegister(tid, reg_num); }); HandlePacket(server, "p4;thread:0047;", "41424344"); auto buffer_sp = read_result.get(); ASSERT_TRUE(bool(buffer_sp)); ASSERT_EQ(0, memcmp(buffer_sp->GetBytes(), one_register, sizeof one_register)); read_result = std::async(std::launch::async, [&] { return client.ReadAllRegisters(tid); }); HandlePacket(server, "g;thread:0047;", all_registers_hex); buffer_sp = read_result.get(); ASSERT_TRUE(bool(buffer_sp)); ASSERT_EQ(0, memcmp(buffer_sp->GetBytes(), all_registers, sizeof all_registers)); } TEST_F(GDBRemoteCommunicationClientTest, SaveRestoreRegistersNoSuffix) { const lldb::tid_t tid = 0x47; uint32_t save_id; std::future async_result = std::async(std::launch::async, [&] { return client.SaveRegisterState(tid, save_id); }); Handle_QThreadSuffixSupported(server, false); HandlePacket(server, "Hg47", "OK"); HandlePacket(server, "QSaveRegisterState", "1"); ASSERT_TRUE(async_result.get()); EXPECT_EQ(1u, save_id); async_result = std::async(std::launch::async, [&] { return client.RestoreRegisterState(tid, save_id); }); HandlePacket(server, "QRestoreRegisterState:1", "OK"); ASSERT_TRUE(async_result.get()); } TEST_F(GDBRemoteCommunicationClientTest, SyncThreadState) { const lldb::tid_t tid = 0x47; std::future async_result = std::async( std::launch::async, [&] { return client.SyncThreadState(tid); }); HandlePacket(server, "qSyncThreadStateSupported", "OK"); HandlePacket(server, "QSyncThreadState:0047;", "OK"); ASSERT_TRUE(async_result.get()); } TEST_F(GDBRemoteCommunicationClientTest, GetModulesInfo) { llvm::Triple triple("i386-pc-linux"); FileSpec file_specs[] = { FileSpec("/foo/bar.so", false, FileSpec::ePathSyntaxPosix), FileSpec("/foo/baz.so", false, FileSpec::ePathSyntaxPosix), // This is a bit dodgy but we currently depend on GetModulesInfo not // performing denormalization. It can go away once the users // (DynamicLoaderPOSIXDYLD, at least) correctly set the path syntax for // the FileSpecs they create. FileSpec("/foo/baw.so", false, FileSpec::ePathSyntaxWindows), }; std::future>> async_result = std::async(std::launch::async, [&] { return client.GetModulesInfo(file_specs, triple); }); HandlePacket( server, "jModulesInfo:[" R"({"file":"/foo/bar.so","triple":"i386-pc-linux"},)" R"({"file":"/foo/baz.so","triple":"i386-pc-linux"},)" R"({"file":"/foo/baw.so","triple":"i386-pc-linux"}])", R"([{"uuid":"404142434445464748494a4b4c4d4e4f","triple":"i386-pc-linux",)" R"("file_path":"/foo/bar.so","file_offset":0,"file_size":1234}]])"); auto result = async_result.get(); ASSERT_TRUE(result.hasValue()); ASSERT_EQ(1u, result->size()); EXPECT_EQ("/foo/bar.so", result.getValue()[0].GetFileSpec().GetPath()); EXPECT_EQ(triple, result.getValue()[0].GetArchitecture().GetTriple()); EXPECT_EQ(UUID("@ABCDEFGHIJKLMNO", 16), result.getValue()[0].GetUUID()); EXPECT_EQ(0u, result.getValue()[0].GetObjectOffset()); EXPECT_EQ(1234u, result.getValue()[0].GetObjectSize()); } TEST_F(GDBRemoteCommunicationClientTest, GetModulesInfo_UUID20) { llvm::Triple triple("i386-pc-linux"); FileSpec file_spec("/foo/bar.so", false, FileSpec::ePathSyntaxPosix); std::future>> async_result = std::async(std::launch::async, [&] { return client.GetModulesInfo(file_spec, triple); }); HandlePacket( server, "jModulesInfo:[" R"({"file":"/foo/bar.so","triple":"i386-pc-linux"}])", R"([{"uuid":"404142434445464748494a4b4c4d4e4f50515253","triple":"i386-pc-linux",)" R"("file_path":"/foo/bar.so","file_offset":0,"file_size":1234}]])"); auto result = async_result.get(); ASSERT_TRUE(result.hasValue()); ASSERT_EQ(1u, result->size()); EXPECT_EQ("/foo/bar.so", result.getValue()[0].GetFileSpec().GetPath()); EXPECT_EQ(triple, result.getValue()[0].GetArchitecture().GetTriple()); EXPECT_EQ(UUID("@ABCDEFGHIJKLMNOPQRS", 20), result.getValue()[0].GetUUID()); EXPECT_EQ(0u, result.getValue()[0].GetObjectOffset()); EXPECT_EQ(1234u, result.getValue()[0].GetObjectSize()); } TEST_F(GDBRemoteCommunicationClientTest, GetModulesInfoInvalidResponse) { llvm::Triple triple("i386-pc-linux"); FileSpec file_spec("/foo/bar.so", false, FileSpec::ePathSyntaxPosix); const char *invalid_responses[] = { // no UUID R"([{"triple":"i386-pc-linux",)" R"("file_path":"/foo/bar.so","file_offset":0,"file_size":1234}]])", // invalid UUID R"([{"uuid":"XXXXXX","triple":"i386-pc-linux",)" R"("file_path":"/foo/bar.so","file_offset":0,"file_size":1234}]])", // no triple R"([{"uuid":"404142434445464748494a4b4c4d4e4f",)" R"("file_path":"/foo/bar.so","file_offset":0,"file_size":1234}]])", // no file_path R"([{"uuid":"404142434445464748494a4b4c4d4e4f","triple":"i386-pc-linux",)" R"("file_offset":0,"file_size":1234}]])", // no file_offset R"([{"uuid":"404142434445464748494a4b4c4d4e4f","triple":"i386-pc-linux",)" R"("file_path":"/foo/bar.so","file_size":1234}]])", // no file_size R"([{"uuid":"404142434445464748494a4b4c4d4e4f","triple":"i386-pc-linux",)" R"("file_path":"/foo/bar.so","file_offset":0}]])", }; for (const char *response : invalid_responses) { std::future>> async_result = std::async(std::launch::async, [&] { return client.GetModulesInfo(file_spec, triple); }); HandlePacket( server, R"(jModulesInfo:[{"file":"/foo/bar.so","triple":"i386-pc-linux"}])", response); auto result = async_result.get(); ASSERT_TRUE(result); ASSERT_EQ(0u, result->size()) << "response was: " << response; } } TEST_F(GDBRemoteCommunicationClientTest, TestPacketSpeedJSON) { std::thread server_thread([this] { for (;;) { StringExtractorGDBRemote request; PacketResult result = server.GetPacket(request); if (result == PacketResult::ErrorDisconnected) return; ASSERT_EQ(PacketResult::Success, result); StringRef ref = request.GetStringRef(); ASSERT_TRUE(ref.consume_front("qSpeedTest:response_size:")); int size; ASSERT_FALSE(ref.consumeInteger(10, size)) << "ref: " << ref; std::string response(size, 'X'); ASSERT_EQ(PacketResult::Success, server.SendPacket(response)); } }); StreamString ss; client.TestPacketSpeed(10, 32, 32, 4096, true, ss); client.Disconnect(); server_thread.join(); GTEST_LOG_(INFO) << "Formatted output: " << ss.GetData(); auto object_sp = StructuredData::ParseJSON(ss.GetString()); ASSERT_TRUE(bool(object_sp)); auto dict_sp = object_sp->GetAsDictionary(); ASSERT_TRUE(bool(dict_sp)); object_sp = dict_sp->GetValueForKey("packet_speeds"); ASSERT_TRUE(bool(object_sp)); dict_sp = object_sp->GetAsDictionary(); ASSERT_TRUE(bool(dict_sp)); int num_packets; ASSERT_TRUE(dict_sp->GetValueForKeyAsInteger("num_packets", num_packets)) << ss.GetString(); ASSERT_EQ(10, num_packets); } TEST_F(GDBRemoteCommunicationClientTest, SendSignalsToIgnore) { std::future result = std::async(std::launch::async, [&] { return client.SendSignalsToIgnore({2, 3, 5, 7, 0xB, 0xD, 0x11}); }); HandlePacket(server, "QPassSignals:02;03;05;07;0b;0d;11", "OK"); EXPECT_TRUE(result.get().Success()); result = std::async(std::launch::async, [&] { return client.SendSignalsToIgnore(std::vector()); }); HandlePacket(server, "QPassSignals:", "OK"); EXPECT_TRUE(result.get().Success()); } TEST_F(GDBRemoteCommunicationClientTest, GetMemoryRegionInfo) { const lldb::addr_t addr = 0xa000; MemoryRegionInfo region_info; std::future result = std::async(std::launch::async, [&] { return client.GetMemoryRegionInfo(addr, region_info); }); // name is: /foo/bar.so HandlePacket(server, "qMemoryRegionInfo:a000", "start:a000;size:2000;permissions:rx;name:2f666f6f2f6261722e736f;"); EXPECT_TRUE(result.get().Success()); } TEST_F(GDBRemoteCommunicationClientTest, GetMemoryRegionInfoInvalidResponse) { const lldb::addr_t addr = 0x4000; MemoryRegionInfo region_info; std::future result = std::async(std::launch::async, [&] { return client.GetMemoryRegionInfo(addr, region_info); }); HandlePacket(server, "qMemoryRegionInfo:4000", "start:4000;size:0000;"); EXPECT_FALSE(result.get().Success()); } TEST_F(GDBRemoteCommunicationClientTest, SendStartTracePacket) { TraceOptions options; Status error; options.setType(lldb::TraceType::eTraceTypeProcessorTrace); options.setMetaDataBufferSize(8192); options.setTraceBufferSize(8192); options.setThreadID(0x23); StructuredData::DictionarySP custom_params = std::make_shared(); custom_params->AddStringItem("tracetech", "intel-pt"); custom_params->AddIntegerItem("psb", 0x01); options.setTraceParams(custom_params); std::future result = std::async(std::launch::async, [&] { return client.SendStartTracePacket(options, error); }); // Since the line is exceeding 80 characters. std::string expected_packet1 = R"(jTraceStart:{"buffersize" : 8192,"metabuffersize" : 8192,"params" :)"; std::string expected_packet2 = R"( {"psb" : 1,"tracetech" : "intel-pt"},"threadid" : 35,"type" : 1})"; HandlePacket(server, (expected_packet1 + expected_packet2), "1"); ASSERT_TRUE(error.Success()); ASSERT_EQ(result.get(), 1u); error.Clear(); result = std::async(std::launch::async, [&] { return client.SendStartTracePacket(options, error); }); HandlePacket(server, (expected_packet1 + expected_packet2), "E23"); ASSERT_EQ(result.get(), LLDB_INVALID_UID); ASSERT_FALSE(error.Success()); } TEST_F(GDBRemoteCommunicationClientTest, SendStopTracePacket) { lldb::tid_t thread_id = 0x23; lldb::user_id_t trace_id = 3; std::future result = std::async(std::launch::async, [&] { return client.SendStopTracePacket(trace_id, thread_id); }); const char *expected_packet = R"(jTraceStop:{"threadid" : 35,"traceid" : 3})"; HandlePacket(server, expected_packet, "OK"); ASSERT_TRUE(result.get().Success()); result = std::async(std::launch::async, [&] { return client.SendStopTracePacket(trace_id, thread_id); }); HandlePacket(server, expected_packet, "E23"); ASSERT_FALSE(result.get().Success()); } TEST_F(GDBRemoteCommunicationClientTest, SendGetDataPacket) { lldb::tid_t thread_id = 0x23; lldb::user_id_t trace_id = 3; uint8_t buf[32] = {}; llvm::MutableArrayRef buffer(buf, 32); size_t offset = 0; std::future result = std::async(std::launch::async, [&] { return client.SendGetDataPacket(trace_id, thread_id, buffer, offset); }); std::string expected_packet1 = R"(jTraceBufferRead:{"buffersize" : 32,"offset" : 0,"threadid" : 35,)"; std::string expected_packet2 = R"("traceid" : 3})"; HandlePacket(server, expected_packet1+expected_packet2, "123456"); ASSERT_TRUE(result.get().Success()); ASSERT_EQ(buffer.size(), 3u); ASSERT_EQ(buf[0], 0x12); ASSERT_EQ(buf[1], 0x34); ASSERT_EQ(buf[2], 0x56); llvm::MutableArrayRef buffer2(buf, 32); result = std::async(std::launch::async, [&] { return client.SendGetDataPacket(trace_id, thread_id, buffer2, offset); }); HandlePacket(server, expected_packet1+expected_packet2, "E23"); ASSERT_FALSE(result.get().Success()); ASSERT_EQ(buffer2.size(), 0u); } TEST_F(GDBRemoteCommunicationClientTest, SendGetMetaDataPacket) { lldb::tid_t thread_id = 0x23; lldb::user_id_t trace_id = 3; uint8_t buf[32] = {}; llvm::MutableArrayRef buffer(buf, 32); size_t offset = 0; std::future result = std::async(std::launch::async, [&] { return client.SendGetMetaDataPacket(trace_id, thread_id, buffer, offset); }); std::string expected_packet1 = R"(jTraceMetaRead:{"buffersize" : 32,"offset" : 0,"threadid" : 35,)"; std::string expected_packet2 = R"("traceid" : 3})"; HandlePacket(server, expected_packet1+expected_packet2, "123456"); ASSERT_TRUE(result.get().Success()); ASSERT_EQ(buffer.size(), 3u); ASSERT_EQ(buf[0], 0x12); ASSERT_EQ(buf[1], 0x34); ASSERT_EQ(buf[2], 0x56); llvm::MutableArrayRef buffer2(buf, 32); result = std::async(std::launch::async, [&] { return client.SendGetMetaDataPacket(trace_id, thread_id, buffer2, offset); }); HandlePacket(server, expected_packet1+expected_packet2, "E23"); ASSERT_FALSE(result.get().Success()); ASSERT_EQ(buffer2.size(), 0u); } TEST_F(GDBRemoteCommunicationClientTest, SendGetTraceConfigPacket) { lldb::tid_t thread_id = 0x23; lldb::user_id_t trace_id = 3; TraceOptions options; options.setThreadID(thread_id); std::future result = std::async(std::launch::async, [&] { return client.SendGetTraceConfigPacket(trace_id, options); }); const char *expected_packet = R"(jTraceConfigRead:{"threadid" : 35,"traceid" : 3})"; std::string response1 = R"({"buffersize" : 8192,"params" : {"psb" : 1,"tracetech" : "intel-pt"})"; std::string response2 = R"(],"metabuffersize" : 8192,"threadid" : 35,"type" : 1}])"; HandlePacket(server, expected_packet, response1+response2); ASSERT_TRUE(result.get().Success()); ASSERT_EQ(options.getTraceBufferSize(), 8192u); ASSERT_EQ(options.getMetaDataBufferSize(), 8192u); ASSERT_EQ(options.getType(), 1); auto custom_params = options.getTraceParams(); uint64_t psb_value; llvm::StringRef trace_tech_value; ASSERT_TRUE(custom_params); ASSERT_EQ(custom_params->GetType(), eStructuredDataTypeDictionary); ASSERT_TRUE(custom_params->GetValueForKeyAsInteger("psb", psb_value)); ASSERT_EQ(psb_value, 1u); ASSERT_TRUE( custom_params->GetValueForKeyAsString("tracetech", trace_tech_value)); ASSERT_STREQ(trace_tech_value.data(), "intel-pt"); // Checking error response. std::future result2 = std::async(std::launch::async, [&] { return client.SendGetTraceConfigPacket(trace_id, options); }); HandlePacket(server, expected_packet, "E23"); ASSERT_FALSE(result2.get().Success()); // Wrong JSON as response. std::future result3 = std::async(std::launch::async, [&] { return client.SendGetTraceConfigPacket(trace_id, options); }); std::string incorrect_json1 = R"("buffersize" : 8192,"params" : {"psb" : 1,"tracetech" : "intel-pt"})"; std::string incorrect_json2 = R"(],"metabuffersize" : 8192,"threadid" : 35,"type" : 1}])"; HandlePacket(server, expected_packet, incorrect_json1+incorrect_json2); ASSERT_FALSE(result3.get().Success()); // Wrong JSON as custom_params. std::future result4 = std::async(std::launch::async, [&] { return client.SendGetTraceConfigPacket(trace_id, options); }); std::string incorrect_custom_params1 = R"({"buffersize" : 8192,"params" : "psb" : 1,"tracetech" : "intel-pt"})"; std::string incorrect_custom_params2 = R"(],"metabuffersize" : 8192,"threadid" : 35,"type" : 1}])"; HandlePacket(server, expected_packet, incorrect_custom_params1+ incorrect_custom_params2); ASSERT_FALSE(result4.get().Success()); }