//===-- GDBRemoteCommunicationClientTest.cpp ------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "Plugins/Process/gdb-remote/GDBRemoteCommunicationClient.h" #include "GDBRemoteTestUtils.h" #include "lldb/Core/ModuleSpec.h" #include "lldb/Host/XML.h" #include "lldb/Target/MemoryRegionInfo.h" #include "lldb/Utility/DataBuffer.h" #include "lldb/Utility/StructuredData.h" #include "lldb/lldb-enumerations.h" #include "llvm/ADT/ArrayRef.h" #include "llvm/Testing/Support/Error.h" #include "gmock/gmock.h" #include #include #include 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, const testing::Matcher &expected, StringRef response) { StringExtractorGDBRemote request; ASSERT_EQ(PacketResult::Success, server.GetPacket(request)); ASSERT_THAT(std::string(request.GetStringRef()), expected); 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(GDBRemoteCommunication::ConnectLocally(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", FileSpec::Style::posix), FileSpec("/foo/baz.so", FileSpec::Style::posix), // 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", FileSpec::Style::windows), }; 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.has_value()); ASSERT_EQ(1u, result->size()); EXPECT_EQ("/foo/bar.so", (*result)[0].GetFileSpec().GetPath()); EXPECT_EQ(triple, (*result)[0].GetArchitecture().GetTriple()); EXPECT_EQ(UUID("@ABCDEFGHIJKLMNO", 16), (*result)[0].GetUUID()); EXPECT_EQ(0u, (*result)[0].GetObjectOffset()); EXPECT_EQ(1234u, (*result)[0].GetObjectSize()); } TEST_F(GDBRemoteCommunicationClientTest, GetModulesInfo_UUID20) { llvm::Triple triple("i386-pc-linux"); FileSpec file_spec("/foo/bar.so", FileSpec::Style::posix); 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.has_value()); ASSERT_EQ(1u, result->size()); EXPECT_EQ("/foo/bar.so", (*result)[0].GetFileSpec().GetPath()); EXPECT_EQ(triple, (*result)[0].GetArchitecture().GetTriple()); EXPECT_EQ(UUID("@ABCDEFGHIJKLMNOPQRS", 20), (*result)[0].GetUUID()); EXPECT_EQ(0u, (*result)[0].GetObjectOffset()); EXPECT_EQ(1234u, (*result)[0].GetObjectSize()); } TEST_F(GDBRemoteCommunicationClientTest, GetModulesInfoInvalidResponse) { llvm::Triple triple("i386-pc-linux"); FileSpec file_spec("/foo/bar.so", FileSpec::Style::posix); 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)); size_t num_packets; ASSERT_TRUE(dict_sp->GetValueForKeyAsInteger("num_packets", num_packets)) << ss.GetString(); ASSERT_EQ(10, (int)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); }); HandlePacket(server, "qMemoryRegionInfo:a000", "start:a000;size:2000;permissions:rx;name:2f666f6f2f6261722e736f;"); if (XMLDocument::XMLEnabled()) { // In case we have XML support, this will also do a "qXfer:memory-map". // Preceeded by a query for supported extensions. Pretend we don't support // that. HandlePacket(server, testing::StartsWith("qSupported:"), ""); } EXPECT_TRUE(result.get().Success()); EXPECT_EQ(addr, region_info.GetRange().GetRangeBase()); EXPECT_EQ(0x2000u, region_info.GetRange().GetByteSize()); EXPECT_EQ(MemoryRegionInfo::eYes, region_info.GetReadable()); EXPECT_EQ(MemoryRegionInfo::eNo, region_info.GetWritable()); EXPECT_EQ(MemoryRegionInfo::eYes, region_info.GetExecutable()); EXPECT_EQ("/foo/bar.so", region_info.GetName().GetStringRef()); EXPECT_EQ(MemoryRegionInfo::eDontKnow, region_info.GetMemoryTagged()); EXPECT_EQ(MemoryRegionInfo::eDontKnow, region_info.IsStackMemory()); EXPECT_EQ(MemoryRegionInfo::eDontKnow, region_info.IsShadowStack()); result = std::async(std::launch::async, [&] { return client.GetMemoryRegionInfo(addr, region_info); }); HandlePacket(server, "qMemoryRegionInfo:a000", "start:a000;size:2000;flags:;type:stack;"); EXPECT_TRUE(result.get().Success()); EXPECT_EQ(MemoryRegionInfo::eNo, region_info.GetMemoryTagged()); EXPECT_EQ(MemoryRegionInfo::eYes, region_info.IsStackMemory()); EXPECT_EQ(MemoryRegionInfo::eNo, region_info.IsShadowStack()); result = std::async(std::launch::async, [&] { return client.GetMemoryRegionInfo(addr, region_info); }); HandlePacket(server, "qMemoryRegionInfo:a000", "start:a000;size:2000;flags: mt zz mt ss ;type:ha,ha,stack;"); EXPECT_TRUE(result.get().Success()); EXPECT_EQ(MemoryRegionInfo::eYes, region_info.GetMemoryTagged()); EXPECT_EQ(MemoryRegionInfo::eYes, region_info.IsStackMemory()); EXPECT_EQ(MemoryRegionInfo::eYes, region_info.IsShadowStack()); result = std::async(std::launch::async, [&] { return client.GetMemoryRegionInfo(addr, region_info); }); HandlePacket(server, "qMemoryRegionInfo:a000", "start:a000;size:2000;type:heap;"); EXPECT_TRUE(result.get().Success()); EXPECT_EQ(MemoryRegionInfo::eNo, region_info.IsStackMemory()); } 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;"); if (XMLDocument::XMLEnabled()) { // In case we have XML support, this will also do a "qXfer:memory-map". // Preceeded by a query for supported extensions. Pretend we don't support // that. HandlePacket(server, testing::StartsWith("qSupported:"), ""); } EXPECT_FALSE(result.get().Success()); } TEST_F(GDBRemoteCommunicationClientTest, SendTraceSupportedPacket) { TraceSupportedResponse trace_type; std::string error_message; auto callback = [&] { std::chrono::seconds timeout(10); if (llvm::Expected trace_type_or_err = client.SendTraceSupported(timeout)) { trace_type = *trace_type_or_err; error_message = ""; return true; } else { trace_type = {}; error_message = llvm::toString(trace_type_or_err.takeError()); return false; } }; // Success response { std::future result = std::async(std::launch::async, callback); HandlePacket( server, "jLLDBTraceSupported", R"({"name":"intel-pt","description":"Intel Processor Trace"}])"); EXPECT_TRUE(result.get()); ASSERT_STREQ(trace_type.name.c_str(), "intel-pt"); ASSERT_STREQ(trace_type.description.c_str(), "Intel Processor Trace"); } // Error response - wrong json { std::future result = std::async(std::launch::async, callback); HandlePacket(server, "jLLDBTraceSupported", R"({"type":"intel-pt"}])"); EXPECT_FALSE(result.get()); ASSERT_STREQ(error_message.c_str(), "missing value at TraceSupportedResponse.description"); } // Error response { std::future result = std::async(std::launch::async, callback); HandlePacket(server, "jLLDBTraceSupported", "E23"); EXPECT_FALSE(result.get()); } // Error response with error message { std::future result = std::async(std::launch::async, callback); HandlePacket(server, "jLLDBTraceSupported", "E23;50726F63657373206E6F742072756E6E696E672E"); EXPECT_FALSE(result.get()); ASSERT_STREQ(error_message.c_str(), "Process not running."); } } TEST_F(GDBRemoteCommunicationClientTest, GetQOffsets) { const auto &GetQOffsets = [&](llvm::StringRef response) { std::future> result = std::async(std::launch::async, [&] { return client.GetQOffsets(); }); HandlePacket(server, "qOffsets", response); return result.get(); }; EXPECT_EQ((QOffsets{false, {0x1234, 0x1234}}), GetQOffsets("Text=1234;Data=1234")); EXPECT_EQ((QOffsets{false, {0x1234, 0x1234, 0x1234}}), GetQOffsets("Text=1234;Data=1234;Bss=1234")); EXPECT_EQ((QOffsets{true, {0x1234}}), GetQOffsets("TextSeg=1234")); EXPECT_EQ((QOffsets{true, {0x1234, 0x2345}}), GetQOffsets("TextSeg=1234;DataSeg=2345")); EXPECT_EQ(std::nullopt, GetQOffsets("E05")); EXPECT_EQ(std::nullopt, GetQOffsets("Text=bogus")); EXPECT_EQ(std::nullopt, GetQOffsets("Text=1234")); EXPECT_EQ(std::nullopt, GetQOffsets("Text=1234;Data=1234;")); EXPECT_EQ(std::nullopt, GetQOffsets("Text=1234;Data=1234;Bss=1234;")); EXPECT_EQ(std::nullopt, GetQOffsets("TEXTSEG=1234")); EXPECT_EQ(std::nullopt, GetQOffsets("TextSeg=0x1234")); EXPECT_EQ(std::nullopt, GetQOffsets("TextSeg=12345678123456789")); } static void check_qmemtags(TestClient &client, MockServer &server, size_t read_len, int32_t type, const char *packet, llvm::StringRef response, std::optional> expected_tag_data) { const auto &ReadMemoryTags = [&]() { std::future result = std::async(std::launch::async, [&] { return client.ReadMemoryTags(0xDEF0, read_len, type); }); HandlePacket(server, packet, response); return result.get(); }; auto result = ReadMemoryTags(); if (expected_tag_data) { ASSERT_TRUE(result); llvm::ArrayRef expected(*expected_tag_data); llvm::ArrayRef got = result->GetData(); ASSERT_THAT(expected, testing::ContainerEq(got)); } else { ASSERT_FALSE(result); } } TEST_F(GDBRemoteCommunicationClientTest, ReadMemoryTags) { // Zero length reads are valid check_qmemtags(client, server, 0, 1, "qMemTags:def0,0:1", "m", std::vector{}); // Type can be negative. Put into the packet as the raw bytes // (as opposed to a literal -1) check_qmemtags(client, server, 0, -1, "qMemTags:def0,0:ffffffff", "m", std::vector{}); check_qmemtags(client, server, 0, std::numeric_limits::min(), "qMemTags:def0,0:80000000", "m", std::vector{}); check_qmemtags(client, server, 0, std::numeric_limits::max(), "qMemTags:def0,0:7fffffff", "m", std::vector{}); // The client layer does not check the length of the received data. // All we need is the "m" and for the decode to use all of the chars check_qmemtags(client, server, 32, 2, "qMemTags:def0,20:2", "m09", std::vector{0x9}); // Zero length response is fine as long as the "m" is present check_qmemtags(client, server, 0, 0x34, "qMemTags:def0,0:34", "m", std::vector{}); // Normal responses check_qmemtags(client, server, 16, 1, "qMemTags:def0,10:1", "m66", std::vector{0x66}); check_qmemtags(client, server, 32, 1, "qMemTags:def0,20:1", "m0102", std::vector{0x1, 0x2}); // Empty response is an error check_qmemtags(client, server, 17, 1, "qMemTags:def0,11:1", "", std::nullopt); // Usual error response check_qmemtags(client, server, 17, 1, "qMemTags:def0,11:1", "E01", std::nullopt); // Leading m missing check_qmemtags(client, server, 17, 1, "qMemTags:def0,11:1", "01", std::nullopt); // Anything other than m is an error check_qmemtags(client, server, 17, 1, "qMemTags:def0,11:1", "z01", std::nullopt); // Decoding tag data doesn't use all the chars in the packet check_qmemtags(client, server, 32, 1, "qMemTags:def0,20:1", "m09zz", std::nullopt); // Data that is not hex bytes check_qmemtags(client, server, 32, 1, "qMemTags:def0,20:1", "mhello", std::nullopt); // Data is not a complete hex char check_qmemtags(client, server, 32, 1, "qMemTags:def0,20:1", "m9", std::nullopt); // Data has a trailing hex char check_qmemtags(client, server, 32, 1, "qMemTags:def0,20:1", "m01020", std::nullopt); } static void check_Qmemtags(TestClient &client, MockServer &server, lldb::addr_t addr, size_t len, int32_t type, const std::vector &tags, const char *packet, llvm::StringRef response, bool should_succeed) { const auto &WriteMemoryTags = [&]() { std::future result = std::async(std::launch::async, [&] { return client.WriteMemoryTags(addr, len, type, tags); }); HandlePacket(server, packet, response); return result.get(); }; auto result = WriteMemoryTags(); if (should_succeed) ASSERT_TRUE(result.Success()); else ASSERT_TRUE(result.Fail()); } TEST_F(GDBRemoteCommunicationClientTest, WriteMemoryTags) { check_Qmemtags(client, server, 0xABCD, 0x20, 1, std::vector{0x12, 0x34}, "QMemTags:abcd,20:1:1234", "OK", true); // The GDB layer doesn't care that the number of tags != // the length of the write. check_Qmemtags(client, server, 0x4321, 0x20, 9, std::vector{}, "QMemTags:4321,20:9:", "OK", true); check_Qmemtags(client, server, 0x8877, 0x123, 0x34, std::vector{0x55, 0x66, 0x77}, "QMemTags:8877,123:34:556677", "E01", false); // Type is a signed integer but is packed as its raw bytes, // instead of having a +/-. check_Qmemtags(client, server, 0x456789, 0, -1, std::vector{0x99}, "QMemTags:456789,0:ffffffff:99", "E03", false); check_Qmemtags(client, server, 0x456789, 0, std::numeric_limits::max(), std::vector{0x99}, "QMemTags:456789,0:7fffffff:99", "E03", false); check_Qmemtags(client, server, 0x456789, 0, std::numeric_limits::min(), std::vector{0x99}, "QMemTags:456789,0:80000000:99", "E03", false); } // Prior to this verison, constructing a std::future for a type without a // default constructor is not possible. // https://developercommunity.visualstudio.com/t/c-shared-state-futuresstate-default-constructs-the/60897 #if !defined(_MSC_VER) || _MSC_VER >= 1932 TEST_F(GDBRemoteCommunicationClientTest, CalculateMD5) { FileSpec file_spec("/foo/bar", FileSpec::Style::posix); std::future> async_result = std::async( std::launch::async, [&] { return client.CalculateMD5(file_spec); }); lldb_private::StreamString stream; stream.PutCString("vFile:MD5:"); stream.PutStringAsRawHex8(file_spec.GetPath(false)); HandlePacket(server, stream.GetString().str(), "F," "deadbeef01020304" "05060708deadbeef"); auto result = async_result.get(); // Server and client puts/parses low, and then high const uint64_t expected_low = 0xdeadbeef01020304; const uint64_t expected_high = 0x05060708deadbeef; ASSERT_TRUE(result); EXPECT_EQ(expected_low, result->low()); EXPECT_EQ(expected_high, result->high()); } #endif